# This file was automatically generated by SWIG (http://www.swig.org). # Version 1.3.40 # # Do not make changes to this file unless you know what you are doing--modify # the SWIG interface file instead. # This file is compatible with both classic and new-style classes. swig_version = (1, 3, 40) """ The lldb module contains the public APIs for Python binding. Some of the important classes are described here: o SBTarget: Represents the target program running under the debugger. o SBProcess: Represents the process associated with the target program. o SBThread: Represents a thread of execution. SBProcess contains SBThread(s). o SBFrame: Represents one of the stack frames associated with a thread. SBThread contains SBFrame(s). o SBSymbolContext: A container that stores various debugger related info. o SBValue: Represents the value of a variable, a register, or an expression. o SBModule: Represents an executable image and its associated object and symbol files. SBTarget contains SBModule(s). o SBBreakpoint: Represents a logical breakpoint and its associated settings. SBTarget contains SBBreakpoint(s). o SBSymbol: Represents the symbol possibly associated with a stack frame. o SBCompileUnit: Represents a compilation unit, or compiled source file. o SBFunction: Represents a generic function, which can be inlined or not. o SBBlock: Represents a lexical block. SBFunction contains SBBlock(s). o SBLineEntry: Specifies an association with a contiguous range of instructions and a source file location. SBCompileUnit contains SBLineEntry(s). """ from sys import version_info if version_info >= (2,6,0): def swig_import_helper(): from os.path import dirname import imp fp = None try: fp, pathname, description = imp.find_module('_lldb', [dirname(__file__)]) except ImportError: import _lldb return _lldb if fp is not None: try: _mod = imp.load_module('_lldb', fp, pathname, description) finally: fp.close() return _mod _lldb = swig_import_helper() del swig_import_helper else: import _lldb del version_info try: _swig_property = property except NameError: pass # Python < 2.2 doesn't have 'property'. def _swig_setattr_nondynamic(self,class_type,name,value,static=1): if (name == "thisown"): return self.this.own(value) if (name == "this"): if type(value).__name__ == 'SwigPyObject': self.__dict__[name] = value return method = class_type.__swig_setmethods__.get(name,None) if method: return method(self,value) if (not static) or hasattr(self,name): self.__dict__[name] = value else: raise AttributeError("You cannot add attributes to %s" % self) def _swig_setattr(self,class_type,name,value): return _swig_setattr_nondynamic(self,class_type,name,value,0) def _swig_getattr(self,class_type,name): if (name == "thisown"): return self.this.own() method = class_type.__swig_getmethods__.get(name,None) if method: return method(self) raise AttributeError(name) def _swig_repr(self): try: strthis = "proxy of " + self.this.__repr__() except: strthis = "" return "<%s.%s; %s >" % (self.__class__.__module__, self.__class__.__name__, strthis,) try: _object = object _newclass = 1 except AttributeError: class _object : pass _newclass = 0 import uuid import re import os import six INT32_MAX = _lldb.INT32_MAX UINT32_MAX = _lldb.UINT32_MAX UINT64_MAX = _lldb.UINT64_MAX LLDB_GENERIC_ERROR = _lldb.LLDB_GENERIC_ERROR LLDB_INVALID_BREAK_ID = _lldb.LLDB_INVALID_BREAK_ID LLDB_DEFAULT_BREAK_SIZE = _lldb.LLDB_DEFAULT_BREAK_SIZE LLDB_INVALID_WATCH_ID = _lldb.LLDB_INVALID_WATCH_ID LLDB_WATCH_TYPE_READ = _lldb.LLDB_WATCH_TYPE_READ LLDB_WATCH_TYPE_WRITE = _lldb.LLDB_WATCH_TYPE_WRITE LLDB_REGNUM_GENERIC_PC = _lldb.LLDB_REGNUM_GENERIC_PC LLDB_REGNUM_GENERIC_SP = _lldb.LLDB_REGNUM_GENERIC_SP LLDB_REGNUM_GENERIC_FP = _lldb.LLDB_REGNUM_GENERIC_FP LLDB_REGNUM_GENERIC_RA = _lldb.LLDB_REGNUM_GENERIC_RA LLDB_REGNUM_GENERIC_FLAGS = _lldb.LLDB_REGNUM_GENERIC_FLAGS LLDB_REGNUM_GENERIC_ARG1 = _lldb.LLDB_REGNUM_GENERIC_ARG1 LLDB_REGNUM_GENERIC_ARG2 = _lldb.LLDB_REGNUM_GENERIC_ARG2 LLDB_REGNUM_GENERIC_ARG3 = _lldb.LLDB_REGNUM_GENERIC_ARG3 LLDB_REGNUM_GENERIC_ARG4 = _lldb.LLDB_REGNUM_GENERIC_ARG4 LLDB_REGNUM_GENERIC_ARG5 = _lldb.LLDB_REGNUM_GENERIC_ARG5 LLDB_REGNUM_GENERIC_ARG6 = _lldb.LLDB_REGNUM_GENERIC_ARG6 LLDB_REGNUM_GENERIC_ARG7 = _lldb.LLDB_REGNUM_GENERIC_ARG7 LLDB_REGNUM_GENERIC_ARG8 = _lldb.LLDB_REGNUM_GENERIC_ARG8 LLDB_INVALID_ADDRESS = _lldb.LLDB_INVALID_ADDRESS LLDB_INVALID_INDEX32 = _lldb.LLDB_INVALID_INDEX32 LLDB_INVALID_IVAR_OFFSET = _lldb.LLDB_INVALID_IVAR_OFFSET LLDB_INVALID_IMAGE_TOKEN = _lldb.LLDB_INVALID_IMAGE_TOKEN LLDB_INVALID_MODULE_VERSION = _lldb.LLDB_INVALID_MODULE_VERSION LLDB_INVALID_REGNUM = _lldb.LLDB_INVALID_REGNUM LLDB_INVALID_UID = _lldb.LLDB_INVALID_UID LLDB_INVALID_PROCESS_ID = _lldb.LLDB_INVALID_PROCESS_ID LLDB_INVALID_THREAD_ID = _lldb.LLDB_INVALID_THREAD_ID LLDB_INVALID_FRAME_ID = _lldb.LLDB_INVALID_FRAME_ID LLDB_INVALID_SIGNAL_NUMBER = _lldb.LLDB_INVALID_SIGNAL_NUMBER LLDB_INVALID_OFFSET = _lldb.LLDB_INVALID_OFFSET LLDB_INVALID_LINE_NUMBER = _lldb.LLDB_INVALID_LINE_NUMBER LLDB_INVALID_QUEUE_ID = _lldb.LLDB_INVALID_QUEUE_ID LLDB_ARCH_DEFAULT = _lldb.LLDB_ARCH_DEFAULT LLDB_ARCH_DEFAULT_32BIT = _lldb.LLDB_ARCH_DEFAULT_32BIT LLDB_ARCH_DEFAULT_64BIT = _lldb.LLDB_ARCH_DEFAULT_64BIT LLDB_INVALID_CPUTYPE = _lldb.LLDB_INVALID_CPUTYPE LLDB_MAX_NUM_OPTION_SETS = _lldb.LLDB_MAX_NUM_OPTION_SETS LLDB_OPT_SET_ALL = _lldb.LLDB_OPT_SET_ALL LLDB_OPT_SET_1 = _lldb.LLDB_OPT_SET_1 LLDB_OPT_SET_2 = _lldb.LLDB_OPT_SET_2 LLDB_OPT_SET_3 = _lldb.LLDB_OPT_SET_3 LLDB_OPT_SET_4 = _lldb.LLDB_OPT_SET_4 LLDB_OPT_SET_5 = _lldb.LLDB_OPT_SET_5 LLDB_OPT_SET_6 = _lldb.LLDB_OPT_SET_6 LLDB_OPT_SET_7 = _lldb.LLDB_OPT_SET_7 LLDB_OPT_SET_8 = _lldb.LLDB_OPT_SET_8 LLDB_OPT_SET_9 = _lldb.LLDB_OPT_SET_9 LLDB_OPT_SET_10 = _lldb.LLDB_OPT_SET_10 eStateInvalid = _lldb.eStateInvalid eStateUnloaded = _lldb.eStateUnloaded eStateConnected = _lldb.eStateConnected eStateAttaching = _lldb.eStateAttaching eStateLaunching = _lldb.eStateLaunching eStateStopped = _lldb.eStateStopped eStateRunning = _lldb.eStateRunning eStateStepping = _lldb.eStateStepping eStateCrashed = _lldb.eStateCrashed eStateDetached = _lldb.eStateDetached eStateExited = _lldb.eStateExited eStateSuspended = _lldb.eStateSuspended eLaunchFlagNone = _lldb.eLaunchFlagNone eLaunchFlagExec = _lldb.eLaunchFlagExec eLaunchFlagDebug = _lldb.eLaunchFlagDebug eLaunchFlagStopAtEntry = _lldb.eLaunchFlagStopAtEntry eLaunchFlagDisableASLR = _lldb.eLaunchFlagDisableASLR eLaunchFlagDisableSTDIO = _lldb.eLaunchFlagDisableSTDIO eLaunchFlagLaunchInTTY = _lldb.eLaunchFlagLaunchInTTY eLaunchFlagLaunchInShell = _lldb.eLaunchFlagLaunchInShell eLaunchFlagLaunchInSeparateProcessGroup = _lldb.eLaunchFlagLaunchInSeparateProcessGroup eLaunchFlagDontSetExitStatus = _lldb.eLaunchFlagDontSetExitStatus eLaunchFlagDetachOnError = _lldb.eLaunchFlagDetachOnError eLaunchFlagShellExpandArguments = _lldb.eLaunchFlagShellExpandArguments eLaunchFlagCloseTTYOnExit = _lldb.eLaunchFlagCloseTTYOnExit eOnlyThisThread = _lldb.eOnlyThisThread eAllThreads = _lldb.eAllThreads eOnlyDuringStepping = _lldb.eOnlyDuringStepping eByteOrderInvalid = _lldb.eByteOrderInvalid eByteOrderBig = _lldb.eByteOrderBig eByteOrderPDP = _lldb.eByteOrderPDP eByteOrderLittle = _lldb.eByteOrderLittle eEncodingInvalid = _lldb.eEncodingInvalid eEncodingUint = _lldb.eEncodingUint eEncodingSint = _lldb.eEncodingSint eEncodingIEEE754 = _lldb.eEncodingIEEE754 eEncodingVector = _lldb.eEncodingVector eFormatDefault = _lldb.eFormatDefault eFormatInvalid = _lldb.eFormatInvalid eFormatBoolean = _lldb.eFormatBoolean eFormatBinary = _lldb.eFormatBinary eFormatBytes = _lldb.eFormatBytes eFormatBytesWithASCII = _lldb.eFormatBytesWithASCII eFormatChar = _lldb.eFormatChar eFormatCharPrintable = _lldb.eFormatCharPrintable eFormatComplex = _lldb.eFormatComplex eFormatComplexFloat = _lldb.eFormatComplexFloat eFormatCString = _lldb.eFormatCString eFormatDecimal = _lldb.eFormatDecimal eFormatEnum = _lldb.eFormatEnum eFormatHex = _lldb.eFormatHex eFormatHexUppercase = _lldb.eFormatHexUppercase eFormatFloat = _lldb.eFormatFloat eFormatOctal = _lldb.eFormatOctal eFormatOSType = _lldb.eFormatOSType eFormatUnicode16 = _lldb.eFormatUnicode16 eFormatUnicode32 = _lldb.eFormatUnicode32 eFormatUnsigned = _lldb.eFormatUnsigned eFormatPointer = _lldb.eFormatPointer eFormatVectorOfChar = _lldb.eFormatVectorOfChar eFormatVectorOfSInt8 = _lldb.eFormatVectorOfSInt8 eFormatVectorOfUInt8 = _lldb.eFormatVectorOfUInt8 eFormatVectorOfSInt16 = _lldb.eFormatVectorOfSInt16 eFormatVectorOfUInt16 = _lldb.eFormatVectorOfUInt16 eFormatVectorOfSInt32 = _lldb.eFormatVectorOfSInt32 eFormatVectorOfUInt32 = _lldb.eFormatVectorOfUInt32 eFormatVectorOfSInt64 = _lldb.eFormatVectorOfSInt64 eFormatVectorOfUInt64 = _lldb.eFormatVectorOfUInt64 eFormatVectorOfFloat16 = _lldb.eFormatVectorOfFloat16 eFormatVectorOfFloat32 = _lldb.eFormatVectorOfFloat32 eFormatVectorOfFloat64 = _lldb.eFormatVectorOfFloat64 eFormatVectorOfUInt128 = _lldb.eFormatVectorOfUInt128 eFormatComplexInteger = _lldb.eFormatComplexInteger eFormatCharArray = _lldb.eFormatCharArray eFormatAddressInfo = _lldb.eFormatAddressInfo eFormatHexFloat = _lldb.eFormatHexFloat eFormatInstruction = _lldb.eFormatInstruction eFormatVoid = _lldb.eFormatVoid kNumFormats = _lldb.kNumFormats eDescriptionLevelBrief = _lldb.eDescriptionLevelBrief eDescriptionLevelFull = _lldb.eDescriptionLevelFull eDescriptionLevelVerbose = _lldb.eDescriptionLevelVerbose eDescriptionLevelInitial = _lldb.eDescriptionLevelInitial kNumDescriptionLevels = _lldb.kNumDescriptionLevels eScriptLanguageNone = _lldb.eScriptLanguageNone eScriptLanguagePython = _lldb.eScriptLanguagePython eScriptLanguageDefault = _lldb.eScriptLanguageDefault eRegisterKindEHFrame = _lldb.eRegisterKindEHFrame eRegisterKindDWARF = _lldb.eRegisterKindDWARF eRegisterKindGeneric = _lldb.eRegisterKindGeneric eRegisterKindProcessPlugin = _lldb.eRegisterKindProcessPlugin eRegisterKindLLDB = _lldb.eRegisterKindLLDB kNumRegisterKinds = _lldb.kNumRegisterKinds eStopReasonInvalid = _lldb.eStopReasonInvalid eStopReasonNone = _lldb.eStopReasonNone eStopReasonTrace = _lldb.eStopReasonTrace eStopReasonBreakpoint = _lldb.eStopReasonBreakpoint eStopReasonWatchpoint = _lldb.eStopReasonWatchpoint eStopReasonSignal = _lldb.eStopReasonSignal eStopReasonException = _lldb.eStopReasonException eStopReasonExec = _lldb.eStopReasonExec eStopReasonPlanComplete = _lldb.eStopReasonPlanComplete eStopReasonThreadExiting = _lldb.eStopReasonThreadExiting eStopReasonInstrumentation = _lldb.eStopReasonInstrumentation eReturnStatusInvalid = _lldb.eReturnStatusInvalid eReturnStatusSuccessFinishNoResult = _lldb.eReturnStatusSuccessFinishNoResult eReturnStatusSuccessFinishResult = _lldb.eReturnStatusSuccessFinishResult eReturnStatusSuccessContinuingNoResult = _lldb.eReturnStatusSuccessContinuingNoResult eReturnStatusSuccessContinuingResult = _lldb.eReturnStatusSuccessContinuingResult eReturnStatusStarted = _lldb.eReturnStatusStarted eReturnStatusFailed = _lldb.eReturnStatusFailed eReturnStatusQuit = _lldb.eReturnStatusQuit eExpressionCompleted = _lldb.eExpressionCompleted eExpressionSetupError = _lldb.eExpressionSetupError eExpressionParseError = _lldb.eExpressionParseError eExpressionDiscarded = _lldb.eExpressionDiscarded eExpressionInterrupted = _lldb.eExpressionInterrupted eExpressionHitBreakpoint = _lldb.eExpressionHitBreakpoint eExpressionTimedOut = _lldb.eExpressionTimedOut eExpressionResultUnavailable = _lldb.eExpressionResultUnavailable eExpressionStoppedForDebug = _lldb.eExpressionStoppedForDebug eConnectionStatusSuccess = _lldb.eConnectionStatusSuccess eConnectionStatusEndOfFile = _lldb.eConnectionStatusEndOfFile eConnectionStatusError = _lldb.eConnectionStatusError eConnectionStatusTimedOut = _lldb.eConnectionStatusTimedOut eConnectionStatusNoConnection = _lldb.eConnectionStatusNoConnection eConnectionStatusLostConnection = _lldb.eConnectionStatusLostConnection eConnectionStatusInterrupted = _lldb.eConnectionStatusInterrupted eErrorTypeInvalid = _lldb.eErrorTypeInvalid eErrorTypeGeneric = _lldb.eErrorTypeGeneric eErrorTypeMachKernel = _lldb.eErrorTypeMachKernel eErrorTypePOSIX = _lldb.eErrorTypePOSIX eErrorTypeExpression = _lldb.eErrorTypeExpression eErrorTypeWin32 = _lldb.eErrorTypeWin32 eValueTypeInvalid = _lldb.eValueTypeInvalid eValueTypeVariableGlobal = _lldb.eValueTypeVariableGlobal eValueTypeVariableStatic = _lldb.eValueTypeVariableStatic eValueTypeVariableArgument = _lldb.eValueTypeVariableArgument eValueTypeVariableLocal = _lldb.eValueTypeVariableLocal eValueTypeRegister = _lldb.eValueTypeRegister eValueTypeRegisterSet = _lldb.eValueTypeRegisterSet eValueTypeConstResult = _lldb.eValueTypeConstResult eInputReaderGranularityInvalid = _lldb.eInputReaderGranularityInvalid eInputReaderGranularityByte = _lldb.eInputReaderGranularityByte eInputReaderGranularityWord = _lldb.eInputReaderGranularityWord eInputReaderGranularityLine = _lldb.eInputReaderGranularityLine eInputReaderGranularityAll = _lldb.eInputReaderGranularityAll eSymbolContextTarget = _lldb.eSymbolContextTarget eSymbolContextModule = _lldb.eSymbolContextModule eSymbolContextCompUnit = _lldb.eSymbolContextCompUnit eSymbolContextFunction = _lldb.eSymbolContextFunction eSymbolContextBlock = _lldb.eSymbolContextBlock eSymbolContextLineEntry = _lldb.eSymbolContextLineEntry eSymbolContextSymbol = _lldb.eSymbolContextSymbol eSymbolContextEverything = _lldb.eSymbolContextEverything eSymbolContextVariable = _lldb.eSymbolContextVariable ePermissionsWritable = _lldb.ePermissionsWritable ePermissionsReadable = _lldb.ePermissionsReadable ePermissionsExecutable = _lldb.ePermissionsExecutable eInputReaderActivate = _lldb.eInputReaderActivate eInputReaderAsynchronousOutputWritten = _lldb.eInputReaderAsynchronousOutputWritten eInputReaderReactivate = _lldb.eInputReaderReactivate eInputReaderDeactivate = _lldb.eInputReaderDeactivate eInputReaderGotToken = _lldb.eInputReaderGotToken eInputReaderInterrupt = _lldb.eInputReaderInterrupt eInputReaderEndOfFile = _lldb.eInputReaderEndOfFile eInputReaderDone = _lldb.eInputReaderDone eBreakpointEventTypeInvalidType = _lldb.eBreakpointEventTypeInvalidType eBreakpointEventTypeAdded = _lldb.eBreakpointEventTypeAdded eBreakpointEventTypeRemoved = _lldb.eBreakpointEventTypeRemoved eBreakpointEventTypeLocationsAdded = _lldb.eBreakpointEventTypeLocationsAdded eBreakpointEventTypeLocationsRemoved = _lldb.eBreakpointEventTypeLocationsRemoved eBreakpointEventTypeLocationsResolved = _lldb.eBreakpointEventTypeLocationsResolved eBreakpointEventTypeEnabled = _lldb.eBreakpointEventTypeEnabled eBreakpointEventTypeDisabled = _lldb.eBreakpointEventTypeDisabled eBreakpointEventTypeCommandChanged = _lldb.eBreakpointEventTypeCommandChanged eBreakpointEventTypeConditionChanged = _lldb.eBreakpointEventTypeConditionChanged eBreakpointEventTypeIgnoreChanged = _lldb.eBreakpointEventTypeIgnoreChanged eBreakpointEventTypeThreadChanged = _lldb.eBreakpointEventTypeThreadChanged eWatchpointEventTypeInvalidType = _lldb.eWatchpointEventTypeInvalidType eWatchpointEventTypeAdded = _lldb.eWatchpointEventTypeAdded eWatchpointEventTypeRemoved = _lldb.eWatchpointEventTypeRemoved eWatchpointEventTypeEnabled = _lldb.eWatchpointEventTypeEnabled eWatchpointEventTypeDisabled = _lldb.eWatchpointEventTypeDisabled eWatchpointEventTypeCommandChanged = _lldb.eWatchpointEventTypeCommandChanged eWatchpointEventTypeConditionChanged = _lldb.eWatchpointEventTypeConditionChanged eWatchpointEventTypeIgnoreChanged = _lldb.eWatchpointEventTypeIgnoreChanged eWatchpointEventTypeThreadChanged = _lldb.eWatchpointEventTypeThreadChanged eWatchpointEventTypeTypeChanged = _lldb.eWatchpointEventTypeTypeChanged eLanguageTypeUnknown = _lldb.eLanguageTypeUnknown eLanguageTypeC89 = _lldb.eLanguageTypeC89 eLanguageTypeC = _lldb.eLanguageTypeC eLanguageTypeAda83 = _lldb.eLanguageTypeAda83 eLanguageTypeC_plus_plus = _lldb.eLanguageTypeC_plus_plus eLanguageTypeCobol74 = _lldb.eLanguageTypeCobol74 eLanguageTypeCobol85 = _lldb.eLanguageTypeCobol85 eLanguageTypeFortran77 = _lldb.eLanguageTypeFortran77 eLanguageTypeFortran90 = _lldb.eLanguageTypeFortran90 eLanguageTypePascal83 = _lldb.eLanguageTypePascal83 eLanguageTypeModula2 = _lldb.eLanguageTypeModula2 eLanguageTypeJava = _lldb.eLanguageTypeJava eLanguageTypeC99 = _lldb.eLanguageTypeC99 eLanguageTypeAda95 = _lldb.eLanguageTypeAda95 eLanguageTypeFortran95 = _lldb.eLanguageTypeFortran95 eLanguageTypePLI = _lldb.eLanguageTypePLI eLanguageTypeObjC = _lldb.eLanguageTypeObjC eLanguageTypeObjC_plus_plus = _lldb.eLanguageTypeObjC_plus_plus eLanguageTypeUPC = _lldb.eLanguageTypeUPC eLanguageTypeD = _lldb.eLanguageTypeD eLanguageTypePython = _lldb.eLanguageTypePython eLanguageTypeOpenCL = _lldb.eLanguageTypeOpenCL eLanguageTypeGo = _lldb.eLanguageTypeGo eLanguageTypeModula3 = _lldb.eLanguageTypeModula3 eLanguageTypeHaskell = _lldb.eLanguageTypeHaskell eLanguageTypeC_plus_plus_03 = _lldb.eLanguageTypeC_plus_plus_03 eLanguageTypeC_plus_plus_11 = _lldb.eLanguageTypeC_plus_plus_11 eLanguageTypeOCaml = _lldb.eLanguageTypeOCaml eLanguageTypeRust = _lldb.eLanguageTypeRust eLanguageTypeC11 = _lldb.eLanguageTypeC11 eLanguageTypeSwift = _lldb.eLanguageTypeSwift eLanguageTypeJulia = _lldb.eLanguageTypeJulia eLanguageTypeDylan = _lldb.eLanguageTypeDylan eLanguageTypeC_plus_plus_14 = _lldb.eLanguageTypeC_plus_plus_14 eLanguageTypeFortran03 = _lldb.eLanguageTypeFortran03 eLanguageTypeFortran08 = _lldb.eLanguageTypeFortran08 eLanguageTypeMipsAssembler = _lldb.eLanguageTypeMipsAssembler eLanguageTypeExtRenderScript = _lldb.eLanguageTypeExtRenderScript eNumLanguageTypes = _lldb.eNumLanguageTypes eInstrumentationRuntimeTypeAddressSanitizer = _lldb.eInstrumentationRuntimeTypeAddressSanitizer eNumInstrumentationRuntimeTypes = _lldb.eNumInstrumentationRuntimeTypes eNoDynamicValues = _lldb.eNoDynamicValues eDynamicCanRunTarget = _lldb.eDynamicCanRunTarget eDynamicDontRunTarget = _lldb.eDynamicDontRunTarget eAccessNone = _lldb.eAccessNone eAccessPublic = _lldb.eAccessPublic eAccessPrivate = _lldb.eAccessPrivate eAccessProtected = _lldb.eAccessProtected eAccessPackage = _lldb.eAccessPackage eArgTypeAddress = _lldb.eArgTypeAddress eArgTypeAddressOrExpression = _lldb.eArgTypeAddressOrExpression eArgTypeAliasName = _lldb.eArgTypeAliasName eArgTypeAliasOptions = _lldb.eArgTypeAliasOptions eArgTypeArchitecture = _lldb.eArgTypeArchitecture eArgTypeBoolean = _lldb.eArgTypeBoolean eArgTypeBreakpointID = _lldb.eArgTypeBreakpointID eArgTypeBreakpointIDRange = _lldb.eArgTypeBreakpointIDRange eArgTypeBreakpointName = _lldb.eArgTypeBreakpointName eArgTypeByteSize = _lldb.eArgTypeByteSize eArgTypeClassName = _lldb.eArgTypeClassName eArgTypeCommandName = _lldb.eArgTypeCommandName eArgTypeCount = _lldb.eArgTypeCount eArgTypeDescriptionVerbosity = _lldb.eArgTypeDescriptionVerbosity eArgTypeDirectoryName = _lldb.eArgTypeDirectoryName eArgTypeDisassemblyFlavor = _lldb.eArgTypeDisassemblyFlavor eArgTypeEndAddress = _lldb.eArgTypeEndAddress eArgTypeExpression = _lldb.eArgTypeExpression eArgTypeExpressionPath = _lldb.eArgTypeExpressionPath eArgTypeExprFormat = _lldb.eArgTypeExprFormat eArgTypeFilename = _lldb.eArgTypeFilename eArgTypeFormat = _lldb.eArgTypeFormat eArgTypeFrameIndex = _lldb.eArgTypeFrameIndex eArgTypeFullName = _lldb.eArgTypeFullName eArgTypeFunctionName = _lldb.eArgTypeFunctionName eArgTypeFunctionOrSymbol = _lldb.eArgTypeFunctionOrSymbol eArgTypeGDBFormat = _lldb.eArgTypeGDBFormat eArgTypeHelpText = _lldb.eArgTypeHelpText eArgTypeIndex = _lldb.eArgTypeIndex eArgTypeLanguage = _lldb.eArgTypeLanguage eArgTypeLineNum = _lldb.eArgTypeLineNum eArgTypeLogCategory = _lldb.eArgTypeLogCategory eArgTypeLogChannel = _lldb.eArgTypeLogChannel eArgTypeMethod = _lldb.eArgTypeMethod eArgTypeName = _lldb.eArgTypeName eArgTypeNewPathPrefix = _lldb.eArgTypeNewPathPrefix eArgTypeNumLines = _lldb.eArgTypeNumLines eArgTypeNumberPerLine = _lldb.eArgTypeNumberPerLine eArgTypeOffset = _lldb.eArgTypeOffset eArgTypeOldPathPrefix = _lldb.eArgTypeOldPathPrefix eArgTypeOneLiner = _lldb.eArgTypeOneLiner eArgTypePath = _lldb.eArgTypePath eArgTypePermissionsNumber = _lldb.eArgTypePermissionsNumber eArgTypePermissionsString = _lldb.eArgTypePermissionsString eArgTypePid = _lldb.eArgTypePid eArgTypePlugin = _lldb.eArgTypePlugin eArgTypeProcessName = _lldb.eArgTypeProcessName eArgTypePythonClass = _lldb.eArgTypePythonClass eArgTypePythonFunction = _lldb.eArgTypePythonFunction eArgTypePythonScript = _lldb.eArgTypePythonScript eArgTypeQueueName = _lldb.eArgTypeQueueName eArgTypeRegisterName = _lldb.eArgTypeRegisterName eArgTypeRegularExpression = _lldb.eArgTypeRegularExpression eArgTypeRunArgs = _lldb.eArgTypeRunArgs eArgTypeRunMode = _lldb.eArgTypeRunMode eArgTypeScriptedCommandSynchronicity = _lldb.eArgTypeScriptedCommandSynchronicity eArgTypeScriptLang = _lldb.eArgTypeScriptLang eArgTypeSearchWord = _lldb.eArgTypeSearchWord eArgTypeSelector = _lldb.eArgTypeSelector eArgTypeSettingIndex = _lldb.eArgTypeSettingIndex eArgTypeSettingKey = _lldb.eArgTypeSettingKey eArgTypeSettingPrefix = _lldb.eArgTypeSettingPrefix eArgTypeSettingVariableName = _lldb.eArgTypeSettingVariableName eArgTypeShlibName = _lldb.eArgTypeShlibName eArgTypeSourceFile = _lldb.eArgTypeSourceFile eArgTypeSortOrder = _lldb.eArgTypeSortOrder eArgTypeStartAddress = _lldb.eArgTypeStartAddress eArgTypeSummaryString = _lldb.eArgTypeSummaryString eArgTypeSymbol = _lldb.eArgTypeSymbol eArgTypeThreadID = _lldb.eArgTypeThreadID eArgTypeThreadIndex = _lldb.eArgTypeThreadIndex eArgTypeThreadName = _lldb.eArgTypeThreadName eArgTypeTypeName = _lldb.eArgTypeTypeName eArgTypeUnsignedInteger = _lldb.eArgTypeUnsignedInteger eArgTypeUnixSignal = _lldb.eArgTypeUnixSignal eArgTypeVarName = _lldb.eArgTypeVarName eArgTypeValue = _lldb.eArgTypeValue eArgTypeWidth = _lldb.eArgTypeWidth eArgTypeNone = _lldb.eArgTypeNone eArgTypePlatform = _lldb.eArgTypePlatform eArgTypeWatchpointID = _lldb.eArgTypeWatchpointID eArgTypeWatchpointIDRange = _lldb.eArgTypeWatchpointIDRange eArgTypeWatchType = _lldb.eArgTypeWatchType eArgTypeLastArg = _lldb.eArgTypeLastArg eSymbolTypeAny = _lldb.eSymbolTypeAny eSymbolTypeInvalid = _lldb.eSymbolTypeInvalid eSymbolTypeAbsolute = _lldb.eSymbolTypeAbsolute eSymbolTypeCode = _lldb.eSymbolTypeCode eSymbolTypeResolver = _lldb.eSymbolTypeResolver eSymbolTypeData = _lldb.eSymbolTypeData eSymbolTypeTrampoline = _lldb.eSymbolTypeTrampoline eSymbolTypeRuntime = _lldb.eSymbolTypeRuntime eSymbolTypeException = _lldb.eSymbolTypeException eSymbolTypeSourceFile = _lldb.eSymbolTypeSourceFile eSymbolTypeHeaderFile = _lldb.eSymbolTypeHeaderFile eSymbolTypeObjectFile = _lldb.eSymbolTypeObjectFile eSymbolTypeCommonBlock = _lldb.eSymbolTypeCommonBlock eSymbolTypeBlock = _lldb.eSymbolTypeBlock eSymbolTypeLocal = _lldb.eSymbolTypeLocal eSymbolTypeParam = _lldb.eSymbolTypeParam eSymbolTypeVariable = _lldb.eSymbolTypeVariable eSymbolTypeVariableType = _lldb.eSymbolTypeVariableType eSymbolTypeLineEntry = _lldb.eSymbolTypeLineEntry eSymbolTypeLineHeader = _lldb.eSymbolTypeLineHeader eSymbolTypeScopeBegin = _lldb.eSymbolTypeScopeBegin eSymbolTypeScopeEnd = _lldb.eSymbolTypeScopeEnd eSymbolTypeAdditional = _lldb.eSymbolTypeAdditional eSymbolTypeCompiler = _lldb.eSymbolTypeCompiler eSymbolTypeInstrumentation = _lldb.eSymbolTypeInstrumentation eSymbolTypeUndefined = _lldb.eSymbolTypeUndefined eSymbolTypeObjCClass = _lldb.eSymbolTypeObjCClass eSymbolTypeObjCMetaClass = _lldb.eSymbolTypeObjCMetaClass eSymbolTypeObjCIVar = _lldb.eSymbolTypeObjCIVar eSymbolTypeReExported = _lldb.eSymbolTypeReExported eSectionTypeInvalid = _lldb.eSectionTypeInvalid eSectionTypeCode = _lldb.eSectionTypeCode eSectionTypeContainer = _lldb.eSectionTypeContainer eSectionTypeData = _lldb.eSectionTypeData eSectionTypeDataCString = _lldb.eSectionTypeDataCString eSectionTypeDataCStringPointers = _lldb.eSectionTypeDataCStringPointers eSectionTypeDataSymbolAddress = _lldb.eSectionTypeDataSymbolAddress eSectionTypeData4 = _lldb.eSectionTypeData4 eSectionTypeData8 = _lldb.eSectionTypeData8 eSectionTypeData16 = _lldb.eSectionTypeData16 eSectionTypeDataPointers = _lldb.eSectionTypeDataPointers eSectionTypeDebug = _lldb.eSectionTypeDebug eSectionTypeZeroFill = _lldb.eSectionTypeZeroFill eSectionTypeDataObjCMessageRefs = _lldb.eSectionTypeDataObjCMessageRefs eSectionTypeDataObjCCFStrings = _lldb.eSectionTypeDataObjCCFStrings eSectionTypeDWARFDebugAbbrev = _lldb.eSectionTypeDWARFDebugAbbrev eSectionTypeDWARFDebugAddr = _lldb.eSectionTypeDWARFDebugAddr eSectionTypeDWARFDebugAranges = _lldb.eSectionTypeDWARFDebugAranges eSectionTypeDWARFDebugFrame = _lldb.eSectionTypeDWARFDebugFrame eSectionTypeDWARFDebugInfo = _lldb.eSectionTypeDWARFDebugInfo eSectionTypeDWARFDebugLine = _lldb.eSectionTypeDWARFDebugLine eSectionTypeDWARFDebugLoc = _lldb.eSectionTypeDWARFDebugLoc eSectionTypeDWARFDebugMacInfo = _lldb.eSectionTypeDWARFDebugMacInfo eSectionTypeDWARFDebugPubNames = _lldb.eSectionTypeDWARFDebugPubNames eSectionTypeDWARFDebugPubTypes = _lldb.eSectionTypeDWARFDebugPubTypes eSectionTypeDWARFDebugRanges = _lldb.eSectionTypeDWARFDebugRanges eSectionTypeDWARFDebugStr = _lldb.eSectionTypeDWARFDebugStr eSectionTypeDWARFDebugStrOffsets = _lldb.eSectionTypeDWARFDebugStrOffsets eSectionTypeDWARFAppleNames = _lldb.eSectionTypeDWARFAppleNames eSectionTypeDWARFAppleTypes = _lldb.eSectionTypeDWARFAppleTypes eSectionTypeDWARFAppleNamespaces = _lldb.eSectionTypeDWARFAppleNamespaces eSectionTypeDWARFAppleObjC = _lldb.eSectionTypeDWARFAppleObjC eSectionTypeELFSymbolTable = _lldb.eSectionTypeELFSymbolTable eSectionTypeELFDynamicSymbols = _lldb.eSectionTypeELFDynamicSymbols eSectionTypeELFRelocationEntries = _lldb.eSectionTypeELFRelocationEntries eSectionTypeELFDynamicLinkInfo = _lldb.eSectionTypeELFDynamicLinkInfo eSectionTypeEHFrame = _lldb.eSectionTypeEHFrame eSectionTypeARMexidx = _lldb.eSectionTypeARMexidx eSectionTypeARMextab = _lldb.eSectionTypeARMextab eSectionTypeCompactUnwind = _lldb.eSectionTypeCompactUnwind eSectionTypeGoSymtab = _lldb.eSectionTypeGoSymtab eSectionTypeOther = _lldb.eSectionTypeOther eEmulateInstructionOptionNone = _lldb.eEmulateInstructionOptionNone eEmulateInstructionOptionAutoAdvancePC = _lldb.eEmulateInstructionOptionAutoAdvancePC eEmulateInstructionOptionIgnoreConditions = _lldb.eEmulateInstructionOptionIgnoreConditions eFunctionNameTypeNone = _lldb.eFunctionNameTypeNone eFunctionNameTypeAuto = _lldb.eFunctionNameTypeAuto eFunctionNameTypeFull = _lldb.eFunctionNameTypeFull eFunctionNameTypeBase = _lldb.eFunctionNameTypeBase eFunctionNameTypeMethod = _lldb.eFunctionNameTypeMethod eFunctionNameTypeSelector = _lldb.eFunctionNameTypeSelector eFunctionNameTypeAny = _lldb.eFunctionNameTypeAny eBasicTypeInvalid = _lldb.eBasicTypeInvalid eBasicTypeVoid = _lldb.eBasicTypeVoid eBasicTypeChar = _lldb.eBasicTypeChar eBasicTypeSignedChar = _lldb.eBasicTypeSignedChar eBasicTypeUnsignedChar = _lldb.eBasicTypeUnsignedChar eBasicTypeWChar = _lldb.eBasicTypeWChar eBasicTypeSignedWChar = _lldb.eBasicTypeSignedWChar eBasicTypeUnsignedWChar = _lldb.eBasicTypeUnsignedWChar eBasicTypeChar16 = _lldb.eBasicTypeChar16 eBasicTypeChar32 = _lldb.eBasicTypeChar32 eBasicTypeShort = _lldb.eBasicTypeShort eBasicTypeUnsignedShort = _lldb.eBasicTypeUnsignedShort eBasicTypeInt = _lldb.eBasicTypeInt eBasicTypeUnsignedInt = _lldb.eBasicTypeUnsignedInt eBasicTypeLong = _lldb.eBasicTypeLong eBasicTypeUnsignedLong = _lldb.eBasicTypeUnsignedLong eBasicTypeLongLong = _lldb.eBasicTypeLongLong eBasicTypeUnsignedLongLong = _lldb.eBasicTypeUnsignedLongLong eBasicTypeInt128 = _lldb.eBasicTypeInt128 eBasicTypeUnsignedInt128 = _lldb.eBasicTypeUnsignedInt128 eBasicTypeBool = _lldb.eBasicTypeBool eBasicTypeHalf = _lldb.eBasicTypeHalf eBasicTypeFloat = _lldb.eBasicTypeFloat eBasicTypeDouble = _lldb.eBasicTypeDouble eBasicTypeLongDouble = _lldb.eBasicTypeLongDouble eBasicTypeFloatComplex = _lldb.eBasicTypeFloatComplex eBasicTypeDoubleComplex = _lldb.eBasicTypeDoubleComplex eBasicTypeLongDoubleComplex = _lldb.eBasicTypeLongDoubleComplex eBasicTypeObjCID = _lldb.eBasicTypeObjCID eBasicTypeObjCClass = _lldb.eBasicTypeObjCClass eBasicTypeObjCSel = _lldb.eBasicTypeObjCSel eBasicTypeNullPtr = _lldb.eBasicTypeNullPtr eBasicTypeOther = _lldb.eBasicTypeOther eTypeClassInvalid = _lldb.eTypeClassInvalid eTypeClassArray = _lldb.eTypeClassArray eTypeClassBlockPointer = _lldb.eTypeClassBlockPointer eTypeClassBuiltin = _lldb.eTypeClassBuiltin eTypeClassClass = _lldb.eTypeClassClass eTypeClassComplexFloat = _lldb.eTypeClassComplexFloat eTypeClassComplexInteger = _lldb.eTypeClassComplexInteger eTypeClassEnumeration = _lldb.eTypeClassEnumeration eTypeClassFunction = _lldb.eTypeClassFunction eTypeClassMemberPointer = _lldb.eTypeClassMemberPointer eTypeClassObjCObject = _lldb.eTypeClassObjCObject eTypeClassObjCInterface = _lldb.eTypeClassObjCInterface eTypeClassObjCObjectPointer = _lldb.eTypeClassObjCObjectPointer eTypeClassPointer = _lldb.eTypeClassPointer eTypeClassReference = _lldb.eTypeClassReference eTypeClassStruct = _lldb.eTypeClassStruct eTypeClassTypedef = _lldb.eTypeClassTypedef eTypeClassUnion = _lldb.eTypeClassUnion eTypeClassVector = _lldb.eTypeClassVector eTypeClassOther = _lldb.eTypeClassOther eTypeClassAny = _lldb.eTypeClassAny eTemplateArgumentKindNull = _lldb.eTemplateArgumentKindNull eTemplateArgumentKindType = _lldb.eTemplateArgumentKindType eTemplateArgumentKindDeclaration = _lldb.eTemplateArgumentKindDeclaration eTemplateArgumentKindIntegral = _lldb.eTemplateArgumentKindIntegral eTemplateArgumentKindTemplate = _lldb.eTemplateArgumentKindTemplate eTemplateArgumentKindTemplateExpansion = _lldb.eTemplateArgumentKindTemplateExpansion eTemplateArgumentKindExpression = _lldb.eTemplateArgumentKindExpression eTemplateArgumentKindPack = _lldb.eTemplateArgumentKindPack eTypeOptionNone = _lldb.eTypeOptionNone eTypeOptionCascade = _lldb.eTypeOptionCascade eTypeOptionSkipPointers = _lldb.eTypeOptionSkipPointers eTypeOptionSkipReferences = _lldb.eTypeOptionSkipReferences eTypeOptionHideChildren = _lldb.eTypeOptionHideChildren eTypeOptionHideValue = _lldb.eTypeOptionHideValue eTypeOptionShowOneLiner = _lldb.eTypeOptionShowOneLiner eTypeOptionHideNames = _lldb.eTypeOptionHideNames eTypeOptionNonCacheable = _lldb.eTypeOptionNonCacheable eTypeOptionHideEmptyAggregates = _lldb.eTypeOptionHideEmptyAggregates eFrameCompareInvalid = _lldb.eFrameCompareInvalid eFrameCompareUnknown = _lldb.eFrameCompareUnknown eFrameCompareEqual = _lldb.eFrameCompareEqual eFrameCompareSameParent = _lldb.eFrameCompareSameParent eFrameCompareYounger = _lldb.eFrameCompareYounger eFrameCompareOlder = _lldb.eFrameCompareOlder eAddressClassInvalid = _lldb.eAddressClassInvalid eAddressClassUnknown = _lldb.eAddressClassUnknown eAddressClassCode = _lldb.eAddressClassCode eAddressClassCodeAlternateISA = _lldb.eAddressClassCodeAlternateISA eAddressClassData = _lldb.eAddressClassData eAddressClassDebug = _lldb.eAddressClassDebug eAddressClassRuntime = _lldb.eAddressClassRuntime eFilePermissionsUserRead = _lldb.eFilePermissionsUserRead eFilePermissionsUserWrite = _lldb.eFilePermissionsUserWrite eFilePermissionsUserExecute = _lldb.eFilePermissionsUserExecute eFilePermissionsGroupRead = _lldb.eFilePermissionsGroupRead eFilePermissionsGroupWrite = _lldb.eFilePermissionsGroupWrite eFilePermissionsGroupExecute = _lldb.eFilePermissionsGroupExecute eFilePermissionsWorldRead = _lldb.eFilePermissionsWorldRead eFilePermissionsWorldWrite = _lldb.eFilePermissionsWorldWrite eFilePermissionsWorldExecute = _lldb.eFilePermissionsWorldExecute eFilePermissionsUserRW = _lldb.eFilePermissionsUserRW eFileFilePermissionsUserRX = _lldb.eFileFilePermissionsUserRX eFilePermissionsUserRWX = _lldb.eFilePermissionsUserRWX eFilePermissionsGroupRW = _lldb.eFilePermissionsGroupRW eFilePermissionsGroupRX = _lldb.eFilePermissionsGroupRX eFilePermissionsGroupRWX = _lldb.eFilePermissionsGroupRWX eFilePermissionsWorldRW = _lldb.eFilePermissionsWorldRW eFilePermissionsWorldRX = _lldb.eFilePermissionsWorldRX eFilePermissionsWorldRWX = _lldb.eFilePermissionsWorldRWX eFilePermissionsEveryoneR = _lldb.eFilePermissionsEveryoneR eFilePermissionsEveryoneW = _lldb.eFilePermissionsEveryoneW eFilePermissionsEveryoneX = _lldb.eFilePermissionsEveryoneX eFilePermissionsEveryoneRW = _lldb.eFilePermissionsEveryoneRW eFilePermissionsEveryoneRX = _lldb.eFilePermissionsEveryoneRX eFilePermissionsEveryoneRWX = _lldb.eFilePermissionsEveryoneRWX eFilePermissionsFileDefault = _lldb.eFilePermissionsFileDefault eFilePermissionsDirectoryDefault = _lldb.eFilePermissionsDirectoryDefault eQueueItemKindUnknown = _lldb.eQueueItemKindUnknown eQueueItemKindFunction = _lldb.eQueueItemKindFunction eQueueItemKindBlock = _lldb.eQueueItemKindBlock eQueueKindUnknown = _lldb.eQueueKindUnknown eQueueKindSerial = _lldb.eQueueKindSerial eQueueKindConcurrent = _lldb.eQueueKindConcurrent eExpressionEvaluationParse = _lldb.eExpressionEvaluationParse eExpressionEvaluationIRGen = _lldb.eExpressionEvaluationIRGen eExpressionEvaluationExecution = _lldb.eExpressionEvaluationExecution eExpressionEvaluationComplete = _lldb.eExpressionEvaluationComplete eWatchpointKindRead = _lldb.eWatchpointKindRead eWatchpointKindWrite = _lldb.eWatchpointKindWrite eGdbSignalBadAccess = _lldb.eGdbSignalBadAccess eGdbSignalBadInstruction = _lldb.eGdbSignalBadInstruction eGdbSignalArithmetic = _lldb.eGdbSignalArithmetic eGdbSignalEmulation = _lldb.eGdbSignalEmulation eGdbSignalSoftware = _lldb.eGdbSignalSoftware eGdbSignalBreakpoint = _lldb.eGdbSignalBreakpoint ePathTypeLLDBShlibDir = _lldb.ePathTypeLLDBShlibDir ePathTypeSupportExecutableDir = _lldb.ePathTypeSupportExecutableDir ePathTypeHeaderDir = _lldb.ePathTypeHeaderDir ePathTypePythonDir = _lldb.ePathTypePythonDir ePathTypeLLDBSystemPlugins = _lldb.ePathTypeLLDBSystemPlugins ePathTypeLLDBUserPlugins = _lldb.ePathTypeLLDBUserPlugins ePathTypeLLDBTempSystemDir = _lldb.ePathTypeLLDBTempSystemDir ePathTypeGlobalLLDBTempSystemDir = _lldb.ePathTypeGlobalLLDBTempSystemDir ePathTypeClangDir = _lldb.ePathTypeClangDir eMemberFunctionKindUnknown = _lldb.eMemberFunctionKindUnknown eMemberFunctionKindConstructor = _lldb.eMemberFunctionKindConstructor eMemberFunctionKindDestructor = _lldb.eMemberFunctionKindDestructor eMemberFunctionKindInstanceMethod = _lldb.eMemberFunctionKindInstanceMethod eMemberFunctionKindStaticMethod = _lldb.eMemberFunctionKindStaticMethod eMatchTypeNormal = _lldb.eMatchTypeNormal eMatchTypeRegex = _lldb.eMatchTypeRegex eMatchTypeStartsWith = _lldb.eMatchTypeStartsWith eTypeHasChildren = _lldb.eTypeHasChildren eTypeHasValue = _lldb.eTypeHasValue eTypeIsArray = _lldb.eTypeIsArray eTypeIsBlock = _lldb.eTypeIsBlock eTypeIsBuiltIn = _lldb.eTypeIsBuiltIn eTypeIsClass = _lldb.eTypeIsClass eTypeIsCPlusPlus = _lldb.eTypeIsCPlusPlus eTypeIsEnumeration = _lldb.eTypeIsEnumeration eTypeIsFuncPrototype = _lldb.eTypeIsFuncPrototype eTypeIsMember = _lldb.eTypeIsMember eTypeIsObjC = _lldb.eTypeIsObjC eTypeIsPointer = _lldb.eTypeIsPointer eTypeIsReference = _lldb.eTypeIsReference eTypeIsStructUnion = _lldb.eTypeIsStructUnion eTypeIsTemplate = _lldb.eTypeIsTemplate eTypeIsTypedef = _lldb.eTypeIsTypedef eTypeIsVector = _lldb.eTypeIsVector eTypeIsScalar = _lldb.eTypeIsScalar eTypeIsInteger = _lldb.eTypeIsInteger eTypeIsFloat = _lldb.eTypeIsFloat eTypeIsComplex = _lldb.eTypeIsComplex eTypeIsSigned = _lldb.eTypeIsSigned eTypeInstanceIsPointer = _lldb.eTypeInstanceIsPointer eCommandRequiresTarget = _lldb.eCommandRequiresTarget eCommandRequiresProcess = _lldb.eCommandRequiresProcess eCommandRequiresThread = _lldb.eCommandRequiresThread eCommandRequiresFrame = _lldb.eCommandRequiresFrame eCommandRequiresRegContext = _lldb.eCommandRequiresRegContext eCommandTryTargetAPILock = _lldb.eCommandTryTargetAPILock eCommandProcessMustBeLaunched = _lldb.eCommandProcessMustBeLaunched eCommandProcessMustBePaused = _lldb.eCommandProcessMustBePaused eTypeSummaryCapped = _lldb.eTypeSummaryCapped eTypeSummaryUncapped = _lldb.eTypeSummaryUncapped # ================================== # Helper function for SBModule class # ================================== def in_range(symbol, section): """Test whether a symbol is within the range of a section.""" symSA = symbol.GetStartAddress().GetFileAddress() symEA = symbol.GetEndAddress().GetFileAddress() secSA = section.GetFileAddress() secEA = secSA + section.GetByteSize() if symEA != LLDB_INVALID_ADDRESS: if secSA <= symSA and symEA <= secEA: return True else: return False else: if secSA <= symSA and symSA < secEA: return True else: return False # =================================== # Iterator for lldb container objects # =================================== def lldb_iter(obj, getsize, getelem): """A generator adaptor to support iteration for lldb container objects.""" size = getattr(obj, getsize) elem = getattr(obj, getelem) for i in range(size()): yield elem(i) # ============================================================================== # The modify-python-lldb.py script is responsible for post-processing this SWIG- # generated lldb.py module. It is responsible for adding the above lldb_iter() # function definition as well as the supports, in the following, for iteration # protocol: __iter__, rich comparison methods: __eq__ and __ne__, truth value # testing (and built-in operation bool()): __nonzero__, and built-in function # len(): __len__. # ============================================================================== class SBAddress(_object): """ A section + offset based address class. The SBAddress class allows addresses to be relative to a section that can move during runtime due to images (executables, shared libraries, bundles, frameworks) being loaded at different addresses than the addresses found in the object file that represents them on disk. There are currently two types of addresses for a section: o file addresses o load addresses File addresses represents the virtual addresses that are in the 'on disk' object files. These virtual addresses are converted to be relative to unique sections scoped to the object file so that when/if the addresses slide when the images are loaded/unloaded in memory, we can easily track these changes without having to update every object (compile unit ranges, line tables, function address ranges, lexical block and inlined subroutine address ranges, global and static variables) each time an image is loaded or unloaded. Load addresses represents the virtual addresses where each section ends up getting loaded at runtime. Before executing a program, it is common for all of the load addresses to be unresolved. When a DynamicLoader plug-in receives notification that shared libraries have been loaded/unloaded, the load addresses of the main executable and any images (shared libraries) will be resolved/unresolved. When this happens, breakpoints that are in one of these sections can be set/cleared. See docstring of SBFunction for example usage of SBAddress. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBAddress, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBAddress, name) __repr__ = _swig_repr def __eq__(self, other): return isinstance(other, SBAddress) and self.GetFileAddress() == other.GetFileAddress() and self.GetModule() == other.GetModule() def __ne__(self, other): return not self.__eq__(other) def __init__(self, *args): """ __init__(self) -> SBAddress __init__(self, SBAddress rhs) -> SBAddress __init__(self, SBSection section, addr_t offset) -> SBAddress __init__(self, addr_t load_addr, SBTarget target) -> SBAddress Create an address by resolving a load address using the supplied target. """ this = _lldb.new_SBAddress(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBAddress __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBAddress_IsValid(self) def Clear(self): """Clear(self)""" return _lldb.SBAddress_Clear(self) def GetFileAddress(self): """GetFileAddress(self) -> addr_t""" return _lldb.SBAddress_GetFileAddress(self) def GetLoadAddress(self, *args): """GetLoadAddress(self, SBTarget target) -> addr_t""" return _lldb.SBAddress_GetLoadAddress(self, *args) def SetLoadAddress(self, *args): """SetLoadAddress(self, addr_t load_addr, SBTarget target)""" return _lldb.SBAddress_SetLoadAddress(self, *args) def OffsetAddress(self, *args): """OffsetAddress(self, addr_t offset) -> bool""" return _lldb.SBAddress_OffsetAddress(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBAddress_GetDescription(self, *args) def GetSection(self): """GetSection(self) -> SBSection""" return _lldb.SBAddress_GetSection(self) def GetOffset(self): """GetOffset(self) -> addr_t""" return _lldb.SBAddress_GetOffset(self) def SetAddress(self, *args): """SetAddress(self, SBSection section, addr_t offset)""" return _lldb.SBAddress_SetAddress(self, *args) def GetAddressClass(self): """GetAddressClass(self) -> AddressClass""" return _lldb.SBAddress_GetAddressClass(self) def GetSymbolContext(self, *args): """ GetSymbolContext(self, uint32_t resolve_scope) -> SBSymbolContext GetSymbolContext() and the following can lookup symbol information for a given address. An address might refer to code or data from an existing module, or it might refer to something on the stack or heap. The following functions will only return valid values if the address has been resolved to a code or data address using 'void SBAddress::SetLoadAddress(...)' or 'lldb::SBAddress SBTarget::ResolveLoadAddress (...)'. """ return _lldb.SBAddress_GetSymbolContext(self, *args) def GetModule(self): """ GetModule(self) -> SBModule GetModule() and the following grab individual objects for a given address and are less efficient if you want more than one symbol related objects. Use one of the following when you want multiple debug symbol related objects for an address: lldb::SBSymbolContext SBAddress::GetSymbolContext (uint32_t resolve_scope); lldb::SBSymbolContext SBTarget::ResolveSymbolContextForAddress (const SBAddress &addr, uint32_t resolve_scope); One or more bits from the SymbolContextItem enumerations can be logically OR'ed together to more efficiently retrieve multiple symbol objects. """ return _lldb.SBAddress_GetModule(self) def GetCompileUnit(self): """GetCompileUnit(self) -> SBCompileUnit""" return _lldb.SBAddress_GetCompileUnit(self) def GetFunction(self): """GetFunction(self) -> SBFunction""" return _lldb.SBAddress_GetFunction(self) def GetBlock(self): """GetBlock(self) -> SBBlock""" return _lldb.SBAddress_GetBlock(self) def GetSymbol(self): """GetSymbol(self) -> SBSymbol""" return _lldb.SBAddress_GetSymbol(self) def GetLineEntry(self): """GetLineEntry(self) -> SBLineEntry""" return _lldb.SBAddress_GetLineEntry(self) def __get_load_addr_property__ (self): '''Get the load address for a lldb.SBAddress using the current target.''' return self.GetLoadAddress (target) def __set_load_addr_property__ (self, load_addr): '''Set the load address for a lldb.SBAddress using the current target.''' return self.SetLoadAddress (load_addr, target) def __int__(self): '''Convert an address to a load address if there is a process and that process is alive, or to a file address otherwise.''' if process.is_alive: return self.GetLoadAddress (target) else: return self.GetFileAddress () def __oct__(self): '''Convert the address to an octal string''' return '%o' % int(self) def __hex__(self): '''Convert the address to an hex string''' return '0x%x' % int(self) __swig_getmethods__["module"] = GetModule if _newclass: module = property(GetModule, None, doc='''A read only property that returns an lldb object that represents the module (lldb.SBModule) that this address resides within.''') __swig_getmethods__["compile_unit"] = GetCompileUnit if _newclass: compile_unit = property(GetCompileUnit, None, doc='''A read only property that returns an lldb object that represents the compile unit (lldb.SBCompileUnit) that this address resides within.''') __swig_getmethods__["line_entry"] = GetLineEntry if _newclass: line_entry = property(GetLineEntry, None, doc='''A read only property that returns an lldb object that represents the line entry (lldb.SBLineEntry) that this address resides within.''') __swig_getmethods__["function"] = GetFunction if _newclass: function = property(GetFunction, None, doc='''A read only property that returns an lldb object that represents the function (lldb.SBFunction) that this address resides within.''') __swig_getmethods__["block"] = GetBlock if _newclass: block = property(GetBlock, None, doc='''A read only property that returns an lldb object that represents the block (lldb.SBBlock) that this address resides within.''') __swig_getmethods__["symbol"] = GetSymbol if _newclass: symbol = property(GetSymbol, None, doc='''A read only property that returns an lldb object that represents the symbol (lldb.SBSymbol) that this address resides within.''') __swig_getmethods__["offset"] = GetOffset if _newclass: offset = property(GetOffset, None, doc='''A read only property that returns the section offset in bytes as an integer.''') __swig_getmethods__["section"] = GetSection if _newclass: section = property(GetSection, None, doc='''A read only property that returns an lldb object that represents the section (lldb.SBSection) that this address resides within.''') __swig_getmethods__["file_addr"] = GetFileAddress if _newclass: file_addr = property(GetFileAddress, None, doc='''A read only property that returns file address for the section as an integer. This is the address that represents the address as it is found in the object file that defines it.''') __swig_getmethods__["load_addr"] = __get_load_addr_property__ __swig_setmethods__["load_addr"] = __set_load_addr_property__ if _newclass: load_addr = property(__get_load_addr_property__, __set_load_addr_property__, doc='''A read/write property that gets/sets the SBAddress using load address. The setter resolves SBAddress using the SBTarget from lldb.target so this property can ONLY be used in the interactive script interpreter (i.e. under the lldb script command) and not in Python based commands, or breakpoint commands.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBAddress___str__(self) SBAddress_swigregister = _lldb.SBAddress_swigregister SBAddress_swigregister(SBAddress) class SBAttachInfo(_object): """Proxy of C++ lldb::SBAttachInfo class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBAttachInfo, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBAttachInfo, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBAttachInfo __init__(self, pid_t pid) -> SBAttachInfo __init__(self, str path, bool wait_for) -> SBAttachInfo __init__(self, str path, bool wait_for, bool async) -> SBAttachInfo __init__(self, SBAttachInfo rhs) -> SBAttachInfo """ this = _lldb.new_SBAttachInfo(*args) try: self.this.append(this) except: self.this = this def GetProcessID(self): """GetProcessID(self) -> pid_t""" return _lldb.SBAttachInfo_GetProcessID(self) def SetProcessID(self, *args): """SetProcessID(self, pid_t pid)""" return _lldb.SBAttachInfo_SetProcessID(self, *args) def SetExecutable(self, *args): """ SetExecutable(self, str path) SetExecutable(self, SBFileSpec exe_file) """ return _lldb.SBAttachInfo_SetExecutable(self, *args) def GetWaitForLaunch(self): """GetWaitForLaunch(self) -> bool""" return _lldb.SBAttachInfo_GetWaitForLaunch(self) def SetWaitForLaunch(self, *args): """ SetWaitForLaunch(self, bool b) SetWaitForLaunch(self, bool b, bool async) """ return _lldb.SBAttachInfo_SetWaitForLaunch(self, *args) def GetIgnoreExisting(self): """GetIgnoreExisting(self) -> bool""" return _lldb.SBAttachInfo_GetIgnoreExisting(self) def SetIgnoreExisting(self, *args): """SetIgnoreExisting(self, bool b)""" return _lldb.SBAttachInfo_SetIgnoreExisting(self, *args) def GetResumeCount(self): """GetResumeCount(self) -> uint32_t""" return _lldb.SBAttachInfo_GetResumeCount(self) def SetResumeCount(self, *args): """SetResumeCount(self, uint32_t c)""" return _lldb.SBAttachInfo_SetResumeCount(self, *args) def GetProcessPluginName(self): """GetProcessPluginName(self) -> str""" return _lldb.SBAttachInfo_GetProcessPluginName(self) def SetProcessPluginName(self, *args): """SetProcessPluginName(self, str plugin_name)""" return _lldb.SBAttachInfo_SetProcessPluginName(self, *args) def GetUserID(self): """GetUserID(self) -> uint32_t""" return _lldb.SBAttachInfo_GetUserID(self) def GetGroupID(self): """GetGroupID(self) -> uint32_t""" return _lldb.SBAttachInfo_GetGroupID(self) def UserIDIsValid(self): """UserIDIsValid(self) -> bool""" return _lldb.SBAttachInfo_UserIDIsValid(self) def GroupIDIsValid(self): """GroupIDIsValid(self) -> bool""" return _lldb.SBAttachInfo_GroupIDIsValid(self) def SetUserID(self, *args): """SetUserID(self, uint32_t uid)""" return _lldb.SBAttachInfo_SetUserID(self, *args) def SetGroupID(self, *args): """SetGroupID(self, uint32_t gid)""" return _lldb.SBAttachInfo_SetGroupID(self, *args) def GetEffectiveUserID(self): """GetEffectiveUserID(self) -> uint32_t""" return _lldb.SBAttachInfo_GetEffectiveUserID(self) def GetEffectiveGroupID(self): """GetEffectiveGroupID(self) -> uint32_t""" return _lldb.SBAttachInfo_GetEffectiveGroupID(self) def EffectiveUserIDIsValid(self): """EffectiveUserIDIsValid(self) -> bool""" return _lldb.SBAttachInfo_EffectiveUserIDIsValid(self) def EffectiveGroupIDIsValid(self): """EffectiveGroupIDIsValid(self) -> bool""" return _lldb.SBAttachInfo_EffectiveGroupIDIsValid(self) def SetEffectiveUserID(self, *args): """SetEffectiveUserID(self, uint32_t uid)""" return _lldb.SBAttachInfo_SetEffectiveUserID(self, *args) def SetEffectiveGroupID(self, *args): """SetEffectiveGroupID(self, uint32_t gid)""" return _lldb.SBAttachInfo_SetEffectiveGroupID(self, *args) def GetParentProcessID(self): """GetParentProcessID(self) -> pid_t""" return _lldb.SBAttachInfo_GetParentProcessID(self) def SetParentProcessID(self, *args): """SetParentProcessID(self, pid_t pid)""" return _lldb.SBAttachInfo_SetParentProcessID(self, *args) def ParentProcessIDIsValid(self): """ParentProcessIDIsValid(self) -> bool""" return _lldb.SBAttachInfo_ParentProcessIDIsValid(self) def GetListener(self): """GetListener(self) -> SBListener""" return _lldb.SBAttachInfo_GetListener(self) def SetListener(self, *args): """SetListener(self, SBListener listener)""" return _lldb.SBAttachInfo_SetListener(self, *args) __swig_destroy__ = _lldb.delete_SBAttachInfo __del__ = lambda self : None; SBAttachInfo_swigregister = _lldb.SBAttachInfo_swigregister SBAttachInfo_swigregister(SBAttachInfo) class SBBlock(_object): """Represents a lexical block. SBFunction contains SBBlock(s).""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBBlock, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBBlock, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBBlock __init__(self, SBBlock rhs) -> SBBlock """ this = _lldb.new_SBBlock(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBBlock __del__ = lambda self : None; def IsInlined(self): """ IsInlined(self) -> bool Does this block represent an inlined function? """ return _lldb.SBBlock_IsInlined(self) def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBBlock_IsValid(self) def GetInlinedName(self): """ GetInlinedName(self) -> str Get the function name if this block represents an inlined function; otherwise, return None. """ return _lldb.SBBlock_GetInlinedName(self) def GetInlinedCallSiteFile(self): """ GetInlinedCallSiteFile(self) -> SBFileSpec Get the call site file if this block represents an inlined function; otherwise, return an invalid file spec. """ return _lldb.SBBlock_GetInlinedCallSiteFile(self) def GetInlinedCallSiteLine(self): """ GetInlinedCallSiteLine(self) -> uint32_t Get the call site line if this block represents an inlined function; otherwise, return 0. """ return _lldb.SBBlock_GetInlinedCallSiteLine(self) def GetInlinedCallSiteColumn(self): """ GetInlinedCallSiteColumn(self) -> uint32_t Get the call site column if this block represents an inlined function; otherwise, return 0. """ return _lldb.SBBlock_GetInlinedCallSiteColumn(self) def GetParent(self): """ GetParent(self) -> SBBlock Get the parent block. """ return _lldb.SBBlock_GetParent(self) def GetContainingInlinedBlock(self): """ GetContainingInlinedBlock(self) -> SBBlock Get the inlined block that is or contains this block. """ return _lldb.SBBlock_GetContainingInlinedBlock(self) def GetSibling(self): """ GetSibling(self) -> SBBlock Get the sibling block for this block. """ return _lldb.SBBlock_GetSibling(self) def GetFirstChild(self): """ GetFirstChild(self) -> SBBlock Get the first child block. """ return _lldb.SBBlock_GetFirstChild(self) def GetNumRanges(self): """GetNumRanges(self) -> uint32_t""" return _lldb.SBBlock_GetNumRanges(self) def GetRangeStartAddress(self, *args): """GetRangeStartAddress(self, uint32_t idx) -> SBAddress""" return _lldb.SBBlock_GetRangeStartAddress(self, *args) def GetRangeEndAddress(self, *args): """GetRangeEndAddress(self, uint32_t idx) -> SBAddress""" return _lldb.SBBlock_GetRangeEndAddress(self, *args) def GetRangeIndexForBlockAddress(self, *args): """GetRangeIndexForBlockAddress(self, SBAddress block_addr) -> uint32_t""" return _lldb.SBBlock_GetRangeIndexForBlockAddress(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBBlock_GetDescription(self, *args) def GetVariables(self, *args): """ GetVariables(self, SBFrame frame, bool arguments, bool locals, bool statics, DynamicValueType use_dynamic) -> SBValueList GetVariables(self, SBTarget target, bool arguments, bool locals, bool statics) -> SBValueList """ return _lldb.SBBlock_GetVariables(self, *args) def get_range_at_index(self, idx): if idx < self.GetNumRanges(): return [self.GetRangeStartAddress(idx), self.GetRangeEndAddress(idx)] return [] class ranges_access(object): '''A helper object that will lazily hand out an array of lldb.SBAddress that represent address ranges for a block.''' def __init__(self, sbblock): self.sbblock = sbblock def __len__(self): if self.sbblock: return int(self.sbblock.GetNumRanges()) return 0 def __getitem__(self, key): count = len(self) if type(key) is int: return self.sbblock.get_range_at_index (key); if isinstance(key, SBAddress): range_idx = self.sbblock.GetRangeIndexForBlockAddress(key); if range_idx < len(self): return [self.sbblock.GetRangeStartAddress(range_idx), self.sbblock.GetRangeEndAddress(range_idx)] else: print("error: unsupported item type: %s" % type(key)) return None def get_ranges_access_object(self): '''An accessor function that returns a ranges_access() object which allows lazy block address ranges access.''' return self.ranges_access (self) def get_ranges_array(self): '''An accessor function that returns an array object that contains all ranges in this block object.''' if not hasattr(self, 'ranges_array'): self.ranges_array = [] for idx in range(self.num_ranges): self.ranges_array.append ([self.GetRangeStartAddress(idx), self.GetRangeEndAddress(idx)]) return self.ranges_array def get_call_site(self): return declaration(self.GetInlinedCallSiteFile(), self.GetInlinedCallSiteLine(), self.GetInlinedCallSiteColumn()) __swig_getmethods__["parent"] = GetParent if _newclass: parent = property(GetParent, None, doc='''A read only property that returns the same result as GetParent().''') __swig_getmethods__["first_child"] = GetFirstChild if _newclass: first_child = property(GetFirstChild, None, doc='''A read only property that returns the same result as GetFirstChild().''') __swig_getmethods__["call_site"] = get_call_site if _newclass: call_site = property(get_call_site, None, doc='''A read only property that returns a lldb.declaration object that contains the inlined call site file, line and column.''') __swig_getmethods__["sibling"] = GetSibling if _newclass: sibling = property(GetSibling, None, doc='''A read only property that returns the same result as GetSibling().''') __swig_getmethods__["name"] = GetInlinedName if _newclass: name = property(GetInlinedName, None, doc='''A read only property that returns the same result as GetInlinedName().''') __swig_getmethods__["inlined_block"] = GetContainingInlinedBlock if _newclass: inlined_block = property(GetContainingInlinedBlock, None, doc='''A read only property that returns the same result as GetContainingInlinedBlock().''') __swig_getmethods__["range"] = get_ranges_access_object if _newclass: range = property(get_ranges_access_object, None, doc='''A read only property that allows item access to the address ranges for a block by integer (range = block.range[0]) and by lldb.SBAdddress (find the range that contains the specified lldb.SBAddress like "pc_range = lldb.frame.block.range[frame.addr]").''') __swig_getmethods__["ranges"] = get_ranges_array if _newclass: ranges = property(get_ranges_array, None, doc='''A read only property that returns a list() object that contains all of the address ranges for the block.''') __swig_getmethods__["num_ranges"] = GetNumRanges if _newclass: num_ranges = property(GetNumRanges, None, doc='''A read only property that returns the same result as GetNumRanges().''