; RUN: llc -mtriple powerpc-ibm-aix-xcoff -stop-after=machine-cp -verify-machineinstrs < %s | \
; RUN: FileCheck --check-prefixes=CHECK,32BIT %s
; RUN: llc -verify-machineinstrs -mcpu=pwr4 -mattr=-altivec \
; RUN: -mtriple powerpc-ibm-aix-xcoff < %s | \
; RUN: FileCheck --check-prefixes=CHECKASM,ASM32PWR4 %s
; RUN: llc -mtriple powerpc64-ibm-aix-xcoff -stop-after=machine-cp -verify-machineinstrs < %s | \
; RUN: FileCheck --check-prefixes=CHECK,64BIT %s
; RUN: llc -verify-machineinstrs -mcpu=pwr4 -mattr=-altivec \
; RUN: -mtriple powerpc64-ibm-aix-xcoff < %s | \
; RUN: FileCheck --check-prefixes=CHECKASM,ASM64PWR4 %s
define void @call_test_chars() {
entry:
call i8 @test_chars(i8 signext 97, i8 signext 97, i8 signext 97, i8 signext 97)
ret void
}
; CHECK-LABEL: name: call_test_chars
; 32BIT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT: $r3 = LI 97
; 32BIT: $r4 = LI 97
; 32BIT: $r5 = LI 97
; 32BIT: $r6 = LI 97
; 32BIT: BL_NOP <mcsymbol .test_chars>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit killed $r3, implicit killed $r4, implicit killed $r5, implicit killed $r6, implicit $r2, implicit-def $r1
; 32BIT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; 64BIT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT: $x3 = LI8 97
; 64BIT: $x4 = LI8 97
; 64BIT: $x5 = LI8 97
; 64BIT: $x6 = LI8 97
; 64BIT: BL8_NOP <mcsymbol .test_chars>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit killed $x3, implicit killed $x4, implicit killed $x5, implicit killed $x6, implicit $x2, implicit-def $r1
; 64BIT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
define signext i8 @test_chars(i8 signext %c1, i8 signext %c2, i8 signext %c3, i8 signext %c4) {
entry:
%conv = sext i8 %c1 to i32
%conv1 = sext i8 %c2 to i32
%add = add nsw i32 %conv, %conv1
%conv2 = sext i8 %c3 to i32
%add3 = add nsw i32 %add, %conv2
%conv4 = sext i8 %c4 to i32
%add5 = add nsw i32 %add3, %conv4
%conv6 = trunc i32 %add5 to i8
ret i8 %conv6
}
; CHECK-LABEL: name: test_chars
; 32BIT: liveins:
; 32BIT-NEXT: - { reg: '$r3', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r4', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r5', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r6', virtual-reg: '' }
; 32BIT: body:
; 32BIT-NEXT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3, $r4, $r5, $r6
; 64BIT: liveins:
; 64BIT-NEXT: - { reg: '$x3', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x4', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x5', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x6', virtual-reg: '' }
; 64BIT: body:
; 64BIT-NEXT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3, $x4, $x5, $x6
define void @call_test_chars_mix() {
entry:
call i8 @test_chars_mix(i8 signext 97, i8 zeroext -31, i8 zeroext 97, i8 signext -31)
ret void
}
; CHECK-LABEL: name: call_test_chars_mix
; 32BIT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT: $r3 = LI 97
; 32BIT: $r4 = LI 225
; 32BIT: $r5 = LI 97
; 32BIT: $r6 = LI -31
; 32BIT: BL_NOP <mcsymbol .test_chars_mix>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit killed $r3, implicit killed $r4, implicit killed $r5, implicit killed $r6, implicit $r2, implicit-def $r1
; 32BIT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; 64BIT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT: $x3 = LI8 97
; 64BIT: $x4 = LI8 225
; 64BIT: $x5 = LI8 97
; 64BIT: $x6 = LI8 -31
; 64BIT: BL8_NOP <mcsymbol .test_chars_mix>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit killed $x3, implicit killed $x4, implicit killed $x5, implicit killed $x6, implicit $x2, implicit-def $r1
; 64BIT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
define signext i8 @test_chars_mix(i8 signext %c1, i8 zeroext %c2, i8 zeroext %c3, i8 signext %c4) {
entry:
%conv = sext i8 %c1 to i32
%conv1 = zext i8 %c2 to i32
%add = add nsw i32 %conv, %conv1
%conv2 = zext i8 %c3 to i32
%add3 = add nsw i32 %add, %conv2
%conv4 = sext i8 %c4 to i32
%add5 = add nsw i32 %add3, %conv4
%conv6 = trunc i32 %add5 to i8
ret i8 %conv6
}
; CHECK-LABEL: name: test_chars_mix
; 32BIT: liveins:
; 32BIT-NEXT: - { reg: '$r3', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r4', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r5', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r6', virtual-reg: '' }
; 32BIT: body:
; 32BIT-NEXT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3, $r4, $r5, $r6
; 64BIT: liveins:
; 64BIT-NEXT: - { reg: '$x3', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x4', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x5', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x6', virtual-reg: '' }
; 64BIT: body:
; 64BIT-NEXT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3, $x4, $x5, $x6
@global_i1 = global i8 0, align 1
define void @test_i1(i1 %b) {
entry:
%frombool = zext i1 %b to i8
store i8 %frombool, i8* @global_i1, align 1
