//===- unittest/Tooling/SourceCodeTest.cpp --------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "clang/Tooling/Transformer/SourceCode.h" #include "TestVisitor.h" #include "clang/Basic/Diagnostic.h" #include "llvm/Testing/Support/Annotations.h" #include "llvm/Testing/Support/SupportHelpers.h" #include #include using namespace clang; using llvm::ValueIs; using tooling::getExtendedText; using tooling::getRangeForEdit; using tooling::getText; namespace { struct IntLitVisitor : TestVisitor { bool VisitIntegerLiteral(IntegerLiteral *Expr) { OnIntLit(Expr, Context); return true; } std::function OnIntLit; }; struct CallsVisitor : TestVisitor { bool VisitCallExpr(CallExpr *Expr) { OnCall(Expr, Context); return true; } std::function OnCall; }; // Equality matcher for `clang::CharSourceRange`, which lacks `operator==`. MATCHER_P(EqualsRange, R, "") { return arg.isTokenRange() == R.isTokenRange() && arg.getBegin() == R.getBegin() && arg.getEnd() == R.getEnd(); } static ::testing::Matcher AsRange(const SourceManager &SM, llvm::Annotations::Range R) { return EqualsRange(CharSourceRange::getCharRange( SM.getLocForStartOfFile(SM.getMainFileID()).getLocWithOffset(R.Begin), SM.getLocForStartOfFile(SM.getMainFileID()).getLocWithOffset(R.End))); } TEST(SourceCodeTest, getText) { CallsVisitor Visitor; Visitor.OnCall = [](CallExpr *CE, ASTContext *Context) { EXPECT_EQ("foo(x, y)", getText(*CE, *Context)); }; Visitor.runOver("void foo(int x, int y) { foo(x, y); }"); Visitor.OnCall = [](CallExpr *CE, ASTContext *Context) { EXPECT_EQ("APPLY(foo, x, y)", getText(*CE, *Context)); }; Visitor.runOver("#define APPLY(f, x, y) f(x, y)\n" "void foo(int x, int y) { APPLY(foo, x, y); }"); } TEST(SourceCodeTest, getTextWithMacro) { CallsVisitor Visitor; Visitor.OnCall = [](CallExpr *CE, ASTContext *Context) { EXPECT_EQ("F OO", getText(*CE, *Context)); Expr *P0 = CE->getArg(0); Expr *P1 = CE->getArg(1); EXPECT_EQ("", getText(*P0, *Context)); EXPECT_EQ("", getText(*P1, *Context)); }; Visitor.runOver("#define F foo(\n" "#define OO x, y)\n" "void foo(int x, int y) { F OO ; }"); Visitor.OnCall = [](CallExpr *CE, ASTContext *Context) { EXPECT_EQ("", getText(*CE, *Context)); Expr *P0 = CE->getArg(0); Expr *P1 = CE->getArg(1); EXPECT_EQ("x", getText(*P0, *Context)); EXPECT_EQ("y", getText(*P1, *Context)); }; Visitor.runOver("#define FOO(x, y) (void)x; (void)y; foo(x, y);\n" "void foo(int x, int y) { FOO(x,y) }"); } TEST(SourceCodeTest, getExtendedText) { CallsVisitor Visitor; Visitor.OnCall = [](CallExpr *CE, ASTContext *Context) { EXPECT_EQ("foo(x, y);", getExtendedText(*CE, tok::TokenKind::semi, *Context)); Expr *P0 = CE->getArg(0); Expr *P1 = CE->getArg(1); EXPECT_EQ("x", getExtendedText(*P0, tok::TokenKind::semi, *Context)); EXPECT_EQ("x,", getExtendedText(*P0, tok::TokenKind::comma, *Context)); EXPECT_EQ("y", getExtendedText(*P1, tok::TokenKind::semi, *Context)); }; Visitor.runOver("void foo(int x, int