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBBlock___str__(self) SBBlock_swigregister = _lldb.SBBlock_swigregister SBBlock_swigregister(SBBlock) class SBBreakpoint(_object): """ Represents a logical breakpoint and its associated settings. For example (from test/functionalities/breakpoint/breakpoint_ignore_count/ TestBreakpointIgnoreCount.py), def breakpoint_ignore_count_python(self): '''Use Python APIs to set breakpoint ignore count.''' exe = os.path.join(os.getcwd(), 'a.out') # Create a target by the debugger. target = self.dbg.CreateTarget(exe) self.assertTrue(target, VALID_TARGET) # Now create a breakpoint on main.c by name 'c'. breakpoint = target.BreakpointCreateByName('c', 'a.out') self.assertTrue(breakpoint and breakpoint.GetNumLocations() == 1, VALID_BREAKPOINT) # Get the breakpoint location from breakpoint after we verified that, # indeed, it has one location. location = breakpoint.GetLocationAtIndex(0) self.assertTrue(location and location.IsEnabled(), VALID_BREAKPOINT_LOCATION) # Set the ignore count on the breakpoint location. location.SetIgnoreCount(2) self.assertTrue(location.GetIgnoreCount() == 2, 'SetIgnoreCount() works correctly') # Now launch the process, and do not stop at entry point. process = target.LaunchSimple(None, None, os.getcwd()) self.assertTrue(process, PROCESS_IS_VALID) # Frame#0 should be on main.c:37, frame#1 should be on main.c:25, and # frame#2 should be on main.c:48. #lldbutil.print_stacktraces(process) from lldbutil import get_stopped_thread thread = get_stopped_thread(process, lldb.eStopReasonBreakpoint) self.assertTrue(thread != None, 'There should be a thread stopped due to breakpoint') frame0 = thread.GetFrameAtIndex(0) frame1 = thread.GetFrameAtIndex(1) frame2 = thread.GetFrameAtIndex(2) self.assertTrue(frame0.GetLineEntry().GetLine() == self.line1 and frame1.GetLineEntry().GetLine() == self.line3 and frame2.GetLineEntry().GetLine() == self.line4, STOPPED_DUE_TO_BREAKPOINT_IGNORE_COUNT) # The hit count for the breakpoint should be 3. self.assertTrue(breakpoint.GetHitCount() == 3) process.Continue() SBBreakpoint supports breakpoint location iteration, for example, for bl in breakpoint: print('breakpoint location load addr: %s' % hex(bl.GetLoadAddress())) print('breakpoint location condition: %s' % hex(bl.GetCondition())) and rich comparion methods which allow the API program to use, if aBreakpoint == bBreakpoint: ... to compare two breakpoints for equality. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBBreakpoint, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBBreakpoint, name) __repr__ = _swig_repr def __iter__(self): return lldb_iter(self, 'GetNumLocations', 'GetLocationAtIndex') def __len__(self): return self.GetNumLocations() def __eq__(self, other): return isinstance(other, SBBreakpoint) and self.GetID() == other.GetID() def __ne__(self, other): return not self.__eq__(other) def __init__(self, *args): """ __init__(self) -> SBBreakpoint __init__(self, SBBreakpoint rhs) -> SBBreakpoint """ this = _lldb.new_SBBreakpoint(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBBreakpoint __del__ = lambda self : None; def GetID(self): """GetID(self) -> break_id_t""" return _lldb.SBBreakpoint_GetID(self) def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBBreakpoint_IsValid(self) def ClearAllBreakpointSites(self): """ClearAllBreakpointSites(self)""" return _lldb.SBBreakpoint_ClearAllBreakpointSites(self) def FindLocationByAddress(self, *args): """FindLocationByAddress(self, addr_t vm_addr) -> SBBreakpointLocation""" return _lldb.SBBreakpoint_FindLocationByAddress(self, *args) def FindLocationIDByAddress(self, *args): """FindLocationIDByAddress(self, addr_t vm_addr) -> break_id_t""" return _lldb.SBBreakpoint_FindLocationIDByAddress(self, *args) def FindLocationByID(self, *args): """FindLocationByID(self, break_id_t bp_loc_id) -> SBBreakpointLocation""" return _lldb.SBBreakpoint_FindLocationByID(self, *args) def GetLocationAtIndex(self, *args): """GetLocationAtIndex(self, uint32_t index) -> SBBreakpointLocation""" return _lldb.SBBreakpoint_GetLocationAtIndex(self, *args) def SetEnabled(self, *args): """SetEnabled(self, bool enable)""" return _lldb.SBBreakpoint_SetEnabled(self, *args) def IsEnabled(self): """IsEnabled(self) -> bool""" return _lldb.SBBreakpoint_IsEnabled(self) def SetOneShot(self, *args): """SetOneShot(self, bool one_shot)""" return _lldb.SBBreakpoint_SetOneShot(self, *args) def IsOneShot(self): """IsOneShot(self) -> bool""" return _lldb.SBBreakpoint_IsOneShot(self) def IsInternal(self): """IsInternal(self) -> bool""" return _lldb.SBBreakpoint_IsInternal(self) def GetHitCount(self): """GetHitCount(self) -> uint32_t""" return _lldb.SBBreakpoint_GetHitCount(self) def SetIgnoreCount(self, *args): """SetIgnoreCount(self, uint32_t count)""" return _lldb.SBBreakpoint_SetIgnoreCount(self, *args) def GetIgnoreCount(self): """GetIgnoreCount(self) -> uint32_t""" return _lldb.SBBreakpoint_GetIgnoreCount(self) def SetCondition(self, *args): """ SetCondition(self, str condition) The breakpoint stops only if the condition expression evaluates to true. """ return _lldb.SBBreakpoint_SetCondition(self, *args) def GetCondition(self): """ GetCondition(self) -> str Get the condition expression for the breakpoint. """ return _lldb.SBBreakpoint_GetCondition(self) def SetThreadID(self, *args): """SetThreadID(self, tid_t sb_thread_id)""" return _lldb.SBBreakpoint_SetThreadID(self, *args) def GetThreadID(self): """GetThreadID(self) -> tid_t""" return _lldb.SBBreakpoint_GetThreadID(self) def SetThreadIndex(self, *args): """SetThreadIndex(self, uint32_t index)""" return _lldb.SBBreakpoint_SetThreadIndex(self, *args) def GetThreadIndex(self): """GetThreadIndex(self) -> uint32_t""" return _lldb.SBBreakpoint_GetThreadIndex(self) def SetThreadName(self, *args): """SetThreadName(self, str thread_name)""" return _lldb.SBBreakpoint_SetThreadName(self, *args) def GetThreadName(self): """GetThreadName(self) -> str""" return _lldb.SBBreakpoint_GetThreadName(self) def SetQueueName(self, *args): """SetQueueName(self, str queue_name)""" return _lldb.SBBreakpoint_SetQueueName(self, *args) def GetQueueName(self): """GetQueueName(self) -> str""" return _lldb.SBBreakpoint_GetQueueName(self) def SetScriptCallbackFunction(self, *args): """ SetScriptCallbackFunction(self, str callback_function_name) Set the name of the script function to be called when the breakpoint is hit. """ return _lldb.SBBreakpoint_SetScriptCallbackFunction(self, *args) def SetScriptCallbackBody(self, *args): """ SetScriptCallbackBody(self, str script_body_text) -> SBError Provide the body for the script function to be called when the breakpoint is hit. The body will be wrapped in a function, which be passed two arguments: 'frame' - which holds the bottom-most SBFrame of the thread that hit the breakpoint 'bpno' - which is the SBBreakpointLocation to which the callback was attached. The error parameter is currently ignored, but will at some point hold the Python compilation diagnostics. Returns true if the body compiles successfully, false if not. """ return _lldb.SBBreakpoint_SetScriptCallbackBody(self, *args) def AddName(self, *args): """AddName(self, str new_name) -> bool""" return _lldb.SBBreakpoint_AddName(self, *args) def RemoveName(self, *args): """RemoveName(self, str name_to_remove)""" return _lldb.SBBreakpoint_RemoveName(self, *args) def MatchesName(self, *args): """MatchesName(self, str name) -> bool""" return _lldb.SBBreakpoint_MatchesName(self, *args) def GetNames(self, *args): """GetNames(self, SBStringList names)""" return _lldb.SBBreakpoint_GetNames(self, *args) def GetNumResolvedLocations(self): """GetNumResolvedLocations(self) -> size_t""" return _lldb.SBBreakpoint_GetNumResolvedLocations(self) def GetNumLocations(self): """GetNumLocations(self) -> size_t""" return _lldb.SBBreakpoint_GetNumLocations(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBBreakpoint_GetDescription(self, *args) def __eq__(self, *args): """__eq__(self, SBBreakpoint rhs) -> bool""" return _lldb.SBBreakpoint___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBBreakpoint rhs) -> bool""" return _lldb.SBBreakpoint___ne__(self, *args) def EventIsBreakpointEvent(*args): """EventIsBreakpointEvent(SBEvent event) -> bool""" return _lldb.SBBreakpoint_EventIsBreakpointEvent(*args) if _newclass:EventIsBreakpointEvent = staticmethod(EventIsBreakpointEvent) __swig_getmethods__["EventIsBreakpointEvent"] = lambda x: EventIsBreakpointEvent def GetBreakpointEventTypeFromEvent(*args): """GetBreakpointEventTypeFromEvent(SBEvent event) -> BreakpointEventType""" return _lldb.SBBreakpoint_GetBreakpointEventTypeFromEvent(*args) if _newclass:GetBreakpointEventTypeFromEvent = staticmethod(GetBreakpointEventTypeFromEvent) __swig_getmethods__["GetBreakpointEventTypeFromEvent"] = lambda x: GetBreakpointEventTypeFromEvent def GetBreakpointFromEvent(*args): """GetBreakpointFromEvent(SBEvent event) -> SBBreakpoint""" return _lldb.SBBreakpoint_GetBreakpointFromEvent(*args) if _newclass:GetBreakpointFromEvent = staticmethod(GetBreakpointFromEvent) __swig_getmethods__["GetBreakpointFromEvent"] = lambda x: GetBreakpointFromEvent def GetBreakpointLocationAtIndexFromEvent(*args): """GetBreakpointLocationAtIndexFromEvent(SBEvent event, uint32_t loc_idx) -> SBBreakpointLocation""" return _lldb.SBBreakpoint_GetBreakpointLocationAtIndexFromEvent(*args) if _newclass:GetBreakpointLocationAtIndexFromEvent = staticmethod(GetBreakpointLocationAtIndexFromEvent) __swig_getmethods__["GetBreakpointLocationAtIndexFromEvent"] = lambda x: GetBreakpointLocationAtIndexFromEvent def GetNumBreakpointLocationsFromEvent(*args): """GetNumBreakpointLocationsFromEvent(SBEvent event_sp) -> uint32_t""" return _lldb.SBBreakpoint_GetNumBreakpointLocationsFromEvent(*args) if _newclass:GetNumBreakpointLocationsFromEvent = staticmethod(GetNumBreakpointLocationsFromEvent) __swig_getmethods__["GetNumBreakpointLocationsFromEvent"] = lambda x: GetNumBreakpointLocationsFromEvent __swig_getmethods__["id"] = GetID if _newclass: id = property(GetID, None, doc='''A read only property that returns the ID of this breakpoint.''') __swig_getmethods__["enabled"] = IsEnabled __swig_setmethods__["enabled"] = SetEnabled if _newclass: enabled = property(IsEnabled, SetEnabled, doc='''A read/write property that configures whether this breakpoint is enabled or not.''') __swig_getmethods__["one_shot"] = IsOneShot __swig_setmethods__["one_shot"] = SetOneShot if _newclass: one_shot = property(IsOneShot, SetOneShot, doc='''A read/write property that configures whether this breakpoint is one-shot (deleted when hit) or not.''') __swig_getmethods__["num_locations"] = GetNumLocations if _newclass: num_locations = property(GetNumLocations, None, doc='''A read only property that returns the count of locations of this breakpoint.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBBreakpoint___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBBreakpoint_swigregister = _lldb.SBBreakpoint_swigregister SBBreakpoint_swigregister(SBBreakpoint) def SBBreakpoint_EventIsBreakpointEvent(*args): """SBBreakpoint_EventIsBreakpointEvent(SBEvent event) -> bool""" return _lldb.SBBreakpoint_EventIsBreakpointEvent(*args) def SBBreakpoint_GetBreakpointEventTypeFromEvent(*args): """SBBreakpoint_GetBreakpointEventTypeFromEvent(SBEvent event) -> BreakpointEventType""" return _lldb.SBBreakpoint_GetBreakpointEventTypeFromEvent(*args) def SBBreakpoint_GetBreakpointFromEvent(*args): """SBBreakpoint_GetBreakpointFromEvent(SBEvent event) -> SBBreakpoint""" return _lldb.SBBreakpoint_GetBreakpointFromEvent(*args) def SBBreakpoint_GetBreakpointLocationAtIndexFromEvent(*args): """SBBreakpoint_GetBreakpointLocationAtIndexFromEvent(SBEvent event, uint32_t loc_idx) -> SBBreakpointLocation""" return _lldb.SBBreakpoint_GetBreakpointLocationAtIndexFromEvent(*args) def SBBreakpoint_GetNumBreakpointLocationsFromEvent(*args): """SBBreakpoint_GetNumBreakpointLocationsFromEvent(SBEvent event_sp) -> uint32_t""" return _lldb.SBBreakpoint_GetNumBreakpointLocationsFromEvent(*args) class SBBreakpointLocation(_object): """ Represents one unique instance (by address) of a logical breakpoint. A breakpoint location is defined by the breakpoint that produces it, and the address that resulted in this particular instantiation. Each breakpoint location has its settable options. SBBreakpoint contains SBBreakpointLocation(s). See docstring of SBBreakpoint for retrieval of an SBBreakpointLocation from an SBBreakpoint. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBBreakpointLocation, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBBreakpointLocation, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBBreakpointLocation __init__(self, SBBreakpointLocation rhs) -> SBBreakpointLocation """ this = _lldb.new_SBBreakpointLocation(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBBreakpointLocation __del__ = lambda self : None; def GetID(self): """GetID(self) -> break_id_t""" return _lldb.SBBreakpointLocation_GetID(self) def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBBreakpointLocation_IsValid(self) def GetAddress(self): """GetAddress(self) -> SBAddress""" return _lldb.SBBreakpointLocation_GetAddress(self) def GetLoadAddress(self): """GetLoadAddress(self) -> addr_t""" return _lldb.SBBreakpointLocation_GetLoadAddress(self) def SetEnabled(self, *args): """SetEnabled(self, bool enabled)""" return _lldb.SBBreakpointLocation_SetEnabled(self, *args) def IsEnabled(self): """IsEnabled(self) -> bool""" return _lldb.SBBreakpointLocation_IsEnabled(self) def GetIgnoreCount(self): """GetIgnoreCount(self) -> uint32_t""" return _lldb.SBBreakpointLocation_GetIgnoreCount(self) def SetIgnoreCount(self, *args): """SetIgnoreCount(self, uint32_t n)""" return _lldb.SBBreakpointLocation_SetIgnoreCount(self, *args) def SetCondition(self, *args): """ SetCondition(self, str condition) The breakpoint location stops only if the condition expression evaluates to true. """ return _lldb.SBBreakpointLocation_SetCondition(self, *args) def GetCondition(self): """ GetCondition(self) -> str Get the condition expression for the breakpoint location. """ return _lldb.SBBreakpointLocation_GetCondition(self) def SetScriptCallbackFunction(self, *args): """ SetScriptCallbackFunction(self, str callback_function_name) Set the callback to the given Python function name. """ return _lldb.SBBreakpointLocation_SetScriptCallbackFunction(self, *args) def SetScriptCallbackBody(self, *args): """ SetScriptCallbackBody(self, str script_body_text) -> SBError Provide the body for the script function to be called when the breakpoint location is hit. The body will be wrapped in a function, which be passed two arguments: 'frame' - which holds the bottom-most SBFrame of the thread that hit the breakpoint 'bpno' - which is the SBBreakpointLocation to which the callback was attached. The error parameter is currently ignored, but will at some point hold the Python compilation diagnostics. Returns true if the body compiles successfully, false if not. """ return _lldb.SBBreakpointLocation_SetScriptCallbackBody(self, *args) def SetThreadID(self, *args): """SetThreadID(self, tid_t sb_thread_id)""" return _lldb.SBBreakpointLocation_SetThreadID(self, *args) def GetThreadID(self): """GetThreadID(self) -> tid_t""" return _lldb.SBBreakpointLocation_GetThreadID(self) def SetThreadIndex(self, *args): """SetThreadIndex(self, uint32_t index)""" return _lldb.SBBreakpointLocation_SetThreadIndex(self, *args) def GetThreadIndex(self): """GetThreadIndex(self) -> uint32_t""" return _lldb.SBBreakpointLocation_GetThreadIndex(self) def SetThreadName(self, *args): """SetThreadName(self, str thread_name)""" return _lldb.SBBreakpointLocation_SetThreadName(self, *args) def GetThreadName(self): """GetThreadName(self) -> str""" return _lldb.SBBreakpointLocation_GetThreadName(self) def SetQueueName(self, *args): """SetQueueName(self, str queue_name)""" return _lldb.SBBreakpointLocation_SetQueueName(self, *args) def GetQueueName(self): """GetQueueName(self) -> str""" return _lldb.SBBreakpointLocation_GetQueueName(self) def IsResolved(self): """IsResolved(self) -> bool""" return _lldb.SBBreakpointLocation_IsResolved(self) def GetDescription(self, *args): """GetDescription(self, SBStream description, DescriptionLevel level) -> bool""" return _lldb.SBBreakpointLocation_GetDescription(self, *args) def GetBreakpoint(self): """GetBreakpoint(self) -> SBBreakpoint""" return _lldb.SBBreakpointLocation_GetBreakpoint(self) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBBreakpointLocation___str__(self) SBBreakpointLocation_swigregister = _lldb.SBBreakpointLocation_swigregister SBBreakpointLocation_swigregister(SBBreakpointLocation) class SBBroadcaster(_object): """ Represents an entity which can broadcast events. A default broadcaster is associated with an SBCommandInterpreter, SBProcess, and SBTarget. For example, use broadcaster = process.GetBroadcaster() to retrieve the process's broadcaster. See also SBEvent for example usage of interacting with a broadcaster. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBBroadcaster, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBBroadcaster, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBBroadcaster __init__(self, str name) -> SBBroadcaster __init__(self, SBBroadcaster rhs) -> SBBroadcaster """ this = _lldb.new_SBBroadcaster(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBBroadcaster __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBBroadcaster_IsValid(self) def Clear(self): """Clear(self)""" return _lldb.SBBroadcaster_Clear(self) def BroadcastEventByType(self, *args): """ BroadcastEventByType(self, uint32_t event_type, bool unique = False) BroadcastEventByType(self, uint32_t event_type) """ return _lldb.SBBroadcaster_BroadcastEventByType(self, *args) def BroadcastEvent(self, *args): """ BroadcastEvent(self, SBEvent event, bool unique = False) BroadcastEvent(self, SBEvent event) """ return _lldb.SBBroadcaster_BroadcastEvent(self, *args) def AddInitialEventsToListener(self, *args): """AddInitialEventsToListener(self, SBListener listener, uint32_t requested_events)""" return _lldb.SBBroadcaster_AddInitialEventsToListener(self, *args) def AddListener(self, *args): """AddListener(self, SBListener listener, uint32_t event_mask) -> uint32_t""" return _lldb.SBBroadcaster_AddListener(self, *args) def GetName(self): """GetName(self) -> str""" return _lldb.SBBroadcaster_GetName(self) def EventTypeHasListeners(self, *args): """EventTypeHasListeners(self, uint32_t event_type) -> bool""" return _lldb.SBBroadcaster_EventTypeHasListeners(self, *args) def RemoveListener(self, *args): """ RemoveListener(self, SBListener listener, uint32_t event_mask = 4294967295U) -> bool RemoveListener(self, SBListener listener) -> bool """ return _lldb.SBBroadcaster_RemoveListener(self, *args) def __eq__(self, *args): """__eq__(self, SBBroadcaster rhs) -> bool""" return _lldb.SBBroadcaster___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBBroadcaster rhs) -> bool""" return _lldb.SBBroadcaster___ne__(self, *args) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBBroadcaster_swigregister = _lldb.SBBroadcaster_swigregister SBBroadcaster_swigregister(SBBroadcaster) class SBCommandInterpreterRunOptions(_object): """ SBCommandInterpreterRunOptions controls how the RunCommandInterpreter runs the code it is fed. A default SBCommandInterpreterRunOptions object has: StopOnContinue: false StopOnError: false StopOnCrash: false EchoCommands: true PrintResults: true AddToHistory: true """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBCommandInterpreterRunOptions, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBCommandInterpreterRunOptions, name) __repr__ = _swig_repr def __init__(self): """__init__(self) -> SBCommandInterpreterRunOptions""" this = _lldb.new_SBCommandInterpreterRunOptions() try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBCommandInterpreterRunOptions __del__ = lambda self : None; def GetStopOnContinue(self): """GetStopOnContinue(self) -> bool""" return _lldb.SBCommandInterpreterRunOptions_GetStopOnContinue(self) def SetStopOnContinue(self, *args): """SetStopOnContinue(self, bool arg0)""" return _lldb.SBCommandInterpreterRunOptions_SetStopOnContinue(self, *args) def GetStopOnError(self): """GetStopOnError(self) -> bool""" return _lldb.SBCommandInterpreterRunOptions_GetStopOnError(self) def SetStopOnError(self, *args): """SetStopOnError(self, bool arg0)""" return _lldb.SBCommandInterpreterRunOptions_SetStopOnError(self, *args) def GetStopOnCrash(self): """GetStopOnCrash(self) -> bool""" return _lldb.SBCommandInterpreterRunOptions_GetStopOnCrash(self) def SetStopOnCrash(self, *args): """SetStopOnCrash(self, bool arg0)""" return _lldb.SBCommandInterpreterRunOptions_SetStopOnCrash(self, *args) def GetEchoCommands(self): """GetEchoCommands(self) -> bool""" return _lldb.SBCommandInterpreterRunOptions_GetEchoCommands(self) def SetEchoCommands(self, *args): """SetEchoCommands(self, bool arg0)""" return _lldb.SBCommandInterpreterRunOptions_SetEchoCommands(self, *args) def GetPrintResults(self): """GetPrintResults(self) -> bool""" return _lldb.SBCommandInterpreterRunOptions_GetPrintResults(self) def SetPrintResults(self, *args): """SetPrintResults(self, bool arg0)""" return _lldb.SBCommandInterpreterRunOptions_SetPrintResults(self, *args) def GetAddToHistory(self): """GetAddToHistory(self) -> bool""" return _lldb.SBCommandInterpreterRunOptions_GetAddToHistory(self) def SetAddToHistory(self, *args): """SetAddToHistory(self, bool arg0)""" return _lldb.SBCommandInterpreterRunOptions_SetAddToHistory(self, *args) SBCommandInterpreterRunOptions_swigregister = _lldb.SBCommandInterpreterRunOptions_swigregister SBCommandInterpreterRunOptions_swigregister(SBCommandInterpreterRunOptions) class SBCommandInterpreter(_object): """ SBCommandInterpreter handles/interprets commands for lldb. You get the command interpreter from the SBDebugger instance. For example (from test/ python_api/interpreter/TestCommandInterpreterAPI.py), def command_interpreter_api(self): '''Test the SBCommandInterpreter APIs.''' exe = os.path.join(os.getcwd(), 'a.out') # Create a target by the debugger. target = self.dbg.CreateTarget(exe) self.assertTrue(target, VALID_TARGET) # Retrieve the associated command interpreter from our debugger. ci = self.dbg.GetCommandInterpreter() self.assertTrue(ci, VALID_COMMAND_INTERPRETER) # Exercise some APIs.... self.assertTrue(ci.HasCommands()) self.assertTrue(ci.HasAliases()) self.assertTrue(ci.HasAliasOptions()) self.assertTrue(ci.CommandExists('breakpoint')) self.assertTrue(ci.CommandExists('target')) self.assertTrue(ci.CommandExists('platform')) self.assertTrue(ci.AliasExists('file')) self.assertTrue(ci.AliasExists('run')) self.assertTrue(ci.AliasExists('bt')) res = lldb.SBCommandReturnObject() ci.HandleCommand('breakpoint set -f main.c -l %d' % self.line, res) self.assertTrue(res.Succeeded()) ci.HandleCommand('process launch', res) self.assertTrue(res.Succeeded()) process = ci.GetProcess() self.assertTrue(process) ... The HandleCommand() instance method takes two args: the command string and an SBCommandReturnObject instance which encapsulates the result of command execution. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBCommandInterpreter, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBCommandInterpreter, name) __repr__ = _swig_repr eBroadcastBitThreadShouldExit = _lldb.SBCommandInterpreter_eBroadcastBitThreadShouldExit eBroadcastBitResetPrompt = _lldb.SBCommandInterpreter_eBroadcastBitResetPrompt eBroadcastBitQuitCommandReceived = _lldb.SBCommandInterpreter_eBroadcastBitQuitCommandReceived eBroadcastBitAsynchronousOutputData = _lldb.SBCommandInterpreter_eBroadcastBitAsynchronousOutputData eBroadcastBitAsynchronousErrorData = _lldb.SBCommandInterpreter_eBroadcastBitAsynchronousErrorData def __init__(self, *args): """__init__(self, SBCommandInterpreter rhs) -> SBCommandInterpreter""" this = _lldb.new_SBCommandInterpreter(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBCommandInterpreter __del__ = lambda self : None; def GetArgumentTypeAsCString(*args): """GetArgumentTypeAsCString(CommandArgumentType arg_type) -> str""" return _lldb.SBCommandInterpreter_GetArgumentTypeAsCString(*args) if _newclass:GetArgumentTypeAsCString = staticmethod(GetArgumentTypeAsCString) __swig_getmethods__["GetArgumentTypeAsCString"] = lambda x: GetArgumentTypeAsCString def GetArgumentDescriptionAsCString(*args): """GetArgumentDescriptionAsCString(CommandArgumentType arg_type) -> str""" return _lldb.SBCommandInterpreter_GetArgumentDescriptionAsCString(*args) if _newclass:GetArgumentDescriptionAsCString = staticmethod(GetArgumentDescriptionAsCString) __swig_getmethods__["GetArgumentDescriptionAsCString"] = lambda x: GetArgumentDescriptionAsCString def EventIsCommandInterpreterEvent(*args): """EventIsCommandInterpreterEvent(SBEvent event) -> bool""" return _lldb.SBCommandInterpreter_EventIsCommandInterpreterEvent(*args) if _newclass:EventIsCommandInterpreterEvent = staticmethod(EventIsCommandInterpreterEvent) __swig_getmethods__["EventIsCommandInterpreterEvent"] = lambda x: EventIsCommandInterpreterEvent def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBCommandInterpreter_IsValid(self) def GetIOHandlerControlSequence(self, *args): """GetIOHandlerControlSequence(self, str ch) -> str""" return _lldb.SBCommandInterpreter_GetIOHandlerControlSequence(self, *args) def GetPromptOnQuit(self): """GetPromptOnQuit(self) -> bool""" return _lldb.SBCommandInterpreter_GetPromptOnQuit(self) def SetPromptOnQuit(self, *args): """SetPromptOnQuit(self, bool b)""" return _lldb.SBCommandInterpreter_SetPromptOnQuit(self, *args) def ResolveCommand(self, *args): """ResolveCommand(self, str command_line, SBCommandReturnObject result)""" return _lldb.SBCommandInterpreter_ResolveCommand(self, *args) def CommandExists(self, *args): """CommandExists(self, str cmd) -> bool""" return _lldb.SBCommandInterpreter_CommandExists(self, *args) def AliasExists(self, *args): """AliasExists(self, str cmd) -> bool""" return _lldb.SBCommandInterpreter_AliasExists(self, *args) def GetBroadcaster(self): """GetBroadcaster(self) -> SBBroadcaster""" return _lldb.SBCommandInterpreter_GetBroadcaster(self) def GetBroadcasterClass(): """GetBroadcasterClass() -> str""" return _lldb.SBCommandInterpreter_GetBroadcasterClass() if _newclass:GetBroadcasterClass = staticmethod(GetBroadcasterClass) __swig_getmethods__["GetBroadcasterClass"] = lambda x: GetBroadcasterClass def HasCommands(self): """HasCommands(self) -> bool""" return _lldb.SBCommandInterpreter_HasCommands(self) def HasAliases(self): """HasAliases(self) -> bool""" return _lldb.SBCommandInterpreter_HasAliases(self) def HasAliasOptions(self): """HasAliasOptions(self) -> bool""" return _lldb.SBCommandInterpreter_HasAliasOptions(self) def GetProcess(self): """GetProcess(self) -> SBProcess""" return _lldb.SBCommandInterpreter_GetProcess(self) def GetDebugger(self): """GetDebugger(self) -> SBDebugger""" return _lldb.SBCommandInterpreter_GetDebugger(self) def SourceInitFileInHomeDirectory(self, *args): """SourceInitFileInHomeDirectory(self, SBCommandReturnObject result)""" return _lldb.SBCommandInterpreter_SourceInitFileInHomeDirectory(self, *args) def SourceInitFileInCurrentWorkingDirectory(self, *args): """SourceInitFileInCurrentWorkingDirectory(self, SBCommandReturnObject result)""" return _lldb.SBCommandInterpreter_SourceInitFileInCurrentWorkingDirectory(self, *args) def HandleCommand(self, *args): """ HandleCommand(self, str command_line, SBCommandReturnObject result, bool add_to_history = False) -> ReturnStatus HandleCommand(self, str command_line, SBCommandReturnObject result) -> ReturnStatus HandleCommand(self, str command_line, SBExecutionContext exe_ctx, SBCommandReturnObject result, bool add_to_history = False) -> ReturnStatus HandleCommand(self, str command_line, SBExecutionContext exe_ctx, SBCommandReturnObject result) -> ReturnStatus """ return _lldb.SBCommandInterpreter_HandleCommand(self, *args) def HandleCommandsFromFile(self, *args): """ HandleCommandsFromFile(self, SBFileSpec file, SBExecutionContext override_context, SBCommandInterpreterRunOptions options, SBCommandReturnObject result) """ return _lldb.SBCommandInterpreter_HandleCommandsFromFile(self, *args) def HandleCompletion(self, *args): """ HandleCompletion(self, str current_line, uint32_t cursor_pos, int match_start_point, int max_return_elements, SBStringList matches) -> int """ return _lldb.SBCommandInterpreter_HandleCompletion(self, *args) def IsActive(self): """IsActive(self) -> bool""" return _lldb.SBCommandInterpreter_IsActive(self) SBCommandInterpreter_swigregister = _lldb.SBCommandInterpreter_swigregister SBCommandInterpreter_swigregister(SBCommandInterpreter) def SBCommandInterpreter_GetArgumentTypeAsCString(*args): """SBCommandInterpreter_GetArgumentTypeAsCString(CommandArgumentType arg_type) -> str""" return _lldb.SBCommandInterpreter_GetArgumentTypeAsCString(*args) def SBCommandInterpreter_GetArgumentDescriptionAsCString(*args): """SBCommandInterpreter_GetArgumentDescriptionAsCString(CommandArgumentType arg_type) -> str""" return _lldb.SBCommandInterpreter_GetArgumentDescriptionAsCString(*args) def SBCommandInterpreter_EventIsCommandInterpreterEvent(*args): """SBCommandInterpreter_EventIsCommandInterpreterEvent(SBEvent event) -> bool""" return _lldb.SBCommandInterpreter_EventIsCommandInterpreterEvent(*args) def SBCommandInterpreter_GetBroadcasterClass(): """SBCommandInterpreter_GetBroadcasterClass() -> str""" return _lldb.SBCommandInterpreter_GetBroadcasterClass() class SBCommandReturnObject(_object): """ Represents a container which holds the result from command execution. It works with SBCommandInterpreter.HandleCommand() to encapsulate the result of command execution. See SBCommandInterpreter for example usage of SBCommandReturnObject. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBCommandReturnObject, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBCommandReturnObject, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBCommandReturnObject __init__(self, SBCommandReturnObject rhs) -> SBCommandReturnObject """ this = _lldb.new_SBCommandReturnObject(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBCommandReturnObject __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBCommandReturnObject_IsValid(self) def GetOutputSize(self): """GetOutputSize(self) -> size_t""" return _lldb.SBCommandReturnObject_GetOutputSize(self) def GetErrorSize(self): """GetErrorSize(self) -> size_t""" return _lldb.SBCommandReturnObject_GetErrorSize(self) def GetOutput(self, *args): """ GetOutput(self) -> str GetOutput(self, bool only_if_no_immediate) -> str """ return _lldb.SBCommandReturnObject_GetOutput(self, *args) def GetError(self, *args): """ GetError(self) -> str GetError(self, bool if_no_immediate) -> str """ return _lldb.SBCommandReturnObject_GetError(self, *args) def PutOutput(self, *args): """PutOutput(self, FILE fh) -> size_t""" return _lldb.SBCommandReturnObject_PutOutput(self, *args) def PutError(self, *args): """PutError(self, FILE fh) -> size_t""" return _lldb.SBCommandReturnObject_PutError(self, *args) def Clear(self): """Clear(self)""" return _lldb.SBCommandReturnObject_Clear(self) def SetStatus(self, *args): """SetStatus(self, ReturnStatus status)""" return _lldb.SBCommandReturnObject_SetStatus(self, *args) def SetError(self, *args): """ SetError(self, SBError error, str fallback_error_cstr = None) SetError(self, SBError error) SetError(self, str error_cstr) """ return _lldb.SBCommandReturnObject_SetError(self, *args) def GetStatus(self): """GetStatus(self) -> ReturnStatus""" return _lldb.SBCommandReturnObject_GetStatus(self) def Succeeded(self): """Succeeded(self) -> bool""" return _lldb.SBCommandReturnObject_Succeeded(self) def HasResult(self): """HasResult(self) -> bool""" return _lldb.SBCommandReturnObject_HasResult(self) def AppendMessage(self, *args): """AppendMessage(self, str message)""" return _lldb.SBCommandReturnObject_AppendMessage(self, *args) def AppendWarning(self, *args): """AppendWarning(self, str message)""" return _lldb.SBCommandReturnObject_AppendWarning(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBCommandReturnObject_GetDescription(self, *args) def SetImmediateOutputFile(self, *args): """SetImmediateOutputFile(self, FILE fh)""" return _lldb.SBCommandReturnObject_SetImmediateOutputFile(self, *args) def SetImmediateErrorFile(self, *args): """SetImmediateErrorFile(self, FILE fh)""" return _lldb.SBCommandReturnObject_SetImmediateErrorFile(self, *args) def PutCString(self, *args): """PutCString(self, str string)""" return _lldb.SBCommandReturnObject_PutCString(self, *args) def Print(self, *args): """Print(self, str str)""" return _lldb.SBCommandReturnObject_Print(self, *args) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBCommandReturnObject___str__(self) def write(self, *args): """write(self, str str)""" return _lldb.SBCommandReturnObject_write(self, *args) def flush(self): """flush(self)""" return _lldb.SBCommandReturnObject_flush(self) SBCommandReturnObject_swigregister = _lldb.SBCommandReturnObject_swigregister SBCommandReturnObject_swigregister(SBCommandReturnObject) class SBCommunication(_object): """Proxy of C++ lldb::SBCommunication class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBCommunication, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBCommunication, name) __repr__ = _swig_repr eBroadcastBitDisconnected = _lldb.SBCommunication_eBroadcastBitDisconnected eBroadcastBitReadThreadGotBytes = _lldb.SBCommunication_eBroadcastBitReadThreadGotBytes eBroadcastBitReadThreadDidExit = _lldb.SBCommunication_eBroadcastBitReadThreadDidExit eBroadcastBitReadThreadShouldExit = _lldb.SBCommunication_eBroadcastBitReadThreadShouldExit eBroadcastBitPacketAvailable = _lldb.SBCommunication_eBroadcastBitPacketAvailable eAllEventBits = _lldb.SBCommunication_eAllEventBits def __init__(self, *args): """ __init__(self) -> SBCommunication __init__(self, str broadcaster_name) -> SBCommunication """ this = _lldb.new_SBCommunication(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBCommunication __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBCommunication_IsValid(self) def GetBroadcaster(self): """GetBroadcaster(self) -> SBBroadcaster""" return _lldb.SBCommunication_GetBroadcaster(self) def GetBroadcasterClass(): """GetBroadcasterClass() -> str""" return _lldb.SBCommunication_GetBroadcasterClass() if _newclass:GetBroadcasterClass = staticmethod(GetBroadcasterClass) __swig_getmethods__["GetBroadcasterClass"] = lambda x: GetBroadcasterClass def AdoptFileDesriptor(self, *args): """AdoptFileDesriptor(self, int fd, bool owns_fd) -> ConnectionStatus""" return _lldb.SBCommunication_AdoptFileDesriptor(self, *args) def Connect(self, *args): """Connect(self, str url) -> ConnectionStatus""" return _lldb.SBCommunication_Connect(self, *args) def Disconnect(self): """Disconnect(self) -> ConnectionStatus""" return _lldb.SBCommunication_Disconnect(self) def IsConnected(self): """IsConnected(self) -> bool""" return _lldb.SBCommunication_IsConnected(self) def GetCloseOnEOF(self): """GetCloseOnEOF(self) -> bool""" return _lldb.SBCommunication_GetCloseOnEOF(self) def SetCloseOnEOF(self, *args): """SetCloseOnEOF(self, bool b)""" return _lldb.SBCommunication_SetCloseOnEOF(self, *args) def Read(self, *args): """Read(self, void dst, size_t dst_len, uint32_t timeout_usec, ConnectionStatus status) -> size_t""" return _lldb.SBCommunication_Read(self, *args) def Write(self, *args): """Write(self, void src, size_t src_len, ConnectionStatus status) -> size_t""" return _lldb.SBCommunication_Write(self, *args) def ReadThreadStart(self): """ReadThreadStart(self) -> bool""" return _lldb.SBCommunication_ReadThreadStart(self) def ReadThreadStop(self): """ReadThreadStop(self) -> bool""" return _lldb.SBCommunication_ReadThreadStop(self) def ReadThreadIsRunning(self): """ReadThreadIsRunning(self) -> bool""" return _lldb.SBCommunication_ReadThreadIsRunning(self) def SetReadThreadBytesReceivedCallback(self, *args): """SetReadThreadBytesReceivedCallback(self, ReadThreadBytesReceived callback, void callback_baton) -> bool""" return _lldb.SBCommunication_SetReadThreadBytesReceivedCallback(self, *args) SBCommunication_swigregister = _lldb.SBCommunication_swigregister SBCommunication_swigregister(SBCommunication) def SBCommunication_GetBroadcasterClass(): """SBCommunication_GetBroadcasterClass() -> str""" return _lldb.SBCommunication_GetBroadcasterClass() class SBCompileUnit(_object): """ Represents a compilation unit, or compiled source file. SBCompileUnit supports line entry iteration. For example, # Now get the SBSymbolContext from this frame. We want everything. :-) context = frame0.GetSymbolContext(lldb.eSymbolContextEverything) ... compileUnit = context.GetCompileUnit() for lineEntry in compileUnit: print('line entry: %s:%d' % (str(lineEntry.GetFileSpec()), lineEntry.GetLine())) print('start addr: %s' % str(lineEntry.GetStartAddress())) print('end addr: %s' % str(lineEntry.GetEndAddress())) produces: line entry: /Volumes/data/lldb/svn/trunk/test/python_api/symbol-context/main.c:20 start addr: a.out[0x100000d98] end addr: a.out[0x100000da3] line entry: /Volumes/data/lldb/svn/trunk/test/python_api/symbol-context/main.c:21 start addr: a.out[0x100000da3] end addr: a.out[0x100000da9] line entry: /Volumes/data/lldb/svn/trunk/test/python_api/symbol-context/main.c:22 start addr: a.out[0x100000da9] end addr: a.out[0x100000db6] line entry: /Volumes/data/lldb/svn/trunk/test/python_api/symbol-context/main.c:23 start addr: a.out[0x100000db6] end addr: a.out[0x100000dbc] ... See also SBSymbolContext and SBLineEntry """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBCompileUnit, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBCompileUnit, name) __repr__ = _swig_repr def __iter__(self): return lldb_iter(self, 'GetNumLineEntries', 'GetLineEntryAtIndex') def __len__(self): return self.GetNumLineEntries() def __init__(self, *args): """ __init__(self) -> SBCompileUnit __init__(self, SBCompileUnit rhs) -> SBCompileUnit """ this = _lldb.new_SBCompileUnit(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBCompileUnit __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBCompileUnit_IsValid(self) def GetFileSpec(self): """GetFileSpec(self) -> SBFileSpec""" return _lldb.SBCompileUnit_GetFileSpec(self) def GetNumLineEntries(self): """GetNumLineEntries(self) -> uint32_t""" return _lldb.SBCompileUnit_GetNumLineEntries(self) def GetLineEntryAtIndex(self, *args): """GetLineEntryAtIndex(self, uint32_t idx) -> SBLineEntry""" return _lldb.SBCompileUnit_GetLineEntryAtIndex(self, *args) def FindLineEntryIndex(self, *args): """ FindLineEntryIndex(self, uint32_t start_idx, uint32_t line, SBFileSpec inline_file_spec) -> uint32_t FindLineEntryIndex(self, uint32_t start_idx, uint32_t line, SBFileSpec inline_file_spec, bool exact) -> uint32_t """ return _lldb.SBCompileUnit_FindLineEntryIndex(self, *args) def GetSupportFileAtIndex(self, *args): """GetSupportFileAtIndex(self, uint32_t idx) -> SBFileSpec""" return _lldb.SBCompileUnit_GetSupportFileAtIndex(self, *args) def GetNumSupportFiles(self): """GetNumSupportFiles(self) -> uint32_t""" return _lldb.SBCompileUnit_GetNumSupportFiles(self) def FindSupportFileIndex(self, *args): """FindSupportFileIndex(self, uint32_t start_idx, SBFileSpec sb_file, bool full) -> uint32_t""" return _lldb.SBCompileUnit_FindSupportFileIndex(self, *args) def GetTypes(self, *args): """ GetTypes(self, uint32_t type_mask = eTypeClassAny) -> SBTypeList GetTypes(self) -> SBTypeList Get all types matching type_mask from debug info in this compile unit. @param[in] type_mask A bitfield that consists of one or more bits logically OR'ed together from the lldb::TypeClass enumeration. This allows you to request only structure types, or only class, struct and union types. Passing in lldb::eTypeClassAny will return all types found in the debug information for this compile unit. @return A list of types in this compile unit that match type_mask """ return _lldb.SBCompileUnit_GetTypes(self, *args) def GetLanguage(self): """GetLanguage(self) -> LanguageType""" return _lldb.SBCompileUnit_GetLanguage(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBCompileUnit_GetDescription(self, *args) def __eq__(self, *args): """__eq__(self, SBCompileUnit rhs) -> bool""" return _lldb.SBCompileUnit___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBCompileUnit rhs) -> bool""" return _lldb.SBCompileUnit___ne__(self, *args) __swig_getmethods__["file"] = GetFileSpec if _newclass: file = property(GetFileSpec, None, doc='''A read only property that returns the same result an lldb object that represents the source file (lldb.SBFileSpec) for the compile unit.''') __swig_getmethods__["num_line_entries"] = GetNumLineEntries if _newclass: num_line_entries = property(GetNumLineEntries, None, doc='''A read only property that returns the number of line entries in a compile unit as an integer.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBCompileUnit___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBCompileUnit_swigregister = _lldb.SBCompileUnit_swigregister SBCompileUnit_swigregister(SBCompileUnit) class SBData(_object): """Proxy of C++ lldb::SBData class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBData, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBData, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBData __init__(self, SBData rhs) -> SBData """ this = _lldb.new_SBData(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBData __del__ = lambda self : None; def GetAddressByteSize(self): """GetAddressByteSize(self) -> uint8_t""" return _lldb.SBData_GetAddressByteSize(self) def SetAddressByteSize(self, *args): """SetAddressByteSize(self, uint8_t addr_byte_size)""" return _lldb.SBData_SetAddressByteSize(self, *args) def Clear(self): """Clear(self)""" return _lldb.SBData_Clear(self) def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBData_IsValid(self) def GetByteSize(self): """GetByteSize(self) -> size_t""" return _lldb.SBData_GetByteSize(self) def GetByteOrder(self): """GetByteOrder(self) -> ByteOrder""" return _lldb.SBData_GetByteOrder(self) def SetByteOrder(self, *args): """SetByteOrder(self, ByteOrder endian)""" return _lldb.SBData_SetByteOrder(self, *args) def GetFloat(self, *args): """GetFloat(self, SBError error, offset_t offset) -> float""" return _lldb.SBData_GetFloat(self, *args) def GetDouble(self, *args): """GetDouble(self, SBError error, offset_t offset) -> double""" return _lldb.SBData_GetDouble(self, *args) def GetLongDouble(self, *args): """GetLongDouble(self, SBError error, offset_t offset) -> long double""" return _lldb.SBData_GetLongDouble(self, *args) def GetAddress(self, *args): """GetAddress(self, SBError error, offset_t offset) -> addr_t""" return _lldb.SBData_GetAddress(self, *args) def GetUnsignedInt8(self, *args): """GetUnsignedInt8(self, SBError error, offset_t offset) -> uint8_t""" return _lldb.SBData_GetUnsignedInt8(self, *args) def GetUnsignedInt16(self, *args): """GetUnsignedInt16(self, SBError error, offset_t offset) -> uint16_t""" return _lldb.SBData_GetUnsignedInt16(self, *args) def GetUnsignedInt32(self, *args): """GetUnsignedInt32(self, SBError error, offset_t offset) -> uint32_t""" return _lldb.SBData_GetUnsignedInt32(self, *args) def GetUnsignedInt64(self, *args): """GetUnsignedInt64(self, SBError error, offset_t offset) -> uint64_t""" return _lldb.SBData_GetUnsignedInt64(self, *args) def GetSignedInt8(self, *args): """GetSignedInt8(self, SBError error, offset_t offset) -> int8_t""" return _lldb.SBData_GetSignedInt8(self, *args) def GetSignedInt16(self, *args): """GetSignedInt16(self, SBError error, offset_t offset) -> int16_t""" return _lldb.SBData_GetSignedInt16(self, *args) def GetSignedInt32(self, *args): """GetSignedInt32(self, SBError error, offset_t offset) -> int32_t""" return _lldb.SBData_GetSignedInt32(self, *args) def GetSignedInt64(self, *args): """GetSignedInt64(self, SBError error, offset_t offset) -> int64_t""" return _lldb.SBData_GetSignedInt64(self, *args) def GetString(self, *args): """GetString(self, SBError error, offset_t offset) -> str""" return _lldb.SBData_GetString(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description, addr_t base_addr) -> bool""" return _lldb.SBData_GetDescription(self, *args) def ReadRawData(self, *args): """ReadRawData(self, SBError error, offset_t offset, void buf) -> size_t""" return _lldb.SBData_ReadRawData(self, *args) def SetData(self, *args): """SetData(self, SBError error, void buf, ByteOrder endian, uint8_t addr_size)""" return _lldb.SBData_SetData(self, *args) def Append(self, *args): """Append(self, SBData rhs) -> bool""" return _lldb.SBData_Append(self, *args) def CreateDataFromCString(*args): """CreateDataFromCString(ByteOrder endian, uint32_t addr_byte_size, str data) -> SBData""" return _lldb.SBData_CreateDataFromCString(*args) if _newclass:CreateDataFromCString = staticmethod(CreateDataFromCString) __swig_getmethods__["CreateDataFromCString"] = lambda x: CreateDataFromCString def CreateDataFromUInt64Array(*args): """CreateDataFromUInt64Array(ByteOrder endian, uint32_t addr_byte_size, uint64_t array) -> SBData""" return _lldb.SBData_CreateDataFromUInt64Array(*args) if _newclass:CreateDataFromUInt64Array = staticmethod(CreateDataFromUInt64Array) __swig_getmethods__["CreateDataFromUInt64Array"] = lambda x: CreateDataFromUInt64Array def CreateDataFromUInt32Array(*args): """CreateDataFromUInt32Array(ByteOrder endian, uint32_t addr_byte_size, uint32_t array) -> SBData""" return _lldb.SBData_CreateDataFromUInt32Array(*args) if _newclass:CreateDataFromUInt32Array = staticmethod(CreateDataFromUInt32Array) __swig_getmethods__["CreateDataFromUInt32Array"] = lambda x: CreateDataFromUInt32Array def CreateDataFromSInt64Array(*args): """CreateDataFromSInt64Array(ByteOrder endian, uint32_t addr_byte_size, int64_t array) -> SBData""" return _lldb.SBData_CreateDataFromSInt64Array(*args) if _newclass:CreateDataFromSInt64Array = staticmethod(CreateDataFromSInt64Array) __swig_getmethods__["CreateDataFromSInt64Array"] = lambda x: CreateDataFromSInt64Array def CreateDataFromSInt32Array(*args): """CreateDataFromSInt32Array(ByteOrder endian, uint32_t addr_byte_size, int32_t array) -> SBData""" return _lldb.SBData_CreateDataFromSInt32Array(*args) if _newclass:CreateDataFromSInt32Array = staticmethod(CreateDataFromSInt32Array) __swig_getmethods__["CreateDataFromSInt32Array"] = lambda x: CreateDataFromSInt32Array def CreateDataFromDoubleArray(*args): """CreateDataFromDoubleArray(ByteOrder endian, uint32_t addr_byte_size, double array) -> SBData""" return _lldb.SBData_CreateDataFromDoubleArray(*args) if _newclass:CreateDataFromDoubleArray = staticmethod(CreateDataFromDoubleArray) __swig_getmethods__["CreateDataFromDoubleArray"] = lambda x: CreateDataFromDoubleArray def SetDataFromCString(self, *args): """SetDataFromCString(self, str data) -> bool""" return _lldb.SBData_SetDataFromCString(self, *args) def SetDataFromUInt64Array(self, *args): """SetDataFromUInt64Array(self, uint64_t array) -> bool""" return _lldb.SBData_SetDataFromUInt64Array(self, *args) def SetDataFromUInt32Array(self, *args): """SetDataFromUInt32Array(self, uint32_t array) -> bool""" return _lldb.SBData_SetDataFromUInt32Array(self, *args) def SetDataFromSInt64Array(self, *args): """SetDataFromSInt64Array(self, int64_t array) -> bool""" return _lldb.SBData_SetDataFromSInt64Array(self, *args) def SetDataFromSInt32Array(self, *args): """SetDataFromSInt32Array(self, int32_t array) -> bool""" return _lldb.SBData_SetDataFromSInt32Array(self, *args) def SetDataFromDoubleArray(self, *args): """SetDataFromDoubleArray(self, double array) -> bool""" return _lldb.SBData_SetDataFromDoubleArray(self, *args) class read_data_helper: def __init__(self, sbdata, readerfunc, item_size): self.sbdata = sbdata self.readerfunc = readerfunc self.item_size = item_size def __getitem__(self,key): if isinstance(key,slice): list = [] for x in range(*key.indices(self.__len__())): list.append(self.__getitem__(x)) return list if not (isinstance(key,six.integer_types)): raise TypeError('must be int') key = key * self.item_size # SBData uses byte-based indexes, but we want to use itemsize-based indexes here error = SBError() my_data = self.readerfunc(self.sbdata,error,key) if error.Fail(): raise IndexError(error.GetCString()) else: return my_data def __len__(self): return int(self.sbdata.GetByteSize()/self.item_size) def all(self): return self[0:len(self)] @classmethod def CreateDataFromInt (cls, value, size = None, target = None, ptr_size = None, endian = None): import sys lldbmodule = sys.modules[cls.__module__] lldbdict = lldbmodule.