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/* Contributed by Dodji Seketeli <dodji@redhat.com> Origin: PR debug/37801 Abstract instances (DW_TAG_subroutines having the DW_AT_inline attribute) of second and first were having a DW_TAG_lexical_block DIE wrongly representing the inlined calls to third (in second) and to second (in first). At the same time, main didn't have children DW_TAG_inlined_subroutine DIEs representing the inlined calls to first, second and third. The ideal goal here is to test that we have no superfluous DW_TAG_lexical_block DIE anymore, that abstract instances DIEs have no descendant DIE with a DW_AT_abstract_origin attribute, and that main has properly nested DW_TAG_inlined_subroutine DIEs for third, second and first. */ /* { dg-options "-O -g3 -dA" } */ /* { dg-do compile } */ /* There are 6 inlined subroutines: - One for each subroutine inlined into main, that's 3. - One for earch subroutine inline into the out of line instances of third, second and first. */ /* { dg-final { scan-assembler-times "\\(DIE \\(\[^\n\]*\\) DW_TAG_inlined_subroutine" 6 } } */ /* Likewise we should have 6 DW_TAG_lexical_block DIEs: - One for each subroutine inlined into main, so that's 3. - One for each subroutine inlined in the out of line instances of third, second and first, that's 3. */ /* { dg-final { scan-assembler-times "\\(DIE \\(\[^\n\]*\\) DW_TAG_lexical_block" 6 } } */ /* There are 3 DW_AT_inline attributes: one per abstract inline instance. The value of the attribute must be 0x3, meaning the function was actually inlined. */ /* { dg-final { scan-assembler-times "(?:byte|data1)\[^\n\]*0x3\[^\n\]* DW_AT_inline" 3 } } */ volatile int *a; inline void third (int arg3) { int var3 = arg3; a[0] = var3; } inline void second (int arg2) { int var2 = arg2; third (var2+1); } inline void first (int arg1) { int var1 = arg1; second (var1+1); } int main () { int some_int = 1; first (some_int); return 0; }