y) { foo(x, y); }"); Visitor.runOver("void foo(int x, int y) { if (true) foo(x, y); }"); Visitor.runOver("int foo(int x, int y) { if (true) return 3 + foo(x, y); }"); Visitor.runOver("void foo(int x, int y) { for (foo(x, y);;) ++x; }"); Visitor.runOver( "bool foo(int x, int y) { for (;foo(x, y);) x = 1; return true; }"); Visitor.OnCall = [](CallExpr *CE, ASTContext *Context) { EXPECT_EQ("foo()", getExtendedText(*CE, tok::TokenKind::semi, *Context)); }; Visitor.runOver("bool foo() { if (foo()) return true; return false; }"); Visitor.runOver("void foo() { int x; for (;; foo()) ++x; }"); Visitor.runOver("int foo() { return foo() + 3; }"); } TEST(SourceCodeTest, EditRangeWithMacroExpansionsShouldSucceed) { // The call expression, whose range we are extracting, includes two macro // expansions. llvm::Annotations Code(R"cpp( #define M(a) a * 13 int foo(int x, int y); int a = $r[[foo(M(1), M(2))]]; )cpp"); CallsVisitor Visitor; Visitor.OnCall = [&Code](CallExpr *CE, ASTContext *Context) { auto Range = CharSourceRange::getTokenRange(CE->getSourceRange()); EXPECT_THAT(getRangeForEdit(Range, *Context), ValueIs(AsRange(Context->getSourceManager(), Code.range("r")))); }; Visitor.runOver(Code.code()); } TEST(SourceCodeTest, EditWholeMacroExpansionShouldSucceed) { llvm::Annotations Code(R"cpp( #define FOO 10 int a = $r[[FOO]]; )cpp"); IntLitVisitor Visitor; Visitor.OnIntLit = [&Code](IntegerLiteral *Expr, ASTContext *Context) { auto Range = CharSourceRange::getTokenRange(Expr->getSourceRange()); EXPECT_THAT(getRangeForEdit(Range, *Context), ValueIs(AsRange(Context->getSourceManager(), Code.range("r")))); }; Visitor.runOver(Code.code()); } TEST(SourceCodeTest, EditPartialMacroExpansionShouldFail) { std::string Code = R"cpp( #define BAR 10+ int c = BAR 3.0; )cpp"; IntLitVisitor Visitor; Visitor.OnIntLit = [](IntegerLiteral *Expr, ASTContext *Context) { auto Range = CharSourceRange::getTokenRange(Expr->getSourceRange()); EXPECT_FALSE(getRangeForEdit(Range, *Context).hasValue()); }; Visitor.runOver(Code); } TEST(SourceCodeTest, EditWholeMacroArgShouldSucceed) { llvm::Annotations Code(R"cpp( #define FOO(a) a + 7.0; int a = FOO($r[[10]]); )cpp"); IntLitVisitor Visitor; Visitor.OnIntLit = [&Code](IntegerLiteral *Expr, ASTContext *Context) { auto Range = CharSourceRange::getTokenRange(Expr->getSourceRange()); EXPECT_THAT(getRangeForEdit(Range, *Context), ValueIs(AsRange(Context->getSourceManager(), Code.range("r")))); }; Visitor.runOver(Code.code()); } TEST(SourceCodeTest, EditPartialMacroArgShouldSucceed) { llvm::Annotations Code(R"cpp( #define FOO(a) a + 7.0; int a = FOO($r[[10]] + 10.0); )cpp"); IntLitVisitor Visitor; Visitor.OnIntLit = [&Code](IntegerLiteral *Expr, ASTContext *Context) { auto Range = CharSourceRange::getTokenRange(Expr->getSourceRange()); EXPECT_THAT(getRangeForEdit(Range, *Context), ValueIs(AsRange(Context->getSourceManager(), Code.range("r")))); }; Visitor.runOver(Code.code()); } } // end anonymous namespace