__dict__ if 'target' in lldbdict: lldbtarget = lldbdict['target'] else: lldbtarget = None if target == None and lldbtarget != None and lldbtarget.IsValid(): target = lldbtarget if ptr_size == None: if target and target.IsValid(): ptr_size = target.addr_size else: ptr_size = 8 if endian == None: if target and target.IsValid(): endian = target.byte_order else: endian = lldbdict['eByteOrderLittle'] if size == None: if value > 2147483647: size = 8 elif value < -2147483648: size = 8 elif value > 4294967295: size = 8 else: size = 4 if size == 4: if value < 0: return SBData().CreateDataFromSInt32Array(endian, ptr_size, [value]) return SBData().CreateDataFromUInt32Array(endian, ptr_size, [value]) if size == 8: if value < 0: return SBData().CreateDataFromSInt64Array(endian, ptr_size, [value]) return SBData().CreateDataFromUInt64Array(endian, ptr_size, [value]) return None def _make_helper(self, sbdata, getfunc, itemsize): return self.read_data_helper(sbdata, getfunc, itemsize) def _make_helper_uint8(self): return self._make_helper(self, SBData.GetUnsignedInt8, 1) def _make_helper_uint16(self): return self._make_helper(self, SBData.GetUnsignedInt16, 2) def _make_helper_uint32(self): return self._make_helper(self, SBData.GetUnsignedInt32, 4) def _make_helper_uint64(self): return self._make_helper(self, SBData.GetUnsignedInt64, 8) def _make_helper_sint8(self): return self._make_helper(self, SBData.GetSignedInt8, 1) def _make_helper_sint16(self): return self._make_helper(self, SBData.GetSignedInt16, 2) def _make_helper_sint32(self): return self._make_helper(self, SBData.GetSignedInt32, 4) def _make_helper_sint64(self): return self._make_helper(self, SBData.GetSignedInt64, 8) def _make_helper_float(self): return self._make_helper(self, SBData.GetFloat, 4) def _make_helper_double(self): return self._make_helper(self, SBData.GetDouble, 8) def _read_all_uint8(self): return self._make_helper_uint8().all() def _read_all_uint16(self): return self._make_helper_uint16().all() def _read_all_uint32(self): return self._make_helper_uint32().all() def _read_all_uint64(self): return self._make_helper_uint64().all() def _read_all_sint8(self): return self._make_helper_sint8().all() def _read_all_sint16(self): return self._make_helper_sint16().all() def _read_all_sint32(self): return self._make_helper_sint32().all() def _read_all_sint64(self): return self._make_helper_sint64().all() def _read_all_float(self): return self._make_helper_float().all() def _read_all_double(self): return self._make_helper_double().all() __swig_getmethods__["uint8"] = _make_helper_uint8 if _newclass: uint8 = property(_make_helper_uint8, None, doc='''A read only property that returns an array-like object out of which you can read uint8 values.''') __swig_getmethods__["uint16"] = _make_helper_uint16 if _newclass: uint16 = property(_make_helper_uint16, None, doc='''A read only property that returns an array-like object out of which you can read uint16 values.''') __swig_getmethods__["uint32"] = _make_helper_uint32 if _newclass: uint32 = property(_make_helper_uint32, None, doc='''A read only property that returns an array-like object out of which you can read uint32 values.''') __swig_getmethods__["uint64"] = _make_helper_uint64 if _newclass: uint64 = property(_make_helper_uint64, None, doc='''A read only property that returns an array-like object out of which you can read uint64 values.''') __swig_getmethods__["sint8"] = _make_helper_sint8 if _newclass: sint8 = property(_make_helper_sint8, None, doc='''A read only property that returns an array-like object out of which you can read sint8 values.''') __swig_getmethods__["sint16"] = _make_helper_sint16 if _newclass: sint16 = property(_make_helper_sint16, None, doc='''A read only property that returns an array-like object out of which you can read sint16 values.''') __swig_getmethods__["sint32"] = _make_helper_sint32 if _newclass: sint32 = property(_make_helper_sint32, None, doc='''A read only property that returns an array-like object out of which you can read sint32 values.''') __swig_getmethods__["sint64"] = _make_helper_sint64 if _newclass: sint64 = property(_make_helper_sint64, None, doc='''A read only property that returns an array-like object out of which you can read sint64 values.''') __swig_getmethods__["float"] = _make_helper_float if _newclass: float = property(_make_helper_float, None, doc='''A read only property that returns an array-like object out of which you can read float values.''') __swig_getmethods__["double"] = _make_helper_double if _newclass: double = property(_make_helper_double, None, doc='''A read only property that returns an array-like object out of which you can read double values.''') __swig_getmethods__["uint8s"] = _read_all_uint8 if _newclass: uint8s = property(_read_all_uint8, None, doc='''A read only property that returns an array with all the contents of this SBData represented as uint8 values.''') __swig_getmethods__["uint16s"] = _read_all_uint16 if _newclass: uint16s = property(_read_all_uint16, None, doc='''A read only property that returns an array with all the contents of this SBData represented as uint16 values.''') __swig_getmethods__["uint32s"] = _read_all_uint32 if _newclass: uint32s = property(_read_all_uint32, None, doc='''A read only property that returns an array with all the contents of this SBData represented as uint32 values.''') __swig_getmethods__["uint64s"] = _read_all_uint64 if _newclass: uint64s = property(_read_all_uint64, None, doc='''A read only property that returns an array with all the contents of this SBData represented as uint64 values.''') __swig_getmethods__["sint8s"] = _read_all_sint8 if _newclass: sint8s = property(_read_all_sint8, None, doc='''A read only property that returns an array with all the contents of this SBData represented as sint8 values.''') __swig_getmethods__["sint16s"] = _read_all_sint16 if _newclass: sint16s = property(_read_all_sint16, None, doc='''A read only property that returns an array with all the contents of this SBData represented as sint16 values.''') __swig_getmethods__["sint32s"] = _read_all_sint32 if _newclass: sint32s = property(_read_all_sint32, None, doc='''A read only property that returns an array with all the contents of this SBData represented as sint32 values.''') __swig_getmethods__["sint64s"] = _read_all_sint64 if _newclass: sint64s = property(_read_all_sint64, None, doc='''A read only property that returns an array with all the contents of this SBData represented as sint64 values.''') __swig_getmethods__["floats"] = _read_all_float if _newclass: floats = property(_read_all_float, None, doc='''A read only property that returns an array with all the contents of this SBData represented as float values.''') __swig_getmethods__["doubles"] = _read_all_double if _newclass: doubles = property(_read_all_double, None, doc='''A read only property that returns an array with all the contents of this SBData represented as double values.''') __swig_getmethods__["byte_order"] = GetByteOrder __swig_setmethods__["byte_order"] = SetByteOrder if _newclass: byte_order = property(GetByteOrder, SetByteOrder, doc='''A read/write property getting and setting the endianness of this SBData (data.byte_order = lldb.eByteOrderLittle).''') __swig_getmethods__["size"] = GetByteSize if _newclass: size = property(GetByteSize, None, doc='''A read only property that returns the size the same result as GetByteSize().''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBData___str__(self) SBData_swigregister = _lldb.SBData_swigregister SBData_swigregister(SBData) def SBData_CreateDataFromCString(*args): """SBData_CreateDataFromCString(ByteOrder endian, uint32_t addr_byte_size, str data) -> SBData""" return _lldb.SBData_CreateDataFromCString(*args) def SBData_CreateDataFromUInt64Array(*args): """SBData_CreateDataFromUInt64Array(ByteOrder endian, uint32_t addr_byte_size, uint64_t array) -> SBData""" return _lldb.SBData_CreateDataFromUInt64Array(*args) def SBData_CreateDataFromUInt32Array(*args): """SBData_CreateDataFromUInt32Array(ByteOrder endian, uint32_t addr_byte_size, uint32_t array) -> SBData""" return _lldb.SBData_CreateDataFromUInt32Array(*args) def SBData_CreateDataFromSInt64Array(*args): """SBData_CreateDataFromSInt64Array(ByteOrder endian, uint32_t addr_byte_size, int64_t array) -> SBData""" return _lldb.SBData_CreateDataFromSInt64Array(*args) def SBData_CreateDataFromSInt32Array(*args): """SBData_CreateDataFromSInt32Array(ByteOrder endian, uint32_t addr_byte_size, int32_t array) -> SBData""" return _lldb.SBData_CreateDataFromSInt32Array(*args) def SBData_CreateDataFromDoubleArray(*args): """SBData_CreateDataFromDoubleArray(ByteOrder endian, uint32_t addr_byte_size, double array) -> SBData""" return _lldb.SBData_CreateDataFromDoubleArray(*args) class SBDebugger(_object): """ SBDebugger is the primordial object that creates SBTargets and provides access to them. It also manages the overall debugging experiences. For example (from example/disasm.py), import lldb import os import sys def disassemble_instructions (insts): for i in insts: print i ... # Create a new debugger instance debugger = lldb.SBDebugger.Create() # When we step or continue, don't return from the function until the process # stops. We do this by setting the async mode to false. debugger.SetAsync (False) # Create a target from a file and arch print('Creating a target for '%s'' % exe) target = debugger.CreateTargetWithFileAndArch (exe, lldb.LLDB_ARCH_DEFAULT) if target: # If the target is valid set a breakpoint at main main_bp = target.BreakpointCreateByName (fname, target.GetExecutable().GetFilename()); print main_bp # Launch the process. Since we specified synchronous mode, we won't return # from this function until we hit the breakpoint at main process = target.LaunchSimple (None, None, os.getcwd()) # Make sure the launch went ok if process: # Print some simple process info state = process.GetState () print process if state == lldb.eStateStopped: # Get the first thread thread = process.GetThreadAtIndex (0) if thread: # Print some simple thread info print thread # Get the first frame frame = thread.GetFrameAtIndex (0) if frame: # Print some simple frame info print frame function = frame.GetFunction() # See if we have debug info (a function) if function: # We do have a function, print some info for the function print function # Now get all instructions for this function and print them insts = function.GetInstructions(target) disassemble_instructions (insts) else: # See if we have a symbol in the symbol table for where we stopped symbol = frame.GetSymbol(); if symbol: # We do have a symbol, print some info for the symbol print symbol # Now get all instructions for this symbol and print them insts = symbol.GetInstructions(target) disassemble_instructions (insts) registerList = frame.GetRegisters() print('Frame registers (size of register set = %d):' % registerList.GetSize()) for value in registerList: #print value print('%s (number of children = %d):' % (value.GetName(), value.GetNumChildren())) for child in value: print('Name: ', child.GetName(), ' Value: ', child.GetValue()) print('Hit the breakpoint at main, enter to continue and wait for program to exit or 'Ctrl-D'/'quit' to terminate the program') next = sys.stdin.readline() if not next or next.rstrip(' ') == 'quit': print('Terminating the inferior process...') process.Kill() else: # Now continue to the program exit process.Continue() # When we return from the above function we will hopefully be at the # program exit. Print out some process info print process elif state == lldb.eStateExited: print('Didn't hit the breakpoint at main, program has exited...') else: print('Unexpected process state: %s, killing process...' % debugger.StateAsCString (state)) process.Kill() """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBDebugger, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBDebugger, name) __repr__ = _swig_repr def Initialize(): """Initialize()""" return _lldb.SBDebugger_Initialize() if _newclass:Initialize = staticmethod(Initialize) __swig_getmethods__["Initialize"] = lambda x: Initialize def Terminate(): """Terminate()""" return _lldb.SBDebugger_Terminate() if _newclass:Terminate = staticmethod(Terminate) __swig_getmethods__["Terminate"] = lambda x: Terminate def Create(*args): """ Create() -> SBDebugger Create(bool source_init_files) -> SBDebugger Create(bool source_init_files, LogOutputCallback log_callback) -> SBDebugger """ return _lldb.SBDebugger_Create(*args) if _newclass:Create = staticmethod(Create) __swig_getmethods__["Create"] = lambda x: Create def Destroy(*args): """Destroy(SBDebugger debugger)""" return _lldb.SBDebugger_Destroy(*args) if _newclass:Destroy = staticmethod(Destroy) __swig_getmethods__["Destroy"] = lambda x: Destroy def MemoryPressureDetected(): """MemoryPressureDetected()""" return _lldb.SBDebugger_MemoryPressureDetected() if _newclass:MemoryPressureDetected = staticmethod(MemoryPressureDetected) __swig_getmethods__["MemoryPressureDetected"] = lambda x: MemoryPressureDetected def __iter__(self): return lldb_iter(self, 'GetNumTargets', 'GetTargetAtIndex') def __len__(self): return self.GetNumTargets() def __init__(self, *args): """ __init__(self) -> SBDebugger __init__(self, SBDebugger rhs) -> SBDebugger """ this = _lldb.new_SBDebugger(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBDebugger __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBDebugger_IsValid(self) def Clear(self): """Clear(self)""" return _lldb.SBDebugger_Clear(self) def SetAsync(self, *args): """SetAsync(self, bool b)""" return _lldb.SBDebugger_SetAsync(self, *args) def GetAsync(self): """GetAsync(self) -> bool""" return _lldb.SBDebugger_GetAsync(self) def SkipLLDBInitFiles(self, *args): """SkipLLDBInitFiles(self, bool b)""" return _lldb.SBDebugger_SkipLLDBInitFiles(self, *args) def SetInputFileHandle(self, *args): """SetInputFileHandle(self, FILE f, bool transfer_ownership)""" return _lldb.SBDebugger_SetInputFileHandle(self, *args) def SetOutputFileHandle(self, *args): """SetOutputFileHandle(self, FILE f, bool transfer_ownership)""" return _lldb.SBDebugger_SetOutputFileHandle(self, *args) def SetErrorFileHandle(self, *args): """SetErrorFileHandle(self, FILE f, bool transfer_ownership)""" return _lldb.SBDebugger_SetErrorFileHandle(self, *args) def GetInputFileHandle(self): """GetInputFileHandle(self) -> FILE""" return _lldb.SBDebugger_GetInputFileHandle(self) def GetOutputFileHandle(self): """GetOutputFileHandle(self) -> FILE""" return _lldb.SBDebugger_GetOutputFileHandle(self) def GetErrorFileHandle(self): """GetErrorFileHandle(self) -> FILE""" return _lldb.SBDebugger_GetErrorFileHandle(self) def GetCommandInterpreter(self): """GetCommandInterpreter(self) -> SBCommandInterpreter""" return _lldb.SBDebugger_GetCommandInterpreter(self) def HandleCommand(self, *args): """HandleCommand(self, str command)""" return _lldb.SBDebugger_HandleCommand(self, *args) def GetListener(self): """GetListener(self) -> SBListener""" return _lldb.SBDebugger_GetListener(self) def HandleProcessEvent(self, *args): """HandleProcessEvent(self, SBProcess process, SBEvent event, FILE out, FILE err)""" return _lldb.SBDebugger_HandleProcessEvent(self, *args) def CreateTargetWithFileAndTargetTriple(self, *args): """CreateTargetWithFileAndTargetTriple(self, str filename, str target_triple) -> SBTarget""" return _lldb.SBDebugger_CreateTargetWithFileAndTargetTriple(self, *args) def CreateTargetWithFileAndArch(self, *args): """CreateTargetWithFileAndArch(self, str filename, str archname) -> SBTarget""" return _lldb.SBDebugger_CreateTargetWithFileAndArch(self, *args) def CreateTarget(self, *args): """ CreateTarget(self, str filename, str target_triple, str platform_name, bool add_dependent_modules, SBError sb_error) -> SBTarget CreateTarget(self, str filename) -> SBTarget """ return _lldb.SBDebugger_CreateTarget(self, *args) def DeleteTarget(self, *args): """ DeleteTarget(self, SBTarget target) -> bool Return true if target is deleted from the target list of the debugger. """ return _lldb.SBDebugger_DeleteTarget(self, *args) def GetTargetAtIndex(self, *args): """GetTargetAtIndex(self, uint32_t idx) -> SBTarget""" return _lldb.SBDebugger_GetTargetAtIndex(self, *args) def GetIndexOfTarget(self, *args): """GetIndexOfTarget(self, SBTarget target) -> uint32_t""" return _lldb.SBDebugger_GetIndexOfTarget(self, *args) def FindTargetWithProcessID(self, *args): """FindTargetWithProcessID(self, pid_t pid) -> SBTarget""" return _lldb.SBDebugger_FindTargetWithProcessID(self, *args) def FindTargetWithFileAndArch(self, *args): """FindTargetWithFileAndArch(self, str filename, str arch) -> SBTarget""" return _lldb.SBDebugger_FindTargetWithFileAndArch(self, *args) def GetNumTargets(self): """GetNumTargets(self) -> uint32_t""" return _lldb.SBDebugger_GetNumTargets(self) def GetSelectedTarget(self): """GetSelectedTarget(self) -> SBTarget""" return _lldb.SBDebugger_GetSelectedTarget(self) def SetSelectedTarget(self, *args): """SetSelectedTarget(self, SBTarget target)""" return _lldb.SBDebugger_SetSelectedTarget(self, *args) def GetSelectedPlatform(self): """GetSelectedPlatform(self) -> SBPlatform""" return _lldb.SBDebugger_GetSelectedPlatform(self) def SetSelectedPlatform(self, *args): """SetSelectedPlatform(self, SBPlatform platform)""" return _lldb.SBDebugger_SetSelectedPlatform(self, *args) def GetSourceManager(self): """GetSourceManager(self) -> SBSourceManager""" return _lldb.SBDebugger_GetSourceManager(self) def SetCurrentPlatform(self, *args): """SetCurrentPlatform(self, str platform_name) -> SBError""" return _lldb.SBDebugger_SetCurrentPlatform(self, *args) def SetCurrentPlatformSDKRoot(self, *args): """SetCurrentPlatformSDKRoot(self, str sysroot) -> bool""" return _lldb.SBDebugger_SetCurrentPlatformSDKRoot(self, *args) def SetUseExternalEditor(self, *args): """SetUseExternalEditor(self, bool input) -> bool""" return _lldb.SBDebugger_SetUseExternalEditor(self, *args) def GetUseExternalEditor(self): """GetUseExternalEditor(self) -> bool""" return _lldb.SBDebugger_GetUseExternalEditor(self) def SetUseColor(self, *args): """SetUseColor(self, bool use_color) -> bool""" return _lldb.SBDebugger_SetUseColor(self, *args) def GetUseColor(self): """GetUseColor(self) -> bool""" return _lldb.SBDebugger_GetUseColor(self) def GetDefaultArchitecture(*args): """GetDefaultArchitecture(str arch_name, size_t arch_name_len) -> bool""" return _lldb.SBDebugger_GetDefaultArchitecture(*args) if _newclass:GetDefaultArchitecture = staticmethod(GetDefaultArchitecture) __swig_getmethods__["GetDefaultArchitecture"] = lambda x: GetDefaultArchitecture def SetDefaultArchitecture(*args): """SetDefaultArchitecture(str arch_name) -> bool""" return _lldb.SBDebugger_SetDefaultArchitecture(*args) if _newclass:SetDefaultArchitecture = staticmethod(SetDefaultArchitecture) __swig_getmethods__["SetDefaultArchitecture"] = lambda x: SetDefaultArchitecture def GetScriptingLanguage(self, *args): """GetScriptingLanguage(self, str script_language_name) -> ScriptLanguage""" return _lldb.SBDebugger_GetScriptingLanguage(self, *args) def GetVersionString(): """GetVersionString() -> str""" return _lldb.SBDebugger_GetVersionString() if _newclass:GetVersionString = staticmethod(GetVersionString) __swig_getmethods__["GetVersionString"] = lambda x: GetVersionString def StateAsCString(*args): """StateAsCString(StateType state) -> str""" return _lldb.SBDebugger_StateAsCString(*args) if _newclass:StateAsCString = staticmethod(StateAsCString) __swig_getmethods__["StateAsCString"] = lambda x: StateAsCString def StateIsRunningState(*args): """StateIsRunningState(StateType state) -> bool""" return _lldb.SBDebugger_StateIsRunningState(*args) if _newclass:StateIsRunningState = staticmethod(StateIsRunningState) __swig_getmethods__["StateIsRunningState"] = lambda x: StateIsRunningState def StateIsStoppedState(*args): """StateIsStoppedState(StateType state) -> bool""" return _lldb.SBDebugger_StateIsStoppedState(*args) if _newclass:StateIsStoppedState = staticmethod(StateIsStoppedState) __swig_getmethods__["StateIsStoppedState"] = lambda x: StateIsStoppedState def EnableLog(self, *args): """EnableLog(self, str channel, str types) -> bool""" return _lldb.SBDebugger_EnableLog(self, *args) def SetLoggingCallback(self, *args): """SetLoggingCallback(self, LogOutputCallback log_callback)""" return _lldb.SBDebugger_SetLoggingCallback(self, *args) def DispatchInput(self, *args): """DispatchInput(self, void data)""" return _lldb.SBDebugger_DispatchInput(self, *args) def DispatchInputInterrupt(self): """DispatchInputInterrupt(self)""" return _lldb.SBDebugger_DispatchInputInterrupt(self) def DispatchInputEndOfFile(self): """DispatchInputEndOfFile(self)""" return _lldb.SBDebugger_DispatchInputEndOfFile(self) def GetInstanceName(self): """GetInstanceName(self) -> str""" return _lldb.SBDebugger_GetInstanceName(self) def FindDebuggerWithID(*args): """FindDebuggerWithID(int id) -> SBDebugger""" return _lldb.SBDebugger_FindDebuggerWithID(*args) if _newclass:FindDebuggerWithID = staticmethod(FindDebuggerWithID) __swig_getmethods__["FindDebuggerWithID"] = lambda x: FindDebuggerWithID def SetInternalVariable(*args): """SetInternalVariable(str var_name, str value, str debugger_instance_name) -> SBError""" return _lldb.SBDebugger_SetInternalVariable(*args) if _newclass:SetInternalVariable = staticmethod(SetInternalVariable) __swig_getmethods__["SetInternalVariable"] = lambda x: SetInternalVariable def GetInternalVariableValue(*args): """GetInternalVariableValue(str var_name, str debugger_instance_name) -> SBStringList""" return _lldb.SBDebugger_GetInternalVariableValue(*args) if _newclass:GetInternalVariableValue = staticmethod(GetInternalVariableValue) __swig_getmethods__["GetInternalVariableValue"] = lambda x: GetInternalVariableValue def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBDebugger_GetDescription(self, *args) def GetTerminalWidth(self): """GetTerminalWidth(self) -> uint32_t""" return _lldb.SBDebugger_GetTerminalWidth(self) def SetTerminalWidth(self, *args): """SetTerminalWidth(self, uint32_t term_width)""" return _lldb.SBDebugger_SetTerminalWidth(self, *args) def GetID(self): """GetID(self) -> user_id_t""" return _lldb.SBDebugger_GetID(self) def GetPrompt(self): """GetPrompt(self) -> str""" return _lldb.SBDebugger_GetPrompt(self) def SetPrompt(self, *args): """SetPrompt(self, str prompt)""" return _lldb.SBDebugger_SetPrompt(self, *args) def GetScriptLanguage(self): """GetScriptLanguage(self) -> ScriptLanguage""" return _lldb.SBDebugger_GetScriptLanguage(self) def SetScriptLanguage(self, *args): """SetScriptLanguage(self, ScriptLanguage script_lang)""" return _lldb.SBDebugger_SetScriptLanguage(self, *args) def GetCloseInputOnEOF(self): """GetCloseInputOnEOF(self) -> bool""" return _lldb.SBDebugger_GetCloseInputOnEOF(self) def SetCloseInputOnEOF(self, *args): """SetCloseInputOnEOF(self, bool b)""" return _lldb.SBDebugger_SetCloseInputOnEOF(self, *args) def GetCategory(self, *args): """GetCategory(self, str category_name) -> SBTypeCategory""" return _lldb.SBDebugger_GetCategory(self, *args) def CreateCategory(self, *args): """CreateCategory(self, str category_name) -> SBTypeCategory""" return _lldb.SBDebugger_CreateCategory(self, *args) def DeleteCategory(self, *args): """DeleteCategory(self, str category_name) -> bool""" return _lldb.SBDebugger_DeleteCategory(self, *args) def GetNumCategories(self): """GetNumCategories(self) -> uint32_t""" return _lldb.SBDebugger_GetNumCategories(self) def GetCategoryAtIndex(self, *args): """GetCategoryAtIndex(self, uint32_t arg0) -> SBTypeCategory""" return _lldb.SBDebugger_GetCategoryAtIndex(self, *args) def GetDefaultCategory(self): """GetDefaultCategory(self) -> SBTypeCategory""" return _lldb.SBDebugger_GetDefaultCategory(self) def GetFormatForType(self, *args): """GetFormatForType(self, SBTypeNameSpecifier arg0) -> SBTypeFormat""" return _lldb.SBDebugger_GetFormatForType(self, *args) def GetSummaryForType(self, *args): """GetSummaryForType(self, SBTypeNameSpecifier arg0) -> SBTypeSummary""" return _lldb.SBDebugger_GetSummaryForType(self, *args) def GetFilterForType(self, *args): """GetFilterForType(self, SBTypeNameSpecifier arg0) -> SBTypeFilter""" return _lldb.SBDebugger_GetFilterForType(self, *args) def GetSyntheticForType(self, *args): """GetSyntheticForType(self, SBTypeNameSpecifier arg0) -> SBTypeSynthetic""" return _lldb.SBDebugger_GetSyntheticForType(self, *args) def RunCommandInterpreter(self, *args): """ RunCommandInterpreter(self, bool auto_handle_events, bool spawn_thread, SBCommandInterpreterRunOptions options, int num_errors, bool quit_requested, bool stopped_for_crash) """ return _lldb.SBDebugger_RunCommandInterpreter(self, *args) def RunREPL(self, *args): """RunREPL(self, LanguageType language, str repl_options) -> SBError""" return _lldb.SBDebugger_RunREPL(self, *args) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBDebugger___str__(self) SBDebugger_swigregister = _lldb.SBDebugger_swigregister SBDebugger_swigregister(SBDebugger) def SBDebugger_Initialize(): """SBDebugger_Initialize()""" return _lldb.SBDebugger_Initialize() def SBDebugger_Terminate(): """SBDebugger_Terminate()""" return _lldb.SBDebugger_Terminate() def SBDebugger_Create(*args): """ Create() -> SBDebugger Create(bool source_init_files) -> SBDebugger SBDebugger_Create(bool source_init_files, LogOutputCallback log_callback) -> SBDebugger """ return _lldb.SBDebugger_Create(*args) def SBDebugger_Destroy(*args): """SBDebugger_Destroy(SBDebugger debugger)""" return _lldb.SBDebugger_Destroy(*args) def SBDebugger_MemoryPressureDetected(): """SBDebugger_MemoryPressureDetected()""" return _lldb.SBDebugger_MemoryPressureDetected() def SBDebugger_GetDefaultArchitecture(*args): """SBDebugger_GetDefaultArchitecture(str arch_name, size_t arch_name_len) -> bool""" return _lldb.SBDebugger_GetDefaultArchitecture(*args) def SBDebugger_SetDefaultArchitecture(*args): """SBDebugger_SetDefaultArchitecture(str arch_name) -> bool""" return _lldb.SBDebugger_SetDefaultArchitecture(*args) def SBDebugger_GetVersionString(): """SBDebugger_GetVersionString() -> str""" return _lldb.SBDebugger_GetVersionString() def SBDebugger_StateAsCString(*args): """SBDebugger_StateAsCString(StateType state) -> str""" return _lldb.SBDebugger_StateAsCString(*args) def SBDebugger_StateIsRunningState(*args): """SBDebugger_StateIsRunningState(StateType state) -> bool""" return _lldb.SBDebugger_StateIsRunningState(*args) def SBDebugger_StateIsStoppedState(*args): """SBDebugger_StateIsStoppedState(StateType state) -> bool""" return _lldb.SBDebugger_StateIsStoppedState(*args) def SBDebugger_FindDebuggerWithID(*args): """SBDebugger_FindDebuggerWithID(int id) -> SBDebugger""" return _lldb.SBDebugger_FindDebuggerWithID(*args) def SBDebugger_SetInternalVariable(*args): """SBDebugger_SetInternalVariable(str var_name, str value, str debugger_instance_name) -> SBError""" return _lldb.SBDebugger_SetInternalVariable(*args) def SBDebugger_GetInternalVariableValue(*args): """SBDebugger_GetInternalVariableValue(str var_name, str debugger_instance_name) -> SBStringList""" return _lldb.SBDebugger_GetInternalVariableValue(*args) class SBDeclaration(_object): """Specifies an association with a line and column for a variable.""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBDeclaration, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBDeclaration, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBDeclaration __init__(self, SBDeclaration rhs) -> SBDeclaration """ this = _lldb.new_SBDeclaration(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBDeclaration __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBDeclaration_IsValid(self) def GetFileSpec(self): """GetFileSpec(self) -> SBFileSpec""" return _lldb.SBDeclaration_GetFileSpec(self) def GetLine(self): """GetLine(self) -> uint32_t""" return _lldb.SBDeclaration_GetLine(self) def GetColumn(self): """GetColumn(self) -> uint32_t""" return _lldb.SBDeclaration_GetColumn(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBDeclaration_GetDescription(self, *args) def SetFileSpec(self, *args): """SetFileSpec(self, SBFileSpec filespec)""" return _lldb.SBDeclaration_SetFileSpec(self, *args) def SetLine(self, *args): """SetLine(self, uint32_t line)""" return _lldb.SBDeclaration_SetLine(self, *args) def SetColumn(self, *args): """SetColumn(self, uint32_t column)""" return _lldb.SBDeclaration_SetColumn(self, *args) def __eq__(self, *args): """__eq__(self, SBDeclaration rhs) -> bool""" return _lldb.SBDeclaration___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBDeclaration rhs) -> bool""" return _lldb.SBDeclaration___ne__(self, *args) __swig_getmethods__["file"] = GetFileSpec if _newclass: file = property(GetFileSpec, None, doc='''A read only property that returns an lldb object that represents the file (lldb.SBFileSpec) for this line entry.''') __swig_getmethods__["line"] = GetLine if _newclass: line = property(GetLine, None, doc='''A read only property that returns the 1 based line number for this line entry, a return value of zero indicates that no line information is available.''') __swig_getmethods__["column"] = GetColumn if _newclass: column = property(GetColumn, None, doc='''A read only property that returns the 1 based column number for this line entry, a return value of zero indicates that no column information is available.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBDeclaration___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBDeclaration_swigregister = _lldb.SBDeclaration_swigregister SBDeclaration_swigregister(SBDeclaration) class SBError(_object): """ Represents a container for holding any error code. For example (from test/python_api/hello_world/TestHelloWorld.py), def hello_world_attach_with_id_api(self): '''Create target, spawn a process, and attach to it by id.''' target = self.dbg.CreateTarget(self.exe) # Spawn a new process and don't display the stdout if not in TraceOn() mode. import subprocess popen = subprocess.Popen([self.exe, 'abc', 'xyz'], stdout = open(os.devnull, 'w') if not self.TraceOn() else None) listener = lldb.SBListener('my.attach.listener') error = lldb.SBError() process = target.AttachToProcessWithID(listener, popen.pid, error) self.assertTrue(error.Success() and process, PROCESS_IS_VALID) # Let's check the stack traces of the attached process. import lldbutil stacktraces = lldbutil.print_stacktraces(process, string_buffer=True) self.expect(stacktraces, exe=False, substrs = ['main.c:%d' % self.line2, '(int)argc=3']) listener = lldb.SBListener('my.attach.listener') error = lldb.SBError() process = target.AttachToProcessWithID(listener, popen.pid, error) self.assertTrue(error.Success() and process, PROCESS_IS_VALID) checks that after the attach, there is no error condition by asserting that error.Success() is True and we get back a valid process object. And (from test/python_api/event/TestEvent.py), # Now launch the process, and do not stop at entry point. error = lldb.SBError() process = target.Launch(listener, None, None, None, None, None, None, 0, False, error) self.assertTrue(error.Success() and process, PROCESS_IS_VALID) checks that after calling the target.Launch() method there's no error condition and we get back a void process object. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBError, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBError, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBError __init__(self, SBError rhs) -> SBError """ this = _lldb.new_SBError(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBError __del__ = lambda self : None; def GetCString(self): """GetCString(self) -> str""" return _lldb.SBError_GetCString(self) def Clear(self): """Clear(self)""" return _lldb.SBError_Clear(self) def Fail(self): """Fail(self) -> bool""" return _lldb.SBError_Fail(self) def Success(self): """Success(self) -> bool""" return _lldb.SBError_Success(self) def GetError(self): """GetError(self) -> uint32_t""" return _lldb.SBError_GetError(self) def GetType(self): """GetType(self) -> ErrorType""" return _lldb.SBError_GetType(self) def SetError(self, *args): """SetError(self, uint32_t err, ErrorType type)""" return _lldb.SBError_SetError(self, *args) def SetErrorToErrno(self): """SetErrorToErrno(self)""" return _lldb.SBError_SetErrorToErrno(self) def SetErrorToGenericError(self): """SetErrorToGenericError(self)""" return _lldb.SBError_SetErrorToGenericError(self) def SetErrorString(self, *args): """SetErrorString(self, str err_str)""" return _lldb.SBError_SetErrorString(self, *args) def SetErrorStringWithFormat(self, *args): """ SetErrorStringWithFormat(self, str format, str arg1 = None, str arg2 = None, str str = None, str VARARGS_SENTINEL = None) -> int SetErrorStringWithFormat(self, str format, str arg1 = None, str arg2 = None, str str = None) -> int SetErrorStringWithFormat(self, str format, str arg1 = None, str str = None) -> int SetErrorStringWithFormat(self, str format, str str = None) -> int SetErrorStringWithFormat(self, str format) -> int """ return _lldb.SBError_SetErrorStringWithFormat(self, *args) def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBError_IsValid(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBError_GetDescription(self, *args) __swig_getmethods__["value"] = GetError if _newclass: value = property(GetError, None, doc='''A read only property that returns the same result as GetError().''') __swig_getmethods__["fail"] = Fail if _newclass: fail = property(Fail, None, doc='''A read only property that returns the same result as Fail().''') __swig_getmethods__["success"] = Success if _newclass: success = property(Success, None, doc='''A read only property that returns the same result as Success().''') __swig_getmethods__["description"] = GetCString if _newclass: description = property(GetCString, None, doc='''A read only property that returns the same result as GetCString().''') __swig_getmethods__["type"] = GetType if _newclass: type = property(GetType, None, doc='''A read only property that returns the same result as GetType().''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBError___str__(self) SBError_swigregister = _lldb.SBError_swigregister SBError_swigregister(SBError) class SBEvent(_object): """ API clients can register to receive events. For example, check out the following output: Try wait for event... Event description: 0x103d0bb70 Event: broadcaster = 0x1009c8410, type = 0x00000001, data = { process = 0x1009c8400 (pid = 21528), state = running} Event data flavor: Process::ProcessEventData Process state: running Try wait for event... Event description: 0x103a700a0 Event: broadcaster = 0x1009c8410, type = 0x00000001, data = { process = 0x1009c8400 (pid = 21528), state = stopped} Event data flavor: Process::ProcessEventData Process state: stopped Try wait for event... Event description: 0x103d0d4a0 Event: broadcaster = 0x1009c8410, type = 0x00000001, data = { process = 0x1009c8400 (pid = 21528), state = exited} Event data flavor: Process::ProcessEventData Process state: exited Try wait for event... timeout occurred waiting for event... from test/python_api/event/TestEventspy: def do_listen_for_and_print_event(self): '''Create a listener and use SBEvent API to print the events received.''' exe = os.path.join(os.getcwd(), 'a.out') # Create a target by the debugger. target = self.dbg.CreateTarget(exe) self.assertTrue(target, VALID_TARGET) # Now create a breakpoint on main.c by name 'c'. breakpoint = target.BreakpointCreateByName('c', 'a.out') # Now launch the process, and do not stop at the entry point. process = target.LaunchSimple(None, None, os.getcwd()) self.assertTrue(process.GetState() == lldb.eStateStopped, PROCESS_STOPPED) # Get a handle on the process's broadcaster. broadcaster = process.GetBroadcaster() # Create an empty event object. event = lldb.SBEvent() # Create a listener object and register with the broadcaster. listener = lldb.SBListener('my listener') rc = broadcaster.AddListener(listener, lldb.SBProcess.eBroadcastBitStateChanged) self.assertTrue(rc, 'AddListener successfully retruns') traceOn = self.TraceOn() if traceOn: lldbutil.print_stacktraces(process) # Create MyListeningThread class to wait for any kind of event. import threading class MyListeningThread(threading.Thread): def run(self): count = 0 # Let's only try at most 4 times to retrieve any kind of event. # After that, the thread exits. while not count > 3: if traceOn: print('Try wait for event...') if listener.WaitForEventForBroadcasterWithType(5, broadcaster, lldb.SBProcess.eBroadcastBitStateChanged, event): if traceOn: desc = lldbutil.get_description(event)) print('Event description:', desc) print('Event data flavor:', event.GetDataFlavor()) print('Process state:', lldbutil.state_type_to_str(process.GetState())) print() else: if traceOn: print 'timeout occurred waiting for event...' count = count + 1 return # Let's start the listening thread to retrieve the events. my_thread = MyListeningThread() my_thread.start() # Use Python API to continue the process. The listening thread should be # able to receive the state changed events. process.Continue() # Use Python API to kill the process. The listening thread should be # able to receive the state changed event, too. process.Kill() # Wait until the 'MyListeningThread' terminates. my_thread.join() """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBEvent, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBEvent, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBEvent __init__(self, SBEvent rhs) -> SBEvent __init__(self, int type, str data) -> SBEvent (make an event that contains a C string) """ this = _lldb.new_SBEvent(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBEvent __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBEvent_IsValid(self) def GetDataFlavor(self): """GetDataFlavor(self) -> str""" return _lldb.SBEvent_GetDataFlavor(self) def GetType(self): """GetType(self) -> uint32_t""" return _lldb.SBEvent_GetType(self) def GetBroadcaster(self): """GetBroadcaster(self) -> SBBroadcaster""" return _lldb.SBEvent_GetBroadcaster(self) def GetBroadcasterClass(self): """GetBroadcasterClass(self) -> str""" return _lldb.SBEvent_GetBroadcasterClass(self) def BroadcasterMatchesRef(self, *args): """BroadcasterMatchesRef(self, SBBroadcaster broadcaster) -> bool""" return _lldb.SBEvent_BroadcasterMatchesRef(self, *args) def Clear(self): """Clear(self)""" return _lldb.SBEvent_Clear(self) def GetCStringFromEvent(*args): """GetCStringFromEvent(SBEvent event) -> str""" return _lldb.SBEvent_GetCStringFromEvent(*args) if _newclass:GetCStringFromEvent = staticmethod(GetCStringFromEvent) __swig_getmethods__["GetCStringFromEvent"] = lambda x: GetCStringFromEvent def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBEvent_GetDescription(self, *args) SBEvent_swigregister = _lldb.SBEvent_swigregister SBEvent_swigregister(SBEvent) def SBEvent_GetCStringFromEvent(*args): """SBEvent_GetCStringFromEvent(SBEvent event) -> str""" return _lldb.SBEvent_GetCStringFromEvent(*args) class SBExecutionContext(_object): """Proxy of C++ lldb::SBExecutionContext class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBExecutionContext, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBExecutionContext, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBExecutionContext __init__(self, SBExecutionContext rhs) -> SBExecutionContext __init__(self, SBTarget target) -> SBExecutionContext __init__(self, SBProcess process) -> SBExecutionContext __init__(self, SBThread thread) -> SBExecutionContext __init__(self, SBFrame frame) -> SBExecutionContext """ this = _lldb.new_SBExecutionContext(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBExecutionContext __del__ = lambda self : None; def GetTarget(self): """GetTarget(self) -> SBTarget""" return _lldb.SBExecutionContext_GetTarget(self) def GetProcess(self): """GetProcess(self) -> SBProcess""" return _lldb.SBExecutionContext_GetProcess(self) def GetThread(self): """GetThread(self) -> SBThread""" return _lldb.SBExecutionContext_GetThread(self) def GetFrame(self): """GetFrame(self) -> SBFrame""" return _lldb.SBExecutionContext_GetFrame(self) __swig_getmethods__["target"] = GetTarget if _newclass: target = property(GetTarget, None, doc='''A read only property that returns the same result as GetTarget().''') __swig_getmethods__["process"] = GetProcess if _newclass: process = property(GetProcess, None, doc='''A read only property that returns the same result as GetProcess().''') __swig_getmethods__["thread"] = GetThread if _newclass: thread = property(GetThread, None, doc='''A read only property that returns the same result as GetThread().''') __swig_getmethods__["frame"] = GetFrame if _newclass: frame = property(GetFrame, None, doc='''A read only property that returns the same result as GetFrame().''') SBExecutionContext_swigregister = _lldb.SBExecutionContext_swigregister SBExecutionContext_swigregister(SBExecutionContext) class SBExpressionOptions(_object): """A container for options to use when evaluating expressions.""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBExpressionOptions, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBExpressionOptions, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBExpressionOptions __init__(self, SBExpressionOptions rhs) -> SBExpressionOptions """ this = _lldb.new_SBExpressionOptions(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBExpressionOptions __del__ = lambda self : None; def GetCoerceResultToId(self): """GetCoerceResultToId(self) -> bool""" return _lldb.SBExpressionOptions_GetCoerceResultToId(self) def SetCoerceResultToId(self, coerce = True): """ SetCoerceResultToId(self, bool coerce = True) SetCoerceResultToId(self) Sets whether to coerce the expression result to ObjC id type after evaluation. """ return _lldb.SBExpressionOptions_SetCoerceResultToId(self, coerce) def GetUnwindOnError(self): """GetUnwindOnError(self) -> bool""" return _lldb.SBExpressionOptions_GetUnwindOnError(self) def SetUnwindOnError(self, unwind = True): """ SetUnwindOnError(self, bool unwind = True) SetUnwindOnError(self) Sets whether to unwind the expression stack on error. """ return _lldb.SBExpressionOptions_SetUnwindOnError(self, unwind) def GetIgnoreBreakpoints(self): """GetIgnoreBreakpoints(self) -> bool""" return _lldb.SBExpressionOptions_GetIgnoreBreakpoints(self) def SetIgnoreBreakpoints(self, ignore = True): """ SetIgnoreBreakpoints(self, bool ignore = True) SetIgnoreBreakpoints(self) """ return _lldb.SBExpressionOptions_SetIgnoreBreakpoints(self, ignore) def GetFetchDynamicValue(self): """GetFetchDynamicValue(self) -> DynamicValueType""" return _lldb.SBExpressionOptions_GetFetchDynamicValue(self) def SetFetchDynamicValue(self, *args): """ SetFetchDynamicValue(self, DynamicValueType dynamic = eDynamicCanRunTarget) SetFetchDynamicValue(self) Sets whether to cast the expression result to its dynamic type. """ return _lldb.SBExpressionOptions_SetFetchDynamicValue(self, *args) def GetTimeoutInMicroSeconds(self): """GetTimeoutInMicroSeconds(self) -> uint32_t""" return _lldb.SBExpressionOptions_GetTimeoutInMicroSeconds(self) def SetTimeoutInMicroSeconds(self, timeout = 0): """ SetTimeoutInMicroSeconds(self, uint32_t timeout = 0) SetTimeoutInMicroSeconds(self) Sets the timeout in microseconds to run the expression for. If try all threads is set to true and the expression doesn't complete within the specified timeout, all threads will be resumed for the same timeout to see if the expresson will finish. """ return _lldb.SBExpressionOptions_SetTimeoutInMicroSeconds(self, timeout) def GetOneThreadTimeoutInMicroSeconds(self): """GetOneThreadTimeoutInMicroSeconds(self) -> uint32_t""" return _lldb.SBExpressionOptions_GetOneThreadTimeoutInMicroSeconds(self) def SetOneThreadTimeoutInMicroSeconds(self, timeout = 0): """ SetOneThreadTimeoutInMicroSeconds(self, uint32_t timeout = 0) SetOneThreadTimeoutInMicroSeconds(self) """ return _lldb.SBExpressionOptions_SetOneThreadTimeoutInMicroSeconds(self, timeout) def GetTryAllThreads(self): """GetTryAllThreads(self) -> bool""" return _lldb.SBExpressionOptions_GetTryAllThreads(self) def SetTryAllThreads(self, run_others = True): """ SetTryAllThreads(self, bool run_others = True) SetTryAllThreads(self) Sets whether to run all threads if the expression does not complete on one thread. """ return _lldb.SBExpressionOptions_SetTryAllThreads(self, run_others) def GetStopOthers(self): """GetStopOthers(self) -> bool""" return _lldb.SBExpressionOptions_GetStopOthers(self) def SetStopOthers(self, stop_others = True): """ SetStopOthers(self, bool stop_others = True) SetStopOthers(self) """ return _lldb.SBExpressionOptions_SetStopOthers(self, stop_others) def GetTrapExceptions(self): """GetTrapExceptions(self) -> bool""" return _lldb.SBExpressionOptions_GetTrapExceptions(self) def SetTrapExceptions(self, trap_exceptions = True): """ SetTrapExceptions(self, bool trap_exceptions = True) SetTrapExceptions(self) """ return _lldb.SBExpressionOptions_SetTrapExceptions(self, trap_exceptions) def SetLanguage(self, *args): """ SetLanguage(self, LanguageType language) Sets the language that LLDB should assume the expression is written in """ return _lldb.SBExpressionOptions_SetLanguage(self, *args) def GetGenerateDebugInfo(self): """GetGenerateDebugInfo(self) -> bool""" return _lldb.SBExpressionOptions_GetGenerateDebugInfo(self) def SetGenerateDebugInfo(self, b = True): """ SetGenerateDebugInfo(self, bool b = True) SetGenerateDebugInfo(self) Sets whether to generate debug information for the expression and also controls if a SBModule is generated. """ return _lldb.SBExpressionOptions_SetGenerateDebugInfo(self, b) def GetSuppressPersistentResult(self): """GetSuppressPersistentResult(self) -> bool""" return _lldb.SBExpressionOptions_GetSuppressPersistentResult(self) def SetSuppressPersistentResult(self, b = False): """ SetSuppressPersistentResult(self, bool b = False) SetSuppressPersistentResult(self) Sets whether to produce a persistent result that can be used in future expressions. """ return _lldb.SBExpressionOptions_SetSuppressPersistentResult(self, b) def GetPrefix(self): """ GetPrefix(self) -> str Gets the prefix to use for this expression. """ return _lldb.SBExpressionOptions_GetPrefix(self) def SetPrefix(self, *args): """ SetPrefix(self, str prefix) Sets the prefix to use for this expression. This prefix gets inserted after the 'target.expr-prefix' prefix contents, but before the wrapped expression function body. """ return _lldb.SBExpressionOptions_SetPrefix(self, *args) SBExpressionOptions_swigregister = _lldb.SBExpressionOptions_swigregister SBExpressionOptions_swigregister(SBExpressionOptions) class SBFileSpec(_object): """ Represents a file specification that divides the path into a directory and basename. The string values of the paths are put into uniqued string pools for fast comparisons and efficient memory usage. For example, the following code lineEntry = context.GetLineEntry() self.expect(lineEntry.GetFileSpec().GetDirectory(), 'The line entry should have the correct directory', exe=False, substrs = [self.mydir]) self.expect(lineEntry.GetFileSpec().GetFilename(), 'The line entry should have the correct filename', exe=False, substrs = ['main.c']) self.assertTrue(lineEntry.GetLine() == self.line, 'The line entry's line number should match ') gets the line entry from the symbol context when a thread is stopped. It gets the file spec corresponding to the line entry and checks that the filename and the directory matches what we expect. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBFileSpec, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBFileSpec, name) __repr__ = _swig_repr def __eq__(self, other): return isinstance(other, SBFileSpec) and self.GetFilename() == other.GetFilename() and self.GetDirectory() == other.GetDirectory() def __ne__(self, other): return not self.__eq__(other) def __init__(self, *args): """ __init__(self) -> SBFileSpec __init__(self, SBFileSpec rhs) -> SBFileSpec __init__(self, str path) -> SBFileSpec __init__(self, str path, bool resolve) -> SBFileSpec """ this = _lldb.new_SBFileSpec(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBFileSpec __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBFileSpec_IsValid(self) def Exists(self): """Exists(self) -> bool""" return _lldb.SBFileSpec_Exists(self) def ResolveExecutableLocation(self): """ResolveExecutableLocation(self) -> bool""" return _lldb.SBFileSpec_ResolveExecutableLocation(self) def GetFilename(self): """GetFilename(self) -> str""" return _lldb.SBFileSpec_GetFilename(self) def GetDirectory(self): """GetDirectory(self) -> str""" return _lldb.SBFileSpec_GetDirectory(self) def SetFilename(self, *args): """SetFilename(self, str filename)""" return _lldb.SBFileSpec_SetFilename(self, *args) def SetDirectory(self, *args): """SetDirectory(self, str directory)""" return _lldb.SBFileSpec_SetDirectory(self, *args) def GetPath(self, *args): """GetPath(self, str dst_path, size_t dst_len) -> uint32_t""" return _lldb.SBFileSpec_GetPath(self, *args) def ResolvePath(*args): """ResolvePath(str src_path, str dst_path, size_t dst_len) -> int""" return _lldb.SBFileSpec_ResolvePath(*args) if _newclass:ResolvePath = staticmethod(ResolvePath) __swig_getmethods__["ResolvePath"] = lambda x: ResolvePath def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBFileSpec_GetDescription(self, *args) def __get_fullpath__(self): spec_dir = self.GetDirectory() spec_file = self.GetFilename() if spec_dir and spec_file: return '%s/%s' % (spec_dir, spec_file) elif spec_dir: return spec_dir elif spec_file: return spec_file return None __swig_getmethods__["fullpath"] = __get_fullpath__ if _newclass: fullpath = property(__get_fullpath__, None, doc='''A read only property that returns the fullpath as a python string.''') __swig_getmethods__["basename"] = GetFilename if _newclass: basename = property(GetFilename, None, doc='''A read only property that returns the path basename as a python string.''') __swig_getmethods__["dirname"] = GetDirectory if _newclass: dirname = property(GetDirectory, None, doc='''A read only property that returns the path directory name as a python string.''') __swig_getmethods__["exists"] = Exists if _newclass: exists = property(Exists, None, doc='''A read only property that returns a boolean value that indicates if the file exists.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBFileSpec___str__(self) SBFileSpec_swigregister = _lldb.SBFileSpec_swigregister SBFileSpec_swigregister(SBFileSpec) def SBFileSpec_ResolvePath(*args): """SBFileSpec_ResolvePath(str src_path, str dst_path, size_t dst_len) -> int""" return _lldb.SBFileSpec_ResolvePath(*args) class SBFileSpecList(_object): """Proxy of C++ lldb::SBFileSpecList class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBFileSpecList, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBFileSpecList, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBFileSpecList __init__(self, SBFileSpecList rhs) -> SBFileSpecList """ this = _lldb.new_SBFileSpecList(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBFileSpecList __del__ = lambda self : None; def GetSize(self): """GetSize(self) -> uint32_t""" return _lldb.SBFileSpecList_GetSize(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBFileSpecList_GetDescription(self, *args) def Append(self, *args): """Append(self, SBFileSpec sb_file)""" return _lldb.SBFileSpecList_Append(self, *args) def AppendIfUnique(self, *args): """AppendIfUnique(self, SBFileSpec sb_file) -> bool""" return _lldb.SBFileSpecList_AppendIfUnique(self, *args) def Clear(self): """Clear(self)""" return _lldb.SBFileSpecList_Clear(self) def FindFileIndex(self, *args): """FindFileIndex(self, uint32_t idx, SBFileSpec sb_file, bool full) -> uint32_t""" return _lldb.SBFileSpecList_FindFileIndex(self, *args) def GetFileSpecAtIndex(self, *args): """GetFileSpecAtIndex(self, uint32_t idx) -> SBFileSpec""" return _lldb.SBFileSpecList_GetFileSpecAtIndex(self, *args) SBFileSpecList_swigregister = _lldb.SBFileSpecList_swigregister SBFileSpecList_swigregister(SBFileSpecList) class SBFrame(_object): """ Represents one of the stack frames associated with a thread. SBThread contains SBFrame(s). For example (from test/lldbutil.py), def print_stacktrace(thread, string_buffer = False): '''Prints a simple stack trace of this thread.''' ... for i in range(depth): frame = thread.GetFrameAtIndex(i) function = frame.GetFunction() load_addr = addrs[i].GetLoadAddress(target) if not function: file_addr = addrs[i].GetFileAddress() start_addr = frame.GetSymbol().GetStartAddress().GetFileAddress() symbol_offset = file_addr - start_addr print >> output, ' frame #{num}: {addr:#016x} {mod}`{symbol} + {offset}'.format( num=i, addr=load_addr, mod=mods[i], symbol=symbols[i], offset=symbol_offset) else: print >> output, ' frame #{num}: {addr:#016x} {mod}`{func} at {file}:{line} {args}'.format( num=i, addr=load_addr, mod=mods[i], func='%s [inlined]' % funcs[i] if frame.IsInlined() else funcs[i], file=files[i], line=lines[i], args=get_args_as_string(frame, showFuncName=False) if not frame.IsInlined() else '()') ... And, for frame in thread: print frame See also SBThread. