; LINUX-LABEL: test6_f:
; The %x argument is moved to %ecx. It will be the this pointer.
-; WIN32: movl 8(%ebp), %ecx
+; WIN32: movl 20(%esp), %ecx
; The %x argument is moved to (%esp). It will be the this pointer. With -O0
; we copy esp to ecx and use (ecx) instead of (esp).
-; MINGW_X86: movl 8(%ebp), %eax
+; MINGW_X86: movl 20(%esp), %eax
; MINGW_X86: movl %eax, (%e{{([a-d]x)|(sp)}})
-; CYGWIN: movl 8(%ebp), %eax
+; CYGWIN: movl 20(%esp), %eax
; CYGWIN: movl %eax, (%e{{([a-d]x)|(sp)}})
; The sret pointer is (%esp)
-; WIN32: leal 8(%esp), %[[REG:e[a-d]x]]
+; WIN32: leal 4(%esp), %[[REG:e[a-d]x]]
; WIN32-NEXT: movl %[[REG]], (%e{{([a-d]x)|(sp)}})
; The sret pointer is %ecx
-; MINGW_X86-NEXT: leal 8(%esp), %ecx
+; MINGW_X86-NEXT: leal 4(%esp), %ecx
; MINGW_X86-NEXT: calll _test6_g
-; CYGWIN-NEXT: leal 8(%esp), %ecx
+; CYGWIN-NEXT: leal 4(%esp), %ecx
; CYGWIN-NEXT: calll _test6_g
%tmp = alloca %struct.test6, align 4
; LINUX-LABEL: test7_f:
; The %x argument is moved to %ecx on all OSs. It will be the this pointer.
-; WIN32: movl 8(%ebp), %ecx
-; MINGW_X86: movl 8(%ebp), %ecx
-; CYGWIN: movl 8(%ebp), %ecx
+; WIN32: movl 20(%esp), %ecx
+; MINGW_X86: movl 20(%esp), %ecx
+; CYGWIN: movl 20(%esp), %ecx
; The sret pointer is (%esp)
-; WIN32: leal 8(%esp), %[[REG:e[a-d]x]]
+; WIN32: leal 4(%esp), %[[REG:e[a-d]x]]
; WIN32-NEXT: movl %[[REG]], (%e{{([a-d]x)|(sp)}})
-; MINGW_X86: leal 8(%esp), %[[REG:e[a-d]x]]
+; MINGW_X86: leal 4(%esp), %[[REG:e[a-d]x]]
; MINGW_X86-NEXT: movl %[[REG]], (%e{{([a-d]x)|(sp)}})
-; CYGWIN: leal 8(%esp), %[[REG:e[a-d]x]]
+; CYGWIN: leal 4(%esp), %[[REG:e[a-d]x]]
; CYGWIN-NEXT: movl %[[REG]], (%e{{([a-d]x)|(sp)}})
%tmp = alloca %struct.test7, align 4