; This first line will generate the .o files for the next run line ; RUN: rm -rf %t.cachedir %t.cachedir2 %t.cachedir3 ; RUN: mkdir -p %t.cachedir %t.cachedir2 %t.cachedir3 ; RUN: %lli -jit-kind=orc-mcjit -extra-module=%p/Inputs/multi-module-b.ll -extra-module=%p/Inputs/multi-module-c.ll -enable-cache-manager -object-cache-dir=%t.cachedir %s ; Collect generated objects. ; RUN: find %t.cachedir -type f -name 'multi-module-?.o' -exec mv -v '{}' %t.cachedir2 ';' ; This line tests MCJIT object loading ; RUN: %lli -jit-kind=orc-mcjit -extra-object=%t.cachedir2/multi-module-b.o -extra-object=%t.cachedir2/multi-module-c.o %s ; These lines put the object files into an archive ; RUN: llvm-ar r %t.cachedir3/load-object.a %t.cachedir2/multi-module-b.o ; RUN: llvm-ar r %t.cachedir3/load-object.a %t.cachedir2/multi-module-c.o ; This line test MCJIT archive loading ; RUN: %lli -jit-kind=orc-mcjit -extra-archive=%t.cachedir3/load-object.a %s declare i32 @FB() define i32 @main() { %r = call i32 @FB( ) ; <i32> [#uses=1] ret i32 %r }