# RUN: rm -rf %t
# RUN: mkdir -p %t/a/b
# RUN: cd %t
# RUN: cp %p/Inputs/trivial.obj.elf-x86-64 a/b/1.o
# The archive is deliberately in a different directory to the cwd, to show that
# the member paths printed are exactly what's in the archive and not relative
# to the cwd.
# RUN: llvm-ar rcT a/relative.a a/b/1.o

# Show that relative paths in the file header printing look sensible.
# RUN: llvm-readobj --file-headers a/relative.a | FileCheck %s --check-prefix=REL
# REL: File: b/1.o

# Show that relative paths in an error message for both archive and member look
# sensible.
# RUN: rm a/b/1.o
# RUN: not llvm-readobj --file-headers a/relative.a 2>&1 | FileCheck %s --check-prefix=ERR1
# RUN: not llvm-readelf --file-headers a/relative.a 2>&1 | FileCheck %s --check-prefix=ERR1
# ERR1: error: 'a/relative.a': 'b/1.o': {{[Nn]}}o such file or directory

# RUN: mkdir -p %t/c
# RUN: cp %p/Inputs/trivial.obj.elf-x86-64 a/b/1.o
# RUN: llvm-ar rcT c/absolute.a %t/a/b/1.o

# Show that absolute paths in the file header printing are correct.
# RUN: llvm-readobj --file-headers c/absolute.a | FileCheck %s --check-prefix=ABS -DDIR=%t
# ABS: File: [[DIR]]/a/b/1.o

# Show that absolute paths in an error message for both archive and member are correct.
# RUN: rm a/b/1.o
# RUN: not llvm-readobj --file-headers %t/c/absolute.a 2>&1 | FileCheck %s --check-prefix=ERR2 -DDIR=%t
# RUN: not llvm-readelf --file-headers %t/c/absolute.a 2>&1 | FileCheck %s --check-prefix=ERR2 -DDIR=%t
# ERR2: error: '[[DIR]]/c/absolute.a': '[[DIR]]/a/b/1.o': {{[Nn]}}o such file or directory