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBFrame, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBFrame, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBFrame __init__(self, SBFrame rhs) -> SBFrame """ this = _lldb.new_SBFrame(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBFrame __del__ = lambda self : None; def IsEqual(self, *args): """IsEqual(self, SBFrame rhs) -> bool""" return _lldb.SBFrame_IsEqual(self, *args) def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBFrame_IsValid(self) def GetFrameID(self): """GetFrameID(self) -> uint32_t""" return _lldb.SBFrame_GetFrameID(self) def GetCFA(self): """ GetCFA(self) -> addr_t Get the Canonical Frame Address for this stack frame. This is the DWARF standard's definition of a CFA, a stack address that remains constant throughout the lifetime of the function. Returns an lldb::addr_t stack address, or LLDB_INVALID_ADDRESS if the CFA cannot be determined. """ return _lldb.SBFrame_GetCFA(self) def GetPC(self): """GetPC(self) -> addr_t""" return _lldb.SBFrame_GetPC(self) def SetPC(self, *args): """SetPC(self, addr_t new_pc) -> bool""" return _lldb.SBFrame_SetPC(self, *args) def GetSP(self): """GetSP(self) -> addr_t""" return _lldb.SBFrame_GetSP(self) def GetFP(self): """GetFP(self) -> addr_t""" return _lldb.SBFrame_GetFP(self) def GetPCAddress(self): """GetPCAddress(self) -> SBAddress""" return _lldb.SBFrame_GetPCAddress(self) def GetSymbolContext(self, *args): """GetSymbolContext(self, uint32_t resolve_scope) -> SBSymbolContext""" return _lldb.SBFrame_GetSymbolContext(self, *args) def GetModule(self): """GetModule(self) -> SBModule""" return _lldb.SBFrame_GetModule(self) def GetCompileUnit(self): """GetCompileUnit(self) -> SBCompileUnit""" return _lldb.SBFrame_GetCompileUnit(self) def GetFunction(self): """GetFunction(self) -> SBFunction""" return _lldb.SBFrame_GetFunction(self) def GetSymbol(self): """GetSymbol(self) -> SBSymbol""" return _lldb.SBFrame_GetSymbol(self) def GetBlock(self): """ GetBlock(self) -> SBBlock Gets the deepest block that contains the frame PC. See also GetFrameBlock(). """ return _lldb.SBFrame_GetBlock(self) def GetDisplayFunctionName(self): """GetDisplayFunctionName(self) -> str""" return _lldb.SBFrame_GetDisplayFunctionName(self) def GetFunctionName(self, *args): """ GetFunctionName(self) -> str GetFunctionName(self) -> str Get the appropriate function name for this frame. Inlined functions in LLDB are represented by Blocks that have inlined function information, so just looking at the SBFunction or SBSymbol for a frame isn't enough. This function will return the appropriate function, symbol or inlined function name for the frame. This function returns: - the name of the inlined function (if there is one) - the name of the concrete function (if there is one) - the name of the symbol (if there is one) - NULL See also IsInlined(). """ return _lldb.SBFrame_GetFunctionName(self, *args) def IsInlined(self, *args): """ IsInlined(self) -> bool IsInlined(self) -> bool Return true if this frame represents an inlined function. See also GetFunctionName(). """ return _lldb.SBFrame_IsInlined(self, *args) def EvaluateExpression(self, *args): """ EvaluateExpression(self, str expr) -> SBValue EvaluateExpression(self, str expr, DynamicValueType use_dynamic) -> SBValue EvaluateExpression(self, str expr, DynamicValueType use_dynamic, bool unwind_on_error) -> SBValue EvaluateExpression(self, str expr, SBExpressionOptions options) -> SBValue The version that doesn't supply a 'use_dynamic' value will use the target's default. """ return _lldb.SBFrame_EvaluateExpression(self, *args) def GetFrameBlock(self): """ GetFrameBlock(self) -> SBBlock Gets the lexical block that defines the stack frame. Another way to think of this is it will return the block that contains all of the variables for a stack frame. Inlined functions are represented as SBBlock objects that have inlined function information: the name of the inlined function, where it was called from. The block that is returned will be the first block at or above the block for the PC (SBFrame::GetBlock()) that defines the scope of the frame. When a function contains no inlined functions, this will be the top most lexical block that defines the function. When a function has inlined functions and the PC is currently in one of those inlined functions, this method will return the inlined block that defines this frame. If the PC isn't currently in an inlined function, the lexical block that defines the function is returned. """ return _lldb.SBFrame_GetFrameBlock(self) def GetLineEntry(self): """GetLineEntry(self) -> SBLineEntry""" return _lldb.SBFrame_GetLineEntry(self) def GetThread(self): """GetThread(self) -> SBThread""" return _lldb.SBFrame_GetThread(self) def Disassemble(self): """Disassemble(self) -> str""" return _lldb.SBFrame_Disassemble(self) def Clear(self): """Clear(self)""" return _lldb.SBFrame_Clear(self) def GetVariables(self, *args): """ GetVariables(self, bool arguments, bool locals, bool statics, bool in_scope_only) -> SBValueList GetVariables(self, bool arguments, bool locals, bool statics, bool in_scope_only, DynamicValueType use_dynamic) -> SBValueList GetVariables(self, SBVariablesOptions options) -> SBValueList The version that doesn't supply a 'use_dynamic' value will use the target's default. """ return _lldb.SBFrame_GetVariables(self, *args) def GetRegisters(self): """GetRegisters(self) -> SBValueList""" return _lldb.SBFrame_GetRegisters(self) def FindVariable(self, *args): """ FindVariable(self, str var_name) -> SBValue FindVariable(self, str var_name, DynamicValueType use_dynamic) -> SBValue The version that doesn't supply a 'use_dynamic' value will use the target's default. """ return _lldb.SBFrame_FindVariable(self, *args) def FindRegister(self, *args): """FindRegister(self, str name) -> SBValue""" return _lldb.SBFrame_FindRegister(self, *args) def GetValueForVariablePath(self, *args): """ GetValueForVariablePath(self, str var_path) -> SBValue GetValueForVariablePath(self, str var_path, DynamicValueType use_dynamic) -> SBValue Get a lldb.SBValue for a variable path. Variable paths can include access to pointer or instance members: rect_ptr->origin.y pt.x Pointer dereferences: *this->foo_ptr **argv Address of: &pt &my_array[3].x Array accesses and treating pointers as arrays: int_array[1] pt_ptr[22].x Unlike EvaluateExpression() which returns lldb.SBValue objects with constant copies of the values at the time of evaluation, the result of this function is a value that will continue to track the current value of the value as execution progresses in the current frame. """ return _lldb.SBFrame_GetValueForVariablePath(self, *args) def FindValue(self, *args): """ FindValue(self, str name, ValueType value_type) -> SBValue FindValue(self, str name, ValueType value_type, DynamicValueType use_dynamic) -> SBValue Find variables, register sets, registers, or persistent variables using the frame as the scope. The version that doesn't supply a 'use_dynamic' value will use the target's default. """ return _lldb.SBFrame_FindValue(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBFrame_GetDescription(self, *args) def get_all_variables(self): return self.GetVariables(True,True,True,True) def get_parent_frame(self): parent_idx = self.idx + 1 if parent_idx >= 0 and parent_idx < len(self.thread.frame): return self.thread.frame[parent_idx] else: return SBFrame() def get_arguments(self): return self.GetVariables(True,False,False,False) def get_locals(self): return self.GetVariables(False,True,False,False) def get_statics(self): return self.GetVariables(False,False,True,False) def var(self, var_expr_path): '''Calls through to lldb.SBFrame.GetValueForVariablePath() and returns a value that represents the variable expression path''' return self.GetValueForVariablePath(var_expr_path) def get_registers_access(self): class registers_access(object): '''A helper object that exposes a flattened view of registers, masking away the notion of register sets for easy scripting.''' def __init__(self, regs): self.regs = regs def __getitem__(self, key): if type(key) is str: for i in range(0,len(self.regs)): rs = self.regs[i] for j in range (0,rs.num_children): reg = rs.GetChildAtIndex(j) if reg.name == key: return reg else: return lldb.SBValue() return registers_access(self.registers) __swig_getmethods__["pc"] = GetPC __swig_setmethods__["pc"] = SetPC if _newclass: pc = property(GetPC, SetPC) __swig_getmethods__["addr"] = GetPCAddress if _newclass: addr = property(GetPCAddress, None, doc='''A read only property that returns the program counter (PC) as a section offset address (lldb.SBAddress).''') __swig_getmethods__["fp"] = GetFP if _newclass: fp = property(GetFP, None, doc='''A read only property that returns the frame pointer (FP) as an unsigned integer.''') __swig_getmethods__["sp"] = GetSP if _newclass: sp = property(GetSP, None, doc='''A read only property that returns the stack pointer (SP) as an unsigned integer.''') __swig_getmethods__["module"] = GetModule if _newclass: module = property(GetModule, None, doc='''A read only property that returns an lldb object that represents the module (lldb.SBModule) for this stack frame.''') __swig_getmethods__["compile_unit"] = GetCompileUnit if _newclass: compile_unit = property(GetCompileUnit, None, doc='''A read only property that returns an lldb object that represents the compile unit (lldb.SBCompileUnit) for this stack frame.''') __swig_getmethods__["function"] = GetFunction if _newclass: function = property(GetFunction, None, doc='''A read only property that returns an lldb object that represents the function (lldb.SBFunction) for this stack frame.''') __swig_getmethods__["symbol"] = GetSymbol if _newclass: symbol = property(GetSymbol, None, doc='''A read only property that returns an lldb object that represents the symbol (lldb.SBSymbol) for this stack frame.''') __swig_getmethods__["block"] = GetBlock if _newclass: block = property(GetBlock, None, doc='''A read only property that returns an lldb object that represents the block (lldb.SBBlock) for this stack frame.''') __swig_getmethods__["is_inlined"] = IsInlined if _newclass: is_inlined = property(IsInlined, None, doc='''A read only property that returns an boolean that indicates if the block frame is an inlined function.''') __swig_getmethods__["name"] = GetFunctionName if _newclass: name = property(GetFunctionName, None, doc='''A read only property that retuns the name for the function that this frame represents. Inlined stack frame might have a concrete function that differs from the name of the inlined function (a named lldb.SBBlock).''') __swig_getmethods__["line_entry"] = GetLineEntry if _newclass: line_entry = property(GetLineEntry, None, doc='''A read only property that returns an lldb object that represents the line table entry (lldb.SBLineEntry) for this stack frame.''') __swig_getmethods__["thread"] = GetThread if _newclass: thread = property(GetThread, None, doc='''A read only property that returns an lldb object that represents the thread (lldb.SBThread) for this stack frame.''') __swig_getmethods__["disassembly"] = Disassemble if _newclass: disassembly = property(Disassemble, None, doc='''A read only property that returns the disassembly for this stack frame as a python string.''') __swig_getmethods__["idx"] = GetFrameID if _newclass: idx = property(GetFrameID, None, doc='''A read only property that returns the zero based stack frame index.''') __swig_getmethods__["variables"] = get_all_variables if _newclass: variables = property(get_all_variables, None, doc='''A read only property that returns a list() that contains a collection of lldb.SBValue objects that represent the variables in this stack frame.''') __swig_getmethods__["vars"] = get_all_variables if _newclass: vars = property(get_all_variables, None, doc='''A read only property that returns a list() that contains a collection of lldb.SBValue objects that represent the variables in this stack frame.''') __swig_getmethods__["locals"] = get_locals if _newclass: locals = property(get_locals, None, doc='''A read only property that returns a list() that contains a collection of lldb.SBValue objects that represent the local variables in this stack frame.''') __swig_getmethods__["args"] = get_arguments if _newclass: args = property(get_arguments, None, doc='''A read only property that returns a list() that contains a collection of lldb.SBValue objects that represent the argument variables in this stack frame.''') __swig_getmethods__["arguments"] = get_arguments if _newclass: arguments = property(get_arguments, None, doc='''A read only property that returns a list() that contains a collection of lldb.SBValue objects that represent the argument variables in this stack frame.''') __swig_getmethods__["statics"] = get_statics if _newclass: statics = property(get_statics, None, doc='''A read only property that returns a list() that contains a collection of lldb.SBValue objects that represent the static variables in this stack frame.''') __swig_getmethods__["registers"] = GetRegisters if _newclass: registers = property(GetRegisters, None, doc='''A read only property that returns a list() that contains a collection of lldb.SBValue objects that represent the CPU registers for this stack frame.''') __swig_getmethods__["regs"] = GetRegisters if _newclass: regs = property(GetRegisters, None, doc='''A read only property that returns a list() that contains a collection of lldb.SBValue objects that represent the CPU registers for this stack frame.''') __swig_getmethods__["register"] = get_registers_access if _newclass: register = property(get_registers_access, None, doc='''A read only property that returns an helper object providing a flattened indexable view of the CPU registers for this stack frame.''') __swig_getmethods__["reg"] = get_registers_access if _newclass: reg = property(get_registers_access, None, doc='''A read only property that returns an helper object providing a flattened indexable view of the CPU registers for this stack frame''') __swig_getmethods__["parent"] = get_parent_frame if _newclass: parent = property(get_parent_frame, None, doc='''A read only property that returns the parent (caller) frame of the current frame.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBFrame___str__(self) SBFrame_swigregister = _lldb.SBFrame_swigregister SBFrame_swigregister(SBFrame) class SBFunction(_object): """ Represents a generic function, which can be inlined or not. For example (from test/lldbutil.py, but slightly modified for doc purpose), ... frame = thread.GetFrameAtIndex(i) addr = frame.GetPCAddress() load_addr = addr.GetLoadAddress(target) function = frame.GetFunction() mod_name = frame.GetModule().GetFileSpec().GetFilename() if not function: # No debug info for 'function'. symbol = frame.GetSymbol() file_addr = addr.GetFileAddress() start_addr = symbol.GetStartAddress().GetFileAddress() symbol_name = symbol.GetName() symbol_offset = file_addr - start_addr print >> output, ' frame #{num}: {addr:#016x} {mod}`{symbol} + {offset}'.format( num=i, addr=load_addr, mod=mod_name, symbol=symbol_name, offset=symbol_offset) else: # Debug info is available for 'function'. func_name = frame.GetFunctionName() file_name = frame.GetLineEntry().GetFileSpec().GetFilename() line_num = frame.GetLineEntry().GetLine() print >> output, ' frame #{num}: {addr:#016x} {mod}`{func} at {file}:{line} {args}'.format( num=i, addr=load_addr, mod=mod_name, func='%s [inlined]' % func_name] if frame.IsInlined() else func_name, file=file_name, line=line_num, args=get_args_as_string(frame, showFuncName=False)) ... """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBFunction, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBFunction, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBFunction __init__(self, SBFunction rhs) -> SBFunction """ this = _lldb.new_SBFunction(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBFunction __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBFunction_IsValid(self) def GetName(self): """GetName(self) -> str""" return _lldb.SBFunction_GetName(self) def GetDisplayName(self): """GetDisplayName(self) -> str""" return _lldb.SBFunction_GetDisplayName(self) def GetMangledName(self): """GetMangledName(self) -> str""" return _lldb.SBFunction_GetMangledName(self) def GetInstructions(self, *args): """ GetInstructions(self, SBTarget target) -> SBInstructionList GetInstructions(self, SBTarget target, str flavor) -> SBInstructionList """ return _lldb.SBFunction_GetInstructions(self, *args) def GetStartAddress(self): """GetStartAddress(self) -> SBAddress""" return _lldb.SBFunction_GetStartAddress(self) def GetEndAddress(self): """GetEndAddress(self) -> SBAddress""" return _lldb.SBFunction_GetEndAddress(self) def GetArgumentName(self, *args): """GetArgumentName(self, uint32_t arg_idx) -> str""" return _lldb.SBFunction_GetArgumentName(self, *args) def GetPrologueByteSize(self): """GetPrologueByteSize(self) -> uint32_t""" return _lldb.SBFunction_GetPrologueByteSize(self) def GetType(self): """GetType(self) -> SBType""" return _lldb.SBFunction_GetType(self) def GetBlock(self): """GetBlock(self) -> SBBlock""" return _lldb.SBFunction_GetBlock(self) def GetLanguage(self): """GetLanguage(self) -> LanguageType""" return _lldb.SBFunction_GetLanguage(self) def GetIsOptimized(self): """ GetIsOptimized(self) -> bool Returns true if the function was compiled with optimization. Optimization, in this case, is meant to indicate that the debugger experience may be confusing for the user -- variables optimized away, stepping jumping between source lines -- and the driver may want to provide some guidance to the user about this. Returns false if unoptimized, or unknown. """ return _lldb.SBFunction_GetIsOptimized(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBFunction_GetDescription(self, *args) def __eq__(self, *args): """__eq__(self, SBFunction rhs) -> bool""" return _lldb.SBFunction___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBFunction rhs) -> bool""" return _lldb.SBFunction___ne__(self, *args) def get_instructions_from_current_target (self): return self.GetInstructions (target) __swig_getmethods__["addr"] = GetStartAddress if _newclass: addr = property(GetStartAddress, None, doc='''A read only property that returns an lldb object that represents the start address (lldb.SBAddress) for this function.''') __swig_getmethods__["end_addr"] = GetEndAddress if _newclass: end_addr = property(GetEndAddress, None, doc='''A read only property that returns an lldb object that represents the end address (lldb.SBAddress) for this function.''') __swig_getmethods__["block"] = GetBlock if _newclass: block = property(GetBlock, None, doc='''A read only property that returns an lldb object that represents the top level lexical block (lldb.SBBlock) for this function.''') __swig_getmethods__["instructions"] = get_instructions_from_current_target if _newclass: instructions = property(get_instructions_from_current_target, None, doc='''A read only property that returns an lldb object that represents the instructions (lldb.SBInstructionList) for this function.''') __swig_getmethods__["mangled"] = GetMangledName if _newclass: mangled = property(GetMangledName, None, doc='''A read only property that returns the mangled (linkage) name for this function as a string.''') __swig_getmethods__["name"] = GetName if _newclass: name = property(GetName, None, doc='''A read only property that returns the name for this function as a string.''') __swig_getmethods__["prologue_size"] = GetPrologueByteSize if _newclass: prologue_size = property(GetPrologueByteSize, None, doc='''A read only property that returns the size in bytes of the prologue instructions as an unsigned integer.''') __swig_getmethods__["type"] = GetType if _newclass: type = property(GetType, None, doc='''A read only property that returns an lldb object that represents the return type (lldb.SBType) for this function.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBFunction___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBFunction_swigregister = _lldb.SBFunction_swigregister SBFunction_swigregister(SBFunction) class SBHostOS(_object): """Proxy of C++ lldb::SBHostOS class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBHostOS, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBHostOS, name) __repr__ = _swig_repr def GetProgramFileSpec(): """GetProgramFileSpec() -> SBFileSpec""" return _lldb.SBHostOS_GetProgramFileSpec() if _newclass:GetProgramFileSpec = staticmethod(GetProgramFileSpec) __swig_getmethods__["GetProgramFileSpec"] = lambda x: GetProgramFileSpec def GetLLDBPythonPath(): """GetLLDBPythonPath() -> SBFileSpec""" return _lldb.SBHostOS_GetLLDBPythonPath() if _newclass:GetLLDBPythonPath = staticmethod(GetLLDBPythonPath) __swig_getmethods__["GetLLDBPythonPath"] = lambda x: GetLLDBPythonPath def GetLLDBPath(*args): """GetLLDBPath(PathType path_type) -> SBFileSpec""" return _lldb.SBHostOS_GetLLDBPath(*args) if _newclass:GetLLDBPath = staticmethod(GetLLDBPath) __swig_getmethods__["GetLLDBPath"] = lambda x: GetLLDBPath def ThreadCreated(*args): """ThreadCreated(str name)""" return _lldb.SBHostOS_ThreadCreated(*args) if _newclass:ThreadCreated = staticmethod(ThreadCreated) __swig_getmethods__["ThreadCreated"] = lambda x: ThreadCreated def ThreadCreate(*args): """ThreadCreate(str name, thread_func_t arg1, void thread_arg, SBError err) -> thread_t""" return _lldb.SBHostOS_ThreadCreate(*args) if _newclass:ThreadCreate = staticmethod(ThreadCreate) __swig_getmethods__["ThreadCreate"] = lambda x: ThreadCreate def ThreadCancel(*args): """ThreadCancel(thread_t thread, SBError err) -> bool""" return _lldb.SBHostOS_ThreadCancel(*args) if _newclass:ThreadCancel = staticmethod(ThreadCancel) __swig_getmethods__["ThreadCancel"] = lambda x: ThreadCancel def ThreadDetach(*args): """ThreadDetach(thread_t thread, SBError err) -> bool""" return _lldb.SBHostOS_ThreadDetach(*args) if _newclass:ThreadDetach = staticmethod(ThreadDetach) __swig_getmethods__["ThreadDetach"] = lambda x: ThreadDetach def ThreadJoin(*args): """ThreadJoin(thread_t thread, thread_result_t result, SBError err) -> bool""" return _lldb.SBHostOS_ThreadJoin(*args) if _newclass:ThreadJoin = staticmethod(ThreadJoin) __swig_getmethods__["ThreadJoin"] = lambda x: ThreadJoin def __init__(self): """__init__(self) -> SBHostOS""" this = _lldb.new_SBHostOS() try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBHostOS __del__ = lambda self : None; SBHostOS_swigregister = _lldb.SBHostOS_swigregister SBHostOS_swigregister(SBHostOS) def SBHostOS_GetProgramFileSpec(): """SBHostOS_GetProgramFileSpec() -> SBFileSpec""" return _lldb.SBHostOS_GetProgramFileSpec() def SBHostOS_GetLLDBPythonPath(): """SBHostOS_GetLLDBPythonPath() -> SBFileSpec""" return _lldb.SBHostOS_GetLLDBPythonPath() def SBHostOS_GetLLDBPath(*args): """SBHostOS_GetLLDBPath(PathType path_type) -> SBFileSpec""" return _lldb.SBHostOS_GetLLDBPath(*args) def SBHostOS_ThreadCreated(*args): """SBHostOS_ThreadCreated(str name)""" return _lldb.SBHostOS_ThreadCreated(*args) def SBHostOS_ThreadCreate(*args): """SBHostOS_ThreadCreate(str name, thread_func_t arg1, void thread_arg, SBError err) -> thread_t""" return _lldb.SBHostOS_ThreadCreate(*args) def SBHostOS_ThreadCancel(*args): """SBHostOS_ThreadCancel(thread_t thread, SBError err) -> bool""" return _lldb.SBHostOS_ThreadCancel(*args) def SBHostOS_ThreadDetach(*args): """SBHostOS_ThreadDetach(thread_t thread, SBError err) -> bool""" return _lldb.SBHostOS_ThreadDetach(*args) def SBHostOS_ThreadJoin(*args): """SBHostOS_ThreadJoin(thread_t thread, thread_result_t result, SBError err) -> bool""" return _lldb.SBHostOS_ThreadJoin(*args) class SBInstruction(_object): """Proxy of C++ lldb::SBInstruction class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBInstruction, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBInstruction, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBInstruction __init__(self, SBInstruction rhs) -> SBInstruction """ this = _lldb.new_SBInstruction(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBInstruction __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBInstruction_IsValid(self) def GetAddress(self): """GetAddress(self) -> SBAddress""" return _lldb.SBInstruction_GetAddress(self) def GetAddressClass(self): """GetAddressClass(self) -> AddressClass""" return _lldb.SBInstruction_GetAddressClass(self) def GetMnemonic(self, *args): """GetMnemonic(self, SBTarget target) -> str""" return _lldb.SBInstruction_GetMnemonic(self, *args) def GetOperands(self, *args): """GetOperands(self, SBTarget target) -> str""" return _lldb.SBInstruction_GetOperands(self, *args) def GetComment(self, *args): """GetComment(self, SBTarget target) -> str""" return _lldb.SBInstruction_GetComment(self, *args) def GetData(self, *args): """GetData(self, SBTarget target) -> SBData""" return _lldb.SBInstruction_GetData(self, *args) def GetByteSize(self): """GetByteSize(self) -> size_t""" return _lldb.SBInstruction_GetByteSize(self) def DoesBranch(self): """DoesBranch(self) -> bool""" return _lldb.SBInstruction_DoesBranch(self) def Print(self, *args): """Print(self, FILE out)""" return _lldb.SBInstruction_Print(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBInstruction_GetDescription(self, *args) def EmulateWithFrame(self, *args): """EmulateWithFrame(self, SBFrame frame, uint32_t evaluate_options) -> bool""" return _lldb.SBInstruction_EmulateWithFrame(self, *args) def DumpEmulation(self, *args): """DumpEmulation(self, str triple) -> bool""" return _lldb.SBInstruction_DumpEmulation(self, *args) def TestEmulation(self, *args): """TestEmulation(self, SBStream output_stream, str test_file) -> bool""" return _lldb.SBInstruction_TestEmulation(self, *args) def __mnemonic_property__ (self): return self.GetMnemonic (target) def __operands_property__ (self): return self.GetOperands (target) def __comment_property__ (self): return self.GetComment (target) def __file_addr_property__ (self): return self.GetAddress ().GetFileAddress() def __load_adrr_property__ (self): return self.GetComment (target) __swig_getmethods__["mnemonic"] = __mnemonic_property__ if _newclass: mnemonic = property(__mnemonic_property__, None, doc='''A read only property that returns the mnemonic for this instruction as a string.''') __swig_getmethods__["operands"] = __operands_property__ if _newclass: operands = property(__operands_property__, None, doc='''A read only property that returns the operands for this instruction as a string.''') __swig_getmethods__["comment"] = __comment_property__ if _newclass: comment = property(__comment_property__, None, doc='''A read only property that returns the comment for this instruction as a string.''') __swig_getmethods__["addr"] = GetAddress if _newclass: addr = property(GetAddress, None, doc='''A read only property that returns an lldb object that represents the address (lldb.SBAddress) for this instruction.''') __swig_getmethods__["size"] = GetByteSize if _newclass: size = property(GetByteSize, None, doc='''A read only property that returns the size in bytes for this instruction as an integer.''') __swig_getmethods__["is_branch"] = DoesBranch if _newclass: is_branch = property(DoesBranch, None, doc='''A read only property that returns a boolean value that indicates if this instruction is a branch instruction.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBInstruction___str__(self) SBInstruction_swigregister = _lldb.SBInstruction_swigregister SBInstruction_swigregister(SBInstruction) class SBInstructionList(_object): """ Represents a list of machine instructions. SBFunction and SBSymbol have GetInstructions() methods which return SBInstructionList instances. SBInstructionList supports instruction (SBInstruction instance) iteration. For example (see also SBDebugger for a more complete example), def disassemble_instructions (insts): for i in insts: print i defines a function which takes an SBInstructionList instance and prints out the machine instructions in assembly format. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBInstructionList, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBInstructionList, name) __repr__ = _swig_repr def __iter__(self): return lldb_iter(self, 'GetSize', 'GetInstructionAtIndex') def __len__(self): return self.GetSize() def __init__(self, *args): """ __init__(self) -> SBInstructionList __init__(self, SBInstructionList rhs) -> SBInstructionList """ this = _lldb.new_SBInstructionList(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBInstructionList __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBInstructionList_IsValid(self) def GetSize(self): """GetSize(self) -> size_t""" return _lldb.SBInstructionList_GetSize(self) def GetInstructionAtIndex(self, *args): """GetInstructionAtIndex(self, uint32_t idx) -> SBInstruction""" return _lldb.SBInstructionList_GetInstructionAtIndex(self, *args) def Clear(self): """Clear(self)""" return _lldb.SBInstructionList_Clear(self) def AppendInstruction(self, *args): """AppendInstruction(self, SBInstruction inst)""" return _lldb.SBInstructionList_AppendInstruction(self, *args) def Print(self, *args): """Print(self, FILE out)""" return _lldb.SBInstructionList_Print(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBInstructionList_GetDescription(self, *args) def DumpEmulationForAllInstructions(self, *args): """DumpEmulationForAllInstructions(self, str triple) -> bool""" return _lldb.SBInstructionList_DumpEmulationForAllInstructions(self, *args) def __len__(self): '''Access len of the instruction list.''' return int(self.GetSize()) def __getitem__(self, key): '''Access instructions by integer index for array access or by lldb.SBAddress to find an instruction that matches a section offset address object.''' if type(key) is int: # Find an instruction by index if key < len(self): return self.GetInstructionAtIndex(key) elif type(key) is SBAddress: # Find an instruction using a lldb.SBAddress object lookup_file_addr = key.file_addr closest_inst = None for idx in range(self.GetSize()): inst = self.GetInstructionAtIndex(idx) inst_file_addr = inst.addr.file_addr if inst_file_addr == lookup_file_addr: return inst elif inst_file_addr > lookup_file_addr: return closest_inst else: closest_inst = inst return None def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBInstructionList___str__(self) SBInstructionList_swigregister = _lldb.SBInstructionList_swigregister SBInstructionList_swigregister(SBInstructionList) class SBLanguageRuntime(_object): """Proxy of C++ lldb::SBLanguageRuntime class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBLanguageRuntime, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBLanguageRuntime, name) __repr__ = _swig_repr def GetLanguageTypeFromString(*args): """GetLanguageTypeFromString(str string) -> LanguageType""" return _lldb.SBLanguageRuntime_GetLanguageTypeFromString(*args) if _newclass:GetLanguageTypeFromString = staticmethod(GetLanguageTypeFromString) __swig_getmethods__["GetLanguageTypeFromString"] = lambda x: GetLanguageTypeFromString def GetNameForLanguageType(*args): """GetNameForLanguageType(LanguageType language) -> str""" return _lldb.SBLanguageRuntime_GetNameForLanguageType(*args) if _newclass:GetNameForLanguageType = staticmethod(GetNameForLanguageType) __swig_getmethods__["GetNameForLanguageType"] = lambda x: GetNameForLanguageType def __init__(self): """__init__(self) -> SBLanguageRuntime""" this = _lldb.new_SBLanguageRuntime() try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBLanguageRuntime __del__ = lambda self : None; SBLanguageRuntime_swigregister = _lldb.SBLanguageRuntime_swigregister SBLanguageRuntime_swigregister(SBLanguageRuntime) def SBLanguageRuntime_GetLanguageTypeFromString(*args): """SBLanguageRuntime_GetLanguageTypeFromString(str string) -> LanguageType""" return _lldb.SBLanguageRuntime_GetLanguageTypeFromString(*args) def SBLanguageRuntime_GetNameForLanguageType(*args): """SBLanguageRuntime_GetNameForLanguageType(LanguageType language) -> str""" return _lldb.SBLanguageRuntime_GetNameForLanguageType(*args) class SBLaunchInfo(_object): """Proxy of C++ lldb::SBLaunchInfo class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBLaunchInfo, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBLaunchInfo, name) __repr__ = _swig_repr def __init__(self, *args): """__init__(self, list argv) -> SBLaunchInfo""" this = _lldb.new_SBLaunchInfo(*args) try: self.this.append(this) except: self.this = this def GetProcessID(self): """GetProcessID(self) -> pid_t""" return _lldb.SBLaunchInfo_GetProcessID(self) def GetUserID(self): """GetUserID(self) -> uint32_t""" return _lldb.SBLaunchInfo_GetUserID(self) def GetGroupID(self): """GetGroupID(self) -> uint32_t""" return _lldb.SBLaunchInfo_GetGroupID(self) def UserIDIsValid(self): """UserIDIsValid(self) -> bool""" return _lldb.SBLaunchInfo_UserIDIsValid(self) def GroupIDIsValid(self): """GroupIDIsValid(self) -> bool""" return _lldb.SBLaunchInfo_GroupIDIsValid(self) def SetUserID(self, *args): """SetUserID(self, uint32_t uid)""" return _lldb.SBLaunchInfo_SetUserID(self, *args) def SetGroupID(self, *args): """SetGroupID(self, uint32_t gid)""" return _lldb.SBLaunchInfo_SetGroupID(self, *args) def GetExecutableFile(self): """GetExecutableFile(self) -> SBFileSpec""" return _lldb.SBLaunchInfo_GetExecutableFile(self) def SetExecutableFile(self, *args): """SetExecutableFile(self, SBFileSpec exe_file, bool add_as_first_arg)""" return _lldb.SBLaunchInfo_SetExecutableFile(self, *args) def GetListener(self): """GetListener(self) -> SBListener""" return _lldb.SBLaunchInfo_GetListener(self) def SetListener(self, *args): """SetListener(self, SBListener listener)""" return _lldb.SBLaunchInfo_SetListener(self, *args) def GetNumArguments(self): """GetNumArguments(self) -> uint32_t""" return _lldb.SBLaunchInfo_GetNumArguments(self) def GetArgumentAtIndex(self, *args): """GetArgumentAtIndex(self, uint32_t idx) -> str""" return _lldb.SBLaunchInfo_GetArgumentAtIndex(self, *args) def SetArguments(self, *args): """SetArguments(self, list argv, bool append)""" return _lldb.SBLaunchInfo_SetArguments(self, *args) def GetNumEnvironmentEntries(self): """GetNumEnvironmentEntries(self) -> uint32_t""" return _lldb.SBLaunchInfo_GetNumEnvironmentEntries(self) def GetEnvironmentEntryAtIndex(self, *args): """GetEnvironmentEntryAtIndex(self, uint32_t idx) -> str""" return _lldb.SBLaunchInfo_GetEnvironmentEntryAtIndex(self, *args) def SetEnvironmentEntries(self, *args): """SetEnvironmentEntries(self, list envp, bool append)""" return _lldb.SBLaunchInfo_SetEnvironmentEntries(self, *args) def Clear(self): """Clear(self)""" return _lldb.SBLaunchInfo_Clear(self) def GetWorkingDirectory(self): """GetWorkingDirectory(self) -> str""" return _lldb.SBLaunchInfo_GetWorkingDirectory(self) def SetWorkingDirectory(self, *args): """SetWorkingDirectory(self, str working_dir)""" return _lldb.SBLaunchInfo_SetWorkingDirectory(self, *args) def GetLaunchFlags(self): """GetLaunchFlags(self) -> uint32_t""" return _lldb.SBLaunchInfo_GetLaunchFlags(self) def SetLaunchFlags(self, *args): """SetLaunchFlags(self, uint32_t flags)""" return _lldb.SBLaunchInfo_SetLaunchFlags(self, *args) def GetProcessPluginName(self): """GetProcessPluginName(self) -> str""" return _lldb.SBLaunchInfo_GetProcessPluginName(self) def SetProcessPluginName(self, *args): """SetProcessPluginName(self, str plugin_name)""" return _lldb.SBLaunchInfo_SetProcessPluginName(self, *args) def GetShell(self): """GetShell(self) -> str""" return _lldb.SBLaunchInfo_GetShell(self) def SetShell(self, *args): """SetShell(self, str path)""" return _lldb.SBLaunchInfo_SetShell(self, *args) def GetShellExpandArguments(self): """GetShellExpandArguments(self) -> bool""" return _lldb.SBLaunchInfo_GetShellExpandArguments(self) def SetShellExpandArguments(self, *args): """SetShellExpandArguments(self, bool expand)""" return _lldb.SBLaunchInfo_SetShellExpandArguments(self, *args) def GetResumeCount(self): """GetResumeCount(self) -> uint32_t""" return _lldb.SBLaunchInfo_GetResumeCount(self) def SetResumeCount(self, *args): """SetResumeCount(self, uint32_t c)""" return _lldb.SBLaunchInfo_SetResumeCount(self, *args) def AddCloseFileAction(self, *args): """AddCloseFileAction(self, int fd) -> bool""" return _lldb.SBLaunchInfo_AddCloseFileAction(self, *args) def AddDuplicateFileAction(self, *args): """AddDuplicateFileAction(self, int fd, int dup_fd) -> bool""" return _lldb.SBLaunchInfo_AddDuplicateFileAction(self, *args) def AddOpenFileAction(self, *args): """AddOpenFileAction(self, int fd, str path, bool read, bool write) -> bool""" return _lldb.SBLaunchInfo_AddOpenFileAction(self, *args) def AddSuppressFileAction(self, *args): """AddSuppressFileAction(self, int fd, bool read, bool write) -> bool""" return _lldb.SBLaunchInfo_AddSuppressFileAction(self, *args) def SetLaunchEventData(self, *args): """SetLaunchEventData(self, str data)""" return _lldb.SBLaunchInfo_SetLaunchEventData(self, *args) def GetLaunchEventData(self): """GetLaunchEventData(self) -> str""" return _lldb.SBLaunchInfo_GetLaunchEventData(self) def GetDetachOnError(self): """GetDetachOnError(self) -> bool""" return _lldb.SBLaunchInfo_GetDetachOnError(self) def SetDetachOnError(self, *args): """SetDetachOnError(self, bool enable)""" return _lldb.SBLaunchInfo_SetDetachOnError(self, *args) __swig_destroy__ = _lldb.delete_SBLaunchInfo __del__ = lambda self : None; SBLaunchInfo_swigregister = _lldb.SBLaunchInfo_swigregister SBLaunchInfo_swigregister(SBLaunchInfo) class SBLineEntry(_object): """ Specifies an association with a contiguous range of instructions and a source file location. SBCompileUnit contains SBLineEntry(s). For example, for lineEntry in compileUnit: print('line entry: %s:%d' % (str(lineEntry.GetFileSpec()), lineEntry.GetLine())) print('start addr: %s' % str(lineEntry.GetStartAddress())) print('end addr: %s' % str(lineEntry.GetEndAddress())) produces: line entry: /Volumes/data/lldb/svn/trunk/test/python_api/symbol-context/main.c:20 start addr: a.out[0x100000d98] end addr: a.out[0x100000da3] line entry: /Volumes/data/lldb/svn/trunk/test/python_api/symbol-context/main.c:21 start addr: a.out[0x100000da3] end addr: a.out[0x100000da9] line entry: /Volumes/data/lldb/svn/trunk/test/python_api/symbol-context/main.c:22 start addr: a.out[0x100000da9] end addr: a.out[0x100000db6] line entry: /Volumes/data/lldb/svn/trunk/test/python_api/symbol-context/main.c:23 start addr: a.out[0x100000db6] end addr: a.out[0x100000dbc] ... See also SBCompileUnit. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBLineEntry, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBLineEntry, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBLineEntry __init__(self, SBLineEntry rhs) -> SBLineEntry """ this = _lldb.new_SBLineEntry(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBLineEntry __del__ = lambda self : None; def GetStartAddress(self): """GetStartAddress(self) -> SBAddress""" return _lldb.SBLineEntry_GetStartAddress(self) def GetEndAddress(self): """GetEndAddress(self) -> SBAddress""" return _lldb.SBLineEntry_GetEndAddress(self) def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBLineEntry_IsValid(self) def GetFileSpec(self): """GetFileSpec(self) -> SBFileSpec""" return _lldb.SBLineEntry_GetFileSpec(self) def GetLine(self): """GetLine(self) -> uint32_t""" return _lldb.SBLineEntry_GetLine(self) def GetColumn(self): """GetColumn(self) -> uint32_t""" return _lldb.SBLineEntry_GetColumn(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBLineEntry_GetDescription(self, *args) def SetFileSpec(self, *args): """SetFileSpec(self, SBFileSpec filespec)""" return _lldb.SBLineEntry_SetFileSpec(self, *args) def SetLine(self, *args): """SetLine(self, uint32_t line)""" return _lldb.SBLineEntry_SetLine(self, *args) def SetColumn(self, *args): """SetColumn(self, uint32_t column)""" return _lldb.SBLineEntry_SetColumn(self, *args) def __eq__(self, *args): """__eq__(self, SBLineEntry rhs) -> bool""" return _lldb.SBLineEntry___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBLineEntry rhs) -> bool""" return _lldb.SBLineEntry___ne__(self, *args) __swig_getmethods__["file"] = GetFileSpec if _newclass: file = property(GetFileSpec, None, doc='''A read only property that returns an lldb object that represents the file (lldb.SBFileSpec) for this line entry.''') __swig_getmethods__["line"] = GetLine if _newclass: line = property(GetLine, None, doc='''A read only property that returns the 1 based line number for this line entry, a return value of zero indicates that no line information is available.''') __swig_getmethods__["column"] = GetColumn if _newclass: column = property(GetColumn, None, doc='''A read only property that returns the 1 based column number for this line entry, a return value of zero indicates that no column information is available.''') __swig_getmethods__["addr"] = GetStartAddress if _newclass: addr = property(GetStartAddress, None, doc='''A read only property that returns an lldb object that represents the start address (lldb.SBAddress) for this line entry.''') __swig_getmethods__["end_addr"] = GetEndAddress if _newclass: end_addr = property(GetEndAddress, None, doc='''A read only property that returns an lldb object that represents the end address (lldb.SBAddress) for this line entry.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBLineEntry___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBLineEntry_swigregister = _lldb.SBLineEntry_swigregister SBLineEntry_swigregister(SBLineEntry) class SBListener(_object): """ API clients can register its own listener to debugger events. See aslo SBEvent for example usage of creating and adding a listener. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBListener, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBListener, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBListener __init__(self, str name) -> SBListener __init__(self, SBListener rhs) -> SBListener """ this = _lldb.new_SBListener(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBListener __del__ = lambda self : None; def AddEvent(self, *args): """AddEvent(self, SBEvent event)""" return _lldb.SBListener_AddEvent(self, *args) def Clear(self): """Clear(self)""" return _lldb.SBListener_Clear(self) def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBListener_IsValid(self) def StartListeningForEventClass(self, *args): """StartListeningForEventClass(self, SBDebugger debugger, str broadcaster_class, uint32_t event_mask) -> uint32_t""" return _lldb.SBListener_StartListeningForEventClass(self, *args) def StopListeningForEventClass(self, *args): """StopListeningForEventClass(self, SBDebugger debugger, str broadcaster_class, uint32_t event_mask) -> uint32_t""" return _lldb.SBListener_StopListeningForEventClass(self, *args) def StartListeningForEvents(self, *args): """StartListeningForEvents(self, SBBroadcaster broadcaster, uint32_t event_mask) -> uint32_t""" return _lldb.SBListener_StartListeningForEvents(self, *args) def StopListeningForEvents(self, *args): """StopListeningForEvents(self, SBBroadcaster broadcaster, uint32_t event_mask) -> bool""" return _lldb.SBListener_StopListeningForEvents(self, *args) def WaitForEvent(self, *args): """WaitForEvent(self, uint32_t num_seconds, SBEvent event) -> bool""" return _lldb.SBListener_WaitForEvent(self, *args) def WaitForEventForBroadcaster(self, *args): """WaitForEventForBroadcaster(self, uint32_t num_seconds, SBBroadcaster broadcaster, SBEvent sb_event) -> bool""" return _lldb.SBListener_WaitForEventForBroadcaster(self, *args) def WaitForEventForBroadcasterWithType(self, *args): """ WaitForEventForBroadcasterWithType(self, uint32_t num_seconds, SBBroadcaster broadcaster, uint32_t event_type_mask, SBEvent sb_event) -> bool """ return _lldb.SBListener_WaitForEventForBroadcasterWithType(self, *args) def PeekAtNextEvent(self, *args): """PeekAtNextEvent(self, SBEvent sb_event) -> bool""" return _lldb.SBListener_PeekAtNextEvent(self, *args) def PeekAtNextEventForBroadcaster(self, *args): """PeekAtNextEventForBroadcaster(self, SBBroadcaster broadcaster, SBEvent sb_event) -> bool""" return _lldb.SBListener_PeekAtNextEventForBroadcaster(self, *args) def PeekAtNextEventForBroadcasterWithType(self, *args): """ PeekAtNextEventForBroadcasterWithType(self, SBBroadcaster broadcaster, uint32_t event_type_mask, SBEvent sb_event) -> bool """ return _lldb.SBListener_PeekAtNextEventForBroadcasterWithType(self, *args) def GetNextEvent(self, *args): """GetNextEvent(self, SBEvent sb_event) -> bool""" return _lldb.SBListener_GetNextEvent(self, *args) def GetNextEventForBroadcaster(self, *args): """GetNextEventForBroadcaster(self, SBBroadcaster broadcaster, SBEvent sb_event) -> bool""" return _lldb.SBListener_GetNextEventForBroadcaster(self, *args) def GetNextEventForBroadcasterWithType(self, *args): """ GetNextEventForBroadcasterWithType(self, SBBroadcaster broadcaster, uint32_t event_type_mask, SBEvent sb_event) -> bool """ return _lldb.SBListener_GetNextEventForBroadcasterWithType(self, *args) def HandleBroadcastEvent(self, *args): """HandleBroadcastEvent(self, SBEvent event) -> bool""" return _lldb.SBListener_HandleBroadcastEvent(self, *args) SBListener_swigregister = _lldb.SBListener_swigregister SBListener_swigregister(SBListener) class SBModule(_object): """ Represents an executable image and its associated object and symbol files. The module is designed to be able to select a single slice of an executable image as it would appear on disk and during program execution. You can retrieve SBModule from SBSymbolContext, which in turn is available from SBFrame. SBModule supports symbol iteration, for example, for symbol in module: name = symbol.GetName() saddr = symbol.GetStartAddress() eaddr = symbol.GetEndAddress() and rich comparion methods which allow the API program to use, if thisModule == thatModule: print('This module is the same as that module') to test module equality. A module also contains object file sections, namely SBSection. SBModule supports section iteration through section_iter(), for example, print('Number of sections: %d' % module.GetNumSections()) for sec in module.section_iter(): print(sec) And to iterate the symbols within a SBSection, use symbol_in_section_iter(), # Iterates the text section and prints each symbols within each sub-section. for subsec in text_sec: print(INDENT + repr(subsec)) for sym in exe_module.symbol_in_section_iter(subsec): print(INDENT2 + repr(sym)) print(INDENT2 + 'symbol type: %s' % symbol_type_to_str(sym.GetType())) produces this following output: [0x0000000100001780-0x0000000100001d5c) a.out.__TEXT.__text id = {0x00000004}, name = 'mask_access(MaskAction, unsigned int)', range = [0x00000001000017c0-0x0000000100001870) symbol type: code id = {0x00000008}, name = 'thread_func(void*)', range = [0x0000000100001870-0x00000001000019b0) symbol type: code id = {0x0000000c}, name = 'main', range = [0x00000001000019b0-0x0000000100001d5c) symbol type: code id = {0x00000023}, name = 'start', address = 0x0000000100001780 symbol type: code [0x0000000100001d5c-0x0000000100001da4) a.out.__TEXT.__stubs id = {0x00000024}, name = '__stack_chk_fail', range = [0x0000000100001d5c-0x0000000100001d62) symbol type: trampoline id = {0x00000028}, name = 'exit', range = [0x0000000100001d62-0x0000000100001d68) symbol type: trampoline id = {0x00000029}, name = 'fflush', range = [0x0000000100001d68-0x0000000100001d6e) symbol type: trampoline id = {0x0000002a}, name = 'fgets', range = [0x0000000100001d6e-0x0000000100001d74) symbol type: trampoline id = {0x0000002b}, name = 'printf', range = [0x0000000100001d74-0x0000000100001d7a) symbol type: trampoline id = {0x0000002c}, name = 'pthread_create', range = [0x0000000100001d7a-0x0000000100001d80) symbol type: trampoline id = {0x0000002d}, name = 'pthread_join', range = [0x0000000100001d80-0x0000000100001d86) symbol type: trampoline id = {0x0000002e}, name = 'pthread_mutex_lock', range = [0x0000000100001d86-0x0000000100001d8c) symbol type: trampoline id = {0x0000002f}, name = 'pthread_mutex_unlock', range = [0x0000000100001d8c-0x0000000100001d92) symbol type: trampoline id = {0x00000030}, name = 'rand', range = [0x0000000100001d92-0x0000000100001d98) symbol type: trampoline id = {0x00000031}, name = 'strtoul', range = [0x0000000100001d98-0x0000000100001d9e) symbol type: trampoline id = {0x00000032}, name = 'usleep', range = [0x0000000100001d9e-0x0000000100001da4) symbol type: trampoline [0x0000000100001da4-0x0000000100001e2c) a.out.__TEXT.__stub_helper [0x0000000100001e2c-0x0000000100001f10) a.out.__TEXT.__cstring [0x0000000100001f10-0x0000000100001f68) a.out.__TEXT.__unwind_info [0x0000000100001f68-0x0000000100001ff8) a.out.__TEXT.__eh_frame """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBModule, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBModule, name) __repr__ = _swig_repr def __iter__(self): return lldb_iter(self, 'GetNumSymbols', 'GetSymbolAtIndex') def __len__(self): return self.GetNumSymbols() def __eq__(self, other): return isinstance(other, SBModule) and self.GetFileSpec() == other.GetFileSpec() and self.GetUUIDString() == other.GetUUIDString() def __ne__(self, other): return not self.__eq__(other) def section_iter(self): return lldb_iter(self, 'GetNumSections', 'GetSectionAtIndex') def compile_unit_iter(self): return lldb_iter(self, 'GetNumCompileUnits', 'GetCompileUnitAtIndex') def symbol_in_section_iter(self, section): """Given a module and its contained section, returns an iterator on the symbols within the section.""" for sym in self: if in_range(sym, section): yield sym def __init__(self, *args): """ __init__(self) -> SBModule __init__(self, SBModule rhs) -> SBModule __init__(self, SBModuleSpec module_spec) -> SBModule __init__(self, SBProcess process, addr_t header_addr) -> SBModule """ this = _lldb.new_SBModule(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBModule __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBModule_IsValid(self) def Clear(self): """Clear(self)""" return _lldb.SBModule_Clear(self) def GetFileSpec(self): """ GetFileSpec(self) -> SBFileSpec Get const accessor for the module file specification. This function returns the file for the module on the host system that is running LLDB. This can differ from the path on the platform since we might be doing remote debugging. @return A const reference to the file specification object. """ return _lldb.SBModule_GetFileSpec(self) def GetPlatformFileSpec(self): """ GetPlatformFileSpec(self) -> SBFileSpec Get accessor for the module platform file specification. Platform file refers to the path of the module as it is known on the remote system on which it is being debugged. For local debugging this is always the same as Module::GetFileSpec(). But remote debugging might mention a file '/usr/lib/liba.dylib' which might be locally downloaded and cached. In this case the platform file could be something like: '/tmp/lldb/platform-cache/remote.host.computer/usr/lib/liba.dylib' The file could also be cached in a local developer kit directory. @return A const reference to the file specification object. """ return _lldb.SBModule_GetPlatformFileSpec(self) def SetPlatformFileSpec(self, *args): """SetPlatformFileSpec(self, SBFileSpec platform_file) -> bool""" return _lldb.SBModule_SetPlatformFileSpec(self, *args) def GetRemoteInstallFileSpec(self): """GetRemoteInstallFileSpec(self) -> SBFileSpec""" return _lldb.SBModule_GetRemoteInstallFileSpec(self) def SetRemoteInstallFileSpec(self, *args): """SetRemoteInstallFileSpec(self, SBFileSpec file) -> bool""" return _lldb.SBModule_SetRemoteInstallFileSpec(self, *args) def GetUUIDString(self): """ GetUUIDString(self) -> str Returns the UUID of the module as a Python string. """ return _lldb.SBModule_GetUUIDString(self) def FindSection(self, *args): """FindSection(self, str sect_name) -> SBSection""" return _lldb.SBModule_FindSection(self, *args) def ResolveFileAddress(self, *args): """ResolveFileAddress(self, addr_t vm_addr) -> SBAddress""" return _lldb.SBModule_ResolveFileAddress(self, *args) def ResolveSymbolContextForAddress(self, *args): """ResolveSymbolContextForAddress(self, SBAddress addr, uint32_t resolve_scope) -> SBSymbolContext""" return _lldb.SBModule_ResolveSymbolContextForAddress(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBModule_GetDescription(self, *args) def GetNumCompileUnits(self): """GetNumCompileUnits(self) -> uint32_t""" return _lldb.SBModule_GetNumCompileUnits(self) def GetCompileUnitAtIndex(self, *args): """GetCompileUnitAtIndex(self, uint32_t arg0) -> SBCompileUnit""" return _lldb.SBModule_GetCompileUnitAtIndex(self, *args) def GetNumSymbols(self): """GetNumSymbols(self) -> size_t""" return _lldb.SBModule_GetNumSymbols(self) def GetSymbolAtIndex(self, *args): """GetSymbolAtIndex(self, size_t idx) -> SBSymbol""" return _lldb.SBModule_GetSymbolAtIndex(self, *args) def FindSymbol(self, *args): """ FindSymbol(self, str name, SymbolType type = eSymbolTypeAny) -> SBSymbol FindSymbol(self, str name) -> SBSymbol """ return _lldb.SBModule_FindSymbol(self, *args) def FindSymbols(self, *args): """ FindSymbols(self, str name, SymbolType type = eSymbolTypeAny) -> SBSymbolContextList FindSymbols(self, str name) -> SBSymbolContextList """ return _lldb.SBModule_FindSymbols(self, *args) def GetNumSections(self): """GetNumSections(self) -> size_t""" return _lldb.SBModule_GetNumSections(self) def GetSectionAtIndex(self, *args): """GetSectionAtIndex(self, size_t idx) -> SBSection""" return _lldb.SBModule_GetSectionAtIndex(self, *args) def FindFunctions(self, *args): """ FindFunctions(self, str name, uint32_t name_type_mask = eFunctionNameTypeAny) -> SBSymbolContextList FindFunctions(self, str name) -> SBSymbolContextList Find functions by name. @param[in] name The name of the function we are looking for. @param[in] name_type_mask A logical OR of one or more FunctionNameType enum bits that indicate what kind of names should be used when doing the lookup. Bits include fully qualified names, base names, C++ methods, or ObjC selectors. See FunctionNameType for more details. @return A symbol context list that gets filled in with all of the matches. """ return _lldb.SBModule_FindFunctions(self, *args) def FindFirstType(self, *args): """FindFirstType(self, str name) -> SBType""" return _lldb.SBModule_FindFirstType(self, *args) def FindTypes(self, *args): """FindTypes(self, str type) -> SBTypeList""" return _lldb.SBModule_FindTypes(self, *args) def GetTypeByID(self, *args): """GetTypeByID(self, user_id_t uid) -> SBType""" return _lldb.SBModule_GetTypeByID(self, *args) def GetBasicType(self, *args): """GetBasicType(self, BasicType type) -> SBType""" return _lldb.SBModule_GetBasicType(self, *args) def GetTypes(self, *args): """ GetTypes(self, uint32_t type_mask = eTypeClassAny) -> SBTypeList GetTypes(self) -> SBTypeList Get all types matching type_mask from debug info in this module. @param[in] type_mask A bitfield that consists of one or more bits logically OR'ed together from the lldb::TypeClass enumeration. This allows you to request only structure types, or only class, struct and union types. Passing in lldb::eTypeClassAny will return all types found in the debug information for this module. @return A list of types in this module that match type_mask """ return _lldb.SBModule_GetTypes(self, *args) def FindGlobalVariables(self, *args): """ FindGlobalVariables(self, SBTarget target, str name, uint32_t max_matches) -> SBValueList Find global and static variables by name. @param[in] target A valid SBTarget instance representing the debuggee. @param[in] name The name of the global or static variable we are looking for. @param[in] max_matches Allow the number of matches to be limited to max_matches. @return A list of matched variables in an SBValueList. """ return _lldb.SBModule_FindGlobalVariables(self, *args) def FindFirstGlobalVariable(self, *args): """ FindFirstGlobalVariable(self, SBTarget target, str name) -> SBValue Find the first global (or static) variable by name. @param[in] target A valid SBTarget instance representing the debuggee. @param[in] name The name of the global or static variable we are looking for. @return An SBValue that gets filled in with the found variable (if any). """ return _lldb.SBModule_FindFirstGlobalVariable(self, *args) def GetByteOrder(self): """GetByteOrder(self) -> ByteOrder""" return _lldb.SBModule_GetByteOrder(self) def GetAddressByteSize(self): """GetAddressByteSize(self) -> uint32_t""" return _lldb.SBModule_GetAddressByteSize(self) def GetTriple(self): """GetTriple(self) -> str""" return _lldb.SBModule_GetTriple(self) def GetVersion(self): """GetVersion(self) -> uint32_t""" return _lldb.SBModule_GetVersion(self) def GetSymbolFileSpec(self): """GetSymbolFileSpec(self) -> SBFileSpec""" return _lldb.SBModule_GetSymbolFileSpec(self) def GetObjectFileHeaderAddress(self): """GetObjectFileHeaderAddress(self) -> SBAddress""" return _lldb.SBModule_GetObjectFileHeaderAddress(self) def __eq__(self, *args): """__eq__(self, SBModule rhs) -> bool""" return _lldb.SBModule___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBModule rhs) -> bool""" return _lldb.SBModule___ne__(self, *args) class symbols_access(object): re_compile_type = type(re.compile('.')) '''A helper object that will lazily hand out lldb.SBSymbol objects for a module when supplied an index, name, or regular expression.''' def __init__(self, sbmodule): self.sbmodule = sbmodule def __len__(self): if self.sbmodule: return int(self.sbmodule.GetNumSymbols()) return 0 def __getitem__(self, key): count = len(self) if type(key) is int: if key < count: return self.sbmodule.GetSymbolAtIndex(key) elif type(key) is str: matches = [] sc_list = self.sbmodule.FindSymbols(key) for sc in sc_list: symbol = sc.symbol if symbol: matches.append(symbol) return matches elif isinstance(key, self.re_compile_type): matches = [] for idx in range(count): symbol = self.sbmodule.GetSymbolAtIndex(idx) added = False name = symbol.name if name: re_match = key.search(name) if re_match: matches.append(symbol) added = True if not added: mangled = symbol.mangled if mangled: re_match = key.search(mangled) if re_match: matches.append(symbol) return matches else: print("error: unsupported item type: %s" % type(key)) return None def get_symbols_access_object(self): '''An accessor function that returns a symbols_access() object which allows lazy symbol access from a lldb.SBModule object.''' return self.symbols_access (self) def get_compile_units_access_object (self): '''An accessor function that returns a compile_units_access() object which allows lazy compile unit access from a lldb.SBModule object.''' return self.compile_units_access (self) def get_symbols_array(self): '''An accessor function that returns a list() that contains all symbols in a lldb.SBModule object.''' symbols = [] for idx in range(self.num_symbols): symbols.append(self.GetSymbolAtIndex(idx)) return symbols class sections_access(object): re_compile_type = type(re.compile('.')) '''A helper object that will lazily hand out lldb.SBSection objects for a module when supplied an index, name, or regular expression.''' def __init__(self, sbmodule): self.sbmodule = sbmodule def __len__(self): if self.sbmodule: return int(self.sbmodule.GetNumSections()) return 0 def __getitem__(self, key): count = len(self) if type(key) is int: if key < count: return self.sbmodule.GetSectionAtIndex(key) elif type(key) is str: for idx in range(count): section = self.sbmodule.GetSectionAtIndex(idx) if section.name == key: return section elif isinstance(key, self.re_compile_type): matches = [] for idx in range(count): section = self.sbmodule.GetSectionAtIndex(idx) name = section.name if name: re_match = key.search(name) if re_match: matches.append(section) return matches else: print("error: unsupported item type: %s" % type(key)) return None class compile_units_access(object): re_compile_type = type(re.compile('.')) '''A helper object that will lazily hand out lldb.SBCompileUnit objects for a module when supplied an index, full or partial path, or regular expression.''' def __init__(self, sbmodule): self.sbmodule = sbmodule def __len__(self): if self.sbmodule: return int(self.sbmodule.GetNumCompileUnits()) return 0 def __getitem__(self, key): count = len(self) if type(key) is int: if key < count: return self.sbmodule.GetCompileUnitAtIndex(key) elif type(key) is str: is_full_path = key[0] == '/' for idx in range(count): comp_unit = self.sbmodule.GetCompileUnitAtIndex(idx) if is_full_path: if comp_unit.file.fullpath == key: return comp_unit else: if comp_unit.file.basename == key: return comp_unit elif isinstance(key, self.re_compile_type): matches = [] for idx in range(count): comp_unit = self.sbmodule.GetCompileUnitAtIndex(idx) fullpath = comp_unit.file.fullpath if fullpath: re_match = key.search(fullpath) if re_match: matches.append(comp_unit) return matches else: print("error: unsupported item type: %s" % type(key)) return None def get_sections_access_object(self): '''An accessor function that returns a sections_access() object which allows lazy section array access.''' return self.sections_access (self) def get_sections_array(self): '''An accessor function that returns an array object that contains all sections in this module object.''' if not hasattr(self, 'sections_array'): self.sections_array = [] for idx in range(self.num_sections): self.sections_array.append(self.GetSectionAtIndex(idx)) return self.sections_array def get_compile_units_array(self): '''An accessor function that returns an array object that contains all compile_units in this module object.''' if not hasattr(self, 'compile_units_array'): self.compile_units_array = [] for idx in range(self.GetNumCompileUnits()): self.compile_units_array.append(self.GetCompileUnitAtIndex(idx)) return self.compile_units_array __swig_getmethods__["symbols"] = get_symbols_array if _newclass: symbols = property(get_symbols_array, None, doc='''A read only property that returns a list() of lldb.SBSymbol objects contained in this module.''') __swig_getmethods__["symbol"] = get_symbols_access_object if _newclass: symbol = property(get_symbols_access_object, None, doc='''A read only property that can be used to access symbols by index ("symbol = module.symbol[0]"), name ("symbols = module.symbol['main']"), or using a regular expression ("symbols = module.symbol[re.compile(...)]"). The return value is a single lldb.SBSymbol object for array access, and a list() of lldb.SBSymbol objects for name and regular expression access''') __swig_getmethods__["sections"] = get_sections_array if _newclass: sections = property(get_sections_array, None, doc='''A read only property that returns a list() of lldb.SBSection objects contained in this module.''') __swig_getmethods__["compile_units"] = get_compile_units_array if _newclass: compile_units = property(get_compile_units_array, None, doc='''A read only property that returns a list() of lldb.SBCompileUnit objects contained in this module.''') __swig_getmethods__["section"] = get_sections_access_object if _newclass: section = property(get_sections_access_object, None, doc='''A read only property that can be used to access symbols by index ("section = module.section[0]"), name ("sections = module.section[\'main\']"), or using a regular expression ("sections = module.section[re.compile(...)]"). The return value is a single lldb.SBSection object for array access, and a list() of lldb.SBSection objects for name and regular expression access''') __swig_getmethods__["compile_unit"] = get_compile_units_access_object if _newclass: section = property(get_sections_access_object, None, doc='''A read only property that can be used to access compile units by index ("compile_unit = module.compile_unit[0]"), name ("compile_unit = module.compile_unit[\'main.cpp\']"), or using a regular expression ("compile_unit = module.compile_unit[re.compile(...)]"). The return value is a single lldb.SBCompileUnit object for array access or by full or partial path, and a list() of lldb.SBCompileUnit objects regular expressions.''') def get_uuid(self): return uuid.UUID (self.GetUUIDString()) __swig_getmethods__["uuid"] = get_uuid if _newclass: uuid = property(get_uuid, None, doc='''A read only property that returns a standard python uuid.UUID object that represents the UUID of this module.''') __swig_getmethods__["file"] = GetFileSpec if _newclass: file = property(GetFileSpec, None, doc='''A read only property that returns an lldb object that represents the file (lldb.SBFileSpec) for this object file for this module as it is represented where it is being debugged.''') __swig_getmethods__["platform_file"] = GetPlatformFileSpec if _newclass: platform_file = property(GetPlatformFileSpec, None, doc='''A read only property that returns an lldb object that represents the file (lldb.SBFileSpec) for this object file for this module as it is represented on the current host system.''') __swig_getmethods__["byte_order"] = GetByteOrder if _newclass: byte_order = property(GetByteOrder, None, doc='''A read only property that returns an lldb enumeration value (lldb.eByteOrderLittle, lldb.eByteOrderBig, lldb.eByteOrderInvalid) that represents the byte order for this module.''') __swig_getmethods__["addr_size"] = GetAddressByteSize if _newclass: addr_size = property(GetAddressByteSize, None, doc='''A read only property that returns the size in bytes of an address for this module.''') __swig_getmethods__["triple"] = GetTriple if _newclass: triple = property(GetTriple, None, doc='''A read only property that returns the target triple (arch-vendor-os) for this module.''') __swig_getmethods__["num_symbols"] = GetNumSymbols if _newclass: num_symbols = property(GetNumSymbols, None, doc='''A read only property that returns number of symbols in the module symbol table as an integer.''') __swig_getmethods__["num_sections"] = GetNumSections if _newclass: num_sections = property(GetNumSections, None, doc='''A read only property that returns number of sections in the module as an integer.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBModule___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBModule_swigregister = _lldb.SBModule_swigregister SBModule_swigregister(SBModule) class SBModuleSpec(_object): """Proxy of C++ lldb::SBModuleSpec class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBModuleSpec, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBModuleSpec, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBModuleSpec __init__(self, SBModuleSpec rhs) -> SBModuleSpec """ this = _lldb.new_SBModuleSpec(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBModuleSpec __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBModuleSpec_IsValid(self) def Clear(self): """Clear(self)""" return _lldb.SBModuleSpec_Clear(self) def GetFileSpec(self): """GetFileSpec(self) -> SBFileSpec""" return _lldb.SBModuleSpec_GetFileSpec(self) def SetFileSpec(self, *args): """SetFileSpec(self, SBFileSpec fspec)""" return _lldb.SBModuleSpec_SetFileSpec(self, *args) def GetPlatformFileSpec(self): """GetPlatformFileSpec(self) -> SBFileSpec""" return _lldb.SBModuleSpec_GetPlatformFileSpec(self) def SetPlatformFileSpec(self, *args): """SetPlatformFileSpec(self, SBFileSpec fspec)""" return _lldb.SBModuleSpec_SetPlatformFileSpec(self, *args) def GetSymbolFileSpec(self): """GetSymbolFileSpec(self) -> SBFileSpec""" return _lldb.SBModuleSpec_GetSymbolFileSpec(self) def SetSymbolFileSpec(self, *args): """SetSymbolFileSpec(self, SBFileSpec fspec)""" return _lldb.SBModuleSpec_SetSymbolFileSpec(self, *args) def GetObjectName(self): """GetObjectName(self) -> str""" return _lldb.SBModuleSpec_GetObjectName(self) def SetObjectName(self, *args): """SetObjectName(self, str name)""" return _lldb.SBModuleSpec_SetObjectName(self, *args) def GetTriple(self): """GetTriple(self) -> str""" return _lldb.SBModuleSpec_GetTriple(self) def SetTriple(self, *args): """SetTriple(self, str triple)""" return _lldb.SBModuleSpec_SetTriple(self, *args) def GetUUIDBytes(self): """GetUUIDBytes(self) -> uint8_t""" return _lldb.SBModuleSpec_GetUUIDBytes(self) def GetUUIDLength(self): """GetUUIDLength(self) -> size_t""" return _lldb.SBModuleSpec_GetUUIDLength(self) def SetUUIDBytes(self, *args): """SetUUIDBytes(self, uint8_t uuid, size_t uuid_len) -> bool""" return _lldb.SBModuleSpec_SetUUIDBytes(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBModuleSpec_GetDescription(self, *args) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBModuleSpec___str__(self) SBModuleSpec_swigregister = _lldb.SBModuleSpec_swigregister SBModuleSpec_swigregister(SBModuleSpec) class SBModuleSpecList(_object): """Proxy of C++ lldb::SBModuleSpecList class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBModuleSpecList, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBModuleSpecList, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBModuleSpecList __init__(self, SBModuleSpecList rhs) -> SBModuleSpecList """ this = _lldb.new_SBModuleSpecList(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBModuleSpecList __del__ = lambda self : None; def GetModuleSpecifications(*args): """GetModuleSpecifications(str path) -> SBModuleSpecList""" return _lldb.SBModuleSpecList_GetModuleSpecifications(*args) if _newclass:GetModuleSpecifications = staticmethod(GetModuleSpecifications) __swig_getmethods__["GetModuleSpecifications"] = lambda x: GetModuleSpecifications def Append(self, *args): """ Append(self, SBModuleSpec spec) Append(self, SBModuleSpecList spec_list) """ return _lldb.SBModuleSpecList_Append(self, *args) def FindFirstMatchingSpec(self, *args): """FindFirstMatchingSpec(self, SBModuleSpec match_spec) -> SBModuleSpec""" return _lldb.SBModuleSpecList_FindFirstMatchingSpec(self, *args) def FindMatchingSpecs(self, *args): """FindMatchingSpecs(self, SBModuleSpec match_spec) -> SBModuleSpecList""" return _lldb.SBModuleSpecList_FindMatchingSpecs(self, *args) def GetSize(self): """GetSize(self) -> size_t""" return _lldb.SBModuleSpecList_GetSize(self) def GetSpecAtIndex(self, *args): """GetSpecAtIndex(self, size_t i) -> SBModuleSpec""" return _lldb.SBModuleSpecList_GetSpecAtIndex(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBModuleSpecList_GetDescription(self, *args) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBModuleSpecList___str__(self) SBModuleSpecList_swigregister = _lldb.SBModuleSpecList_swigregister SBModuleSpecList_swigregister(SBModuleSpecList) def SBModuleSpecList_GetModuleSpecifications(*args): """SBModuleSpecList_GetModuleSpecifications(str path) -> SBModuleSpecList""" return _lldb.SBModuleSpecList_GetModuleSpecifications(*args) class SBPlatformConnectOptions(_object): """Proxy of C++ lldb::SBPlatformConnectOptions class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBPlatformConnectOptions, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBPlatformConnectOptions, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self, str url) -> SBPlatformConnectOptions __init__(self, SBPlatformConnectOptions rhs) -> SBPlatformConnectOptions """ this = _lldb.new_SBPlatformConnectOptions(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBPlatformConnectOptions __del__ = lambda self : None; def GetURL(self): """GetURL(self) -> str""" return _lldb.SBPlatformConnectOptions_GetURL(self) def SetURL(self, *args): """SetURL(self, str url)""" return _lldb.SBPlatformConnectOptions_SetURL(self, *args) def GetRsyncEnabled(self): """GetRsyncEnabled(self) -> bool""" return _lldb.SBPlatformConnectOptions_GetRsyncEnabled(self) def EnableRsync(self, *args): """EnableRsync(self, str options, str remote_path_prefix, bool omit_remote_hostname)""" return _lldb.SBPlatformConnectOptions_EnableRsync(self, *args) def DisableRsync(self): """DisableRsync(self)""" return _lldb.SBPlatformConnectOptions_DisableRsync(self) def GetLocalCacheDirectory(self): """GetLocalCacheDirectory(self) -> str""" return _lldb.SBPlatformConnectOptions_GetLocalCacheDirectory(self) def SetLocalCacheDirectory(self, *args): """SetLocalCacheDirectory(self, str path)""" return _lldb.SBPlatformConnectOptions_SetLocalCacheDirectory(self, *args) SBPlatformConnectOptions_swigregister = _lldb.SBPlatformConnectOptions_swigregister SBPlatformConnectOptions_swigregister(SBPlatformConnectOptions) class SBPlatformShellCommand(_object): """Proxy of C++ lldb::SBPlatformShellCommand class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBPlatformShellCommand, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBPlatformShellCommand, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self, str shell_command) -> SBPlatformShellCommand __init__(self, SBPlatformShellCommand rhs) -> SBPlatformShellCommand """ this = _lldb.new_SBPlatformShellCommand(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBPlatformShellCommand __del__ = lambda self : None; def Clear(self): """Clear(self)""" return _lldb.SBPlatformShellCommand_Clear(self) def GetCommand(self): """GetCommand(self) -> str""" return _lldb.SBPlatformShellCommand_GetCommand(self) def SetCommand(self, *args): """SetCommand(self, str shell_command)""" return _lldb.SBPlatformShellCommand_SetCommand(self, *args) def GetWorkingDirectory(self): """GetWorkingDirectory(self) -> str""" return _lldb.SBPlatformShellCommand_GetWorkingDirectory(self) def SetWorkingDirectory(self, *args): """SetWorkingDirectory(self, str path)""" return _lldb.SBPlatformShellCommand_SetWorkingDirectory(self, *args) def GetTimeoutSeconds(self): """GetTimeoutSeconds(self) -> uint32_t""" return _lldb.SBPlatformShellCommand_GetTimeoutSeconds(self) def SetTimeoutSeconds(self, *args): """SetTimeoutSeconds(self, uint32_t sec)""" return _lldb.SBPlatformShellCommand_SetTimeoutSeconds(self, *args) def GetSignal(self): """GetSignal(self) -> int""" return _lldb.SBPlatformShellCommand_GetSignal(self) def GetStatus(self): """GetStatus(self) -> int""" return _lldb.SBPlatformShellCommand_GetStatus(self) def GetOutput(self): """GetOutput(self) -> str""" return _lldb.SBPlatformShellCommand_GetOutput(self) SBPlatformShellCommand_swigregister = _lldb.SBPlatformShellCommand_swigregister SBPlatformShellCommand_swigregister(SBPlatformShellCommand) class SBPlatform(_object): """ A class that represents a platform that can represent the current host or a remote host debug platform. The SBPlatform class represents the current host, or a remote host. It can be connected to a remote platform in order to provide ways to remotely launch and attach to processes, upload/download files, create directories, run remote shell commands, find locally cached versions of files from the remote system, and much more. SBPlatform objects can be created and then used to connect to a remote platform which allows the SBPlatform to be used to get a list of the current processes on the remote host, attach to one of those processes, install programs on the remote system, attach and launch processes, and much more. Every SBTarget has a corresponding SBPlatform. The platform can be specified upon target creation, or the currently selected platform will attempt to be used when creating the target automatically as long as the currently selected platform matches the target architecture and executable type. If the architecture or executable type do not match, a suitable platform will be found automatically. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBPlatform, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBPlatform, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBPlatform __init__(self, str arg0) -> SBPlatform """ this = _lldb.new_SBPlatform(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBPlatform __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBPlatform_IsValid(self) def Clear(self): """Clear(self)""" return _lldb.SBPlatform_Clear(self) def GetWorkingDirectory(self): """GetWorkingDirectory(self) -> str""" return _lldb.SBPlatform_GetWorkingDirectory(self) def SetWorkingDirectory(self, *args): """SetWorkingDirectory(self, str arg0) -> bool""" return _lldb.SBPlatform_SetWorkingDirectory(self, *args) def GetName(self): """GetName(self) -> str""" return _lldb.SBPlatform_GetName(self) def ConnectRemote(self, *args): """ConnectRemote(self, SBPlatformConnectOptions connect_options) -> SBError""" return _lldb.SBPlatform_ConnectRemote(self, *args) def DisconnectRemote(self): """DisconnectRemote(self)""" return _lldb.SBPlatform_DisconnectRemote(self) def IsConnected(self): """IsConnected(self) -> bool""" return _lldb.SBPlatform_IsConnected(self) def GetTriple(self): """GetTriple(self) -> str""" return _lldb.SBPlatform_GetTriple(self) def GetHostname(self): """GetHostname(self) -> str""" return _lldb.SBPlatform_GetHostname(self) def GetOSBuild(self): """GetOSBuild(self) -> str""" return _lldb.SBPlatform_GetOSBuild(self) def GetOSDescription(self): """GetOSDescription(self) -> str""" return _lldb.SBPlatform_GetOSDescription(self) def GetOSMajorVersion(self): """GetOSMajorVersion(self) -> uint32_t""" return _lldb.SBPlatform_GetOSMajorVersion(self) def GetOSMinorVersion(self): """GetOSMinorVersion(self) -> uint32_t""" return _lldb.SBPlatform_GetOSMinorVersion(self) def GetOSUpdateVersion(self): """GetOSUpdateVersion(self) -> uint32_t""" return _lldb.SBPlatform_GetOSUpdateVersion(self) def Get(self, *args): """Get(self, SBFileSpec src, SBFileSpec dst) -> SBError""" return _lldb.SBPlatform_Get(self, *args) def Put(self, *args): """Put(self, SBFileSpec src, SBFileSpec dst) -> SBError""" return _lldb.SBPlatform_Put(self, *args) def Install(self, *args): """Install(self, SBFileSpec src, SBFileSpec dst) -> SBError""" return _lldb.SBPlatform_Install(self, *args) def Run(self, *args): """Run(self, SBPlatformShellCommand shell_command) -> SBError""" return _lldb.SBPlatform_Run(self, *args) def Launch(self, *args): """Launch(self, SBLaunchInfo launch_info) -> SBError""" return _lldb.SBPlatform_Launch(self, *args) def Kill(self, *args): """Kill(self, pid_t pid) -> SBError""" return _lldb.SBPlatform_Kill(self, *args) def MakeDirectory(self, *args): """ MakeDirectory(self, str path, uint32_t file_permissions = eFilePermissionsDirectoryDefault) -> SBError MakeDirectory(self, str path) -> SBError """ return _lldb.SBPlatform_MakeDirectory(self, *args) def GetFilePermissions(self, *args): """GetFilePermissions(self, str path) -> uint32_t""" return _lldb.SBPlatform_GetFilePermissions(self, *args) def SetFilePermissions(self, *args): """SetFilePermissions(self, str path, uint32_t file_permissions) -> SBError""" return _lldb.SBPlatform_SetFilePermissions(self, *args) def GetUnixSignals(self): """GetUnixSignals(self) -> SBUnixSignals""" return _lldb.SBPlatform_GetUnixSignals(self) SBPlatform_swigregister = _lldb.SBPlatform_swigregister SBPlatform_swigregister(SBPlatform) class SBProcess(_object): """ Represents the process associated with the target program. SBProcess supports thread iteration. For example (from test/lldbutil.py), # ================================================== # Utility functions related to Threads and Processes # ================================================== def get_stopped_threads(process, reason): '''Returns the thread(s) with the specified stop reason in a list. The list can be empty if no such thread exists. ''' threads = [] for t in process: if t.GetStopReason() == reason: threads.append(t) return threads ... """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBProcess, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBProcess, name) __repr__ = _swig_repr eBroadcastBitStateChanged = _lldb.SBProcess_eBroadcastBitStateChanged eBroadcastBitInterrupt = _lldb.SBProcess_eBroadcastBitInterrupt eBroadcastBitSTDOUT = _lldb.SBProcess_eBroadcastBitSTDOUT eBroadcastBitSTDERR = _lldb.SBProcess_eBroadcastBitSTDERR eBroadcastBitProfileData = _lldb.SBProcess_eBroadcastBitProfileData def __iter__(self): return lldb_iter(self, 'GetNumThreads', 'GetThreadAtIndex') def __len__(self): return self.GetNumThreads() def __init__(self, *args): """ __init__(self) -> SBProcess __init__(self, SBProcess rhs) -> SBProcess """ this = _lldb.new_SBProcess(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBProcess __del__ = lambda self : None; def GetBroadcasterClassName(): """GetBroadcasterClassName() -> str""" return _lldb.SBProcess_GetBroadcasterClassName() if _newclass:GetBroadcasterClassName = staticmethod(GetBroadcasterClassName) __swig_getmethods__["GetBroadcasterClassName"] = lambda x: GetBroadcasterClassName def GetPluginName(self): """GetPluginName(self) -> str""" return _lldb.SBProcess_GetPluginName(self) def GetShortPluginName(self): """GetShortPluginName(self) -> str""" return _lldb.SBProcess_GetShortPluginName(self) def Clear(self): """Clear(self)""" return _lldb.SBProcess_Clear(self) def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBProcess_IsValid(self) def GetTarget(self): """GetTarget(self) -> SBTarget""" return _lldb.SBProcess_GetTarget(self) def GetByteOrder(self): """GetByteOrder(self) -> ByteOrder""" return _lldb.SBProcess_GetByteOrder(self) def PutSTDIN(self, *args): """ Writes data into the current process's stdin. API client specifies a Python string as the only argument. """ return _lldb.SBProcess_PutSTDIN(self, *args) def GetSTDOUT(self, *args): """ Reads data from the current process's stdout stream. API client specifies the size of the buffer to read data into. It returns the byte buffer in a Python string. """ return _lldb.SBProcess_GetSTDOUT(self, *args) def GetSTDERR(self, *args): """ Reads data from the current process's stderr stream. API client specifies the size of the buffer to read data into. It returns the byte buffer in a Python string. """ return _lldb.SBProcess_GetSTDERR(self, *args) def GetAsyncProfileData(self, *args): """GetAsyncProfileData(self, str dst) -> size_t""" return _lldb.SBProcess_GetAsyncProfileData(self, *args) def ReportEventState(self, *args): """ReportEventState(self, SBEvent event, FILE out)""" return _lldb.SBProcess_ReportEventState(self, *args) def AppendEventStateReport(self, *args): """AppendEventStateReport(self, SBEvent event, SBCommandReturnObject result)""" return _lldb.SBProcess_AppendEventStateReport(self, *args) def RemoteAttachToProcessWithID(self, *args): """ RemoteAttachToProcessWithID(self, pid_t pid, SBError error) -> bool Remote connection related functions. These will fail if the process is not in eStateConnected. They are intended for use when connecting to an externally managed debugserver instance. """ return _lldb.SBProcess_RemoteAttachToProcessWithID(self, *args) def RemoteLaunch(self, *args): """ RemoteLaunch(self, list argv, list envp, str stdin_path, str stdout_path, str stderr_path, str working_directory, uint32_t launch_flags, bool stop_at_entry, SBError error) -> bool See SBTarget.Launch for argument description and usage. """ return _lldb.SBProcess_RemoteLaunch(self, *args) def GetNumThreads(self): """GetNumThreads(self) -> uint32_t""" return _lldb.SBProcess_GetNumThreads(self) def GetThreadAtIndex(self, *args): """ Returns the INDEX'th thread from the list of current threads. The index of a thread is only valid for the current stop. For a persistent thread identifier use either the thread ID or the IndexID. See help on SBThread for more details. """ return _lldb.SBProcess_GetThreadAtIndex(self, *args) def GetThreadByID(self, *args): """ Returns the thread with the given thread ID. """ return _lldb.SBProcess_GetThreadByID(self, *args) def GetThreadByIndexID(self, *args): """ Returns the thread with the given thread IndexID. """ return _lldb.SBProcess_GetThreadByIndexID(self, *args) def GetSelectedThread(self): """ Returns the currently selected thread. """ return _lldb.SBProcess_GetSelectedThread(self) def CreateOSPluginThread(self, *args): """ Lazily create a thread on demand through the current OperatingSystem plug-in, if the current OperatingSystem plug-in supports it. """ return _lldb.SBProcess_CreateOSPluginThread(self, *args) def SetSelectedThread(self, *args): """SetSelectedThread(self, SBThread thread) -> bool""" return _lldb.SBProcess_SetSelectedThread(self, *args) def SetSelectedThreadByID(self, *args): """SetSelectedThreadByID(self, tid_t tid) -> bool""" return _lldb.SBProcess_SetSelectedThreadByID(self, *args) def SetSelectedThreadByIndexID(self, *args): """SetSelectedThreadByIndexID(self, uint32_t index_id) -> bool""" return _lldb.SBProcess_SetSelectedThreadByIndexID(self, *args) def GetNumQueues(self): """GetNumQueues(self) -> uint32_t""" return _lldb.SBProcess_GetNumQueues(self) def GetQueueAtIndex(self, *args): """GetQueueAtIndex(self, uint32_t index) -> SBQueue""" return _lldb.SBProcess_GetQueueAtIndex(self, *args) def GetState(self): """GetState(self) -> StateType""" return _lldb.SBProcess_GetState(self) def GetExitStatus(self): """GetExitStatus(self) -> int""" return _lldb.SBProcess_GetExitStatus(self) def GetExitDescription(self): """GetExitDescription(self) -> str""" return _lldb.SBProcess_GetExitDescription(self) def GetProcessID(self): """ Returns the process ID of the process. """ return _lldb.SBProcess_GetProcessID(self) def GetUniqueID(self): """ Returns an integer ID that is guaranteed to be unique across all process instances. This is not the process ID, just a unique integer for comparison and caching purposes. """ return _lldb.SBProcess_GetUniqueID(self) def GetAddressByteSize(self): """GetAddressByteSize(self) -> uint32_t""" return _lldb.SBProcess_GetAddressByteSize(self) def Destroy(self): """ Destroy(self) -> SBError Kills the process and shuts down all threads that were spawned to track and monitor process. """ return _lldb.SBProcess_Destroy(self) def Continue(self): """Continue(self) -> SBError""" return _lldb.SBProcess_Continue(self) def Stop(self): """Stop(self) -> SBError""" return _lldb.SBProcess_Stop(self) def Kill(self): """Kill(self) -> SBError""" return _lldb.SBProcess_Kill(self) def Detach(self): """Detach(self) -> SBError""" return _lldb.SBProcess_Detach(self) def Signal(self, *args): """ Signal(self, int signal) -> SBError Sends the process a unix signal. """ return _lldb.SBProcess_Signal(self, *args) def GetUnixSignals(self): """GetUnixSignals(self) -> SBUnixSignals""" return _lldb.SBProcess_GetUnixSignals(self) def GetStopID(self, include_expression_stops = False): """ GetStopID(self, bool include_expression_stops = False) -> uint32_t GetStopID(self) -> uint32_t Returns a stop id that will increase every time the process executes. If include_expression_stops is true, then stops caused by expression evaluation will cause the returned value to increase, otherwise the counter returned will only increase when execution is continued explicitly by the user. Note, the value will always increase, but may increase by more than one per stop. """ return _lldb.SBProcess_GetStopID(self, include_expression_stops) def SendAsyncInterrupt(self): """SendAsyncInterrupt(self)""" return _lldb.SBProcess_SendAsyncInterrupt(self) def ReadMemory(self, *args): """ Reads memory from the current process's address space and removes any traps that may have been inserted into the memory. It returns the byte buffer in a Python string. Example: # Read 4 bytes from address 'addr' and assume error.Success() is True. content = process.ReadMemory(addr, 4, error) new_bytes = bytearray(content) """ return _lldb.SBProcess_ReadMemory(self, *args) def WriteMemory(self, *args): """ Writes memory to the current process's address space and maintains any traps that might be present due to software breakpoints. Example: # Create a Python string from the byte array. new_value = str(bytes) result = process.WriteMemory(addr, new_value, error) if not error.Success() or result != len(bytes): print('SBProcess.WriteMemory() failed!') """ return _lldb.SBProcess_WriteMemory(self, *args) def ReadCStringFromMemory(self, *args): """ Reads a NULL terminated C string from the current process's address space. It returns a python string of the exact length, or truncates the string if the maximum stracter limit is reached. Example: # Read a C string of at most 256 bytes from address '0x1000' error = lldb.SBError() cstring = process.ReadCStringFromMemory(0x1000, 256, error) if error.Success(): print('cstring: ', cstring) else print('error: ', error) """ return _lldb.SBProcess_ReadCStringFromMemory(self, *args) def ReadUnsignedFromMemory(self, *args): """ Reads an unsigned integer from memory given a byte size and an address. Returns the unsigned integer that was read. Example: # Read a 4 byte unsigned integer from address 0x1000 error = lldb.SBError() uint = ReadUnsignedFromMemory(0x1000, 4, error) if error.Success(): print('integer: %u' % uint) else print('error: ', error) """ return _lldb.SBProcess_ReadUnsignedFromMemory(self, *args) def ReadPointerFromMemory(self, *args): """ Reads a pointer from memory from an address and returns the value. Example: # Read a pointer from address 0x1000 error = lldb.SBError() ptr = ReadPointerFromMemory(0x1000, error) if error.Success(): print('pointer: 0x%x' % ptr) else print('error: ', error) """ return _lldb.SBProcess_ReadPointerFromMemory(self, *args) def GetStateFromEvent(*args): """GetStateFromEvent(SBEvent event) -> StateType""" return _lldb.SBProcess_GetStateFromEvent(*args) if _newclass:GetStateFromEvent = staticmethod(GetStateFromEvent) __swig_getmethods__["GetStateFromEvent"] = lambda x: GetStateFromEvent def GetRestartedFromEvent(*args): """GetRestartedFromEvent(SBEvent event) -> bool""" return _lldb.SBProcess_GetRestartedFromEvent(*args) if _newclass:GetRestartedFromEvent = staticmethod(GetRestartedFromEvent) __swig_getmethods__["GetRestartedFromEvent"] = lambda x: GetRestartedFromEvent def GetNumRestartedReasonsFromEvent(*args): """GetNumRestartedReasonsFromEvent(SBEvent event) -> size_t""" return _lldb.SBProcess_GetNumRestartedReasonsFromEvent(*args) if _newclass:GetNumRestartedReasonsFromEvent = staticmethod(GetNumRestartedReasonsFromEvent) __swig_getmethods__["GetNumRestartedReasonsFromEvent"] = lambda x: GetNumRestartedReasonsFromEvent def GetRestartedReasonAtIndexFromEvent(*args): """GetRestartedReasonAtIndexFromEvent(SBEvent event, size_t idx) -> str""" return _lldb.SBProcess_GetRestartedReasonAtIndexFromEvent(*args) if _newclass:GetRestartedReasonAtIndexFromEvent = staticmethod(GetRestartedReasonAtIndexFromEvent) __swig_getmethods__["GetRestartedReasonAtIndexFromEvent"] = lambda x: GetRestartedReasonAtIndexFromEvent def GetProcessFromEvent(*args): """GetProcessFromEvent(SBEvent event) -> SBProcess""" return _lldb.SBProcess_GetProcessFromEvent(*args) if _newclass:GetProcessFromEvent = staticmethod(GetProcessFromEvent) __swig_getmethods__["GetProcessFromEvent"] = lambda x: GetProcessFromEvent def GetInterruptedFromEvent(*args): """GetInterruptedFromEvent(SBEvent event) -> bool""" return _lldb.SBProcess_GetInterruptedFromEvent(*args) if _newclass:GetInterruptedFromEvent = staticmethod(GetInterruptedFromEvent) __swig_getmethods__["GetInterruptedFromEvent"] = lambda x: GetInterruptedFromEvent def EventIsProcessEvent(*args): """EventIsProcessEvent(SBEvent event) -> bool""" return _lldb.SBProcess_EventIsProcessEvent(*args) if _newclass:EventIsProcessEvent = staticmethod(EventIsProcessEvent) __swig_getmethods__["EventIsProcessEvent"] = lambda x: EventIsProcessEvent def GetBroadcaster(self): """GetBroadcaster(self) -> SBBroadcaster""" return _lldb.SBProcess_GetBroadcaster(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBProcess_GetDescription(self, *args) def GetNumSupportedHardwareWatchpoints(self, *args): """GetNumSupportedHardwareWatchpoints(self, SBError error) -> uint32_t""" return _lldb.SBProcess_GetNumSupportedHardwareWatchpoints(self, *args) def LoadImage(self, *args): """LoadImage(self, SBFileSpec image_spec, SBError error) -> uint32_t""" return _lldb.SBProcess_LoadImage(self, *args) def UnloadImage(self, *args): """UnloadImage(self, uint32_t image_token) -> SBError""" return _lldb.SBProcess_UnloadImage(self, *args) def SendEventData(self, *args): """SendEventData(self, str event_data) -> SBError""" return _lldb.SBProcess_SendEventData(self, *args) def GetNumExtendedBacktraceTypes(self): """ Return the number of different thread-origin extended backtraces this process can support as a uint32_t. When the process is stopped and you have an SBThread, lldb may be able to show a backtrace of when that thread was originally created, or the work item was enqueued to it (in the case of a libdispatch queue). """ return _lldb.SBProcess_GetNumExtendedBacktraceTypes(self) def GetExtendedBacktraceTypeAtIndex(self, *args): """ Takes an index argument, returns the name of one of the thread-origin extended backtrace methods as a str. """ return _lldb.SBProcess_GetExtendedBacktraceTypeAtIndex(self, *args) def GetHistoryThreads(self, *args): """GetHistoryThreads(self, addr_t addr) -> SBThreadCollection""" return _lldb.SBProcess_GetHistoryThreads(self, *args) def IsInstrumentationRuntimePresent(self, *args): """IsInstrumentationRuntimePresent(self, InstrumentationRuntimeType type) -> bool""" return _lldb.SBProcess_IsInstrumentationRuntimePresent(self, *args) def __get_is_alive__(self): '''Returns "True" if the process is currently alive, "False" otherwise''' s = self.GetState() if (s == eStateAttaching or s == eStateLaunching or s == eStateStopped or s == eStateRunning or s == eStateStepping or s == eStateCrashed or s == eStateSuspended): return True return False def __get_is_running__(self): '''Returns "True" if the process is currently running, "False" otherwise''' state = self.GetState() if state == eStateRunning or state == eStateStepping: return True return False def __get_is_running__(self): '''Returns "True" if the process is currently stopped, "False" otherwise''' state = self.GetState() if state == eStateStopped or state == eStateCrashed or state == eStateSuspended: return True return False class threads_access(object): '''A helper object that will lazily hand out thread for a process when supplied an index.''' def __init__(self, sbprocess): self.sbprocess = sbprocess def __len__(self): if self.sbprocess: return int(self.sbprocess.GetNumThreads()) return 0 def __getitem__(self, key): if type(key) is int and key < len(self): return self.sbprocess.GetThreadAtIndex(key) return None def get_threads_access_object(self): '''An accessor function that returns a modules_access() object which allows lazy thread access from a lldb.SBProcess object.''' return self.threads_access (self) def get_process_thread_list(self): '''An accessor function that returns a list() that contains all threads in a lldb.SBProcess object.''' threads = [] accessor = self.get_threads_access_object() for idx in range(len(accessor)): threads.append(accessor[idx]) return threads __swig_getmethods__["threads"] = get_process_thread_list if _newclass: threads = property(get_process_thread_list, None, doc='''A read only property that returns a list() of lldb.SBThread objects for this process.''') __swig_getmethods__["thread"] = get_threads_access_object if _newclass: thread = property(get_threads_access_object, None, doc='''A read only property that returns an object that can access threads by thread index (thread = lldb.process.thread[12]).''') __swig_getmethods__["is_alive"] = __get_is_alive__ if _newclass: is_alive = property(__get_is_alive__, None, doc='''A read only property that returns a boolean value that indicates if this process is currently alive.''') __swig_getmethods__["is_running"] = __get_is_running__ if _newclass: is_running = property(__get_is_running__, None, doc='''A read only property that returns a boolean value that indicates if this process is currently running.''') __swig_getmethods__["is_stopped"] = __get_is_running__ if _newclass: is_stopped = property(__get_is_running__, None, doc='''A read only property that returns a boolean value that indicates if this process is currently stopped.''') __swig_getmethods__["id"] = GetProcessID if _newclass: id = property(GetProcessID, None, doc='''A read only property that returns the process ID as an integer.''') __swig_getmethods__["target"] = GetTarget if _newclass: target = property(GetTarget, None, doc='''A read only property that an lldb object that represents the target (lldb.SBTarget) that owns this process.''') __swig_getmethods__["num_threads"] = GetNumThreads if _newclass: num_threads = property(GetNumThreads, None, doc='''A read only property that returns the number of threads in this process as an integer.''') __swig_getmethods__["selected_thread"] = GetSelectedThread __swig_setmethods__["selected_thread"] = SetSelectedThread if _newclass: selected_thread = property(GetSelectedThread, SetSelectedThread, doc='''A read/write property that gets/sets the currently selected thread in this process. The getter returns a lldb.SBThread object and the setter takes an lldb.SBThread object.''') __swig_getmethods__["state"] = GetState if _newclass: state = property(GetState, None, doc='''A read only property that returns an lldb enumeration value (see enumerations that start with "lldb.eState") that represents the current state of this process (running, stopped, exited, etc.).''') __swig_getmethods__["exit_state"] = GetExitStatus if _newclass: exit_state = property(GetExitStatus, None, doc='''A read only property that returns an exit status as an integer of this process when the process state is lldb.eStateExited.''') __swig_getmethods__["exit_description"] = GetExitDescription if _newclass: exit_description = property(GetExitDescription, None, doc='''A read only property that returns an exit description as a string of this process when the process state is lldb.eStateExited.''') __swig_getmethods__["broadcaster"] = GetBroadcaster if _newclass: broadcaster = property(GetBroadcaster, None, doc='''A read only property that an lldb object that represents the broadcaster (lldb.SBBroadcaster) for this process.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBProcess___str__(self) SBProcess_swigregister = _lldb.SBProcess_swigregister SBProcess_swigregister(SBProcess) def SBProcess_GetBroadcasterClassName(): """SBProcess_GetBroadcasterClassName() -> str""" return _lldb.SBProcess_GetBroadcasterClassName() def SBProcess_GetStateFromEvent(*args): """SBProcess_GetStateFromEvent(SBEvent event) -> StateType""" return _lldb.SBProcess_GetStateFromEvent(*args) def SBProcess_GetRestartedFromEvent(*args): """SBProcess_GetRestartedFromEvent(SBEvent event) -> bool""" return _lldb.SBProcess_GetRestartedFromEvent(*args) def SBProcess_GetNumRestartedReasonsFromEvent(*args): """SBProcess_GetNumRestartedReasonsFromEvent(SBEvent event) -> size_t""" return _lldb.SBProcess_GetNumRestartedReasonsFromEvent(*args) def SBProcess_GetRestartedReasonAtIndexFromEvent(*args): """SBProcess_GetRestartedReasonAtIndexFromEvent(SBEvent event, size_t idx) -> str""" return _lldb.SBProcess_GetRestartedReasonAtIndexFromEvent(*args) def SBProcess_GetProcessFromEvent(*args): """SBProcess_GetProcessFromEvent(SBEvent event) -> SBProcess""" return _lldb.SBProcess_GetProcessFromEvent(*args) def SBProcess_GetInterruptedFromEvent(*args): """SBProcess_GetInterruptedFromEvent(SBEvent event) -> bool""" return _lldb.SBProcess_GetInterruptedFromEvent(*args) def SBProcess_EventIsProcessEvent(*args): """SBProcess_EventIsProcessEvent(SBEvent event) -> bool""" return _lldb.SBProcess_EventIsProcessEvent(*args) class SBQueue(_object): """Proxy of C++ lldb::SBQueue class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBQueue, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBQueue, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBQueue __init__(self, QueueSP queue_sp) -> SBQueue """ this = _lldb.new_SBQueue(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBQueue __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBQueue_IsValid(self) def Clear(self): """Clear(self)""" return _lldb.SBQueue_Clear(self) def GetProcess(self): """GetProcess(self) -> SBProcess""" return _lldb.SBQueue_GetProcess(self) def GetQueueID(self): """ Returns an lldb::queue_id_t type unique identifier number for this queue that will not be used by any other queue during this process' execution. These ID numbers often start at 1 with the first system-created queues and increment from there. """ return _lldb.SBQueue_GetQueueID(self) def GetName(self): """GetName(self) -> str""" return _lldb.SBQueue_GetName(self) def GetKind(self): """ Returns an lldb::QueueKind enumerated value (e.g. eQueueKindUnknown, eQueueKindSerial, eQueueKindConcurrent) describing the type of this queue. """ return _lldb.SBQueue_GetKind(self) def GetIndexID(self): """GetIndexID(self) -> uint32_t""" return _lldb.SBQueue_GetIndexID(self) def GetNumThreads(self): """GetNumThreads(self) -> uint32_t""" return _lldb.SBQueue_GetNumThreads(self) def GetThreadAtIndex(self, *args): """GetThreadAtIndex(self, uint32_t arg0) -> SBThread""" return _lldb.SBQueue_GetThreadAtIndex(self, *args) def GetNumPendingItems(self): """GetNumPendingItems(self) -> uint32_t""" return _lldb.SBQueue_GetNumPendingItems(self) def GetPendingItemAtIndex(self, *args): """GetPendingItemAtIndex(self, uint32_t arg0) -> SBQueueItem""" return _lldb.SBQueue_GetPendingItemAtIndex(self, *args) def GetNumRunningItems(self): """GetNumRunningItems(self) -> uint32_t""" return _lldb.SBQueue_GetNumRunningItems(self) SBQueue_swigregister = _lldb.SBQueue_swigregister SBQueue_swigregister(SBQueue) class SBQueueItem(_object): """Proxy of C++ lldb::SBQueueItem class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBQueueItem, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBQueueItem, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBQueueItem __init__(self, QueueItemSP queue_item_sp) -> SBQueueItem """ this = _lldb.new_SBQueueItem(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBQueueItem __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBQueueItem_IsValid(self) def Clear(self): """Clear(self)""" return _lldb.SBQueueItem_Clear(self) def GetKind(self): """GetKind(self) -> QueueItemKind""" return _lldb.SBQueueItem_GetKind(self) def SetKind(self, *args): """SetKind(self, QueueItemKind kind)""" return _lldb.SBQueueItem_SetKind(self, *args) def GetAddress(self): """GetAddress(self) -> SBAddress""" return _lldb.SBQueueItem_GetAddress(self) def SetAddress(self, *args): """SetAddress(self, SBAddress addr)""" return _lldb.SBQueueItem_SetAddress(self, *args) def SetQueueItem(self, *args): """SetQueueItem(self, QueueItemSP queue_item_sp)""" return _lldb.SBQueueItem_SetQueueItem(self, *args) def GetExtendedBacktraceThread(self, *args): """GetExtendedBacktraceThread(self, str type) -> SBThread""" return _lldb.SBQueueItem_GetExtendedBacktraceThread(self, *args) SBQueueItem_swigregister = _lldb.SBQueueItem_swigregister SBQueueItem_swigregister(SBQueueItem) class SBSection(_object): """ Represents an executable image section. SBSection supports iteration through its subsection, represented as SBSection as well. For example, for sec in exe_module: if sec.GetName() == '__TEXT': print sec break print INDENT + 'Number of subsections: %d' % sec.GetNumSubSections() for subsec in sec: print INDENT + repr(subsec) produces: [0x0000000100000000-0x0000000100002000) a.out.__TEXT Number of subsections: 6 [0x0000000100001780-0x0000000100001d5c) a.out.__TEXT.__text [0x0000000100001d5c-0x0000000100001da4) a.out.__TEXT.__stubs [0x0000000100001da4-0x0000000100001e2c) a.out.__TEXT.__stub_helper [0x0000000100001e2c-0x0000000100001f10) a.out.__TEXT.__cstring [0x0000000100001f10-0x0000000100001f68) a.out.__TEXT.__unwind_info [0x0000000100001f68-0x0000000100001ff8) a.out.__TEXT.__eh_frame See also SBModule. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBSection, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBSection, name) __repr__ = _swig_repr def __iter__(self): return lldb_iter(self, 'GetNumSubSections', 'GetSubSectionAtIndex') def __len__(self): return self.GetNumSubSections() def __init__(self, *args): """ __init__(self) -> SBSection __init__(self, SBSection rhs) -> SBSection """ this = _lldb.new_SBSection(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBSection __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBSection_IsValid(self) def GetName(self): """GetName(self) -> str""" return _lldb.SBSection_GetName(self) def GetParent(self): """GetParent(self) -> SBSection""" return _lldb.SBSection_GetParent(self) def FindSubSection(self, *args): """FindSubSection(self, str sect_name) -> SBSection""" return _lldb.SBSection_FindSubSection(self, *args) def GetNumSubSections(self): """GetNumSubSections(self) -> size_t""" return _lldb.SBSection_GetNumSubSections(self) def GetSubSectionAtIndex(self, *args): """GetSubSectionAtIndex(self, size_t idx) -> SBSection""" return _lldb.SBSection_GetSubSectionAtIndex(self, *args) def GetFileAddress(self): """GetFileAddress(self) -> addr_t""" return _lldb.SBSection_GetFileAddress(self) def GetLoadAddress(self, *args): """GetLoadAddress(self, SBTarget target) -> addr_t""" return _lldb.SBSection_GetLoadAddress(self, *args) def GetByteSize(self): """GetByteSize(self) -> addr_t""" return _lldb.SBSection_GetByteSize(self) def GetFileOffset(self): """GetFileOffset(self) -> uint64_t""" return _lldb.SBSection_GetFileOffset(self) def GetFileByteSize(self): """GetFileByteSize(self) -> uint64_t""" return _lldb.SBSection_GetFileByteSize(self) def GetSectionData(self, *args): """ GetSectionData(self) -> SBData GetSectionData(self, uint64_t offset, uint64_t size) -> SBData """ return _lldb.SBSection_GetSectionData(self, *args) def GetSectionType(self): """GetSectionType(self) -> SectionType""" return _lldb.SBSection_GetSectionType(self) def GetTargetByteSize(self): """ GetTargetByteSize(self) -> uint32_t Return the size of a target's byte represented by this section in numbers of host bytes. Note that certain architectures have varying minimum addressable unit (i.e. byte) size for their CODE or DATA buses. @return The number of host (8-bit) bytes needed to hold a target byte """ return _lldb.SBSection_GetTargetByteSize(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBSection_GetDescription(self, *args) def __eq__(self, *args): """__eq__(self, SBSection rhs) -> bool""" return _lldb.SBSection___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBSection rhs) -> bool""" return _lldb.SBSection___ne__(self, *args) def get_addr(self): return SBAddress(self, 0) __swig_getmethods__["name"] = GetName if _newclass: name = property(GetName, None, doc='''A read only property that returns the name of this section as a string.''') __swig_getmethods__["addr"] = get_addr if _newclass: addr = property(get_addr, None, doc='''A read only property that returns an lldb object that represents the start address (lldb.SBAddress) for this section.''') __swig_getmethods__["file_addr"] = GetFileAddress if _newclass: file_addr = property(GetFileAddress, None, doc='''A read only property that returns an integer that represents the starting "file" address for this section, or the address of the section in the object file in which it is defined.''') __swig_getmethods__["size"] = GetByteSize if _newclass: size = property(GetByteSize, None, doc='''A read only property that returns the size in bytes of this section as an integer.''') __swig_getmethods__["file_offset"] = GetFileOffset if _newclass: file_offset = property(GetFileOffset, None, doc='''A read only property that returns the file offset in bytes of this section as an integer.''') __swig_getmethods__["file_size"] = GetFileByteSize if _newclass: file_size = property(GetFileByteSize, None, doc='''A read only property that returns the file size in bytes of this section as an integer.''') __swig_getmethods__["data"] = GetSectionData if _newclass: data = property(GetSectionData, None, doc='''A read only property that returns an lldb object that represents the bytes for this section (lldb.SBData) for this section.''') __swig_getmethods__["type"] = GetSectionType if _newclass: type = property(GetSectionType, None, doc='''A read only property that returns an lldb enumeration value (see enumerations that start with "lldb.eSectionType") that represents the type of this section (code, data, etc.).''') __swig_getmethods__["target_byte_size"] = GetTargetByteSize if _newclass: target_byte_size = property(GetTargetByteSize, None, doc='''A read only property that returns the size of a target byte represented by this section as a number of host bytes.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBSection___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBSection_swigregister = _lldb.SBSection_swigregister SBSection_swigregister(SBSection) class SBSourceManager(_object): """ Represents a central authority for displaying source code. For example (from test/source-manager/TestSourceManager.py), # Create the filespec for 'main.c'. filespec = lldb.SBFileSpec('main.c', False) source_mgr = self.dbg.GetSourceManager() # Use a string stream as the destination. stream = lldb.SBStream() source_mgr.DisplaySourceLinesWithLineNumbers(filespec, self.line, 2, # context before 2, # context after '=>', # prefix for current line stream) # 2 # 3 int main(int argc, char const *argv[]) { # => 4 printf('Hello world.\n'); // Set break point at this line. # 5 return 0; # 6 } self.expect(stream.GetData(), 'Source code displayed correctly', exe=False, patterns = ['=> %d.*Hello world' % self.line]) """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBSourceManager, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBSourceManager, name) __repr__ = _swig_repr def __init__(self, *args): """__init__(self, SBSourceManager rhs) -> SBSourceManager""" this = _lldb.new_SBSourceManager(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBSourceManager __del__ = lambda self : None; def DisplaySourceLinesWithLineNumbers(self, *args): """ DisplaySourceLinesWithLineNumbers(self, SBFileSpec file, uint32_t line, uint32_t context_before, uint32_t context_after, str current_line_cstr, SBStream s) -> size_t """ return _lldb.SBSourceManager_DisplaySourceLinesWithLineNumbers(self, *args) SBSourceManager_swigregister = _lldb.SBSourceManager_swigregister SBSourceManager_swigregister(SBSourceManager) class SBStream(_object): """ Represents a destination for streaming data output to. By default, a string stream is created. For example (from test/source-manager/TestSourceManager.py), # Create the filespec for 'main.c'. filespec = lldb.SBFileSpec('main.c', False) source_mgr = self.dbg.GetSourceManager() # Use a string stream as the destination. stream = lldb.SBStream() source_mgr.DisplaySourceLinesWithLineNumbers(filespec, self.line, 2, # context before 2, # context after '=>', # prefix for current line stream) # 2 # 3 int main(int argc, char const *argv[]) { # => 4 printf('Hello world.\n'); // Set break point at this line. # 5 return 0; # 6 } self.expect(stream.GetData(), 'Source code displayed correctly', exe=False, patterns = ['=> %d.