# REQUIRES: x86 # RUN: llvm-mc -triple=x86_64-windows-gnu %s -filetype=obj -o %t1.obj # RUN: llvm-mc -triple=x86_64-windows-gnu %S/Inputs/associative-comdat-mingw-2.s -filetype=obj -o %t2.obj # RUN: lld-link -lldmingw -entry:main %t1.obj %t2.obj -out:%t.gc.exe -verbose # RUN: llvm-readobj -sections %t.gc.exe | FileCheck %s # CHECK: Sections [ # CHECK: Section { # CHECK: Number: 2 # CHECK-LABEL: Name: .rdata (2E 72 64 61 74 61 00 00) # This is the critical check to show that only *one* definition of # .xdata$foo was retained. This *must* be 0x24 (0x4 for the .xdata # section and 0x20 for the .ctors/.dtors headers/ends). # Make sure that no other .xdata sections get included, which would # increase the size here. # CHECK-NEXT: VirtualSize: 0x24 .text .def main; .scl 2; .type 32; .endef .globl main .p2align 4, 0x90 main: call foo retq # Defines .text$foo (which has a leader symbol and is referenced like # normally), and .xdata$foo (which lacks a leader symbol, which normally # would be declared associative to the symbol foo). # .xdata$foo should be implicitly treated as associative to foo and brought # in, while .xdata$bar, implicitly associative to bar, not included, and # .xdata$baz not included since there's no symbol baz. # GNU binutils ld doesn't do this at all, but always includes all .xdata/.pdata # comdat sections, even if --gc-sections is used. .section .xdata$foo,"dr" .linkonce discard .p2align 3 .long 42 .section .xdata$bar,"dr" .linkonce discard .p2align 3 .long 43 .section .xdata$baz,"dr" .linkonce discard .p2align 3 .long 44 .def foo; .scl 2; .type 32; .endef .section .text$foo,"xr",discard,foo .globl foo .p2align 4 foo: ret .def bar; .scl 2; .type 32; .endef .section .text$bar,"xr",discard,bar .globl bar .p2align 4 bar: ret