// RUN: rm -rf %t
//
// First, create two modules a and b, with a dependency b -> a, both within
// the same directory p1.
//
// RUN: mkdir -p %t/p1
// RUN: cd %t/p1
//
// RUN: grep "<AM>" %s > %t/p1/a.modulemap
// RUN: %clang_cc1 -x c++ -fmodules -emit-module -fmodule-map-file-home-is-cwd \
// RUN: -fmodules-embed-all-files -fmodules-local-submodule-visibility \
// RUN: -fmodule-name="a" -o a.pcm a.modulemap
//
// RUN: grep "<BM>" %s > %t/p1/b.modulemap
// RUN: %clang_cc1 -x c++ -fmodules -emit-module -fmodule-map-file-home-is-cwd \
// RUN: -fmodules-embed-all-files -fmodules-local-submodule-visibility \
// RUN: -fmodule-name="b" -o b.pcm b.modulemap
//
// Next, move the whole tree p1 -> p2.
//
// RUN: cd %t
// RUN: mv %t/p1 %t/p2
// RUN: cd %t/p2
//
// Compile a new module c in the newly generated tree that depends on b; c.pcm
// has to be within a subdirectory so a.modulemap will be one step up (../) from
// c.pcm.
//
// RUN: mkdir %t/p2/c
// RUN: grep "<CM>" %s > %t/p2/c/c.modulemap
// RUN: grep "<CH>" %s > %t/p2/c/c.h
// RUN: %clang_cc1 -x c++ -fmodules -emit-module -fmodule-map-file-home-is-cwd \
// RUN: -fmodules-embed-all-files -fmodules-local-submodule-visibility \
// RUN: -fmodule-name="c" -fmodule-file=b.pcm -o c/c.pcm c/c.modulemap
//
// Delete a.modulemap from its original location, and instead inject a different
// (unrelated) a.modulemap in the path p2/p2.
//
// RUN: rm %t/p2/a.modulemap
// RUN: mkdir -p %t/p2/p2
// RUN: touch %t/p2/p2/a.modulemap
//
// Now compile a file c.cpp that uses c.h and the module c; it is important
// to first load b.pcm and a.pcm before c.pcm on the command line to trigger
// the right order of module loading. This used to trigger clang to find the
// p2/p2/a.modulemap via the path c/../p2/a.modulemap, which is not the correct
// relative path from c.
//
// RUN: grep "<CC>" %s > %t/p2/c/c.cpp
// RUN: %clang_cc1 -I. -x c++ -fmodules \
// RUN: -fmodule-file=b.pcm -fmodule-file=a.pcm -fmodule-file=c/c.pcm \
// RUN: -o c/c.o -emit-obj c/c.cpp
module "a" { // <AM>
} // <AM>
module "b" { // <BM>
use "a" // <BM>
} // <BM>
module "c" { // <CM>
header "c/c.h" // <CM>
use "a" // <CM>
use "b" // <CM>
} // <CM>
inline void c() {} // <CH>
#include "c/c.h" // <CC>
void foo() { c(); } // <CC>