*Hello world' % self.line]) """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBStream, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBStream, name) __repr__ = _swig_repr def __init__(self): """__init__(self) -> SBStream""" this = _lldb.new_SBStream() try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBStream __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBStream_IsValid(self) def GetData(self): """ GetData(self) -> str If this stream is not redirected to a file, it will maintain a local cache for the stream data which can be accessed using this accessor. """ return _lldb.SBStream_GetData(self) def GetSize(self): """ GetSize(self) -> size_t If this stream is not redirected to a file, it will maintain a local cache for the stream output whose length can be accessed using this accessor. """ return _lldb.SBStream_GetSize(self) def Print(self, *args): """Print(self, str str)""" return _lldb.SBStream_Print(self, *args) def RedirectToFile(self, *args): """RedirectToFile(self, str path, bool append)""" return _lldb.SBStream_RedirectToFile(self, *args) def RedirectToFileHandle(self, *args): """RedirectToFileHandle(self, FILE fh, bool transfer_fh_ownership)""" return _lldb.SBStream_RedirectToFileHandle(self, *args) def RedirectToFileDescriptor(self, *args): """RedirectToFileDescriptor(self, int fd, bool transfer_fh_ownership)""" return _lldb.SBStream_RedirectToFileDescriptor(self, *args) def Clear(self): """ Clear(self) If the stream is redirected to a file, forget about the file and if ownership of the file was transferred to this object, close the file. If the stream is backed by a local cache, clear this cache. """ return _lldb.SBStream_Clear(self) def write(self, *args): """write(self, str str)""" return _lldb.SBStream_write(self, *args) def flush(self): """flush(self)""" return _lldb.SBStream_flush(self) SBStream_swigregister = _lldb.SBStream_swigregister SBStream_swigregister(SBStream) class SBStringList(_object): """Proxy of C++ lldb::SBStringList class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBStringList, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBStringList, name) __repr__ = _swig_repr def __iter__(self): return lldb_iter(self, 'GetSize', 'GetStringAtIndex') def __len__(self): return self.GetSize() def __init__(self, *args): """ __init__(self) -> SBStringList __init__(self, SBStringList rhs) -> SBStringList """ this = _lldb.new_SBStringList(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBStringList __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBStringList_IsValid(self) def AppendString(self, *args): """AppendString(self, str str)""" return _lldb.SBStringList_AppendString(self, *args) def AppendList(self, *args): """ AppendList(self, str strv, int strc) AppendList(self, SBStringList strings) """ return _lldb.SBStringList_AppendList(self, *args) def GetSize(self): """GetSize(self) -> uint32_t""" return _lldb.SBStringList_GetSize(self) def GetStringAtIndex(self, *args): """GetStringAtIndex(self, size_t idx) -> str""" return _lldb.SBStringList_GetStringAtIndex(self, *args) def Clear(self): """Clear(self)""" return _lldb.SBStringList_Clear(self) SBStringList_swigregister = _lldb.SBStringList_swigregister SBStringList_swigregister(SBStringList) class SBSymbol(_object): """ Represents the symbol possibly associated with a stack frame. SBModule contains SBSymbol(s). SBSymbol can also be retrived from SBFrame. See also SBModule and SBFrame. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBSymbol, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBSymbol, name) __repr__ = _swig_repr __swig_destroy__ = _lldb.delete_SBSymbol __del__ = lambda self : None; def __init__(self, *args): """ __init__(self) -> SBSymbol __init__(self, SBSymbol rhs) -> SBSymbol """ this = _lldb.new_SBSymbol(*args) try: self.this.append(this) except: self.this = this def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBSymbol_IsValid(self) def GetName(self): """GetName(self) -> str""" return _lldb.SBSymbol_GetName(self) def GetDisplayName(self): """GetDisplayName(self) -> str""" return _lldb.SBSymbol_GetDisplayName(self) def GetMangledName(self): """GetMangledName(self) -> str""" return _lldb.SBSymbol_GetMangledName(self) def GetInstructions(self, *args): """ GetInstructions(self, SBTarget target) -> SBInstructionList GetInstructions(self, SBTarget target, str flavor_string) -> SBInstructionList """ return _lldb.SBSymbol_GetInstructions(self, *args) def GetStartAddress(self): """GetStartAddress(self) -> SBAddress""" return _lldb.SBSymbol_GetStartAddress(self) def GetEndAddress(self): """GetEndAddress(self) -> SBAddress""" return _lldb.SBSymbol_GetEndAddress(self) def GetPrologueByteSize(self): """GetPrologueByteSize(self) -> uint32_t""" return _lldb.SBSymbol_GetPrologueByteSize(self) def GetType(self): """GetType(self) -> SymbolType""" return _lldb.SBSymbol_GetType(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBSymbol_GetDescription(self, *args) def IsExternal(self): """IsExternal(self) -> bool""" return _lldb.SBSymbol_IsExternal(self) def IsSynthetic(self): """IsSynthetic(self) -> bool""" return _lldb.SBSymbol_IsSynthetic(self) def __eq__(self, *args): """__eq__(self, SBSymbol rhs) -> bool""" return _lldb.SBSymbol___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBSymbol rhs) -> bool""" return _lldb.SBSymbol___ne__(self, *args) def get_instructions_from_current_target (self): return self.GetInstructions (target) __swig_getmethods__["name"] = GetName if _newclass: name = property(GetName, None, doc='''A read only property that returns the name for this symbol as a string.''') __swig_getmethods__["mangled"] = GetMangledName if _newclass: mangled = property(GetMangledName, None, doc='''A read only property that returns the mangled (linkage) name for this symbol as a string.''') __swig_getmethods__["type"] = GetType if _newclass: type = property(GetType, None, doc='''A read only property that returns an lldb enumeration value (see enumerations that start with "lldb.eSymbolType") that represents the type of this symbol.''') __swig_getmethods__["addr"] = GetStartAddress if _newclass: addr = property(GetStartAddress, None, doc='''A read only property that returns an lldb object that represents the start address (lldb.SBAddress) for this symbol.''') __swig_getmethods__["end_addr"] = GetEndAddress if _newclass: end_addr = property(GetEndAddress, None, doc='''A read only property that returns an lldb object that represents the end address (lldb.SBAddress) for this symbol.''') __swig_getmethods__["prologue_size"] = GetPrologueByteSize if _newclass: prologue_size = property(GetPrologueByteSize, None, doc='''A read only property that returns the size in bytes of the prologue instructions as an unsigned integer.''') __swig_getmethods__["instructions"] = get_instructions_from_current_target if _newclass: instructions = property(get_instructions_from_current_target, None, doc='''A read only property that returns an lldb object that represents the instructions (lldb.SBInstructionList) for this symbol.''') __swig_getmethods__["external"] = IsExternal if _newclass: external = property(IsExternal, None, doc='''A read only property that returns a boolean value that indicates if this symbol is externally visiable (exported) from the module that contains it.''') __swig_getmethods__["synthetic"] = IsSynthetic if _newclass: synthetic = property(IsSynthetic, None, doc='''A read only property that returns a boolean value that indicates if this symbol was synthetically created from information in module that contains it.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBSymbol___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBSymbol_swigregister = _lldb.SBSymbol_swigregister SBSymbol_swigregister(SBSymbol) class SBSymbolContext(_object): """ A context object that provides access to core debugger entities. Manay debugger functions require a context when doing lookups. This class provides a common structure that can be used as the result of a query that can contain a single result. For example, exe = os.path.join(os.getcwd(), 'a.out') # Create a target for the debugger. target = self.dbg.CreateTarget(exe) # Now create a breakpoint on main.c by name 'c'. breakpoint = target.BreakpointCreateByName('c', 'a.out') # Now launch the process, and do not stop at entry point. process = target.LaunchSimple(None, None, os.getcwd()) # The inferior should stop on 'c'. from lldbutil import get_stopped_thread thread = get_stopped_thread(process, lldb.eStopReasonBreakpoint) frame0 = thread.GetFrameAtIndex(0) # Now get the SBSymbolContext from this frame. We want everything. :-) context = frame0.GetSymbolContext(lldb.eSymbolContextEverything) # Get the module. module = context.GetModule() ... # And the compile unit associated with the frame. compileUnit = context.GetCompileUnit() ... """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBSymbolContext, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBSymbolContext, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBSymbolContext __init__(self, SBSymbolContext rhs) -> SBSymbolContext """ this = _lldb.new_SBSymbolContext(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBSymbolContext __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBSymbolContext_IsValid(self) def GetModule(self): """GetModule(self) -> SBModule""" return _lldb.SBSymbolContext_GetModule(self) def GetCompileUnit(self): """GetCompileUnit(self) -> SBCompileUnit""" return _lldb.SBSymbolContext_GetCompileUnit(self) def GetFunction(self): """GetFunction(self) -> SBFunction""" return _lldb.SBSymbolContext_GetFunction(self) def GetBlock(self): """GetBlock(self) -> SBBlock""" return _lldb.SBSymbolContext_GetBlock(self) def GetLineEntry(self): """GetLineEntry(self) -> SBLineEntry""" return _lldb.SBSymbolContext_GetLineEntry(self) def GetSymbol(self): """GetSymbol(self) -> SBSymbol""" return _lldb.SBSymbolContext_GetSymbol(self) def SetModule(self, *args): """SetModule(self, SBModule module)""" return _lldb.SBSymbolContext_SetModule(self, *args) def SetCompileUnit(self, *args): """SetCompileUnit(self, SBCompileUnit compile_unit)""" return _lldb.SBSymbolContext_SetCompileUnit(self, *args) def SetFunction(self, *args): """SetFunction(self, SBFunction function)""" return _lldb.SBSymbolContext_SetFunction(self, *args) def SetBlock(self, *args): """SetBlock(self, SBBlock block)""" return _lldb.SBSymbolContext_SetBlock(self, *args) def SetLineEntry(self, *args): """SetLineEntry(self, SBLineEntry line_entry)""" return _lldb.SBSymbolContext_SetLineEntry(self, *args) def SetSymbol(self, *args): """SetSymbol(self, SBSymbol symbol)""" return _lldb.SBSymbolContext_SetSymbol(self, *args) def GetParentOfInlinedScope(self, *args): """GetParentOfInlinedScope(self, SBAddress curr_frame_pc, SBAddress parent_frame_addr) -> SBSymbolContext""" return _lldb.SBSymbolContext_GetParentOfInlinedScope(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBSymbolContext_GetDescription(self, *args) __swig_getmethods__["module"] = GetModule __swig_setmethods__["module"] = SetModule if _newclass: module = property(GetModule, SetModule, doc='''A read/write property that allows the getting/setting of the module (lldb.SBModule) in this symbol context.''') __swig_getmethods__["compile_unit"] = GetCompileUnit __swig_setmethods__["compile_unit"] = SetCompileUnit if _newclass: compile_unit = property(GetCompileUnit, SetCompileUnit, doc='''A read/write property that allows the getting/setting of the compile unit (lldb.SBCompileUnit) in this symbol context.''') __swig_getmethods__["function"] = GetFunction __swig_setmethods__["function"] = SetFunction if _newclass: function = property(GetFunction, SetFunction, doc='''A read/write property that allows the getting/setting of the function (lldb.SBFunction) in this symbol context.''') __swig_getmethods__["block"] = GetBlock __swig_setmethods__["block"] = SetBlock if _newclass: block = property(GetBlock, SetBlock, doc='''A read/write property that allows the getting/setting of the block (lldb.SBBlock) in this symbol context.''') __swig_getmethods__["symbol"] = GetSymbol __swig_setmethods__["symbol"] = SetSymbol if _newclass: symbol = property(GetSymbol, SetSymbol, doc='''A read/write property that allows the getting/setting of the symbol (lldb.SBSymbol) in this symbol context.''') __swig_getmethods__["line_entry"] = GetLineEntry __swig_setmethods__["line_entry"] = SetLineEntry if _newclass: line_entry = property(GetLineEntry, SetLineEntry, doc='''A read/write property that allows the getting/setting of the line entry (lldb.SBLineEntry) in this symbol context.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBSymbolContext___str__(self) SBSymbolContext_swigregister = _lldb.SBSymbolContext_swigregister SBSymbolContext_swigregister(SBSymbolContext) class SBSymbolContextList(_object): """ Represents a list of symbol context object. See also SBSymbolContext. For example (from test/python_api/target/TestTargetAPI.py), def find_functions(self, exe_name): '''Exercise SBTaget.FindFunctions() API.''' exe = os.path.join(os.getcwd(), exe_name) # Create a target by the debugger. target = self.dbg.CreateTarget(exe) self.assertTrue(target, VALID_TARGET) list = lldb.SBSymbolContextList() num = target.FindFunctions('c', lldb.eFunctionNameTypeAuto, False, list) self.assertTrue(num == 1 and list.GetSize() == 1) for sc in list: self.assertTrue(sc.GetModule().GetFileSpec().GetFilename() == exe_name) self.assertTrue(sc.GetSymbol().GetName() == 'c') """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBSymbolContextList, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBSymbolContextList, name) __repr__ = _swig_repr def __iter__(self): return lldb_iter(self, 'GetSize', 'GetContextAtIndex') def __len__(self): return self.GetSize() def __init__(self, *args): """ __init__(self) -> SBSymbolContextList __init__(self, SBSymbolContextList rhs) -> SBSymbolContextList """ this = _lldb.new_SBSymbolContextList(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBSymbolContextList __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBSymbolContextList_IsValid(self) def GetSize(self): """GetSize(self) -> uint32_t""" return _lldb.SBSymbolContextList_GetSize(self) def GetContextAtIndex(self, *args): """GetContextAtIndex(self, uint32_t idx) -> SBSymbolContext""" return _lldb.SBSymbolContextList_GetContextAtIndex(self, *args) def Append(self, *args): """ Append(self, SBSymbolContext sc) Append(self, SBSymbolContextList sc_list) """ return _lldb.SBSymbolContextList_Append(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBSymbolContextList_GetDescription(self, *args) def Clear(self): """Clear(self)""" return _lldb.SBSymbolContextList_Clear(self) def __len__(self): return int(self.GetSize()) def __getitem__(self, key): count = len(self) if type(key) is int: if key < count: return self.GetContextAtIndex(key) else: raise IndexError raise TypeError def get_module_array(self): a = [] for i in range(len(self)): obj = self.GetContextAtIndex(i).module if obj: a.append(obj) return a def get_compile_unit_array(self): a = [] for i in range(len(self)): obj = self.GetContextAtIndex(i).compile_unit if obj: a.append(obj) return a def get_function_array(self): a = [] for i in range(len(self)): obj = self.GetContextAtIndex(i).function if obj: a.append(obj) return a def get_block_array(self): a = [] for i in range(len(self)): obj = self.GetContextAtIndex(i).block if obj: a.append(obj) return a def get_symbol_array(self): a = [] for i in range(len(self)): obj = self.GetContextAtIndex(i).symbol if obj: a.append(obj) return a def get_line_entry_array(self): a = [] for i in range(len(self)): obj = self.GetContextAtIndex(i).line_entry if obj: a.append(obj) return a __swig_getmethods__["modules"] = get_module_array if _newclass: modules = property(get_module_array, None, doc='''Returns a list() of lldb.SBModule objects, one for each module in each SBSymbolContext object in this list.''') __swig_getmethods__["compile_units"] = get_compile_unit_array if _newclass: compile_units = property(get_compile_unit_array, None, doc='''Returns a list() of lldb.SBCompileUnit objects, one for each compile unit in each SBSymbolContext object in this list.''') __swig_getmethods__["functions"] = get_function_array if _newclass: functions = property(get_function_array, None, doc='''Returns a list() of lldb.SBFunction objects, one for each function in each SBSymbolContext object in this list.''') __swig_getmethods__["blocks"] = get_block_array if _newclass: blocks = property(get_block_array, None, doc='''Returns a list() of lldb.SBBlock objects, one for each block in each SBSymbolContext object in this list.''') __swig_getmethods__["line_entries"] = get_line_entry_array if _newclass: line_entries = property(get_line_entry_array, None, doc='''Returns a list() of lldb.SBLineEntry objects, one for each line entry in each SBSymbolContext object in this list.''') __swig_getmethods__["symbols"] = get_symbol_array if _newclass: symbols = property(get_symbol_array, None, doc='''Returns a list() of lldb.SBSymbol objects, one for each symbol in each SBSymbolContext object in this list.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBSymbolContextList___str__(self) SBSymbolContextList_swigregister = _lldb.SBSymbolContextList_swigregister SBSymbolContextList_swigregister(SBSymbolContextList) class SBTarget(_object): """ Represents the target program running under the debugger. SBTarget supports module, breakpoint, and watchpoint iterations. For example, for m in target.module_iter(): print m produces: (x86_64) /Volumes/data/lldb/svn/trunk/test/python_api/lldbutil/iter/a.out (x86_64) /usr/lib/dyld (x86_64) /usr/lib/libstdc++.6.dylib (x86_64) /usr/lib/libSystem.B.dylib (x86_64) /usr/lib/system/libmathCommon.A.dylib (x86_64) /usr/lib/libSystem.B.dylib(__commpage) and, for b in target.breakpoint_iter(): print b produces: SBBreakpoint: id = 1, file ='main.cpp', line = 66, locations = 1 SBBreakpoint: id = 2, file ='main.cpp', line = 85, locations = 1 and, for wp_loc in target.watchpoint_iter(): print wp_loc produces: Watchpoint 1: addr = 0x1034ca048 size = 4 state = enabled type = rw declare @ '/Volumes/data/lldb/svn/trunk/test/python_api/watchpoint/main.c:12' hw_index = 0 hit_count = 2 ignore_count = 0 """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTarget, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTarget, name) __repr__ = _swig_repr eBroadcastBitBreakpointChanged = _lldb.SBTarget_eBroadcastBitBreakpointChanged eBroadcastBitModulesLoaded = _lldb.SBTarget_eBroadcastBitModulesLoaded eBroadcastBitModulesUnloaded = _lldb.SBTarget_eBroadcastBitModulesUnloaded eBroadcastBitWatchpointChanged = _lldb.SBTarget_eBroadcastBitWatchpointChanged eBroadcastBitSymbolsLoaded = _lldb.SBTarget_eBroadcastBitSymbolsLoaded def module_iter(self): return lldb_iter(self, 'GetNumModules', 'GetModuleAtIndex') def breakpoint_iter(self): return lldb_iter(self, 'GetNumBreakpoints', 'GetBreakpointAtIndex') def watchpoint_iter(self): return lldb_iter(self, 'GetNumWatchpoints', 'GetWatchpointAtIndex') def __init__(self, *args): """ __init__(self) -> SBTarget __init__(self, SBTarget rhs) -> SBTarget """ this = _lldb.new_SBTarget(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTarget __del__ = lambda self : None; def GetBroadcasterClassName(): """GetBroadcasterClassName() -> str""" return _lldb.SBTarget_GetBroadcasterClassName() if _newclass:GetBroadcasterClassName = staticmethod(GetBroadcasterClassName) __swig_getmethods__["GetBroadcasterClassName"] = lambda x: GetBroadcasterClassName def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTarget_IsValid(self) def EventIsTargetEvent(*args): """EventIsTargetEvent(SBEvent event) -> bool""" return _lldb.SBTarget_EventIsTargetEvent(*args) if _newclass:EventIsTargetEvent = staticmethod(EventIsTargetEvent) __swig_getmethods__["EventIsTargetEvent"] = lambda x: EventIsTargetEvent def GetTargetFromEvent(*args): """GetTargetFromEvent(SBEvent event) -> SBTarget""" return _lldb.SBTarget_GetTargetFromEvent(*args) if _newclass:GetTargetFromEvent = staticmethod(GetTargetFromEvent) __swig_getmethods__["GetTargetFromEvent"] = lambda x: GetTargetFromEvent def GetNumModulesFromEvent(*args): """GetNumModulesFromEvent(SBEvent event) -> uint32_t""" return _lldb.SBTarget_GetNumModulesFromEvent(*args) if _newclass:GetNumModulesFromEvent = staticmethod(GetNumModulesFromEvent) __swig_getmethods__["GetNumModulesFromEvent"] = lambda x: GetNumModulesFromEvent def GetModuleAtIndexFromEvent(*args): """GetModuleAtIndexFromEvent(uint32_t idx, SBEvent event) -> SBModule""" return _lldb.SBTarget_GetModuleAtIndexFromEvent(*args) if _newclass:GetModuleAtIndexFromEvent = staticmethod(GetModuleAtIndexFromEvent) __swig_getmethods__["GetModuleAtIndexFromEvent"] = lambda x: GetModuleAtIndexFromEvent def GetProcess(self): """GetProcess(self) -> SBProcess""" return _lldb.SBTarget_GetProcess(self) def GetPlatform(self): """ GetPlatform(self) -> SBPlatform Return the platform object associated with the target. After return, the platform object should be checked for validity. @return A platform object. """ return _lldb.SBTarget_GetPlatform(self) def Install(self): """ Install(self) -> SBError Install any binaries that need to be installed. This function does nothing when debugging on the host system. When connected to remote platforms, the target's main executable and any modules that have their install path set will be installed on the remote platform. If the main executable doesn't have an install location set, it will be installed in the remote platform's working directory. @return An error describing anything that went wrong during installation. """ return _lldb.SBTarget_Install(self) def LaunchSimple(self, *args): """ LaunchSimple(self, list argv, list envp, str working_directory) -> SBProcess Launch a new process with sensible defaults. @param[in] argv The argument array. @param[in] envp The environment array. @param[in] working_directory The working directory to have the child process run in Default: listener Set to the target's debugger (SBTarget::GetDebugger()) Default: launch_flags Empty launch flags Default: stdin_path Default: stdout_path Default: stderr_path A pseudo terminal will be used. @return A process object for the newly created process. For example, process = target.LaunchSimple(['X', 'Y', 'Z'], None, os.getcwd()) launches a new process by passing 'X', 'Y', 'Z' as the args to the executable. """ return _lldb.SBTarget_LaunchSimple(self, *args) def Launch(self, *args): """ Launch(self, SBListener listener, list argv, list envp, str stdin_path, str stdout_path, str stderr_path, str working_directory, uint32_t launch_flags, bool stop_at_entry, SBError error) -> SBProcess Launch(self, SBLaunchInfo launch_info, SBError error) -> SBProcess Launch a new process. Launch a new process by spawning a new process using the target object's executable module's file as the file to launch. Arguments are given in argv, and the environment variables are in envp. Standard input and output files can be optionally re-directed to stdin_path, stdout_path, and stderr_path. @param[in] listener An optional listener that will receive all process events. If listener is valid then listener will listen to all process events. If not valid, then this target's debugger (SBTarget::GetDebugger()) will listen to all process events. @param[in] argv The argument array. @param[in] envp The environment array. @param[in] launch_flags Flags to modify the launch (@see lldb::LaunchFlags) @param[in] stdin_path The path to use when re-directing the STDIN of the new process. If all stdXX_path arguments are NULL, a pseudo terminal will be used. @param[in] stdout_path The path to use when re-directing the STDOUT of the new process. If all stdXX_path arguments are NULL, a pseudo terminal will be used. @param[in] stderr_path The path to use when re-directing the STDERR of the new process. If all stdXX_path arguments are NULL, a pseudo terminal will be used. @param[in] working_directory The working directory to have the child process run in @param[in] launch_flags Some launch options specified by logical OR'ing lldb::LaunchFlags enumeration values together. @param[in] stop_at_endtry If false do not stop the inferior at the entry point. @param[out] An error object. Contains the reason if there is some failure. @return A process object for the newly created process. For example, process = target.Launch(self.dbg.GetListener(), None, None, None, '/tmp/stdout.txt', None, None, 0, False, error) launches a new process by passing nothing for both the args and the envs and redirect the standard output of the inferior to the /tmp/stdout.txt file. It does not specify a working directory so that the debug server will use its idea of what the current working directory is for the inferior. Also, we ask the debugger not to stop the inferior at the entry point. If no breakpoint is specified for the inferior, it should run to completion if no user interaction is required. """ return _lldb.SBTarget_Launch(self, *args) def LoadCore(self, *args): """ LoadCore(self, str core_file) -> SBProcess Load a core file @param[in] core_file File path of the core dump. @return A process object for the newly created core file. For example, process = target.LoadCore('./a.out.core') loads a new core file and returns the process object. """ return _lldb.SBTarget_LoadCore(self, *args) def Attach(self, *args): """Attach(self, SBAttachInfo attach_info, SBError error) -> SBProcess""" return _lldb.SBTarget_Attach(self, *args) def AttachToProcessWithID(self, *args): """ AttachToProcessWithID(self, SBListener listener, pid_t pid, SBError error) -> SBProcess Attach to process with pid. @param[in] listener An optional listener that will receive all process events. If listener is valid then listener will listen to all process events. If not valid, then this target's debugger (SBTarget::GetDebugger()) will listen to all process events. @param[in] pid The process ID to attach to. @param[out] An error explaining what went wrong if attach fails. @return A process object for the attached process. """ return _lldb.SBTarget_AttachToProcessWithID(self, *args) def AttachToProcessWithName(self, *args): """ AttachToProcessWithName(self, SBListener listener, str name, bool wait_for, SBError error) -> SBProcess Attach to process with name. @param[in] listener An optional listener that will receive all process events. If listener is valid then listener will listen to all process events. If not valid, then this target's debugger (SBTarget::GetDebugger()) will listen to all process events. @param[in] name Basename of process to attach to. @param[in] wait_for If true wait for a new instance of 'name' to be launched. @param[out] An error explaining what went wrong if attach fails. @return A process object for the attached process. """ return _lldb.SBTarget_AttachToProcessWithName(self, *args) def ConnectRemote(self, *args): """ ConnectRemote(self, SBListener listener, str url, str plugin_name, SBError error) -> SBProcess Connect to a remote debug server with url. @param[in] listener An optional listener that will receive all process events. If listener is valid then listener will listen to all process events. If not valid, then this target's debugger (SBTarget::GetDebugger()) will listen to all process events. @param[in] url The url to connect to, e.g., 'connect://localhost:12345'. @param[in] plugin_name The plugin name to be used; can be NULL. @param[out] An error explaining what went wrong if the connect fails. @return A process object for the connected process. """ return _lldb.SBTarget_ConnectRemote(self, *args) def GetExecutable(self): """GetExecutable(self) -> SBFileSpec""" return _lldb.SBTarget_GetExecutable(self) def AddModule(self, *args): """ AddModule(self, SBModule module) -> bool AddModule(self, str path, str triple, str uuid) -> SBModule AddModule(self, str path, str triple, str uuid_cstr, str symfile) -> SBModule AddModule(self, SBModuleSpec module_spec) -> SBModule """ return _lldb.SBTarget_AddModule(self, *args) def GetNumModules(self): """GetNumModules(self) -> uint32_t""" return _lldb.SBTarget_GetNumModules(self) def GetModuleAtIndex(self, *args): """GetModuleAtIndex(self, uint32_t idx) -> SBModule""" return _lldb.SBTarget_GetModuleAtIndex(self, *args) def RemoveModule(self, *args): """RemoveModule(self, SBModule module) -> bool""" return _lldb.SBTarget_RemoveModule(self, *args) def GetDebugger(self): """GetDebugger(self) -> SBDebugger""" return _lldb.SBTarget_GetDebugger(self) def FindModule(self, *args): """FindModule(self, SBFileSpec file_spec) -> SBModule""" return _lldb.SBTarget_FindModule(self, *args) def GetByteOrder(self): """GetByteOrder(self) -> ByteOrder""" return _lldb.SBTarget_GetByteOrder(self) def GetAddressByteSize(self): """GetAddressByteSize(self) -> uint32_t""" return _lldb.SBTarget_GetAddressByteSize(self) def GetTriple(self): """GetTriple(self) -> str""" return _lldb.SBTarget_GetTriple(self) def GetDataByteSize(self): """ GetDataByteSize(self) -> uint32_t Architecture data byte width accessor @return The size in 8-bit (host) bytes of a minimum addressable unit from the Architecture's data bus """ return _lldb.SBTarget_GetDataByteSize(self) def GetCodeByteSize(self): """ GetCodeByteSize(self) -> uint32_t Architecture code byte width accessor @return The size in 8-bit (host) bytes of a minimum addressable unit from the Architecture's code bus """ return _lldb.SBTarget_GetCodeByteSize(self) def SetSectionLoadAddress(self, *args): """SetSectionLoadAddress(self, SBSection section, addr_t section_base_addr) -> SBError""" return _lldb.SBTarget_SetSectionLoadAddress(self, *args) def ClearSectionLoadAddress(self, *args): """ClearSectionLoadAddress(self, SBSection section) -> SBError""" return _lldb.SBTarget_ClearSectionLoadAddress(self, *args) def SetModuleLoadAddress(self, *args): """SetModuleLoadAddress(self, SBModule module, int64_t sections_offset) -> SBError""" return _lldb.SBTarget_SetModuleLoadAddress(self, *args) def ClearModuleLoadAddress(self, *args): """ClearModuleLoadAddress(self, SBModule module) -> SBError""" return _lldb.SBTarget_ClearModuleLoadAddress(self, *args) def FindFunctions(self, *args): """ FindFunctions(self, str name, uint32_t name_type_mask = eFunctionNameTypeAny) -> SBSymbolContextList FindFunctions(self, str name) -> SBSymbolContextList Find functions by name. @param[in] name The name of the function we are looking for. @param[in] name_type_mask A logical OR of one or more FunctionNameType enum bits that indicate what kind of names should be used when doing the lookup. Bits include fully qualified names, base names, C++ methods, or ObjC selectors. See FunctionNameType for more details. @return A lldb::SBSymbolContextList that gets filled in with all of the symbol contexts for all the matches. """ return _lldb.SBTarget_FindFunctions(self, *args) def FindFirstType(self, *args): """FindFirstType(self, str type) -> SBType""" return _lldb.SBTarget_FindFirstType(self, *args) def FindTypes(self, *args): """FindTypes(self, str type) -> SBTypeList""" return _lldb.SBTarget_FindTypes(self, *args) def GetBasicType(self, *args): """GetBasicType(self, BasicType type) -> SBType""" return _lldb.SBTarget_GetBasicType(self, *args) def GetSourceManager(self): """GetSourceManager(self) -> SBSourceManager""" return _lldb.SBTarget_GetSourceManager(self) def FindFirstGlobalVariable(self, *args): """ FindFirstGlobalVariable(self, str name) -> SBValue Find the first global (or static) variable by name. @param[in] name The name of the global or static variable we are looking for. @return An SBValue that gets filled in with the found variable (if any). """ return _lldb.SBTarget_FindFirstGlobalVariable(self, *args) def FindGlobalVariables(self, *args): """ FindGlobalVariables(self, str name, uint32_t max_matches) -> SBValueList FindGlobalVariables(self, str name, uint32_t max_matches, MatchType matchtype) -> SBValueList Find global and static variables by name. @param[in] name The name of the global or static variable we are looking for. @param[in] max_matches Allow the number of matches to be limited to max_matches. @return A list of matched variables in an SBValueList. """ return _lldb.SBTarget_FindGlobalVariables(self, *args) def FindGlobalFunctions(self, *args): """FindGlobalFunctions(self, str name, uint32_t max_matches, MatchType matchtype) -> SBSymbolContextList""" return _lldb.SBTarget_FindGlobalFunctions(self, *args) def Clear(self): """Clear(self)""" return _lldb.SBTarget_Clear(self) def ResolveFileAddress(self, *args): """ ResolveFileAddress(self, addr_t file_addr) -> SBAddress Resolve a current file address into a section offset address. @param[in] file_addr @return An SBAddress which will be valid if... """ return _lldb.SBTarget_ResolveFileAddress(self, *args) def ResolveLoadAddress(self, *args): """ResolveLoadAddress(self, addr_t vm_addr) -> SBAddress""" return _lldb.SBTarget_ResolveLoadAddress(self, *args) def ResolvePastLoadAddress(self, *args): """ResolvePastLoadAddress(self, uint32_t stop_id, addr_t vm_addr) -> SBAddress""" return _lldb.SBTarget_ResolvePastLoadAddress(self, *args) def ResolveSymbolContextForAddress(self, *args): """ResolveSymbolContextForAddress(self, SBAddress addr, uint32_t resolve_scope) -> SBSymbolContext""" return _lldb.SBTarget_ResolveSymbolContextForAddress(self, *args) def ReadMemory(self, *args): """ ReadMemory(self, SBAddress addr, void buf, SBError error) -> size_t Read target memory. If a target process is running then memory is read from here. Otherwise the memory is read from the object files. For a target whose bytes are sized as a multiple of host bytes, the data read back will preserve the target's byte order. @param[in] addr A target address to read from. @param[out] buf The buffer to read memory into. @param[in] size The maximum number of host bytes to read in the buffer passed into this call @param[out] error Error information is written here if the memory read fails. @return The amount of data read in host bytes. """ return _lldb.SBTarget_ReadMemory(self, *args) def BreakpointCreateByLocation(self, *args): """ BreakpointCreateByLocation(self, str file, uint32_t line) -> SBBreakpoint BreakpointCreateByLocation(self, SBFileSpec file_spec, uint32_t line) -> SBBreakpoint """ return _lldb.SBTarget_BreakpointCreateByLocation(self, *args) def BreakpointCreateByName(self, *args): """ BreakpointCreateByName(self, str symbol_name, str module_name = None) -> SBBreakpoint BreakpointCreateByName(self, str symbol_name) -> SBBreakpoint BreakpointCreateByName(self, str symbol_name, uint32_t func_name_type, SBFileSpecList module_list, SBFileSpecList comp_unit_list) -> SBBreakpoint BreakpointCreateByName(self, str symbol_name, uint32_t func_name_type, LanguageType symbol_language, SBFileSpecList module_list, SBFileSpecList comp_unit_list) -> SBBreakpoint """ return _lldb.SBTarget_BreakpointCreateByName(self, *args) def BreakpointCreateByNames(self, *args): """ BreakpointCreateByNames(self, str symbol_name, uint32_t num_names, uint32_t name_type_mask, SBFileSpecList module_list, SBFileSpecList comp_unit_list) -> SBBreakpoint BreakpointCreateByNames(self, str symbol_name, uint32_t num_names, uint32_t name_type_mask, LanguageType symbol_language, SBFileSpecList module_list, SBFileSpecList comp_unit_list) -> SBBreakpoint """ return _lldb.SBTarget_BreakpointCreateByNames(self, *args) def BreakpointCreateByRegex(self, *args): """ BreakpointCreateByRegex(self, str symbol_name_regex, str module_name = None) -> SBBreakpoint BreakpointCreateByRegex(self, str symbol_name_regex) -> SBBreakpoint BreakpointCreateByRegex(self, str symbol_name_regex, LanguageType symbol_language, SBFileSpecList module_list, SBFileSpecList comp_unit_list) -> SBBreakpoint """ return _lldb.SBTarget_BreakpointCreateByRegex(self, *args) def BreakpointCreateBySourceRegex(self, *args): """ BreakpointCreateBySourceRegex(self, str source_regex, SBFileSpec source_file, str module_name = None) -> SBBreakpoint BreakpointCreateBySourceRegex(self, str source_regex, SBFileSpec source_file) -> SBBreakpoint BreakpointCreateBySourceRegex(self, str source_regex, SBFileSpecList module_list, SBFileSpecList file_list) -> SBBreakpoint """ return _lldb.SBTarget_BreakpointCreateBySourceRegex(self, *args) def BreakpointCreateForException(self, *args): """BreakpointCreateForException(self, LanguageType language, bool catch_bp, bool throw_bp) -> SBBreakpoint""" return _lldb.SBTarget_BreakpointCreateForException(self, *args) def BreakpointCreateByAddress(self, *args): """BreakpointCreateByAddress(self, addr_t address) -> SBBreakpoint""" return _lldb.SBTarget_BreakpointCreateByAddress(self, *args) def BreakpointCreateBySBAddress(self, *args): """BreakpointCreateBySBAddress(self, SBAddress sb_address) -> SBBreakpoint""" return _lldb.SBTarget_BreakpointCreateBySBAddress(self, *args) def GetNumBreakpoints(self): """GetNumBreakpoints(self) -> uint32_t""" return _lldb.SBTarget_GetNumBreakpoints(self) def GetBreakpointAtIndex(self, *args): """GetBreakpointAtIndex(self, uint32_t idx) -> SBBreakpoint""" return _lldb.SBTarget_GetBreakpointAtIndex(self, *args) def BreakpointDelete(self, *args): """BreakpointDelete(self, break_id_t break_id) -> bool""" return _lldb.SBTarget_BreakpointDelete(self, *args) def FindBreakpointByID(self, *args): """FindBreakpointByID(self, break_id_t break_id) -> SBBreakpoint""" return _lldb.SBTarget_FindBreakpointByID(self, *args) def EnableAllBreakpoints(self): """EnableAllBreakpoints(self) -> bool""" return _lldb.SBTarget_EnableAllBreakpoints(self) def DisableAllBreakpoints(self): """DisableAllBreakpoints(self) -> bool""" return _lldb.SBTarget_DisableAllBreakpoints(self) def DeleteAllBreakpoints(self): """DeleteAllBreakpoints(self) -> bool""" return _lldb.SBTarget_DeleteAllBreakpoints(self) def GetNumWatchpoints(self): """GetNumWatchpoints(self) -> uint32_t""" return _lldb.SBTarget_GetNumWatchpoints(self) def GetWatchpointAtIndex(self, *args): """GetWatchpointAtIndex(self, uint32_t idx) -> SBWatchpoint""" return _lldb.SBTarget_GetWatchpointAtIndex(self, *args) def DeleteWatchpoint(self, *args): """DeleteWatchpoint(self, watch_id_t watch_id) -> bool""" return _lldb.SBTarget_DeleteWatchpoint(self, *args) def FindWatchpointByID(self, *args): """FindWatchpointByID(self, watch_id_t watch_id) -> SBWatchpoint""" return _lldb.SBTarget_FindWatchpointByID(self, *args) def EnableAllWatchpoints(self): """EnableAllWatchpoints(self) -> bool""" return _lldb.SBTarget_EnableAllWatchpoints(self) def DisableAllWatchpoints(self): """DisableAllWatchpoints(self) -> bool""" return _lldb.SBTarget_DisableAllWatchpoints(self) def DeleteAllWatchpoints(self): """DeleteAllWatchpoints(self) -> bool""" return _lldb.SBTarget_DeleteAllWatchpoints(self) def WatchAddress(self, *args): """WatchAddress(self, addr_t addr, size_t size, bool read, bool write, SBError error) -> SBWatchpoint""" return _lldb.SBTarget_WatchAddress(self, *args) def GetBroadcaster(self): """GetBroadcaster(self) -> SBBroadcaster""" return _lldb.SBTarget_GetBroadcaster(self) def CreateValueFromAddress(self, *args): """CreateValueFromAddress(self, str name, SBAddress addr, SBType type) -> SBValue""" return _lldb.SBTarget_CreateValueFromAddress(self, *args) def CreateValueFromData(self, *args): """CreateValueFromData(self, str name, SBData data, SBType type) -> SBValue""" return _lldb.SBTarget_CreateValueFromData(self, *args) def CreateValueFromExpression(self, *args): """CreateValueFromExpression(self, str name, str expr) -> SBValue""" return _lldb.SBTarget_CreateValueFromExpression(self, *args) def ReadInstructions(self, *args): """ ReadInstructions(self, SBAddress base_addr, uint32_t count) -> SBInstructionList ReadInstructions(self, SBAddress base_addr, uint32_t count, str flavor_string) -> SBInstructionList Disassemble a specified number of instructions starting at an address. Parameters: base_addr -- the address to start disassembly from count -- the number of instructions to disassemble flavor_string -- may be 'intel' or 'att' on x86 targets to specify that style of disassembly Returns an SBInstructionList. """ return _lldb.SBTarget_ReadInstructions(self, *args) def GetInstructions(self, *args): """ GetInstructions(self, SBAddress base_addr, void buf) -> SBInstructionList Disassemble the bytes in a buffer and return them in an SBInstructionList. Parameters: base_addr -- used for symbolicating the offsets in the byte stream when disassembling buf -- bytes to be disassembled size -- (C++) size of the buffer Returns an SBInstructionList. """ return _lldb.SBTarget_GetInstructions(self, *args) def GetInstructionsWithFlavor(self, *args): """ GetInstructionsWithFlavor(self, SBAddress base_addr, str flavor_string, void buf) -> SBInstructionList Disassemble the bytes in a buffer and return them in an SBInstructionList, with a supplied flavor. Parameters: base_addr -- used for symbolicating the offsets in the byte stream when disassembling flavor -- may be 'intel' or 'att' on x86 targets to specify that style of disassembly buf -- bytes to be disassembled size -- (C++) size of the buffer Returns an SBInstructionList. """ return _lldb.SBTarget_GetInstructionsWithFlavor(self, *args) def FindSymbols(self, *args): """ FindSymbols(self, str name, SymbolType type = eSymbolTypeAny) -> SBSymbolContextList FindSymbols(self, str name) -> SBSymbolContextList """ return _lldb.SBTarget_FindSymbols(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description, DescriptionLevel description_level) -> bool""" return _lldb.SBTarget_GetDescription(self, *args) def GetStackRedZoneSize(self): """GetStackRedZoneSize(self) -> addr_t""" return _lldb.SBTarget_GetStackRedZoneSize(self) def GetLaunchInfo(self): """GetLaunchInfo(self) -> SBLaunchInfo""" return _lldb.SBTarget_GetLaunchInfo(self) def SetLaunchInfo(self, *args): """SetLaunchInfo(self, SBLaunchInfo launch_info)""" return _lldb.SBTarget_SetLaunchInfo(self, *args) def __eq__(self, *args): """__eq__(self, SBTarget rhs) -> bool""" return _lldb.SBTarget___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBTarget rhs) -> bool""" return _lldb.SBTarget___ne__(self, *args) def EvaluateExpression(self, *args): """ EvaluateExpression(self, str expr) -> SBValue EvaluateExpression(self, str expr, SBExpressionOptions options) -> SBValue """ return _lldb.SBTarget_EvaluateExpression(self, *args) class modules_access(object): '''A helper object that will lazily hand out lldb.SBModule objects for a target when supplied an index, or by full or partial path.''' def __init__(self, sbtarget): self.sbtarget = sbtarget def __len__(self): if self.sbtarget: return int(self.sbtarget.GetNumModules()) return 0 def __getitem__(self, key): num_modules = self.sbtarget.GetNumModules() if type(key) is int: if key < num_modules: return self.sbtarget.GetModuleAtIndex(key) elif type(key) is str: if key.find('/') == -1: for idx in range(num_modules): module = self.sbtarget.GetModuleAtIndex(idx) if module.file.basename == key: return module else: for idx in range(num_modules): module = self.sbtarget.GetModuleAtIndex(idx) if module.file.fullpath == key: return module # See if the string is a UUID try: the_uuid = uuid.UUID(key) if the_uuid: for idx in range(num_modules): module = self.sbtarget.GetModuleAtIndex(idx) if module.uuid == the_uuid: return module except: return None elif type(key) is uuid.UUID: for idx in range(num_modules): module = self.sbtarget.GetModuleAtIndex(idx) if module.uuid == key: return module elif type(key) is re.SRE_Pattern: matching_modules = [] for idx in range(num_modules): module = self.sbtarget.GetModuleAtIndex(idx) re_match = key.search(module.path.fullpath) if re_match: matching_modules.append(module) return matching_modules else: print("error: unsupported item type: %s" % type(key)) return None def get_modules_access_object(self): '''An accessor function that returns a modules_access() object which allows lazy module access from a lldb.SBTarget object.''' return self.modules_access (self) def get_modules_array(self): '''An accessor function that returns a list() that contains all modules in a lldb.SBTarget object.''' modules = [] for idx in range(self.GetNumModules()): modules.append(self.GetModuleAtIndex(idx)) return modules __swig_getmethods__["modules"] = get_modules_array if _newclass: modules = property(get_modules_array, None, doc='''A read only property that returns a list() of lldb.SBModule objects contained in this target. This list is a list all modules that the target currently is tracking (the main executable and all dependent shared libraries).''') __swig_getmethods__["module"] = get_modules_access_object if _newclass: module = property(get_modules_access_object, None, doc=r'''A read only property that returns an object that implements python operator overloading with the square brackets().\n target.module[] allows array access to any modules.\n target.module[] allows access to modules by basename, full path, or uuid string value.\n target.module[uuid.UUID()] allows module access by UUID.\n target.module[re] allows module access using a regular expression that matches the module full path.''') __swig_getmethods__["process"] = GetProcess if _newclass: process = property(GetProcess, None, doc='''A read only property that returns an lldb object that represents the process (lldb.SBProcess) that this target owns.''') __swig_getmethods__["executable"] = GetExecutable if _newclass: executable = property(GetExecutable, None, doc='''A read only property that returns an lldb object that represents the main executable module (lldb.SBModule) for this target.''') __swig_getmethods__["debugger"] = GetDebugger if _newclass: debugger = property(GetDebugger, None, doc='''A read only property that returns an lldb object that represents the debugger (lldb.SBDebugger) that owns this target.''') __swig_getmethods__["num_breakpoints"] = GetNumBreakpoints if _newclass: num_breakpoints = property(GetNumBreakpoints, None, doc='''A read only property that returns the number of breakpoints that this target has as an integer.''') __swig_getmethods__["num_watchpoints"] = GetNumWatchpoints if _newclass: num_watchpoints = property(GetNumWatchpoints, None, doc='''A read only property that returns the number of watchpoints that this target has as an integer.''') __swig_getmethods__["broadcaster"] = GetBroadcaster if _newclass: broadcaster = property(GetBroadcaster, None, doc='''A read only property that an lldb object that represents the broadcaster (lldb.SBBroadcaster) for this target.''') __swig_getmethods__["byte_order"] = GetByteOrder if _newclass: byte_order = property(GetByteOrder, None, doc='''A read only property that returns an lldb enumeration value (lldb.eByteOrderLittle, lldb.eByteOrderBig, lldb.eByteOrderInvalid) that represents the byte order for this target.''') __swig_getmethods__["addr_size"] = GetAddressByteSize if _newclass: addr_size = property(GetAddressByteSize, None, doc='''A read only property that returns the size in bytes of an address for this target.''') __swig_getmethods__["triple"] = GetTriple if _newclass: triple = property(GetTriple, None, doc='''A read only property that returns the target triple (arch-vendor-os) for this target as a string.''') __swig_getmethods__["data_byte_size"] = GetDataByteSize if _newclass: data_byte_size = property(GetDataByteSize, None, doc='''A read only property that returns the size in host bytes of a byte in the data address space for this target.''') __swig_getmethods__["code_byte_size"] = GetCodeByteSize if _newclass: code_byte_size = property(GetCodeByteSize, None, doc='''A read only property that returns the size in host bytes of a byte in the code address space for this target.''') __swig_getmethods__["platform"] = GetPlatform if _newclass: platform = property(GetPlatform, None, doc='''A read only property that returns the platform associated with with this target.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBTarget___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBTarget_swigregister = _lldb.SBTarget_swigregister SBTarget_swigregister(SBTarget) def SBTarget_GetBroadcasterClassName(): """SBTarget_GetBroadcasterClassName() -> str""" return _lldb.SBTarget_GetBroadcasterClassName() def SBTarget_EventIsTargetEvent(*args): """SBTarget_EventIsTargetEvent(SBEvent event) -> bool""" return _lldb.SBTarget_EventIsTargetEvent(*args) def SBTarget_GetTargetFromEvent(*args): """SBTarget_GetTargetFromEvent(SBEvent event) -> SBTarget""" return _lldb.SBTarget_GetTargetFromEvent(*args) def SBTarget_GetNumModulesFromEvent(*args): """SBTarget_GetNumModulesFromEvent(SBEvent event) -> uint32_t""" return _lldb.SBTarget_GetNumModulesFromEvent(*args) def SBTarget_GetModuleAtIndexFromEvent(*args): """SBTarget_GetModuleAtIndexFromEvent(uint32_t idx, SBEvent event) -> SBModule""" return _lldb.SBTarget_GetModuleAtIndexFromEvent(*args) class SBThread(_object): """ Represents a thread of execution. SBProcess contains SBThread(s). SBThreads can be referred to by their ID, which maps to the system specific thread identifier, or by IndexID. The ID may or may not be unique depending on whether the system reuses its thread identifiers. The IndexID is a monotonically increasing identifier that will always uniquely reference a particular thread, and when that thread goes away it will not be reused. SBThread supports frame iteration. For example (from test/python_api/ lldbutil/iter/TestLLDBIterator.py), from lldbutil import print_stacktrace stopped_due_to_breakpoint = False for thread in process: if self.TraceOn(): print_stacktrace(thread) ID = thread.GetThreadID() if thread.GetStopReason() == lldb.eStopReasonBreakpoint: stopped_due_to_breakpoint = True for frame in thread: self.assertTrue(frame.GetThread().GetThreadID() == ID) if self.TraceOn(): print frame self.assertTrue(stopped_due_to_breakpoint) See also SBProcess and SBFrame. