; Test distributed build thin link output from llvm-lto2 ; Generate bitcode files with summary, as well as minimized bitcode containing just the summary ; RUN: opt -thinlto-bc %s -thin-link-bitcode-file=%t1.thinlink.bc -o %t1.bc ; RUN: opt -thinlto-bc %p/Inputs/distributed_import.ll -thin-link-bitcode-file=%t2.thinlink.bc -o %t2.bc ; RUN: llvm-bcanalyzer -dump %t1.thinlink.bc | FileCheck --check-prefix=THINLINKBITCODE %s ; First perform the thin link on the normal bitcode file. ; RUN: llvm-lto2 run %t1.bc %t2.bc -o %t.o -save-temps \ ; RUN: -thinlto-distributed-indexes \ ; RUN: -r=%t1.bc,g, \ ; RUN: -r=%t1.bc,analias, \ ; RUN: -r=%t1.bc,f,px \ ; RUN: -r=%t2.bc,g,px \ ; RUN: -r=%t2.bc,analias,px \ ; RUN: -r=%t2.bc,aliasee,px ; RUN: opt -passes=function-import -import-all-index -enable-import-metadata -summary-file %t1.bc.thinlto.bc %t1.bc -o %t1.out ; RUN: opt -passes=function-import -import-all-index -summary-file %t2.bc.thinlto.bc %t2.bc -o %t2.out ; RUN: llvm-dis -o - %t1.out | FileCheck %s --check-prefix=IMPORT ; RUN: llvm-dis -o - %t2.out | FileCheck %s --check-prefix=EXPORT ; Save the generated index files. ; RUN: cp %t1.bc.thinlto.bc %t1.bc.thinlto.bc.orig ; RUN: cp %t2.bc.thinlto.bc %t2.bc.thinlto.bc.orig ; Copy the minimized bitcode to the regular bitcode path so the module ; paths in the index are the same (save the regular bitcode for use again ; further down). ; RUN: cp %t1.bc %t1.bc.sv ; RUN: cp %t1.thinlink.bc %t1.bc ; RUN: cp %t2.bc %t2.bc.sv ; RUN: cp %t2.thinlink.bc %t2.bc ; Next perform the thin link on the minimized bitcode files, and compare dumps ; of the resulting indexes to the above dumps to ensure they are identical. ; RUN: rm -f %t1.bc.thinlto.bc %t2.bc.thinlto.bc ; RUN: llvm-lto2 run %t1.bc %t2.bc -o %t.o -save-temps \ ; RUN: -thinlto-distributed-indexes \ ; RUN: -r=%t1.bc,g, \ ; RUN: -r=%t1.bc,analias, \ ; RUN: -r=%t1.bc,f,px \ ; RUN: -r=%t2.bc,g,px \ ; RUN: -r=%t2.bc,analias,px \ ; RUN: -r=%t2.bc,aliasee,px ; RUN: diff %t1.bc.thinlto.bc.orig %t1.bc.thinlto.bc ; RUN: diff %t2.bc.thinlto.bc.orig %t2.bc.thinlto.bc ; Make sure importing occurs as expected ; RUN: cp %t1.bc.sv %t1.bc ; RUN: cp %t2.bc.sv %t2.bc ; RUN: opt -passes=function-import -import-all-index -enable-import-metadata -summary-file %t1.bc.thinlto.bc %t1.bc -o %t1.out ; RUN: opt -passes=function-import -import-all-index -summary-file %t2.bc.thinlto.bc %t2.bc -o %t2.out ; RUN: llvm-dis -o - %t1.out | FileCheck %s --check-prefix=IMPORT ; RUN: llvm-dis -o - %t2.out | FileCheck %s --check-prefix=EXPORT ; IMPORT: define available_externally i32 @g() !thinlto_src_module ; IMPORT: define available_externally void @analias() !thinlto_src_module ; EXPORT: @G.llvm. target triple = "x86_64-unknown-linux-gnu" target datalayout = "e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128" declare i32 @g(...) declare void @analias(...) define void @f() { entry: call i32 (...) @g() call void (...) @analias() ret void } ; THINLINKBITCODE-NOT: IDENTIFICATION_BLOCK_ID ; THINLINKBITCODE-NOT: BLOCKINFO_BLOCK ; THINLINKBITCODE-NOT: TYPE_BLOCK_ID ; THINLINKBITCODE-NOT: VSTOFFSET ; THINLINKBITCODE-NOT: CONSTANTS_BLOCK ; THINLINKBITCODE-NOT: METADATA_KIND_BLOCK ; THINLINKBITCODE-NOT: METADATA_BLOCK ; THINLINKBITCODE-NOT: OPERAND_BUNDLE_TAGS_BLOCK ; THINLINKBITCODE-NOT: UnknownBlock26 ; THINLINKBITCODE-NOT: FUNCTION_BLOCK ; THINLINKBITCODE-NOT: VALUE_SYMTAB ; THINLINKBITCODE: MODULE_BLOCK ; THINLINKBITCODE: VERSION ; THINLINKBITCODE: SOURCE_FILENAME ; THINLINKBITCODE: GLOBALVAL_SUMMARY_BLOCK ; THINLINKBITCODE: HASH ; THINLINKBITCODE: SYMTAB_BLOCK ; THINLINKBITCODE: STRTAB_BLOCK !llvm.dbg.cu = !{} !1 = !{i32 2, !"Debug Info Version", i32 3} !llvm.module.flags = !{!1}