4 # This test makes sure that the object files we generate are actually
5 # LLVM bitcode files (as used by linker LTO plugins) when compiling with
8 # this only succeeds for bitcode files
9 ASSERT_IS_BITCODE_OBJ=($(LD_LIB_PATH_ENVVAR)=$(REAL_LD_LIBRARY_PATH) llvm-bcanalyzer $(1))
10 EXTRACT_OBJS=(cd $(TMPDIR); rm -f ./*.o; $(LD_LIB_PATH_ENVVAR)=$(REAL_LD_LIBRARY_PATH) llvm-ar x $(1))
12 BUILD_LIB=$(RUSTC) lib.rs -Copt-level=2 -Z cross-lang-lto=on -Ccodegen-units=1
13 BUILD_EXE=$(RUSTC) main.rs -Copt-level=2 -Z cross-lang-lto=on -Ccodegen-units=1 --emit=obj
15 all: staticlib staticlib-fat-lto staticlib-thin-lto rlib exe cdylib rdylib
18 $(BUILD_LIB) --crate-type=staticlib -o $(TMPDIR)/liblib.a
19 $(call EXTRACT_OBJS, liblib.a)
20 for file in $(TMPDIR)/liblib.*.rcgu.o; do $(call ASSERT_IS_BITCODE_OBJ, $$file); done
22 staticlib-fat-lto: lib.rs
23 $(BUILD_LIB) --crate-type=staticlib -o $(TMPDIR)/liblib-fat-lto.a -Clto=fat
24 $(call EXTRACT_OBJS, liblib-fat-lto.a)
25 for file in $(TMPDIR)/liblib-fat-lto.*.rcgu.o; do $(call ASSERT_IS_BITCODE_OBJ, $$file); done
27 staticlib-thin-lto: lib.rs
28 $(BUILD_LIB) --crate-type=staticlib -o $(TMPDIR)/liblib-thin-lto.a -Clto=thin
29 $(call EXTRACT_OBJS, liblib-thin-lto.a)
30 for file in $(TMPDIR)/liblib-thin-lto.*.rcgu.o; do $(call ASSERT_IS_BITCODE_OBJ, $$file); done
33 $(BUILD_LIB) --crate-type=rlib -o $(TMPDIR)/liblib.rlib
34 $(call EXTRACT_OBJS, liblib.rlib)
35 for file in $(TMPDIR)/liblib.*.rcgu.o; do $(call ASSERT_IS_BITCODE_OBJ, $$file); done
38 $(BUILD_LIB) --crate-type=cdylib --emit=obj -o $(TMPDIR)/cdylib.o
39 $(call ASSERT_IS_BITCODE_OBJ, $(TMPDIR)/cdylib.o)
42 $(BUILD_LIB) --crate-type=dylib --emit=obj -o $(TMPDIR)/rdylib.o
43 $(call ASSERT_IS_BITCODE_OBJ, $(TMPDIR)/rdylib.o)
46 $(BUILD_EXE) -o $(TMPDIR)/exe.o
47 $(call ASSERT_IS_BITCODE_OBJ, $(TMPDIR)/exe.o)