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBThread, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBThread, name) __repr__ = _swig_repr eBroadcastBitStackChanged = _lldb.SBThread_eBroadcastBitStackChanged eBroadcastBitThreadSuspended = _lldb.SBThread_eBroadcastBitThreadSuspended eBroadcastBitThreadResumed = _lldb.SBThread_eBroadcastBitThreadResumed eBroadcastBitSelectedFrameChanged = _lldb.SBThread_eBroadcastBitSelectedFrameChanged eBroadcastBitThreadSelected = _lldb.SBThread_eBroadcastBitThreadSelected def __iter__(self): return lldb_iter(self, 'GetNumFrames', 'GetFrameAtIndex') def __len__(self): return self.GetNumFrames() def __init__(self, *args): """ __init__(self) -> SBThread __init__(self, SBThread thread) -> SBThread """ this = _lldb.new_SBThread(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBThread __del__ = lambda self : None; def GetBroadcasterClassName(): """GetBroadcasterClassName() -> str""" return _lldb.SBThread_GetBroadcasterClassName() if _newclass:GetBroadcasterClassName = staticmethod(GetBroadcasterClassName) __swig_getmethods__["GetBroadcasterClassName"] = lambda x: GetBroadcasterClassName def EventIsThreadEvent(*args): """EventIsThreadEvent(SBEvent event) -> bool""" return _lldb.SBThread_EventIsThreadEvent(*args) if _newclass:EventIsThreadEvent = staticmethod(EventIsThreadEvent) __swig_getmethods__["EventIsThreadEvent"] = lambda x: EventIsThreadEvent def GetStackFrameFromEvent(*args): """GetStackFrameFromEvent(SBEvent event) -> SBFrame""" return _lldb.SBThread_GetStackFrameFromEvent(*args) if _newclass:GetStackFrameFromEvent = staticmethod(GetStackFrameFromEvent) __swig_getmethods__["GetStackFrameFromEvent"] = lambda x: GetStackFrameFromEvent def GetThreadFromEvent(*args): """GetThreadFromEvent(SBEvent event) -> SBThread""" return _lldb.SBThread_GetThreadFromEvent(*args) if _newclass:GetThreadFromEvent = staticmethod(GetThreadFromEvent) __swig_getmethods__["GetThreadFromEvent"] = lambda x: GetThreadFromEvent def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBThread_IsValid(self) def Clear(self): """Clear(self)""" return _lldb.SBThread_Clear(self) def GetStopReason(self): """GetStopReason(self) -> StopReason""" return _lldb.SBThread_GetStopReason(self) def GetStopReasonDataCount(self): """ GetStopReasonDataCount(self) -> size_t Get the number of words associated with the stop reason. See also GetStopReasonDataAtIndex(). """ return _lldb.SBThread_GetStopReasonDataCount(self) def GetStopReasonDataAtIndex(self, *args): """ GetStopReasonDataAtIndex(self, uint32_t idx) -> uint64_t Get information associated with a stop reason. Breakpoint stop reasons will have data that consists of pairs of breakpoint IDs followed by the breakpoint location IDs (they always come in pairs). Stop Reason Count Data Type ======================== ===== ========================================= eStopReasonNone 0 eStopReasonTrace 0 eStopReasonBreakpoint N duple: {breakpoint id, location id} eStopReasonWatchpoint 1 watchpoint id eStopReasonSignal 1 unix signal number eStopReasonException N exception data eStopReasonExec 0 eStopReasonPlanComplete 0 """ return _lldb.SBThread_GetStopReasonDataAtIndex(self, *args) def GetStopReasonExtendedInfoAsJSON(self, *args): """ Collects a thread's stop reason extended information dictionary and prints it into the SBStream in a JSON format. The format of this JSON dictionary depends on the stop reason and is currently used only for instrumentation plugins. """ return _lldb.SBThread_GetStopReasonExtendedInfoAsJSON(self, *args) def GetStopDescription(self, *args): """ Pass only an (int)length and expect to get a Python string describing the stop reason. """ return _lldb.SBThread_GetStopDescription(self, *args) def GetStopReturnValue(self): """GetStopReturnValue(self) -> SBValue""" return _lldb.SBThread_GetStopReturnValue(self) def GetThreadID(self): """ Returns a unique thread identifier (type lldb::tid_t, typically a 64-bit type) for the current SBThread that will remain constant throughout the thread's lifetime in this process and will not be reused by another thread during this process lifetime. On Mac OS X systems, this is a system-wide unique thread identifier; this identifier is also used by other tools like sample which helps to associate data from those tools with lldb. See related GetIndexID. """ return _lldb.SBThread_GetThreadID(self) def GetIndexID(self): """ Return the index number for this SBThread. The index number is the same thing that a user gives as an argument to 'thread select' in the command line lldb. These numbers start at 1 (for the first thread lldb sees in a debug session) and increments up throughout the process lifetime. An index number will not be reused for a different thread later in a process - thread 1 will always be associated with the same thread. See related GetThreadID. This method returns a uint32_t index number, takes no arguments. """ return _lldb.SBThread_GetIndexID(self) def GetName(self): """GetName(self) -> str""" return _lldb.SBThread_GetName(self) def GetQueueName(self): """ Return the queue name associated with this thread, if any, as a str. For example, with a libdispatch (aka Grand Central Dispatch) queue. """ return _lldb.SBThread_GetQueueName(self) def GetQueueID(self): """ Return the dispatch_queue_id for this thread, if any, as a lldb::queue_id_t. For example, with a libdispatch (aka Grand Central Dispatch) queue. """ return _lldb.SBThread_GetQueueID(self) def GetInfoItemByPathAsString(self, *args): """ Takes a path string and a SBStream reference as parameters, returns a bool. Collects the thread's 'info' dictionary from the remote system, uses the path argument to descend into the dictionary to an item of interest, and prints it into the SBStream in a natural format. Return bool is to indicate if anything was printed into the stream (true) or not (false). """ return _lldb.SBThread_GetInfoItemByPathAsString(self, *args) def GetQueue(self): """ Return the SBQueue for this thread. If this thread is not currently associated with a libdispatch queue, the SBQueue object's IsValid() method will return false. If this SBThread is actually a HistoryThread, we may be able to provide QueueID and QueueName, but not provide an SBQueue. Those individual attributes may have been saved for the HistoryThread without enough information to reconstitute the entire SBQueue at that time. This method takes no arguments, returns an SBQueue. """ return _lldb.SBThread_GetQueue(self) def StepOver(self, *args): """ StepOver(self, RunMode stop_other_threads = eOnlyDuringStepping) StepOver(self) """ return _lldb.SBThread_StepOver(self, *args) def StepInto(self, *args): """ StepInto(self, RunMode stop_other_threads = eOnlyDuringStepping) StepInto(self) StepInto(self, str target_name, RunMode stop_other_threads = eOnlyDuringStepping) StepInto(self, str target_name) """ return _lldb.SBThread_StepInto(self, *args) def StepOut(self): """StepOut(self)""" return _lldb.SBThread_StepOut(self) def StepOutOfFrame(self, *args): """StepOutOfFrame(self, SBFrame frame)""" return _lldb.SBThread_StepOutOfFrame(self, *args) def StepInstruction(self, *args): """StepInstruction(self, bool step_over)""" return _lldb.SBThread_StepInstruction(self, *args) def StepOverUntil(self, *args): """StepOverUntil(self, SBFrame frame, SBFileSpec file_spec, uint32_t line) -> SBError""" return _lldb.SBThread_StepOverUntil(self, *args) def StepUsingScriptedThreadPlan(self, *args): """StepUsingScriptedThreadPlan(self, str script_class_name) -> SBError""" return _lldb.SBThread_StepUsingScriptedThreadPlan(self, *args) def JumpToLine(self, *args): """JumpToLine(self, SBFileSpec file_spec, uint32_t line) -> SBError""" return _lldb.SBThread_JumpToLine(self, *args) def RunToAddress(self, *args): """RunToAddress(self, addr_t addr)""" return _lldb.SBThread_RunToAddress(self, *args) def ReturnFromFrame(self, *args): """ Force a return from the frame passed in (and any frames younger than it) without executing any more code in those frames. If return_value contains a valid SBValue, that will be set as the return value from frame. Note, at present only scalar return values are supported. """ return _lldb.SBThread_ReturnFromFrame(self, *args) def Suspend(self): """ Suspend(self) -> bool LLDB currently supports process centric debugging which means when any thread in a process stops, all other threads are stopped. The Suspend() call here tells our process to suspend a thread and not let it run when the other threads in a process are allowed to run. So when SBProcess::Continue() is called, any threads that aren't suspended will be allowed to run. If any of the SBThread functions for stepping are called (StepOver, StepInto, StepOut, StepInstruction, RunToAddres), the thread will now be allowed to run and these functions will simply return. Eventually we plan to add support for thread centric debugging where each thread is controlled individually and each thread would broadcast its state, but we haven't implemented this yet. Likewise the SBThread::Resume() call will again allow the thread to run when the process is continued. Suspend() and Resume() functions are not currently reference counted, if anyone has the need for them to be reference counted, please let us know. """ return _lldb.SBThread_Suspend(self) def Resume(self): """Resume(self) -> bool""" return _lldb.SBThread_Resume(self) def IsSuspended(self): """IsSuspended(self) -> bool""" return _lldb.SBThread_IsSuspended(self) def IsStopped(self): """IsStopped(self) -> bool""" return _lldb.SBThread_IsStopped(self) def GetNumFrames(self): """GetNumFrames(self) -> uint32_t""" return _lldb.SBThread_GetNumFrames(self) def GetFrameAtIndex(self, *args): """GetFrameAtIndex(self, uint32_t idx) -> SBFrame""" return _lldb.SBThread_GetFrameAtIndex(self, *args) def GetSelectedFrame(self): """GetSelectedFrame(self) -> SBFrame""" return _lldb.SBThread_GetSelectedFrame(self) def SetSelectedFrame(self, *args): """SetSelectedFrame(self, uint32_t frame_idx) -> SBFrame""" return _lldb.SBThread_SetSelectedFrame(self, *args) def GetProcess(self): """GetProcess(self) -> SBProcess""" return _lldb.SBThread_GetProcess(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBThread_GetDescription(self, *args) def GetStatus(self, *args): """GetStatus(self, SBStream status) -> bool""" return _lldb.SBThread_GetStatus(self, *args) def __eq__(self, *args): """__eq__(self, SBThread rhs) -> bool""" return _lldb.SBThread___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBThread rhs) -> bool""" return _lldb.SBThread___ne__(self, *args) def GetExtendedBacktraceThread(self, *args): """ Given an argument of str to specify the type of thread-origin extended backtrace to retrieve, query whether the origin of this thread is available. An SBThread is retured; SBThread.IsValid will return true if an extended backtrace was available. The returned SBThread is not a part of the SBProcess' thread list and it cannot be manipulated like normal threads -- you cannot step or resume it, for instance -- it is intended to used primarily for generating a backtrace. You may request the returned thread's own thread origin in turn. """ return _lldb.SBThread_GetExtendedBacktraceThread(self, *args) def GetExtendedBacktraceOriginatingIndexID(self): """ Takes no arguments, returns a uint32_t. If this SBThread is an ExtendedBacktrace thread, get the IndexID of the original thread that this ExtendedBacktrace thread represents, if available. The thread that was running this backtrace in the past may not have been registered with lldb's thread index (if it was created, did its work, and was destroyed without lldb ever stopping execution). In that case, this ExtendedBacktrace thread's IndexID will be returned. """ return _lldb.SBThread_GetExtendedBacktraceOriginatingIndexID(self) def SafeToCallFunctions(self): """ Takes no arguments, returns a bool. lldb may be able to detect that function calls should not be executed on a given thread at a particular point in time. It is recommended that this is checked before performing an inferior function call on a given thread. """ return _lldb.SBThread_SafeToCallFunctions(self) class frames_access(object): '''A helper object that will lazily hand out frames for a thread when supplied an index.''' def __init__(self, sbthread): self.sbthread = sbthread def __len__(self): if self.sbthread: return int(self.sbthread.GetNumFrames()) return 0 def __getitem__(self, key): if type(key) is int and key < self.sbthread.GetNumFrames(): return self.sbthread.GetFrameAtIndex(key) return None def get_frames_access_object(self): '''An accessor function that returns a frames_access() object which allows lazy frame access from a lldb.SBThread object.''' return self.frames_access (self) def get_thread_frames(self): '''An accessor function that returns a list() that contains all frames in a lldb.SBThread object.''' frames = [] for frame in self: frames.append(frame) return frames __swig_getmethods__["id"] = GetThreadID if _newclass: id = property(GetThreadID, None, doc='''A read only property that returns the thread ID as an integer.''') __swig_getmethods__["idx"] = GetIndexID if _newclass: idx = property(GetIndexID, None, doc='''A read only property that returns the thread index ID as an integer. Thread index ID values start at 1 and increment as threads come and go and can be used to uniquely identify threads.''') __swig_getmethods__["return_value"] = GetStopReturnValue if _newclass: return_value = property(GetStopReturnValue, None, doc='''A read only property that returns an lldb object that represents the return value from the last stop (lldb.SBValue) if we just stopped due to stepping out of a function.''') __swig_getmethods__["process"] = GetProcess if _newclass: process = property(GetProcess, None, doc='''A read only property that returns an lldb object that represents the process (lldb.SBProcess) that owns this thread.''') __swig_getmethods__["num_frames"] = GetNumFrames if _newclass: num_frames = property(GetNumFrames, None, doc='''A read only property that returns the number of stack frames in this thread as an integer.''') __swig_getmethods__["frames"] = get_thread_frames if _newclass: frames = property(get_thread_frames, None, doc='''A read only property that returns a list() of lldb.SBFrame objects for all frames in this thread.''') __swig_getmethods__["frame"] = get_frames_access_object if _newclass: frame = property(get_frames_access_object, None, doc='''A read only property that returns an object that can be used to access frames as an array ("frame_12 = lldb.thread.frame[12]").''') __swig_getmethods__["name"] = GetName if _newclass: name = property(GetName, None, doc='''A read only property that returns the name of this thread as a string.''') __swig_getmethods__["queue"] = GetQueueName if _newclass: queue = property(GetQueueName, None, doc='''A read only property that returns the dispatch queue name of this thread as a string.''') __swig_getmethods__["queue_id"] = GetQueueID if _newclass: queue_id = property(GetQueueID, None, doc='''A read only property that returns the dispatch queue id of this thread as an integer.''') __swig_getmethods__["stop_reason"] = GetStopReason if _newclass: stop_reason = property(GetStopReason, None, doc='''A read only property that returns an lldb enumeration value (see enumerations that start with "lldb.eStopReason") that represents the reason this thread stopped.''') __swig_getmethods__["is_suspended"] = IsSuspended if _newclass: is_suspended = property(IsSuspended, None, doc='''A read only property that returns a boolean value that indicates if this thread is suspended.''') __swig_getmethods__["is_stopped"] = IsStopped if _newclass: is_stopped = property(IsStopped, None, doc='''A read only property that returns a boolean value that indicates if this thread is stopped but not exited.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBThread___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBThread_swigregister = _lldb.SBThread_swigregister SBThread_swigregister(SBThread) def SBThread_GetBroadcasterClassName(): """SBThread_GetBroadcasterClassName() -> str""" return _lldb.SBThread_GetBroadcasterClassName() def SBThread_EventIsThreadEvent(*args): """SBThread_EventIsThreadEvent(SBEvent event) -> bool""" return _lldb.SBThread_EventIsThreadEvent(*args) def SBThread_GetStackFrameFromEvent(*args): """SBThread_GetStackFrameFromEvent(SBEvent event) -> SBFrame""" return _lldb.SBThread_GetStackFrameFromEvent(*args) def SBThread_GetThreadFromEvent(*args): """SBThread_GetThreadFromEvent(SBEvent event) -> SBThread""" return _lldb.SBThread_GetThreadFromEvent(*args) class SBThreadCollection(_object): """Represents a collection of SBThread objects.""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBThreadCollection, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBThreadCollection, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBThreadCollection __init__(self, SBThreadCollection rhs) -> SBThreadCollection """ this = _lldb.new_SBThreadCollection(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBThreadCollection __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBThreadCollection_IsValid(self) def GetSize(self): """GetSize(self) -> size_t""" return _lldb.SBThreadCollection_GetSize(self) def GetThreadAtIndex(self, *args): """GetThreadAtIndex(self, size_t idx) -> SBThread""" return _lldb.SBThreadCollection_GetThreadAtIndex(self, *args) SBThreadCollection_swigregister = _lldb.SBThreadCollection_swigregister SBThreadCollection_swigregister(SBThreadCollection) class SBThreadPlan(_object): """Proxy of C++ lldb::SBThreadPlan class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBThreadPlan, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBThreadPlan, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBThreadPlan __init__(self, SBThreadPlan threadPlan) -> SBThreadPlan __init__(self, ThreadPlanSP lldb_object_sp) -> SBThreadPlan __init__(self, SBThread thread, str class_name) -> SBThreadPlan """ this = _lldb.new_SBThreadPlan(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBThreadPlan __del__ = lambda self : None; def Clear(self): """Clear(self)""" return _lldb.SBThreadPlan_Clear(self) def GetStopReason(self): """GetStopReason(self) -> StopReason""" return _lldb.SBThreadPlan_GetStopReason(self) def GetStopReasonDataCount(self): """GetStopReasonDataCount(self) -> size_t""" return _lldb.SBThreadPlan_GetStopReasonDataCount(self) def GetStopReasonDataAtIndex(self, *args): """GetStopReasonDataAtIndex(self, uint32_t idx) -> uint64_t""" return _lldb.SBThreadPlan_GetStopReasonDataAtIndex(self, *args) def GetThread(self): """GetThread(self) -> SBThread""" return _lldb.SBThreadPlan_GetThread(self) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBThreadPlan_GetDescription(self, *args) def SetPlanComplete(self, *args): """SetPlanComplete(self, bool success)""" return _lldb.SBThreadPlan_SetPlanComplete(self, *args) def IsPlanComplete(self): """IsPlanComplete(self) -> bool""" return _lldb.SBThreadPlan_IsPlanComplete(self) def __nonzero__(self): return self.IsValid() def IsValid(self, *args): """ IsValid(self) -> bool IsValid(self) -> bool """ return _lldb.SBThreadPlan_IsValid(self, *args) def QueueThreadPlanForStepOverRange(self, *args): """QueueThreadPlanForStepOverRange(self, SBAddress start_address, addr_t range_size) -> SBThreadPlan""" return _lldb.SBThreadPlan_QueueThreadPlanForStepOverRange(self, *args) def QueueThreadPlanForStepInRange(self, *args): """QueueThreadPlanForStepInRange(self, SBAddress start_address, addr_t range_size) -> SBThreadPlan""" return _lldb.SBThreadPlan_QueueThreadPlanForStepInRange(self, *args) def QueueThreadPlanForStepOut(self, *args): """ QueueThreadPlanForStepOut(self, uint32_t frame_idx_to_step_to, bool first_insn = False) -> SBThreadPlan QueueThreadPlanForStepOut(self, uint32_t frame_idx_to_step_to) -> SBThreadPlan """ return _lldb.SBThreadPlan_QueueThreadPlanForStepOut(self, *args) def QueueThreadPlanForRunToAddress(self, *args): """QueueThreadPlanForRunToAddress(self, SBAddress address) -> SBThreadPlan""" return _lldb.SBThreadPlan_QueueThreadPlanForRunToAddress(self, *args) SBThreadPlan_swigregister = _lldb.SBThreadPlan_swigregister SBThreadPlan_swigregister(SBThreadPlan) class SBTypeMember(_object): """ Represents a member of a type in lldb. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeMember, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeMember, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBTypeMember __init__(self, SBTypeMember rhs) -> SBTypeMember """ this = _lldb.new_SBTypeMember(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTypeMember __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeMember_IsValid(self) def GetName(self): """GetName(self) -> str""" return _lldb.SBTypeMember_GetName(self) def GetType(self): """GetType(self) -> SBType""" return _lldb.SBTypeMember_GetType(self) def GetOffsetInBytes(self): """GetOffsetInBytes(self) -> uint64_t""" return _lldb.SBTypeMember_GetOffsetInBytes(self) def GetOffsetInBits(self): """GetOffsetInBits(self) -> uint64_t""" return _lldb.SBTypeMember_GetOffsetInBits(self) def IsBitfield(self): """IsBitfield(self) -> bool""" return _lldb.SBTypeMember_IsBitfield(self) def GetBitfieldSizeInBits(self): """GetBitfieldSizeInBits(self) -> uint32_t""" return _lldb.SBTypeMember_GetBitfieldSizeInBits(self) __swig_getmethods__["name"] = GetName if _newclass: name = property(GetName, None, doc='''A read only property that returns the name for this member as a string.''') __swig_getmethods__["type"] = GetType if _newclass: type = property(GetType, None, doc='''A read only property that returns an lldb object that represents the type (lldb.SBType) for this member.''') __swig_getmethods__["byte_offset"] = GetOffsetInBytes if _newclass: byte_offset = property(GetOffsetInBytes, None, doc='''A read only property that returns offset in bytes for this member as an integer.''') __swig_getmethods__["bit_offset"] = GetOffsetInBits if _newclass: bit_offset = property(GetOffsetInBits, None, doc='''A read only property that returns offset in bits for this member as an integer.''') __swig_getmethods__["is_bitfield"] = IsBitfield if _newclass: is_bitfield = property(IsBitfield, None, doc='''A read only property that returns true if this member is a bitfield.''') __swig_getmethods__["bitfield_bit_size"] = GetBitfieldSizeInBits if _newclass: bitfield_bit_size = property(GetBitfieldSizeInBits, None, doc='''A read only property that returns the bitfield size in bits for this member as an integer, or zero if this member is not a bitfield.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBTypeMember___str__(self) SBTypeMember_swigregister = _lldb.SBTypeMember_swigregister SBTypeMember_swigregister(SBTypeMember) class SBTypeMemberFunction(_object): """Proxy of C++ lldb::SBTypeMemberFunction class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeMemberFunction, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeMemberFunction, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBTypeMemberFunction __init__(self, SBTypeMemberFunction rhs) -> SBTypeMemberFunction """ this = _lldb.new_SBTypeMemberFunction(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTypeMemberFunction __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeMemberFunction_IsValid(self) def GetName(self): """GetName(self) -> str""" return _lldb.SBTypeMemberFunction_GetName(self) def GetDemangledName(self): """GetDemangledName(self) -> str""" return _lldb.SBTypeMemberFunction_GetDemangledName(self) def GetMangledName(self): """GetMangledName(self) -> str""" return _lldb.SBTypeMemberFunction_GetMangledName(self) def GetType(self): """GetType(self) -> SBType""" return _lldb.SBTypeMemberFunction_GetType(self) def GetReturnType(self): """GetReturnType(self) -> SBType""" return _lldb.SBTypeMemberFunction_GetReturnType(self) def GetNumberOfArguments(self): """GetNumberOfArguments(self) -> uint32_t""" return _lldb.SBTypeMemberFunction_GetNumberOfArguments(self) def GetArgumentTypeAtIndex(self, *args): """GetArgumentTypeAtIndex(self, uint32_t arg0) -> SBType""" return _lldb.SBTypeMemberFunction_GetArgumentTypeAtIndex(self, *args) def GetKind(self): """GetKind(self) -> MemberFunctionKind""" return _lldb.SBTypeMemberFunction_GetKind(self) def GetDescription(self, *args): """GetDescription(self, SBStream description, DescriptionLevel description_level) -> bool""" return _lldb.SBTypeMemberFunction_GetDescription(self, *args) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBTypeMemberFunction___str__(self) SBTypeMemberFunction_swigregister = _lldb.SBTypeMemberFunction_swigregister SBTypeMemberFunction_swigregister(SBTypeMemberFunction) class SBType(_object): """ Represents a data type in lldb. The FindFirstType() method of SBTarget/SBModule returns a SBType. SBType supports the eq/ne operator. For example, main.cpp: class Task { public: int id; Task *next; Task(int i, Task *n): id(i), next(n) {} }; int main (int argc, char const *argv[]) { Task *task_head = new Task(-1, NULL); Task *task1 = new Task(1, NULL); Task *task2 = new Task(2, NULL); Task *task3 = new Task(3, NULL); // Orphaned. Task *task4 = new Task(4, NULL); Task *task5 = new Task(5, NULL); task_head->next = task1; task1->next = task2; task2->next = task4; task4->next = task5; int total = 0; Task *t = task_head; while (t != NULL) { if (t->id >= 0) ++total; t = t->next; } printf('We have a total number of %d tasks\n', total); // This corresponds to an empty task list. Task *empty_task_head = new Task(-1, NULL); return 0; // Break at this line } find_type.py: # Get the type 'Task'. task_type = target.FindFirstType('Task') self.assertTrue(task_type) # Get the variable 'task_head'. frame0.FindVariable('task_head') task_head_type = task_head.GetType() self.assertTrue(task_head_type.IsPointerType()) # task_head_type is 'Task *'. task_pointer_type = task_type.GetPointerType() self.assertTrue(task_head_type == task_pointer_type) # Get the child mmember 'id' from 'task_head'. id = task_head.GetChildMemberWithName('id') id_type = id.GetType() # SBType.GetBasicType() takes an enum 'BasicType' (lldb-enumerations.h). int_type = id_type.GetBasicType(lldb.eBasicTypeInt) # id_type and int_type should be the same type! self.assertTrue(id_type == int_type) ... """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBType, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBType, name) __repr__ = _swig_repr def __iter__(self): return lldb_iter(self, 'GetNumberChildren', 'GetChildAtIndex') def __len__(self): return self.GetNumberChildren() def __eq__(self, other): return isinstance(other, SBType) and self.GetByteSize() == other.GetByteSize() and self.GetName() == other.GetName() def __ne__(self, other): return not self.__eq__(other) def __init__(self, *args): """ __init__(self) -> SBType __init__(self, SBType rhs) -> SBType """ this = _lldb.new_SBType(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBType __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBType_IsValid(self) def GetByteSize(self): """GetByteSize(self) -> uint64_t""" return _lldb.SBType_GetByteSize(self) def IsPointerType(self): """IsPointerType(self) -> bool""" return _lldb.SBType_IsPointerType(self) def IsReferenceType(self): """IsReferenceType(self) -> bool""" return _lldb.SBType_IsReferenceType(self) def IsFunctionType(self): """IsFunctionType(self) -> bool""" return _lldb.SBType_IsFunctionType(self) def IsPolymorphicClass(self): """IsPolymorphicClass(self) -> bool""" return _lldb.SBType_IsPolymorphicClass(self) def IsArrayType(self): """IsArrayType(self) -> bool""" return _lldb.SBType_IsArrayType(self) def IsVectorType(self): """IsVectorType(self) -> bool""" return _lldb.SBType_IsVectorType(self) def IsTypedefType(self): """IsTypedefType(self) -> bool""" return _lldb.SBType_IsTypedefType(self) def IsAnonymousType(self): """IsAnonymousType(self) -> bool""" return _lldb.SBType_IsAnonymousType(self) def GetPointerType(self): """GetPointerType(self) -> SBType""" return _lldb.SBType_GetPointerType(self) def GetPointeeType(self): """GetPointeeType(self) -> SBType""" return _lldb.SBType_GetPointeeType(self) def GetReferenceType(self): """GetReferenceType(self) -> SBType""" return _lldb.SBType_GetReferenceType(self) def GetTypedefedType(self): """GetTypedefedType(self) -> SBType""" return _lldb.SBType_GetTypedefedType(self) def GetDereferencedType(self): """GetDereferencedType(self) -> SBType""" return _lldb.SBType_GetDereferencedType(self) def GetUnqualifiedType(self): """GetUnqualifiedType(self) -> SBType""" return _lldb.SBType_GetUnqualifiedType(self) def GetCanonicalType(self): """GetCanonicalType(self) -> SBType""" return _lldb.SBType_GetCanonicalType(self) def GetArrayElementType(self): """GetArrayElementType(self) -> SBType""" return _lldb.SBType_GetArrayElementType(self) def GetVectorElementType(self): """GetVectorElementType(self) -> SBType""" return _lldb.SBType_GetVectorElementType(self) def GetBasicType(self, *args): """ GetBasicType(self) -> BasicType GetBasicType(self, BasicType type) -> SBType """ return _lldb.SBType_GetBasicType(self, *args) def GetNumberOfFields(self): """GetNumberOfFields(self) -> uint32_t""" return _lldb.SBType_GetNumberOfFields(self) def GetNumberOfDirectBaseClasses(self): """GetNumberOfDirectBaseClasses(self) -> uint32_t""" return _lldb.SBType_GetNumberOfDirectBaseClasses(self) def GetNumberOfVirtualBaseClasses(self): """GetNumberOfVirtualBaseClasses(self) -> uint32_t""" return _lldb.SBType_GetNumberOfVirtualBaseClasses(self) def GetFieldAtIndex(self, *args): """GetFieldAtIndex(self, uint32_t idx) -> SBTypeMember""" return _lldb.SBType_GetFieldAtIndex(self, *args) def GetDirectBaseClassAtIndex(self, *args): """GetDirectBaseClassAtIndex(self, uint32_t idx) -> SBTypeMember""" return _lldb.SBType_GetDirectBaseClassAtIndex(self, *args) def GetVirtualBaseClassAtIndex(self, *args): """GetVirtualBaseClassAtIndex(self, uint32_t idx) -> SBTypeMember""" return _lldb.SBType_GetVirtualBaseClassAtIndex(self, *args) def GetEnumMembers(self): """GetEnumMembers(self) -> SBTypeEnumMemberList""" return _lldb.SBType_GetEnumMembers(self) def GetName(self): """GetName(self) -> str""" return _lldb.SBType_GetName(self) def GetDisplayTypeName(self): """GetDisplayTypeName(self) -> str""" return _lldb.SBType_GetDisplayTypeName(self) def GetTypeClass(self): """GetTypeClass(self) -> TypeClass""" return _lldb.SBType_GetTypeClass(self) def GetNumberOfTemplateArguments(self): """GetNumberOfTemplateArguments(self) -> uint32_t""" return _lldb.SBType_GetNumberOfTemplateArguments(self) def GetTemplateArgumentType(self, *args): """GetTemplateArgumentType(self, uint32_t idx) -> SBType""" return _lldb.SBType_GetTemplateArgumentType(self, *args) def GetTemplateArgumentKind(self, *args): """GetTemplateArgumentKind(self, uint32_t idx) -> TemplateArgumentKind""" return _lldb.SBType_GetTemplateArgumentKind(self, *args) def GetFunctionReturnType(self): """GetFunctionReturnType(self) -> SBType""" return _lldb.SBType_GetFunctionReturnType(self) def GetFunctionArgumentTypes(self): """GetFunctionArgumentTypes(self) -> SBTypeList""" return _lldb.SBType_GetFunctionArgumentTypes(self) def GetNumberOfMemberFunctions(self): """GetNumberOfMemberFunctions(self) -> uint32_t""" return _lldb.SBType_GetNumberOfMemberFunctions(self) def GetMemberFunctionAtIndex(self, *args): """GetMemberFunctionAtIndex(self, uint32_t idx) -> SBTypeMemberFunction""" return _lldb.SBType_GetMemberFunctionAtIndex(self, *args) def IsTypeComplete(self): """IsTypeComplete(self) -> bool""" return _lldb.SBType_IsTypeComplete(self) def GetTypeFlags(self): """GetTypeFlags(self) -> uint32_t""" return _lldb.SBType_GetTypeFlags(self) def template_arg_array(self): num_args = self.num_template_args if num_args: template_args = [] for i in range(num_args): template_args.append(self.GetTemplateArgumentType(i)) return template_args return None __swig_getmethods__["name"] = GetName if _newclass: name = property(GetName, None, doc='''A read only property that returns the name for this type as a string.''') __swig_getmethods__["size"] = GetByteSize if _newclass: size = property(GetByteSize, None, doc='''A read only property that returns size in bytes for this type as an integer.''') __swig_getmethods__["is_pointer"] = IsPointerType if _newclass: is_pointer = property(IsPointerType, None, doc='''A read only property that returns a boolean value that indicates if this type is a pointer type.''') __swig_getmethods__["is_reference"] = IsReferenceType if _newclass: is_reference = property(IsReferenceType, None, doc='''A read only property that returns a boolean value that indicates if this type is a reference type.''') __swig_getmethods__["is_function"] = IsFunctionType if _newclass: is_reference = property(IsReferenceType, None, doc='''A read only property that returns a boolean value that indicates if this type is a function type.''') __swig_getmethods__["num_fields"] = GetNumberOfFields if _newclass: num_fields = property(GetNumberOfFields, None, doc='''A read only property that returns number of fields in this type as an integer.''') __swig_getmethods__["num_bases"] = GetNumberOfDirectBaseClasses if _newclass: num_bases = property(GetNumberOfDirectBaseClasses, None, doc='''A read only property that returns number of direct base classes in this type as an integer.''') __swig_getmethods__["num_vbases"] = GetNumberOfVirtualBaseClasses if _newclass: num_vbases = property(GetNumberOfVirtualBaseClasses, None, doc='''A read only property that returns number of virtual base classes in this type as an integer.''') __swig_getmethods__["num_template_args"] = GetNumberOfTemplateArguments if _newclass: num_template_args = property(GetNumberOfTemplateArguments, None, doc='''A read only property that returns number of template arguments in this type as an integer.''') __swig_getmethods__["template_args"] = template_arg_array if _newclass: template_args = property(template_arg_array, None, doc='''A read only property that returns a list() of lldb.SBType objects that represent all template arguments in this type.''') __swig_getmethods__["type"] = GetTypeClass if _newclass: type = property(GetTypeClass, None, doc='''A read only property that returns an lldb enumeration value (see enumerations that start with "lldb.eTypeClass") that represents a classification for this type.''') __swig_getmethods__["is_complete"] = IsTypeComplete if _newclass: is_complete = property(IsTypeComplete, None, doc='''A read only property that returns a boolean value that indicates if this type is a complete type (True) or a forward declaration (False).''') def get_bases_array(self): '''An accessor function that returns a list() that contains all direct base classes in a lldb.SBType object.''' bases = [] for idx in range(self.GetNumberOfDirectBaseClasses()): bases.append(self.GetDirectBaseClassAtIndex(idx)) return bases def get_vbases_array(self): '''An accessor function that returns a list() that contains all fields in a lldb.SBType object.''' vbases = [] for idx in range(self.GetNumberOfVirtualBaseClasses()): vbases.append(self.GetVirtualBaseClassAtIndex(idx)) return vbases def get_fields_array(self): '''An accessor function that returns a list() that contains all fields in a lldb.SBType object.''' fields = [] for idx in range(self.GetNumberOfFields()): fields.append(self.GetFieldAtIndex(idx)) return fields def get_members_array(self): '''An accessor function that returns a list() that contains all members (base classes and fields) in a lldb.SBType object in ascending bit offset order.''' members = [] bases = self.get_bases_array() fields = self.get_fields_array() vbases = self.get_vbases_array() for base in bases: bit_offset = base.bit_offset added = False for idx, member in enumerate(members): if member.bit_offset > bit_offset: members.insert(idx, base) added = True break if not added: members.append(base) for vbase in vbases: bit_offset = vbase.bit_offset added = False for idx, member in enumerate(members): if member.bit_offset > bit_offset: members.insert(idx, vbase) added = True break if not added: members.append(vbase) for field in fields: bit_offset = field.bit_offset added = False for idx, member in enumerate(members): if member.bit_offset > bit_offset: members.insert(idx, field) added = True break if not added: members.append(field) return members def get_enum_members_array(self): '''An accessor function that returns a list() that contains all enum members in an lldb.SBType object.''' enum_members_list = [] sb_enum_members = self.GetEnumMembers() for idx in range(sb_enum_members.GetSize()): enum_members_list.append(sb_enum_members.GetTypeEnumMemberAtIndex(idx)) return enum_members_list __swig_getmethods__["bases"] = get_bases_array if _newclass: bases = property(get_bases_array, None, doc='''A read only property that returns a list() of lldb.SBTypeMember objects that represent all of the direct base classes for this type.''') __swig_getmethods__["vbases"] = get_vbases_array if _newclass: vbases = property(get_vbases_array, None, doc='''A read only property that returns a list() of lldb.SBTypeMember objects that represent all of the virtual base classes for this type.''') __swig_getmethods__["fields"] = get_fields_array if _newclass: fields = property(get_fields_array, None, doc='''A read only property that returns a list() of lldb.SBTypeMember objects that represent all of the fields for this type.''') __swig_getmethods__["members"] = get_members_array if _newclass: members = property(get_members_array, None, doc='''A read only property that returns a list() of all lldb.SBTypeMember objects that represent all of the base classes, virtual base classes and fields for this type in ascending bit offset order.''') __swig_getmethods__["enum_members"] = get_enum_members_array if _newclass: enum_members = property(get_enum_members_array, None, doc='''A read only property that returns a list() of all lldb.SBTypeEnumMember objects that represent the enum members for this type.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBType___str__(self) SBType_swigregister = _lldb.SBType_swigregister SBType_swigregister(SBType) class SBTypeList(_object): """ Represents a list of SBTypes. The FindTypes() method of SBTarget/SBModule returns a SBTypeList. SBTypeList supports SBType iteration. For example, main.cpp: class Task { public: int id; Task *next; Task(int i, Task *n): id(i), next(n) {} }; ... find_type.py: # Get the type 'Task'. type_list = target.FindTypes('Task') self.assertTrue(len(type_list) == 1) # To illustrate the SBType iteration. for type in type_list: # do something with type ... """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeList, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeList, name) __repr__ = _swig_repr def __iter__(self): return lldb_iter(self, 'GetSize', 'GetTypeAtIndex') def __len__(self): return self.GetSize() def __init__(self): """__init__(self) -> SBTypeList""" this = _lldb.new_SBTypeList() try: self.this.append(this) except: self.this = this def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeList_IsValid(self) def Append(self, *args): """Append(self, SBType type)""" return _lldb.SBTypeList_Append(self, *args) def GetTypeAtIndex(self, *args): """GetTypeAtIndex(self, uint32_t index) -> SBType""" return _lldb.SBTypeList_GetTypeAtIndex(self, *args) def GetSize(self): """GetSize(self) -> uint32_t""" return _lldb.SBTypeList_GetSize(self) __swig_destroy__ = _lldb.delete_SBTypeList __del__ = lambda self : None; SBTypeList_swigregister = _lldb.SBTypeList_swigregister SBTypeList_swigregister(SBTypeList) class SBTypeCategory(_object): """ Represents a category that can contain formatters for types. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeCategory, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeCategory, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBTypeCategory __init__(self, SBTypeCategory rhs) -> SBTypeCategory """ this = _lldb.new_SBTypeCategory(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTypeCategory __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeCategory_IsValid(self) def GetEnabled(self): """GetEnabled(self) -> bool""" return _lldb.SBTypeCategory_GetEnabled(self) def SetEnabled(self, *args): """SetEnabled(self, bool arg0)""" return _lldb.SBTypeCategory_SetEnabled(self, *args) def GetName(self): """GetName(self) -> str""" return _lldb.SBTypeCategory_GetName(self) def GetLanguageAtIndex(self, *args): """GetLanguageAtIndex(self, uint32_t idx) -> LanguageType""" return _lldb.SBTypeCategory_GetLanguageAtIndex(self, *args) def GetNumLanguages(self): """GetNumLanguages(self) -> uint32_t""" return _lldb.SBTypeCategory_GetNumLanguages(self) def AddLanguage(self, *args): """AddLanguage(self, LanguageType language)""" return _lldb.SBTypeCategory_AddLanguage(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description, DescriptionLevel description_level) -> bool""" return _lldb.SBTypeCategory_GetDescription(self, *args) def GetNumFormats(self): """GetNumFormats(self) -> uint32_t""" return _lldb.SBTypeCategory_GetNumFormats(self) def GetNumSummaries(self): """GetNumSummaries(self) -> uint32_t""" return _lldb.SBTypeCategory_GetNumSummaries(self) def GetNumFilters(self): """GetNumFilters(self) -> uint32_t""" return _lldb.SBTypeCategory_GetNumFilters(self) def GetNumSynthetics(self): """GetNumSynthetics(self) -> uint32_t""" return _lldb.SBTypeCategory_GetNumSynthetics(self) def GetTypeNameSpecifierForFilterAtIndex(self, *args): """GetTypeNameSpecifierForFilterAtIndex(self, uint32_t arg0) -> SBTypeNameSpecifier""" return _lldb.SBTypeCategory_GetTypeNameSpecifierForFilterAtIndex(self, *args) def GetTypeNameSpecifierForFormatAtIndex(self, *args): """GetTypeNameSpecifierForFormatAtIndex(self, uint32_t arg0) -> SBTypeNameSpecifier""" return _lldb.SBTypeCategory_GetTypeNameSpecifierForFormatAtIndex(self, *args) def GetTypeNameSpecifierForSummaryAtIndex(self, *args): """GetTypeNameSpecifierForSummaryAtIndex(self, uint32_t arg0) -> SBTypeNameSpecifier""" return _lldb.SBTypeCategory_GetTypeNameSpecifierForSummaryAtIndex(self, *args) def GetTypeNameSpecifierForSyntheticAtIndex(self, *args): """GetTypeNameSpecifierForSyntheticAtIndex(self, uint32_t arg0) -> SBTypeNameSpecifier""" return _lldb.SBTypeCategory_GetTypeNameSpecifierForSyntheticAtIndex(self, *args) def GetFilterForType(self, *args): """GetFilterForType(self, SBTypeNameSpecifier arg0) -> SBTypeFilter""" return _lldb.SBTypeCategory_GetFilterForType(self, *args) def GetFormatForType(self, *args): """GetFormatForType(self, SBTypeNameSpecifier arg0) -> SBTypeFormat""" return _lldb.SBTypeCategory_GetFormatForType(self, *args) def GetSummaryForType(self, *args): """GetSummaryForType(self, SBTypeNameSpecifier arg0) -> SBTypeSummary""" return _lldb.SBTypeCategory_GetSummaryForType(self, *args) def GetSyntheticForType(self, *args): """GetSyntheticForType(self, SBTypeNameSpecifier arg0) -> SBTypeSynthetic""" return _lldb.SBTypeCategory_GetSyntheticForType(self, *args) def GetFilterAtIndex(self, *args): """GetFilterAtIndex(self, uint32_t arg0) -> SBTypeFilter""" return _lldb.SBTypeCategory_GetFilterAtIndex(self, *args) def GetFormatAtIndex(self, *args): """GetFormatAtIndex(self, uint32_t arg0) -> SBTypeFormat""" return _lldb.SBTypeCategory_GetFormatAtIndex(self, *args) def GetSummaryAtIndex(self, *args): """GetSummaryAtIndex(self, uint32_t arg0) -> SBTypeSummary""" return _lldb.SBTypeCategory_GetSummaryAtIndex(self, *args) def GetSyntheticAtIndex(self, *args): """GetSyntheticAtIndex(self, uint32_t arg0) -> SBTypeSynthetic""" return _lldb.SBTypeCategory_GetSyntheticAtIndex(self, *args) def AddTypeFormat(self, *args): """AddTypeFormat(self, SBTypeNameSpecifier arg0, SBTypeFormat arg1) -> bool""" return _lldb.SBTypeCategory_AddTypeFormat(self, *args) def DeleteTypeFormat(self, *args): """DeleteTypeFormat(self, SBTypeNameSpecifier arg0) -> bool""" return _lldb.SBTypeCategory_DeleteTypeFormat(self, *args) def AddTypeSummary(self, *args): """AddTypeSummary(self, SBTypeNameSpecifier arg0, SBTypeSummary arg1) -> bool""" return _lldb.SBTypeCategory_AddTypeSummary(self, *args) def DeleteTypeSummary(self, *args): """DeleteTypeSummary(self, SBTypeNameSpecifier arg0) -> bool""" return _lldb.SBTypeCategory_DeleteTypeSummary(self, *args) def AddTypeFilter(self, *args): """AddTypeFilter(self, SBTypeNameSpecifier arg0, SBTypeFilter arg1) -> bool""" return _lldb.SBTypeCategory_AddTypeFilter(self, *args) def DeleteTypeFilter(self, *args): """DeleteTypeFilter(self, SBTypeNameSpecifier arg0) -> bool""" return _lldb.SBTypeCategory_DeleteTypeFilter(self, *args) def AddTypeSynthetic(self, *args): """AddTypeSynthetic(self, SBTypeNameSpecifier arg0, SBTypeSynthetic arg1) -> bool""" return _lldb.SBTypeCategory_AddTypeSynthetic(self, *args) def DeleteTypeSynthetic(self, *args): """DeleteTypeSynthetic(self, SBTypeNameSpecifier arg0) -> bool""" return _lldb.SBTypeCategory_DeleteTypeSynthetic(self, *args) class formatters_access_class(object): '''A helper object that will lazily hand out formatters for a specific category.''' def __init__(self, sbcategory, get_count_function, get_at_index_function, get_by_name_function): self.sbcategory = sbcategory self.get_count_function = get_count_function self.get_at_index_function = get_at_index_function self.get_by_name_function = get_by_name_function self.regex_type = type(re.compile('.')) def __len__(self): if self.sbcategory and self.get_count_function: return int(self.get_count_function(self.sbcategory)) return 0 def __getitem__(self, key): num_items = len(self) if type(key) is int: if key < num_items: return self.get_at_index_function(self.sbcategory,key) elif type(key) is str: return self.get_by_name_function(self.sbcategory,SBTypeNameSpecifier(key)) elif isinstance(key,self.regex_type): return self.get_by_name_function(self.sbcategory,SBTypeNameSpecifier(key.pattern,True)) else: print("error: unsupported item type: %s" % type(key)) return None def get_formats_access_object(self): '''An accessor function that returns an accessor object which allows lazy format access from a lldb.SBTypeCategory object.''' return self.formatters_access_class (self,self.__class__.GetNumFormats,self.__class__.GetFormatAtIndex,self.__class__.GetFormatForType) def get_formats_array(self): '''An accessor function that returns a list() that contains all formats in a lldb.SBCategory object.''' formats = [] for idx in range(self.GetNumFormats()): formats.append(self.GetFormatAtIndex(idx)) return formats def get_summaries_access_object(self): '''An accessor function that returns an accessor object which allows lazy summary access from a lldb.SBTypeCategory object.''' return self.formatters_access_class (self,self.__class__.GetNumSummaries,self.__class__.GetSummaryAtIndex,self.__class__.GetSummaryForType) def get_summaries_array(self): '''An accessor function that returns a list() that contains all summaries in a lldb.SBCategory object.''' summaries = [] for idx in range(self.GetNumSummaries()): summaries.append(self.GetSummaryAtIndex(idx)) return summaries def get_synthetics_access_object(self): '''An accessor function that returns an accessor object which allows lazy synthetic children provider access from a lldb.SBTypeCategory object.''' return self.formatters_access_class (self,self.__class__.GetNumSynthetics,self.__class__.GetSyntheticAtIndex,self.__class__.GetSyntheticForType) def get_synthetics_array(self): '''An accessor function that returns a list() that contains all synthetic children providers in a lldb.SBCategory object.''' synthetics = [] for idx in range(self.GetNumSynthetics()): synthetics.append(self.GetSyntheticAtIndex(idx)) return synthetics def get_filters_access_object(self): '''An accessor function that returns an accessor object which allows lazy filter access from a lldb.SBTypeCategory object.''' return self.formatters_access_class (self,self.__class__.GetNumFilters,self.__class__.GetFilterAtIndex,self.__class__.GetFilterForType) def get_filters_array(self): '''An accessor function that returns a list() that contains all filters in a lldb.SBCategory object.''' filters = [] for idx in range(self.GetNumFilters()): filters.append(self.GetFilterAtIndex(idx)) return filters __swig_getmethods__["formats"] = get_formats_array if _newclass: formats = property(get_formats_array, None, doc='''A read only property that returns a list() of lldb.SBTypeFormat objects contained in this category''') __swig_getmethods__["format"] = get_formats_access_object if _newclass: format = property(get_formats_access_object, None, doc=r'''A read only property that returns an object that you can use to look for formats by index or type name.''') __swig_getmethods__["summaries"] = get_summaries_array if _newclass: summaries = property(get_summaries_array, None, doc='''A read only property that returns a list() of lldb.SBTypeSummary objects contained in this category''') __swig_getmethods__["summary"] = get_summaries_access_object if _newclass: summary = property(get_summaries_access_object, None, doc=r'''A read only property that returns an object that you can use to look for summaries by index or type name or regular expression.''') __swig_getmethods__["filters"] = get_filters_array if _newclass: filters = property(get_filters_array, None, doc='''A read only property that returns a list() of lldb.SBTypeFilter objects contained in this category''') __swig_getmethods__["filter"] = get_filters_access_object if _newclass: filter = property(get_filters_access_object, None, doc=r'''A read only property that returns an object that you can use to look for filters by index or type name or regular expression.''') __swig_getmethods__["synthetics"] = get_synthetics_array if _newclass: synthetics = property(get_synthetics_array, None, doc='''A read only property that returns a list() of lldb.SBTypeSynthetic objects contained in this category''') __swig_getmethods__["synthetic"] = get_synthetics_access_object if _newclass: synthetic = property(get_synthetics_access_object, None, doc=r'''A read only property that returns an object that you can use to look for synthetic children provider by index or type name or regular expression.''') __swig_getmethods__["num_formats"] = GetNumFormats if _newclass: num_formats = property(GetNumFormats, None) __swig_getmethods__["num_summaries"] = GetNumSummaries if _newclass: num_summaries = property(GetNumSummaries, None) __swig_getmethods__["num_filters"] = GetNumFilters if _newclass: num_filters = property(GetNumFilters, None) __swig_getmethods__["num_synthetics"] = GetNumSynthetics if _newclass: num_synthetics = property(GetNumSynthetics, None) __swig_getmethods__["name"] = GetName if _newclass: name = property(GetName, None) __swig_getmethods__["enabled"] = GetEnabled __swig_setmethods__["enabled"] = SetEnabled if _newclass: enabled = property(GetEnabled, SetEnabled) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBTypeCategory___str__(self) SBTypeCategory_swigregister = _lldb.SBTypeCategory_swigregister SBTypeCategory_swigregister(SBTypeCategory) class SBTypeEnumMember(_object): """Represents a member of an enum in lldb.""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeEnumMember, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeEnumMember, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBTypeEnumMember __init__(self, SBTypeEnumMember rhs) -> SBTypeEnumMember """ this = _lldb.new_SBTypeEnumMember(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTypeEnumMember __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeEnumMember_IsValid(self) def GetValueAsSigned(self): """GetValueAsSigned(self) -> int64_t""" return _lldb.SBTypeEnumMember_GetValueAsSigned(self) def GetValueAsUnsigned(self): """GetValueAsUnsigned(self) -> uint64_t""" return _lldb.SBTypeEnumMember_GetValueAsUnsigned(self) def GetName(self): """GetName(self) -> str""" return _lldb.SBTypeEnumMember_GetName(self) def GetType(self): """GetType(self) -> SBType""" return _lldb.SBTypeEnumMember_GetType(self) def GetDescription(self, *args): """GetDescription(self, SBStream description, DescriptionLevel description_level) -> bool""" return _lldb.SBTypeEnumMember_GetDescription(self, *args) __swig_getmethods__["name"] = GetName if _newclass: name = property(GetName, None, doc='''A read only property that returns the name for this enum member as a string.''') __swig_getmethods__["type"] = GetType if _newclass: type = property(GetType, None, doc='''A read only property that returns an lldb object that represents the type (lldb.SBType) for this enum member.''') __swig_getmethods__["signed"] = GetValueAsSigned if _newclass: signed = property(GetValueAsSigned, None, doc='''A read only property that returns the value of this enum member as a signed integer.''') __swig_getmethods__["unsigned"] = GetValueAsUnsigned if _newclass: unsigned = property(GetValueAsUnsigned, None, doc='''A read only property that returns the value of this enum member as a unsigned integer.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBTypeEnumMember___str__(self) SBTypeEnumMember_swigregister = _lldb.SBTypeEnumMember_swigregister SBTypeEnumMember_swigregister(SBTypeEnumMember) class SBTypeEnumMemberList(_object): """Represents a list of SBTypeEnumMembers.""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeEnumMemberList, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeEnumMemberList, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBTypeEnumMemberList __init__(self, SBTypeEnumMemberList rhs) -> SBTypeEnumMemberList """ this = _lldb.new_SBTypeEnumMemberList(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTypeEnumMemberList __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeEnumMemberList_IsValid(self) def Append(self, *args): """Append(self, SBTypeEnumMember entry)""" return _lldb.SBTypeEnumMemberList_Append(self, *args) def GetTypeEnumMemberAtIndex(self, *args): """GetTypeEnumMemberAtIndex(self, uint32_t index) -> SBTypeEnumMember""" return _lldb.SBTypeEnumMemberList_GetTypeEnumMemberAtIndex(self, *args) def GetSize(self): """GetSize(self) -> uint32_t""" return _lldb.SBTypeEnumMemberList_GetSize(self) SBTypeEnumMemberList_swigregister = _lldb.SBTypeEnumMemberList_swigregister SBTypeEnumMemberList_swigregister(SBTypeEnumMemberList) class SBTypeFilter(_object): """ Represents a filter that can be associated to one or more types. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeFilter, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeFilter, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBTypeFilter __init__(self, uint32_t options) -> SBTypeFilter __init__(self, SBTypeFilter rhs) -> SBTypeFilter """ this = _lldb.new_SBTypeFilter(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTypeFilter __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeFilter_IsValid(self) def IsEqualTo(self, *args): """IsEqualTo(self, SBTypeFilter rhs) -> bool""" return _lldb.SBTypeFilter_IsEqualTo(self, *args) def GetNumberOfExpressionPaths(self): """GetNumberOfExpressionPaths(self) -> uint32_t""" return _lldb.SBTypeFilter_GetNumberOfExpressionPaths(self) def GetExpressionPathAtIndex(self, *args): """GetExpressionPathAtIndex(self, uint32_t i) -> str""" return _lldb.SBTypeFilter_GetExpressionPathAtIndex(self, *args) def ReplaceExpressionPathAtIndex(self, *args): """ReplaceExpressionPathAtIndex(self, uint32_t i, str item) -> bool""" return _lldb.SBTypeFilter_ReplaceExpressionPathAtIndex(self, *args) def AppendExpressionPath(self, *args): """AppendExpressionPath(self, str item)""" return _lldb.SBTypeFilter_AppendExpressionPath(self, *args) def Clear(self): """Clear(self)""" return _lldb.SBTypeFilter_Clear(self) def GetOptions(self): """GetOptions(self) -> uint32_t""" return _lldb.SBTypeFilter_GetOptions(self) def SetOptions(self, *args): """SetOptions(self, uint32_t arg0)""" return _lldb.SBTypeFilter_SetOptions(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description, DescriptionLevel description_level) -> bool""" return _lldb.SBTypeFilter_GetDescription(self, *args) def __eq__(self, *args): """__eq__(self, SBTypeFilter rhs) -> bool""" return _lldb.SBTypeFilter___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBTypeFilter rhs) -> bool""" return _lldb.SBTypeFilter___ne__(self, *args) __swig_getmethods__["options"] = GetOptions __swig_setmethods__["options"] = SetOptions if _newclass: options = property(GetOptions, SetOptions) __swig_getmethods__["count"] = GetNumberOfExpressionPaths if _newclass: count = property(GetNumberOfExpressionPaths, None) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBTypeFilter___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBTypeFilter_swigregister = _lldb.SBTypeFilter_swigregister SBTypeFilter_swigregister(SBTypeFilter) class SBTypeFormat(_object): """ Represents a format that can be associated to one or more types. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeFormat, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeFormat, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBTypeFormat __init__(self, Format format, uint32_t options = 0) -> SBTypeFormat __init__(self, Format format) -> SBTypeFormat __init__(self, str type, uint32_t options = 0) -> SBTypeFormat __init__(self, str type) -> SBTypeFormat __init__(self, SBTypeFormat rhs) -> SBTypeFormat """ this = _lldb.new_SBTypeFormat(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTypeFormat __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeFormat_IsValid(self) def IsEqualTo(self, *args): """IsEqualTo(self, SBTypeFormat rhs) -> bool""" return _lldb.SBTypeFormat_IsEqualTo(self, *args) def GetFormat(self): """GetFormat(self) -> Format""" return _lldb.SBTypeFormat_GetFormat(self) def GetTypeName(self): """GetTypeName(self) -> str""" return _lldb.SBTypeFormat_GetTypeName(self) def GetOptions(self): """GetOptions(self) -> uint32_t""" return _lldb.SBTypeFormat_GetOptions(self) def SetFormat(self, *args): """SetFormat(self, Format arg0)""" return _lldb.SBTypeFormat_SetFormat(self, *args) def SetTypeName(self, *args): """SetTypeName(self, str arg0)""" return _lldb.SBTypeFormat_SetTypeName(self, *args) def SetOptions(self, *args): """SetOptions(self, uint32_t arg0)""" return _lldb.SBTypeFormat_SetOptions(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description, DescriptionLevel description_level) -> bool""" return _lldb.SBTypeFormat_GetDescription(self, *args) def __eq__(self, *args): """__eq__(self, SBTypeFormat rhs) -> bool""" return _lldb.SBTypeFormat___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBTypeFormat rhs) -> bool""" return _lldb.SBTypeFormat___ne__(self, *args) __swig_getmethods__["format"] = GetFormat __swig_setmethods__["format"] = SetFormat if _newclass: format = property(GetFormat, SetFormat) __swig_getmethods__["options"] = GetOptions __swig_setmethods__["options"] = SetOptions if _newclass: options = property(GetOptions, SetOptions) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBTypeFormat___str__(self) SBTypeFormat_swigregister = _lldb.SBTypeFormat_swigregister SBTypeFormat_swigregister(SBTypeFormat) class SBTypeNameSpecifier(_object): """ Represents a general way to provide a type name to LLDB APIs. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeNameSpecifier, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeNameSpecifier, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBTypeNameSpecifier __init__(self, str name, bool is_regex = False) -> SBTypeNameSpecifier __init__(self, str name) -> SBTypeNameSpecifier __init__(self, SBType type) -> SBTypeNameSpecifier __init__(self, SBTypeNameSpecifier rhs) -> SBTypeNameSpecifier """ this = _lldb.new_SBTypeNameSpecifier(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTypeNameSpecifier __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeNameSpecifier_IsValid(self) def IsEqualTo(self, *args): """IsEqualTo(self, SBTypeNameSpecifier rhs) -> bool""" return _lldb.SBTypeNameSpecifier_IsEqualTo(self, *args) def GetName(self): """GetName(self) -> str""" return _lldb.SBTypeNameSpecifier_GetName(self) def GetType(self): """GetType(self) -> SBType""" return _lldb.SBTypeNameSpecifier_GetType(self) def IsRegex(self): """IsRegex(self) -> bool""" return _lldb.SBTypeNameSpecifier_IsRegex(self) def GetDescription(self, *args): """GetDescription(self, SBStream description, DescriptionLevel description_level) -> bool""" return _lldb.SBTypeNameSpecifier_GetDescription(self, *args) def __eq__(self, *args): """__eq__(self, SBTypeNameSpecifier rhs) -> bool""" return _lldb.SBTypeNameSpecifier___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBTypeNameSpecifier rhs) -> bool""" return _lldb.SBTypeNameSpecifier___ne__(self, *args) __swig_getmethods__["name"] = GetName if _newclass: name = property(GetName, None) __swig_getmethods__["is_regex"] = IsRegex if _newclass: is_regex = property(IsRegex, None) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBTypeNameSpecifier___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBTypeNameSpecifier_swigregister = _lldb.SBTypeNameSpecifier_swigregister SBTypeNameSpecifier_swigregister(SBTypeNameSpecifier) class SBTypeSummaryOptions(_object): """Proxy of C++ lldb::SBTypeSummaryOptions class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeSummaryOptions, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeSummaryOptions, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBTypeSummaryOptions __init__(self, SBTypeSummaryOptions rhs) -> SBTypeSummaryOptions """ this = _lldb.new_SBTypeSummaryOptions(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTypeSummaryOptions __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeSummaryOptions_IsValid(self) def GetLanguage(self): """GetLanguage(self) -> LanguageType""" return _lldb.SBTypeSummaryOptions_GetLanguage(self) def GetCapping(self): """GetCapping(self) -> TypeSummaryCapping""" return _lldb.SBTypeSummaryOptions_GetCapping(self) def SetLanguage(self, *args): """SetLanguage(self, LanguageType arg0)""" return _lldb.SBTypeSummaryOptions_SetLanguage(self, *args) def SetCapping(self, *args): """SetCapping(self, TypeSummaryCapping arg0)""" return _lldb.SBTypeSummaryOptions_SetCapping(self, *args) SBTypeSummaryOptions_swigregister = _lldb.SBTypeSummaryOptions_swigregister SBTypeSummaryOptions_swigregister(SBTypeSummaryOptions) class SBTypeSummary(_object): """ Represents a summary that can be associated to one or more types. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeSummary, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeSummary, name) __repr__ = _swig_repr def CreateWithSummaryString(*args): """ CreateWithSummaryString(str data, uint32_t options = 0) -> SBTypeSummary CreateWithSummaryString(str data) -> SBTypeSummary """ return _lldb.SBTypeSummary_CreateWithSummaryString(*args) if _newclass:CreateWithSummaryString = staticmethod(CreateWithSummaryString) __swig_getmethods__["CreateWithSummaryString"] = lambda x: CreateWithSummaryString def CreateWithFunctionName(*args): """ CreateWithFunctionName(str data, uint32_t options = 0) -> SBTypeSummary CreateWithFunctionName(str data) -> SBTypeSummary """ return _lldb.SBTypeSummary_CreateWithFunctionName(*args) if _newclass:CreateWithFunctionName = staticmethod(CreateWithFunctionName) __swig_getmethods__["CreateWithFunctionName"] = lambda x: CreateWithFunctionName def CreateWithScriptCode(*args): """ CreateWithScriptCode(str data, uint32_t options = 0) -> SBTypeSummary CreateWithScriptCode(str data) -> SBTypeSummary """ return _lldb.SBTypeSummary_CreateWithScriptCode(*args) if _newclass:CreateWithScriptCode = staticmethod(CreateWithScriptCode) __swig_getmethods__["CreateWithScriptCode"] = lambda x: CreateWithScriptCode def __init__(self, *args): """ __init__(self) -> SBTypeSummary __init__(self, SBTypeSummary rhs) -> SBTypeSummary """ this = _lldb.new_SBTypeSummary(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTypeSummary __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeSummary_IsValid(self) def IsEqualTo(self, *args): """IsEqualTo(self, SBTypeSummary rhs) -> bool""" return _lldb.SBTypeSummary_IsEqualTo(self, *args) def IsFunctionCode(self): """IsFunctionCode(self) -> bool""" return _lldb.SBTypeSummary_IsFunctionCode(self) def IsFunctionName(self): """IsFunctionName(self) -> bool""" return _lldb.SBTypeSummary_IsFunctionName(self) def IsSummaryString(self): """IsSummaryString(self) -> bool""" return _lldb.SBTypeSummary_IsSummaryString(self) def GetData(self): """GetData(self) -> str""" return _lldb.SBTypeSummary_GetData(self) def SetSummaryString(self, *args): """SetSummaryString(self, str data)""" return _lldb.SBTypeSummary_SetSummaryString(self, *args) def SetFunctionName(self, *args): """SetFunctionName(self, str data)""" return _lldb.SBTypeSummary_SetFunctionName(self, *args) def SetFunctionCode(self, *args): """SetFunctionCode(self, str data)""" return _lldb.SBTypeSummary_SetFunctionCode(self, *args) def GetOptions(self): """GetOptions(self) -> uint32_t""" return _lldb.SBTypeSummary_GetOptions(self) def SetOptions(self, *args): """SetOptions(self, uint32_t arg0)""" return _lldb.SBTypeSummary_SetOptions(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description, DescriptionLevel description_level) -> bool""" return _lldb.SBTypeSummary_GetDescription(self, *args) def __eq__(self, *args): """__eq__(self, SBTypeSummary rhs) -> bool""" return _lldb.SBTypeSummary___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBTypeSummary rhs) -> bool""" return _lldb.SBTypeSummary___ne__(self, *args) __swig_getmethods__["options"] = GetOptions __swig_setmethods__["options"] = SetOptions if _newclass: options = property(GetOptions, SetOptions) __swig_getmethods__["is_summary_string"] = IsSummaryString if _newclass: is_summary_string = property(IsSummaryString, None) __swig_getmethods__["is_function_name"] = IsFunctionName if _newclass: is_function_name = property(IsFunctionName, None) __swig_getmethods__["is_function_name"] = IsFunctionCode if _newclass: is_function_name = property(IsFunctionCode, None) __swig_getmethods__["summary_data"] = GetData if _newclass: summary_data = property(GetData, None) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBTypeSummary___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBTypeSummary_swigregister = _lldb.SBTypeSummary_swigregister SBTypeSummary_swigregister(SBTypeSummary) def SBTypeSummary_CreateWithSummaryString(*args): """ CreateWithSummaryString(char data, uint32_t options = 0) -> SBTypeSummary SBTypeSummary_CreateWithSummaryString(char data) -> SBTypeSummary """ return _lldb.SBTypeSummary_CreateWithSummaryString(*args) def SBTypeSummary_CreateWithFunctionName(*args): """ CreateWithFunctionName(char data, uint32_t options = 0) -> SBTypeSummary SBTypeSummary_CreateWithFunctionName(char data) -> SBTypeSummary """ return _lldb.SBTypeSummary_CreateWithFunctionName(*args) def SBTypeSummary_CreateWithScriptCode(*args): """ CreateWithScriptCode(char data, uint32_t options = 0) -> SBTypeSummary SBTypeSummary_CreateWithScriptCode(char data) -> SBTypeSummary """ return _lldb.SBTypeSummary_CreateWithScriptCode(*args) class SBTypeSynthetic(_object): """ Represents a summary that can be associated to one or more types. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBTypeSynthetic, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBTypeSynthetic, name) __repr__ = _swig_repr def CreateWithClassName(*args): """ CreateWithClassName(str data, uint32_t options = 0) -> SBTypeSynthetic CreateWithClassName(str data) -> SBTypeSynthetic """ return _lldb.SBTypeSynthetic_CreateWithClassName(*args) if _newclass:CreateWithClassName = staticmethod(CreateWithClassName) __swig_getmethods__["CreateWithClassName"] = lambda x: CreateWithClassName def CreateWithScriptCode(*args): """ CreateWithScriptCode(str data, uint32_t options = 0) -> SBTypeSynthetic CreateWithScriptCode(str data) -> SBTypeSynthetic """ return _lldb.SBTypeSynthetic_CreateWithScriptCode(*args) if _newclass:CreateWithScriptCode = staticmethod(CreateWithScriptCode) __swig_getmethods__["CreateWithScriptCode"] = lambda x: CreateWithScriptCode def __init__(self, *args): """ __init__(self) -> SBTypeSynthetic __init__(self, SBTypeSynthetic rhs) -> SBTypeSynthetic """ this = _lldb.new_SBTypeSynthetic(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBTypeSynthetic __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBTypeSynthetic_IsValid(self) def IsEqualTo(self, *args): """IsEqualTo(self, SBTypeSynthetic rhs) -> bool""" return _lldb.SBTypeSynthetic_IsEqualTo(self, *args) def IsClassCode(self): """IsClassCode(self) -> bool""" return _lldb.SBTypeSynthetic_IsClassCode(self) def GetData(self): """GetData(self) -> str""" return _lldb.SBTypeSynthetic_GetData(self) def SetClassName(self, *args): """SetClassName(self, str data)""" return _lldb.SBTypeSynthetic_SetClassName(self, *args) def SetClassCode(self, *args): """SetClassCode(self, str data)""" return _lldb.SBTypeSynthetic_SetClassCode(self, *args) def GetOptions(self): """GetOptions(self) -> uint32_t""" return _lldb.SBTypeSynthetic_GetOptions(self) def SetOptions(self, *args): """SetOptions(self, uint32_t arg0)""" return _lldb.SBTypeSynthetic_SetOptions(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description, DescriptionLevel description_level) -> bool""" return _lldb.SBTypeSynthetic_GetDescription(self, *args) def __eq__(self, *args): """__eq__(self, SBTypeSynthetic rhs) -> bool""" return _lldb.SBTypeSynthetic___eq__(self, *args) def __ne__(self, *args): """__ne__(self, SBTypeSynthetic rhs) -> bool""" return _lldb.SBTypeSynthetic___ne__(self, *args) __swig_getmethods__["options"] = GetOptions __swig_setmethods__["options"] = SetOptions if _newclass: options = property(GetOptions, SetOptions) __swig_getmethods__["contains_code"] = IsClassCode if _newclass: contains_code = property(IsClassCode, None) __swig_getmethods__["synthetic_data"] = GetData if _newclass: synthetic_data = property(GetData, None) def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBTypeSynthetic___str__(self) def __eq__(self, rhs): if not isinstance(rhs, type(self)): return False return getattr(_lldb,self.__class__.__name__+"___eq__")(self, rhs) def __ne__(self, rhs): if not isinstance(rhs, type(self)): return True return getattr(_lldb,self.__class__.__name__+"___ne__")(self, rhs) SBTypeSynthetic_swigregister = _lldb.SBTypeSynthetic_swigregister SBTypeSynthetic_swigregister(SBTypeSynthetic) def SBTypeSynthetic_CreateWithClassName(*args): """ CreateWithClassName(char data, uint32_t options = 0) -> SBTypeSynthetic SBTypeSynthetic_CreateWithClassName(char data) -> SBTypeSynthetic """ return _lldb.SBTypeSynthetic_CreateWithClassName(*args) def SBTypeSynthetic_CreateWithScriptCode(*args): """ CreateWithScriptCode(char data, uint32_t options = 0) -> SBTypeSynthetic SBTypeSynthetic_CreateWithScriptCode(char data) -> SBTypeSynthetic """ return _lldb.SBTypeSynthetic_CreateWithScriptCode(*args) class SBValue(_object): """ Represents the value of a variable, a register, or an expression. SBValue supports iteration through its child, which in turn is represented as an SBValue. For example, we can get the general purpose registers of a frame as an SBValue, and iterate through all the registers, registerSet = frame.GetRegisters() # Returns an SBValueList. for regs in registerSet: if 'general purpose registers' in regs.getName().lower(): GPRs = regs break print('%s (number of children = %d):' % (GPRs.GetName(), GPRs.GetNumChildren())) for reg in GPRs: print('Name: ', reg.GetName(), ' Value: ', reg.GetValue()) produces the output: General Purpose Registers (number of children = 21): Name: rax Value: 0x0000000100000c5c Name: rbx Value: 0x0000000000000000 Name: rcx Value: 0x00007fff5fbffec0 Name: rdx Value: 0x00007fff5fbffeb8 Name: rdi Value: 0x0000000000000001 Name: rsi Value: 0x00007fff5fbffea8 Name: rbp Value: 0x00007fff5fbffe80 Name: rsp Value: 0x00007fff5fbffe60 Name: r8 Value: 0x0000000008668682 Name: r9 Value: 0x0000000000000000 Name: r10 Value: 0x0000000000001200 Name: r11 Value: 0x0000000000000206 Name: r12 Value: 0x0000000000000000 Name: r13 Value: 0x0000000000000000 Name: r14 Value: 0x0000000000000000 Name: r15 Value: 0x0000000000000000 Name: rip Value: 0x0000000100000dae Name: rflags Value: 0x0000000000000206 Name: cs Value: 0x0000000000000027 Name: fs Value: 0x0000000000000010 Name: gs Value: 0x0000000000000048 See also linked_list_iter() for another perspective on how to iterate through an SBValue instance which interprets the value object as representing the head of a linked list. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBValue, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBValue, name) __repr__ = _swig_repr def __iter__(self): return lldb_iter(self, 'GetNumChildren', 'GetChildAtIndex') def __len__(self): return self.GetNumChildren() def __eol_test__(val): """Default function for end of list test takes an SBValue object. Return True if val is invalid or it corresponds to a null pointer. Otherwise, return False. """ if not val or val.GetValueAsUnsigned() == 0: return True else: return False # ================================================== # Iterator for lldb.SBValue treated as a linked list # ================================================== def linked_list_iter(self, next_item_name, end_of_list_test=__eol_test__): """Generator adaptor to support iteration for SBValue as a linked list. linked_list_iter() is a special purpose iterator to treat the SBValue as the head of a list data structure, where you specify the child member name which points to the next item on the list and you specify the end-of-list test function which takes an SBValue for an item and returns True if EOL is reached and False if not. linked_list_iter() also detects infinite loop and bails out early. The end_of_list_test arg, if omitted, defaults to the __eol_test__ function above. For example, # Get Frame #0. ... # Get variable 'task_head'. task_head = frame0.FindVariable('task_head') ... for t in task_head.linked_list_iter('next'): print t """ if end_of_list_test(self): return item = self visited = set() try: while not end_of_list_test(item) and not item.GetValueAsUnsigned() in visited: visited.add(item.GetValueAsUnsigned()) yield item # Prepare for the next iteration. item = item.GetChildMemberWithName(next_item_name) except: # Exception occurred. Stop the generator. pass return def __init__(self, *args): """ __init__(self) -> SBValue __init__(self, SBValue rhs) -> SBValue """ this = _lldb.new_SBValue(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBValue __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBValue_IsValid(self) def Clear(self): """Clear(self)""" return _lldb.SBValue_Clear(self) def GetError(self): """GetError(self) -> SBError""" return _lldb.SBValue_GetError(self) def GetID(self): """GetID(self) -> user_id_t""" return _lldb.SBValue_GetID(self) def GetName(self): """GetName(self) -> str""" return _lldb.SBValue_GetName(self) def GetTypeName(self): """GetTypeName(self) -> str""" return _lldb.SBValue_GetTypeName(self) def GetDisplayTypeName(self): """GetDisplayTypeName(self) -> str""" return _lldb.SBValue_GetDisplayTypeName(self) def GetByteSize(self): """GetByteSize(self) -> size_t""" return _lldb.SBValue_GetByteSize(self) def IsInScope(self): """IsInScope(self) -> bool""" return _lldb.SBValue_IsInScope(self) def GetFormat(self): """GetFormat(self) -> Format""" return _lldb.SBValue_GetFormat(self) def SetFormat(self, *args): """SetFormat(self, Format format)""" return _lldb.SBValue_SetFormat(self, *args) def GetValue(self): """GetValue(self) -> str""" return _lldb.SBValue_GetValue(self) def GetValueAsSigned(self, *args): """ GetValueAsSigned(self, SBError error, int64_t fail_value = 0) -> int64_t GetValueAsSigned(self, SBError error) -> int64_t GetValueAsSigned(self, int64_t fail_value = 0) -> int64_t GetValueAsSigned(self) -> int64_t """ return _lldb.SBValue_GetValueAsSigned(self, *args) def GetValueAsUnsigned(self, *args): """ GetValueAsUnsigned(self, SBError error, uint64_t fail_value = 0) -> uint64_t GetValueAsUnsigned(self, SBError error) -> uint64_t GetValueAsUnsigned(self, uint64_t fail_value = 0) -> uint64_t GetValueAsUnsigned(self) -> uint64_t """ return _lldb.SBValue_GetValueAsUnsigned(self, *args) def GetValueType(self): """GetValueType(self) -> ValueType""" return _lldb.SBValue_GetValueType(self) def GetValueDidChange(self): """GetValueDidChange(self) -> bool""" return _lldb.SBValue_GetValueDidChange(self) def GetSummary(self, *args): """ GetSummary(self) -> str GetSummary(self, SBStream stream, SBTypeSummaryOptions options) -> str """ return _lldb.SBValue_GetSummary(self, *args) def GetObjectDescription(self): """GetObjectDescription(self) -> str""" return _lldb.SBValue_GetObjectDescription(self) def GetTypeValidatorResult(self): """GetTypeValidatorResult(self) -> str""" return _lldb.SBValue_GetTypeValidatorResult(self) def GetDynamicValue(self, *args): """GetDynamicValue(self, DynamicValueType use_dynamic) -> SBValue""" return _lldb.SBValue_GetDynamicValue(self, *args) def GetStaticValue(self): """GetStaticValue(self) -> SBValue""" return _lldb.SBValue_GetStaticValue(self) def GetNonSyntheticValue(self): """GetNonSyntheticValue(self) -> SBValue""" return _lldb.SBValue_GetNonSyntheticValue(self) def GetPreferDynamicValue(self): """GetPreferDynamicValue(self) -> DynamicValueType""" return _lldb.SBValue_GetPreferDynamicValue(self) def SetPreferDynamicValue(self, *args): """SetPreferDynamicValue(self, DynamicValueType use_dynamic)""" return _lldb.SBValue_SetPreferDynamicValue(self, *args) def GetPreferSyntheticValue(self): """GetPreferSyntheticValue(self) -> bool""" return _lldb.SBValue_GetPreferSyntheticValue(self) def SetPreferSyntheticValue(self, *args): """SetPreferSyntheticValue(self, bool use_synthetic)""" return _lldb.SBValue_SetPreferSyntheticValue(self, *args) def IsDynamic(self): """IsDynamic(self) -> bool""" return _lldb.SBValue_IsDynamic(self) def IsSynthetic(self): """IsSynthetic(self) -> bool""" return _lldb.SBValue_IsSynthetic(self) def GetLocation(self): """GetLocation(self) -> str""" return _lldb.SBValue_GetLocation(self) def SetValueFromCString(self, *args): """ SetValueFromCString(self, str value_str) -> bool SetValueFromCString(self, str value_str, SBError error) -> bool """ return _lldb.SBValue_SetValueFromCString(self, *args) def GetTypeFormat(self): """GetTypeFormat(self) -> SBTypeFormat""" return _lldb.SBValue_GetTypeFormat(self) def GetTypeSummary(self): """GetTypeSummary(self) -> SBTypeSummary""" return _lldb.SBValue_GetTypeSummary(self) def GetTypeFilter(self): """GetTypeFilter(self) -> SBTypeFilter""" return _lldb.SBValue_GetTypeFilter(self) def GetTypeSynthetic(self): """GetTypeSynthetic(self) -> SBTypeSynthetic""" return _lldb.SBValue_GetTypeSynthetic(self) def GetChildAtIndex(self, *args): """ GetChildAtIndex(self, uint32_t idx) -> SBValue GetChildAtIndex(self, uint32_t idx, DynamicValueType use_dynamic, bool can_create_synthetic) -> SBValue Get a child value by index from a value. Structs, unions, classes, arrays and pointers have child values that can be access by index. Structs and unions access child members using a zero based index for each child member. For Classes reserve the first indexes for base classes that have members (empty base classes are omitted), and all members of the current class will then follow the base classes. Pointers differ depending on what they point to. If the pointer points to a simple type, the child at index zero is the only child value available, unless synthetic_allowed is true, in which case the pointer will be used as an array and can create 'synthetic' child values using positive or negative indexes. If the pointer points to an aggregate type (an array, class, union, struct), then the pointee is transparently skipped and any children are going to be the indexes of the child values within the aggregate type. For example if we have a 'Point' type and we have a SBValue that contains a pointer to a 'Point' type, then the child at index zero will be the 'x' member, and the child at index 1 will be the 'y' member (the child at index zero won't be a 'Point' instance). Arrays have a preset number of children that can be accessed by index and will returns invalid child values for indexes that are out of bounds unless the synthetic_allowed is true. In this case the array can create 'synthetic' child values for indexes that aren't in the array bounds using positive or negative indexes. @param[in] idx The index of the child value to get @param[in] use_dynamic An enumeration that specifies whether to get dynamic values, and also if the target can be run to figure out the dynamic type of the child value. @param[in] synthetic_allowed If true, then allow child values to be created by index for pointers and arrays for indexes that normally wouldn't be allowed. @return A new SBValue object that represents the child member value. """ return _lldb.SBValue_GetChildAtIndex(self, *args) def CreateChildAtOffset(self, *args): """CreateChildAtOffset(self, str name, uint32_t offset, SBType type) -> SBValue""" return _lldb.SBValue_CreateChildAtOffset(self, *args) def Cast(self, *args): """Cast(self, SBType type) -> SBValue""" return _lldb.SBValue_Cast(self, *args) def CreateValueFromExpression(self, *args): """ CreateValueFromExpression(self, str name, str expression) -> SBValue CreateValueFromExpression(self, str name, str expression, SBExpressionOptions options) -> SBValue """ return _lldb.SBValue_CreateValueFromExpression(self, *args) def CreateValueFromAddress(self, *args): """CreateValueFromAddress(self, str name, addr_t address, SBType type) -> SBValue""" return _lldb.SBValue_CreateValueFromAddress(self, *args) def CreateValueFromData(self, *args): """CreateValueFromData(self, str name, SBData data, SBType type) -> SBValue""" return _lldb.SBValue_CreateValueFromData(self, *args) def GetType(self): """GetType(self) -> SBType""" return _lldb.SBValue_GetType(self) def GetIndexOfChildWithName(self, *args): """ GetIndexOfChildWithName(self, str name) -> uint32_t Returns the child member index. Matches children of this object only and will match base classes and member names if this is a clang typed object. @param[in] name The name of the child value to get @return An index to the child member value. """ return _lldb.SBValue_GetIndexOfChildWithName(self, *args) def GetChildMemberWithName(self, *args): """ GetChildMemberWithName(self, str name) -> SBValue GetChildMemberWithName(self, str name, DynamicValueType use_dynamic) -> SBValue Returns the child member value. Matches child members of this object and child members of any base classes. @param[in] name The name of the child value to get @param[in] use_dynamic An enumeration that specifies whether to get dynamic values, and also if the target can be run to figure out the dynamic type of the child value. @return A new SBValue object that represents the child member value. """ return _lldb.SBValue_GetChildMemberWithName(self, *args) def GetValueForExpressionPath(self, *args): """ GetValueForExpressionPath(self, str expr_path) -> SBValue Expands nested expressions like .a->b[0].c[1]->d. """ return _lldb.SBValue_GetValueForExpressionPath(self, *args) def GetDeclaration(self): """GetDeclaration(self) -> SBDeclaration""" return _lldb.SBValue_GetDeclaration(self) def MightHaveChildren(self): """MightHaveChildren(self) -> bool""" return _lldb.SBValue_MightHaveChildren(self) def IsRuntimeSupportValue(self): """IsRuntimeSupportValue(self) -> bool""" return _lldb.SBValue_IsRuntimeSupportValue(self) def GetNumChildren(self, *args): """ GetNumChildren(self) -> uint32_t GetNumChildren(self, uint32_t max) -> uint32_t """ return _lldb.SBValue_GetNumChildren(self, *args) def GetOpaqueType(self): """GetOpaqueType(self) -> void""" return _lldb.SBValue_GetOpaqueType(self) def Dereference(self): """Dereference(self) -> SBValue""" return _lldb.SBValue_Dereference(self) def AddressOf(self): """AddressOf(self) -> SBValue""" return _lldb.SBValue_AddressOf(self) def TypeIsPointerType(self): """TypeIsPointerType(self) -> bool""" return _lldb.SBValue_TypeIsPointerType(self) def GetTarget(self): """GetTarget(self) -> SBTarget""" return _lldb.SBValue_GetTarget(self) def GetProcess(self): """GetProcess(self) -> SBProcess""" return _lldb.SBValue_GetProcess(self) def GetThread(self): """GetThread(self) -> SBThread""" return _lldb.SBValue_GetThread(self) def GetFrame(self): """GetFrame(self) -> SBFrame""" return _lldb.SBValue_GetFrame(self) def Watch(self, *args): """ Watch(self, bool resolve_location, bool read, bool write, SBError error) -> SBWatchpoint Find and watch a variable. It returns an SBWatchpoint, which may be invalid. """ return _lldb.SBValue_Watch(self, *args) def WatchPointee(self, *args): """ WatchPointee(self, bool resolve_location, bool read, bool write, SBError error) -> SBWatchpoint Find and watch the location pointed to by a variable. It returns an SBWatchpoint, which may be invalid. """ return _lldb.SBValue_WatchPointee(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description) -> bool""" return _lldb.SBValue_GetDescription(self, *args) def GetPointeeData(self, item_idx = 0, item_count = 1): """ GetPointeeData(self, uint32_t item_idx = 0, uint32_t item_count = 1) -> SBData GetPointeeData(self, uint32_t item_idx = 0) -> SBData GetPointeeData(self) -> SBData Get an SBData wrapping what this SBValue points to. This method will dereference the current SBValue, if its data type is a T* or T[], and extract item_count elements of type T from it, copying their contents in an SBData. @param[in] item_idx The index of the first item to retrieve. For an array this is equivalent to array[item_idx], for a pointer to *(pointer + item_idx). In either case, the measurement unit for item_idx is the sizeof(T) rather than the byte @param[in] item_count How many items should be copied into the output. By default only one item is copied, but more can be asked for. @return An SBData with the contents of the copied items, on success. An empty SBData otherwise. """ return _lldb.SBValue_GetPointeeData(self, item_idx, item_count) def GetData(self): """ GetData(self) -> SBData Get an SBData wrapping the contents of this SBValue. This method will read the contents of this object in memory and copy them into an SBData for future use. @return An SBData with the contents of this SBValue, on success. An empty SBData otherwise. """ return _lldb.SBValue_GetData(self) def SetData(self, *args): """SetData(self, SBData data, SBError error) -> bool""" return _lldb.SBValue_SetData(self, *args) def GetLoadAddress(self): """GetLoadAddress(self) -> addr_t""" return _lldb.SBValue_GetLoadAddress(self) def GetAddress(self): """GetAddress(self) -> SBAddress""" return _lldb.SBValue_GetAddress(self) def Persist(self): """Persist(self) -> SBValue""" return _lldb.SBValue_Persist(self) def GetExpressionPath(self, *args): """ GetExpressionPath(self, SBStream description) -> bool GetExpressionPath(self, SBStream description, bool qualify_cxx_base_classes) -> bool Returns an expression path for this value. """ return _lldb.SBValue_GetExpressionPath(self, *args) def __get_dynamic__ (self): '''Helper function for the "SBValue.dynamic" property.''' return self.GetDynamicValue (eDynamicCanRunTarget) __swig_getmethods__["name"] = GetName if _newclass: name = property(GetName, None, doc='''A read only property that returns the name of this value as a string.''') __swig_getmethods__["type"] = GetType if _newclass: type = property(GetType, None, doc='''A read only property that returns a lldb.SBType object that represents the type for this value.''') __swig_getmethods__["size"] = GetByteSize if _newclass: size = property(GetByteSize, None, doc='''A read only property that returns the size in bytes of this value.''') __swig_getmethods__["is_in_scope"] = IsInScope if _newclass: is_in_scope = property(IsInScope, None, doc='''A read only property that returns a boolean value that indicates whether this value is currently lexically in scope.''') __swig_getmethods__["format"] = GetFormat __swig_setmethods__["format"] = SetFormat if _newclass: format = property(GetName, SetFormat, doc='''A read/write property that gets/sets the format used for lldb.SBValue().GetValue() for this value. See enumerations that start with "lldb.eFormat".''') __swig_getmethods__["value"] = GetValue __swig_setmethods__["value"] = SetValueFromCString if _newclass: value = property(GetValue, SetValueFromCString, doc='''A read/write property that gets/sets value from a string.''') __swig_getmethods__["value_type"] = GetValueType if _newclass: value_type = property(GetValueType, None, doc='''A read only property that returns an lldb enumeration value (see enumerations that start with "lldb.eValueType") that represents the type of this value (local, argument, global, register, etc.).''') __swig_getmethods__["changed"] = GetValueDidChange if _newclass: changed = property(GetValueDidChange, None, doc='''A read only property that returns a boolean value that indicates if this value has changed since it was last updated.''') __swig_getmethods__["data"] = GetData if _newclass: data = property(GetData, None, doc='''A read only property that returns an lldb object (lldb.SBData) that represents the bytes that make up the value for this object.''') __swig_getmethods__["load_addr"] = GetLoadAddress if _newclass: load_addr = property(GetLoadAddress, None, doc='''A read only property that returns the load address of this value as an integer.''') __swig_getmethods__["addr"] = GetAddress if _newclass: addr = property(GetAddress, None, doc='''A read only property that returns an lldb.SBAddress that represents the address of this value if it is in memory.''') __swig_getmethods__["deref"] = Dereference if _newclass: deref = property(Dereference, None, doc='''A read only property that returns an lldb.SBValue that is created by dereferencing this value.''') __swig_getmethods__["address_of"] = AddressOf if _newclass: address_of = property(AddressOf, None, doc='''A read only property that returns an lldb.SBValue that represents the address-of this value.''') __swig_getmethods__["error"] = GetError if _newclass: error = property(GetError, None, doc='''A read only property that returns the lldb.SBError that represents the error from the last time the variable value was calculated.''') __swig_getmethods__["summary"] = GetSummary if _newclass: summary = property(GetSummary, None, doc='''A read only property that returns the summary for this value as a string''') __swig_getmethods__["description"] = GetObjectDescription if _newclass: description = property(GetObjectDescription, None, doc='''A read only property that returns the language-specific description of this value as a string''') __swig_getmethods__["dynamic"] = __get_dynamic__ if _newclass: dynamic = property(__get_dynamic__, None, doc='''A read only property that returns an lldb.SBValue that is created by finding the dynamic type of this value.''') __swig_getmethods__["location"] = GetLocation if _newclass: location = property(GetLocation, None, doc='''A read only property that returns the location of this value as a string.''') __swig_getmethods__["target"] = GetTarget if _newclass: target = property(GetTarget, None, doc='''A read only property that returns the lldb.SBTarget that this value is associated with.''') __swig_getmethods__["process"] = GetProcess if _newclass: process = property(GetProcess, None, doc='''A read only property that returns the lldb.SBProcess that this value is associated with, the returned value might be invalid and should be tested.''') __swig_getmethods__["thread"] = GetThread if _newclass: thread = property(GetThread, None, doc='''A read only property that returns the lldb.SBThread that this value is associated with, the returned value might be invalid and should be tested.''') __swig_getmethods__["frame"] = GetFrame if _newclass: frame = property(GetFrame, None, doc='''A read only property that returns the lldb.SBFrame that this value is associated with, the returned value might be invalid and should be tested.''') __swig_getmethods__["num_children"] = GetNumChildren if _newclass: num_children = property(GetNumChildren, None, doc='''A read only property that returns the number of child lldb.SBValues that this value has.''') __swig_getmethods__["unsigned"] = GetValueAsUnsigned if _newclass: unsigned = property(GetValueAsUnsigned, None, doc='''A read only property that returns the value of this SBValue as an usigned integer.''') __swig_getmethods__["signed"] = GetValueAsSigned if _newclass: signed = property(GetValueAsSigned, None, doc='''A read only property that returns the value of this SBValue as a signed integer.''') def get_expr_path(self): s = SBStream() self.GetExpressionPath (s) return s.GetData() __swig_getmethods__["path"] = get_expr_path if _newclass: path = property(get_expr_path, None, doc='''A read only property that returns the expression path that one can use to reach this value in an expression.''') def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBValue___str__(self) SBValue_swigregister = _lldb.SBValue_swigregister SBValue_swigregister(SBValue) class SBValueList(_object): """ Represents a collection of SBValues. Both SBFrame's GetVariables() and GetRegisters() return a SBValueList. SBValueList supports SBValue iteration. For example (from test/lldbutil.py), def get_registers(frame, kind): '''Returns the registers given the frame and the kind of registers desired. Returns None if there's no such kind. ''' registerSet = frame.GetRegisters() # Return type of SBValueList. for value in registerSet: if kind.lower() in value.GetName().lower(): return value return None def get_GPRs(frame): '''Returns the general purpose registers of the frame as an SBValue. The returned SBValue object is iterable. An example: ... from lldbutil import get_GPRs regs = get_GPRs(frame) for reg in regs: print('%s => %s' % (reg.GetName(), reg.GetValue())) ... ''' return get_registers(frame, 'general purpose') def get_FPRs(frame): '''Returns the floating point registers of the frame as an SBValue. The returned SBValue object is iterable. An example: ... from lldbutil import get_FPRs regs = get_FPRs(frame) for reg in regs: print('%s => %s' % (reg.GetName(), reg.GetValue())) ... ''' return get_registers(frame, 'floating point') def get_ESRs(frame): '''Returns the exception state registers of the frame as an SBValue. The returned SBValue object is iterable. An example: ... from lldbutil import get_ESRs regs = get_ESRs(frame) for reg in regs: print('%s => %s' % (reg.GetName(), reg.GetValue())) ... ''' return get_registers(frame, 'exception state') """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBValueList, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBValueList, name) __repr__ = _swig_repr def __iter__(self): return lldb_iter(self, 'GetSize', 'GetValueAtIndex') def __len__(self): return self.GetSize() def __init__(self, *args): """ __init__(self) -> SBValueList __init__(self, SBValueList rhs) -> SBValueList """ this = _lldb.new_SBValueList(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBValueList __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBValueList_IsValid(self) def Clear(self): """Clear(self)""" return _lldb.SBValueList_Clear(self) def Append(self, *args): """ Append(self, SBValue val_obj) Append(self, SBValueList value_list) """ return _lldb.SBValueList_Append(self, *args) def GetSize(self): """GetSize(self) -> uint32_t""" return _lldb.SBValueList_GetSize(self) def GetValueAtIndex(self, *args): """GetValueAtIndex(self, uint32_t idx) -> SBValue""" return _lldb.SBValueList_GetValueAtIndex(self, *args) def FindValueObjectByUID(self, *args): """FindValueObjectByUID(self, user_id_t uid) -> SBValue""" return _lldb.SBValueList_FindValueObjectByUID(self, *args) def GetFirstValueByName(self, *args): """GetFirstValueByName(self, str name) -> SBValue""" return _lldb.SBValueList_GetFirstValueByName(self, *args) def __len__(self): return int(self.GetSize()) def __getitem__(self, key): count = len(self) #------------------------------------------------------------ # Access with "int" to get Nth item in the list #------------------------------------------------------------ if type(key) is int: if key < count: return self.GetValueAtIndex(key) #------------------------------------------------------------ # Access with "str" to get values by name #------------------------------------------------------------ elif type(key) is str: matches = [] for idx in range(count): value = self.GetValueAtIndex(idx) if value.name == key: matches.append(value) return matches #------------------------------------------------------------ # Match with regex #------------------------------------------------------------ elif isinstance(key, type(re.compile('.'))): matches = [] for idx in range(count): value = self.GetValueAtIndex(idx) re_match = key.search(value.name) if re_match: matches.append(value) return matches def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBValueList___str__(self) SBValueList_swigregister = _lldb.SBValueList_swigregister SBValueList_swigregister(SBValueList) class SBVariablesOptions(_object): """Proxy of C++ lldb::SBVariablesOptions class""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBVariablesOptions, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBVariablesOptions, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBVariablesOptions __init__(self, SBVariablesOptions options) -> SBVariablesOptions """ this = _lldb.new_SBVariablesOptions(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBVariablesOptions __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBVariablesOptions_IsValid(self) def GetIncludeArguments(self): """GetIncludeArguments(self) -> bool""" return _lldb.SBVariablesOptions_GetIncludeArguments(self) def SetIncludeArguments(self, *args): """SetIncludeArguments(self, bool arg0)""" return _lldb.SBVariablesOptions_SetIncludeArguments(self, *args) def GetIncludeLocals(self): """GetIncludeLocals(self) -> bool""" return _lldb.SBVariablesOptions_GetIncludeLocals(self) def SetIncludeLocals(self, *args): """SetIncludeLocals(self, bool arg0)""" return _lldb.SBVariablesOptions_SetIncludeLocals(self, *args) def GetIncludeStatics(self): """GetIncludeStatics(self) -> bool""" return _lldb.SBVariablesOptions_GetIncludeStatics(self) def SetIncludeStatics(self, *args): """SetIncludeStatics(self, bool arg0)""" return _lldb.SBVariablesOptions_SetIncludeStatics(self, *args) def GetInScopeOnly(self): """GetInScopeOnly(self) -> bool""" return _lldb.SBVariablesOptions_GetInScopeOnly(self) def SetInScopeOnly(self, *args): """SetInScopeOnly(self, bool arg0)""" return _lldb.SBVariablesOptions_SetInScopeOnly(self, *args) def GetIncludeRuntimeSupportValues(self): """GetIncludeRuntimeSupportValues(self) -> bool""" return _lldb.SBVariablesOptions_GetIncludeRuntimeSupportValues(self) def SetIncludeRuntimeSupportValues(self, *args): """SetIncludeRuntimeSupportValues(self, bool arg0)""" return _lldb.SBVariablesOptions_SetIncludeRuntimeSupportValues(self, *args) def GetUseDynamic(self): """GetUseDynamic(self) -> DynamicValueType""" return _lldb.SBVariablesOptions_GetUseDynamic(self) def SetUseDynamic(self, *args): """SetUseDynamic(self, DynamicValueType arg0)""" return _lldb.SBVariablesOptions_SetUseDynamic(self, *args) SBVariablesOptions_swigregister = _lldb.SBVariablesOptions_swigregister SBVariablesOptions_swigregister(SBVariablesOptions) class SBWatchpoint(_object): """ Represents an instance of watchpoint for a specific target program. A watchpoint is determined by the address and the byte size that resulted in this particular instantiation. Each watchpoint has its settable options. See also SBTarget.watchpoint_iter() for example usage of iterating through the watchpoints of the target. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBWatchpoint, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBWatchpoint, name) __repr__ = _swig_repr def __eq__(self, other): return isinstance(other, SBWatchpoint) and self.GetID() == other.GetID() def __ne__(self, other): return not self.__eq__(other) def __init__(self, *args): """ __init__(self) -> SBWatchpoint __init__(self, SBWatchpoint rhs) -> SBWatchpoint """ this = _lldb.new_SBWatchpoint(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBWatchpoint __del__ = lambda self : None; def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBWatchpoint_IsValid(self) def GetError(self): """GetError(self) -> SBError""" return _lldb.SBWatchpoint_GetError(self) def GetID(self): """GetID(self) -> watch_id_t""" return _lldb.SBWatchpoint_GetID(self) def GetHardwareIndex(self): """ GetHardwareIndex(self) -> int32_t With -1 representing an invalid hardware index. """ return _lldb.SBWatchpoint_GetHardwareIndex(self) def GetWatchAddress(self): """GetWatchAddress(self) -> addr_t""" return _lldb.SBWatchpoint_GetWatchAddress(self) def GetWatchSize(self): """GetWatchSize(self) -> size_t""" return _lldb.SBWatchpoint_GetWatchSize(self) def SetEnabled(self, *args): """SetEnabled(self, bool enabled)""" return _lldb.SBWatchpoint_SetEnabled(self, *args) def IsEnabled(self): """IsEnabled(self) -> bool""" return _lldb.SBWatchpoint_IsEnabled(self) def GetHitCount(self): """GetHitCount(self) -> uint32_t""" return _lldb.SBWatchpoint_GetHitCount(self) def GetIgnoreCount(self): """GetIgnoreCount(self) -> uint32_t""" return _lldb.SBWatchpoint_GetIgnoreCount(self) def SetIgnoreCount(self, *args): """SetIgnoreCount(self, uint32_t n)""" return _lldb.SBWatchpoint_SetIgnoreCount(self, *args) def GetCondition(self): """ GetCondition(self) -> str Get the condition expression for the watchpoint. """ return _lldb.SBWatchpoint_GetCondition(self) def SetCondition(self, *args): """ SetCondition(self, str condition) The watchpoint stops only if the condition expression evaluates to true. """ return _lldb.SBWatchpoint_SetCondition(self, *args) def GetDescription(self, *args): """GetDescription(self, SBStream description, DescriptionLevel level) -> bool""" return _lldb.SBWatchpoint_GetDescription(self, *args) def EventIsWatchpointEvent(*args): """EventIsWatchpointEvent(SBEvent event) -> bool""" return _lldb.SBWatchpoint_EventIsWatchpointEvent(*args) if _newclass:EventIsWatchpointEvent = staticmethod(EventIsWatchpointEvent) __swig_getmethods__["EventIsWatchpointEvent"] = lambda x: EventIsWatchpointEvent def GetWatchpointEventTypeFromEvent(*args): """GetWatchpointEventTypeFromEvent(SBEvent event) -> WatchpointEventType""" return _lldb.SBWatchpoint_GetWatchpointEventTypeFromEvent(*args) if _newclass:GetWatchpointEventTypeFromEvent = staticmethod(GetWatchpointEventTypeFromEvent) __swig_getmethods__["GetWatchpointEventTypeFromEvent"] = lambda x: GetWatchpointEventTypeFromEvent def GetWatchpointFromEvent(*args): """GetWatchpointFromEvent(SBEvent event) -> SBWatchpoint""" return _lldb.SBWatchpoint_GetWatchpointFromEvent(*args) if _newclass:GetWatchpointFromEvent = staticmethod(GetWatchpointFromEvent) __swig_getmethods__["GetWatchpointFromEvent"] = lambda x: GetWatchpointFromEvent def __str__(self): """__str__(self) -> PyObject""" return _lldb.SBWatchpoint___str__(self) SBWatchpoint_swigregister = _lldb.SBWatchpoint_swigregister SBWatchpoint_swigregister(SBWatchpoint) def SBWatchpoint_EventIsWatchpointEvent(*args): """SBWatchpoint_EventIsWatchpointEvent(SBEvent event) -> bool""" return _lldb.SBWatchpoint_EventIsWatchpointEvent(*args) def SBWatchpoint_GetWatchpointEventTypeFromEvent(*args): """SBWatchpoint_GetWatchpointEventTypeFromEvent(SBEvent event) -> WatchpointEventType""" return _lldb.SBWatchpoint_GetWatchpointEventTypeFromEvent(*args) def SBWatchpoint_GetWatchpointFromEvent(*args): """SBWatchpoint_GetWatchpointFromEvent(SBEvent event) -> SBWatchpoint""" return _lldb.SBWatchpoint_GetWatchpointFromEvent(*args) class SBUnixSignals(_object): """Allows you to manipulate LLDB's signal disposition""" __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBUnixSignals, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBUnixSignals, name) __repr__ = _swig_repr def __init__(self, *args): """ __init__(self) -> SBUnixSignals __init__(self, SBUnixSignals rhs) -> SBUnixSignals """ this = _lldb.new_SBUnixSignals(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _lldb.delete_SBUnixSignals __del__ = lambda self : None; def Clear(self): """Clear(self)""" return _lldb.SBUnixSignals_Clear(self) def __nonzero__(self): return self.IsValid() def IsValid(self): """IsValid(self) -> bool""" return _lldb.SBUnixSignals_IsValid(self) def GetSignalAsCString(self, *args): """GetSignalAsCString(self, int32_t signo) -> str""" return _lldb.SBUnixSignals_GetSignalAsCString(self, *args) def GetSignalNumberFromName(self, *args): """GetSignalNumberFromName(self, str name) -> int32_t""" return _lldb.SBUnixSignals_GetSignalNumberFromName(self, *args) def GetShouldSuppress(self, *args): """GetShouldSuppress(self, int32_t signo) -> bool""" return _lldb.SBUnixSignals_GetShouldSuppress(self, *args) def SetShouldSuppress(self, *args): """SetShouldSuppress(self, int32_t signo, bool value) -> bool""" return _lldb.SBUnixSignals_SetShouldSuppress(self, *args) def GetShouldStop(self, *args): """GetShouldStop(self, int32_t signo) -> bool""" return _lldb.SBUnixSignals_GetShouldStop(self, *args) def SetShouldStop(self, *args): """SetShouldStop(self, int32_t signo, bool value) -> bool""" return _lldb.SBUnixSignals_SetShouldStop(self, *args) def GetShouldNotify(self, *args): """GetShouldNotify(self, int32_t signo) -> bool""" return _lldb.SBUnixSignals_GetShouldNotify(self, *args) def SetShouldNotify(self, *args): """SetShouldNotify(self, int32_t signo, bool value) -> bool""" return _lldb.SBUnixSignals_SetShouldNotify(self, *args) def GetNumSignals(self): """GetNumSignals(self) -> int32_t""" return _lldb.SBUnixSignals_GetNumSignals(self) def GetSignalAtIndex(self, *args): """GetSignalAtIndex(self, int32_t index) -> int32_t""" return _lldb.SBUnixSignals_GetSignalAtIndex(self, *args) def get_unix_signals_list(self): signals = [] for idx in range(0, self.GetNumSignals()): signals.append(self.GetSignalAtIndex(sig)) return signals __swig_getmethods__["signals"] = get_unix_signals_list if _newclass: threads = property(get_unix_signals_list, None, doc='''A read only property that returns a list() of valid signal numbers for this platform.''') SBUnixSignals_swigregister = _lldb.SBUnixSignals_swigregister SBUnixSignals_swigregister(SBUnixSignals) def command(*args, **kwargs): import lldb """A decorator function that registers an LLDB command line command that is bound to the function it is attached to.""" class obj(object): """The object that tracks adding the command to LLDB one time and handles calling the function on subsequent calls.""" def __init__(self, function, command_name, doc = None): if doc: function.__doc__ = doc command = "command script add -f %s.%s %s" % (function.__module__, function.__name__, command_name) lldb.debugger.HandleCommand(command) self.function = function def __call__(self, *args, **kwargs): self.function(*args, **kwargs) def callable(function): """Creates a callable object that gets used.""" return obj(function, *args, **kwargs) return callable class declaration(object): '''A class that represents a source declaration location with file, line and column.''' def __init__(self, file, line, col): self.file = file self.line = line self.col = col class value_iter(object): def __iter__(self): return self def next(self): if self.index >= self.length: raise StopIteration() child_sbvalue = self.sbvalue.GetChildAtIndex(self.index) self.index += 1 return value(child_sbvalue) def __init__(self,value): self.index = 0 self.sbvalue = value if type(self.sbvalue) is value: self.sbvalue = self.sbvalue.sbvalue self.length = self.sbvalue.GetNumChildren() class value(object): '''A class designed to wrap lldb.SBValue() objects so the resulting object can be used as a variable would be in code. So if you have a Point structure variable in your code in the current frame named "pt", you can initialize an instance of this class with it: pt = lldb.value(lldb.frame.FindVariable("pt")) print pt print pt.x print pt.y pt = lldb.value(lldb.frame.FindVariable("rectangle_array")) print rectangle_array[12] print rectangle_array[5].origin.x''' def __init__(self, sbvalue): self.sbvalue = sbvalue def __nonzero__(self): return self.sbvalue.__nonzero__() def __str__(self): return self.sbvalue.__str__() def __getitem__(self, key): # Allow array access if this value has children... if type(key) is value: key = int(key) if type(key) is int: child_sbvalue = (self.sbvalue.GetValueForExpressionPath("[%i]" % key)) if child_sbvalue and child_sbvalue.IsValid(): return value(child_sbvalue) raise IndexError("Index '%d' is out of range" % key) raise TypeError("No array item of type %s" % str(type(key))) def __iter__(self): return value_iter(self.sbvalue) def __getattr__(self, name): child_sbvalue = self.sbvalue.GetChildMemberWithName (name) if child_sbvalue and child_sbvalue.IsValid(): return value(child_sbvalue) raise AttributeError("Attribute '%s' is not defined" % name) def __add__(self, other): return int(self) + int(other) def __sub__(self, other): return int(self) - int(other) def __mul__(self, other): return int(self) * int(other) def __floordiv__(self, other): return int(self) // int(other) def __mod__(self, other): return int(self) % int(other) def __divmod__(self, other): return int(self) % int(other) def __pow__(self, other): return int(self) ** int(other) def __lshift__(self, other): return int(self) << int(other) def __rshift__(self, other): return int(self) >> int(other) def __and__(self, other): return int(self) & int(other) def __xor__(self, other): return int(self) ^ int(other) def __or__(self, other): return int(self) | int(other) def __div__(self, other): return int(self) / int(other) def __truediv__(self, other): return int(self) / int(other) def __iadd__(self, other): result = self.__add__(other) self.sbvalue.SetValueFromCString (str(result)) return result def __isub__(self, other): result = self.__sub__(other) self.sbvalue.SetValueFromCString (str(result)) return result def __imul__(self, other): result = self.__mul__(other) self.sbvalue.SetValueFromCString (str(result)) return result def __idiv__(self, other): result = self.__div__(other) self.sbvalue.SetValueFromCString (str(result)) return result def __itruediv__(self, other): result = self.__truediv__(other) self.sbvalue.SetValueFromCString (str(result)) return result def __ifloordiv__(self, other): result = self.__floordiv__(self, other) self.sbvalue.SetValueFromCString (str(result)) return result def __imod__(self, other): result = self.__and__(self, other) self.sbvalue.SetValueFromCString (str(result)) return result def __ipow__(self, other): result = self.__pow__(self, other) self.sbvalue.SetValueFromCString (str(result)) return result def __ipow__(self, other, modulo): result = self.__pow__(self, other, modulo) self.sbvalue.SetValueFromCString (str(result)) return result def __ilshift__(self, other): result = self.__lshift__(other) self.sbvalue.SetValueFromCString (str(result)) return result def __irshift__(self, other): result = self.__rshift__(other) self.sbvalue.SetValueFromCString (str(result)) return result def __iand__(self, other): result = self.__and__(self, other) self.sbvalue.SetValueFromCString (str(result)) return result def __ixor__(self, other): result = self.__xor__(self, other) self.sbvalue.SetValueFromCString (str(result)) return result def __ior__(self, other): result = self.__ior__(self, other) self.sbvalue.SetValueFromCString (str(result)) return result def __neg__(self): return -int(self) def __pos__(self): return +int(self) def __abs__(self): return abs(int(self)) def __invert__(self): return ~int(self) def __complex__(self): return complex (int(self)) def __int__(self): return self.sbvalue.GetValueAsSigned() def __long__(self): return self.sbvalue.GetValueAsSigned() def __float__(self): return float (self.sbvalue.GetValueAsSigned()) def __oct__(self): return '0%o' % self.sbvalue.GetValueAsUnsigned() def __hex__(self): return '0x%x' % self.sbvalue.GetValueAsUnsigned() def __len__(self): return self.sbvalue.GetNumChildren() def __eq__(self, other): if type(other) is int: return int(self) == other elif type(other) is str: return str(self) == other elif type(other) is value: self_err = SBError() other_err = SBError() self_val = self.sbvalue.GetValueAsUnsigned(self_err) if self_err.fail: raise ValueError("unable to extract value of self") other_val = other.sbvalue.GetValueAsUnsigned(other_err) if other_err.fail: raise ValueError("unable to extract value of other") return self_val == other_val raise TypeError("Unknown type %s, No equality operation defined." % str(type(other))) def __neq__(self, other): return not self.__eq__(other) class SBSyntheticValueProvider(object): def __init__(self,valobj): pass def num_children(self): return 0 def get_child_index(self,name): return None def get_child_at_index(self,idx): return None def update(self): pass def has_children(self): return False debugger_unique_id = 0 SBDebugger.Initialize() debugger = None target = SBTarget() process = SBProcess() thread = SBThread() frame = SBFrame()