ret void
}
; 32BIT: liveins:
; 32BIT-NEXT: - { reg: '$r3', virtual-reg: '' }
; 32BIT: body: |
; 32BIT-NEXT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3
; 32BIT: renamable $r3 = RLWINM killed renamable $r3, 0, 31, 31
; 32BIT-NEXT: STB killed renamable $r3, 0, killed renamable $r4 :: (store (s8) into @global_i1)
; 64BIT: liveins:
; 64BIT-NEXT: - { reg: '$x3', virtual-reg: '' }
; 64BIT: body: |
; 64BIT-NEXT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3
; 64BIT: renamable $r[[REG1:[0-9]+]] = RLWINM renamable $r[[REG1]], 0, 31, 31, implicit killed $x3
; 64BIT-NEXT: STB killed renamable $r[[REG1]], 0, killed renamable $x4 :: (store (s8) into @global_i1)
define void @call_test_i1() {
entry:
call void @test_i1(i1 1)
ret void
}
; CHECK-LABEL: name: call_test_i1
; 32BIT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT: $r3 = LI 1
; 32BIT: BL_NOP <mcsymbol .test_i1>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit killed $r3, implicit $r2, implicit-def $r1
; 32BIT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; 64BIT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT: $x3 = LI8 1
; 64BIT: BL8_NOP <mcsymbol .test_i1>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit killed $x3, implicit $x2, implicit-def $r1
; 64BIT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
define void @test_i1zext(i1 zeroext %b) {
entry:
%frombool = zext i1 %b to i8
store i8 %frombool, i8 * @global_i1, align 1
ret void
}
; 32BIT: liveins:
; 32BIT-NEXT: - { reg: '$r3', virtual-reg: '' }
; 32BIT: body: |
; 32BIT-NEXT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3
; CHECK-NOT: RLWINM
; 32BIT: STB killed renamable $r3, 0, killed renamable $r4 :: (store (s8) into @global_i1)
; 64BIT: liveins:
; 64BIT-NEXT: - { reg: '$x3', virtual-reg: '' }
; 64BIT: body: |
; 64BIT-NEXT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3
; CHECK-NOT: RLWINM
; 64BIT: STB8 killed renamable $x3, 0, killed renamable $x4 :: (store (s8) into @global_i1)
define i32 @test_ints(i32 signext %a, i32 zeroext %b, i32 zeroext %c, i32 signext %d, i32 signext %e, i32 signext %f, i32 signext %g, i32 signext %h) {
entry:
%add = add i32 %a, %b
%add1 = add i32 %add, %c
%add2 = add i32 %add1, %d
%add3 = add i32 %add2, %e
%add4 = add i32 %add3, %f
%add5 = add i32 %add4, %g
%add6 = add i32 %add5, %h
ret i32 %add6
}
; CHECK-LABEL: name: test_ints
; 32BIT: liveins:
; 32BIT-NEXT: - { reg: '$r3', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r4', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r5', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r6', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r7', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r8', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r9', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r10', virtual-reg: '' }
; 32BIT: body: |
; 32BIT-NEXT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3, $r4, $r5, $r6, $r7, $r8, $r9, $r10
; 64BIT: liveins:
; 64BIT-NEXT: - { reg: '$x3', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x4', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x5', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x6', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x7', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x8', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x9', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x10', virtual-reg: '' }
; 64BIT: body: |
; 64BIT-NEXT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3, $x4, $x5, $x6, $x7, $x8, $x9, $x10
define void @call_test_ints() {
entry:
call i32 @test_ints(i32 signext 1, i32 zeroext 1, i32 zeroext 2147483648, i32 signext -2147483648, i32 signext 1, i32 signext 1, i32 signext 1, i32 signext 1)
ret void
}
; CHECK-LABEL: name: call_test_ints
; 64BIT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT: renamable $x3 = LI8 1
; 64BIT: renamable $x5 = RLDIC killed renamable $x3, 31, 32
; 64BIT: $x3 = LI8 1
; 64BIT: $x4 = LI8 1
; 64BIT: $x6 = LIS8 32768
; 64BIT: $x7 = LI8 1
; 64BIT: $x8 = LI8 1
; 64BIT: $x9 = LI8 1
; 64BIT: $x10 = LI8 1
; 64BIT: BL8_NOP <mcsymbol .test_ints>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit killed $x4, implicit $x5, implicit killed $x6, implicit killed $x7, implicit killed $x8, implicit killed $x9, implicit killed $x10, implicit $x2, implicit-def $r1, implicit-def dead $x3
; 64BIT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
define void @call_test_i64() {
entry:
call i64 @test_i64(i64 1, i64 2, i64 3, i64 4)
ret void
}
; CHECK-LABEL: name: call_test_i64
; 32BIT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT: $r3 = LI 0
; 32BIT: $r4 = LI 1
; 32BIT: $r5 = LI 0
; 32BIT: $r6 = LI 2
; 32BIT: $r7 = LI 0
; 32BIT: $r8 = LI 3
; 32BIT: $r9 = LI 0
; 32BIT: $r10 = LI 4
; 32BIT: BL_NOP <mcsymbol .test_i64>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit killed $r3, implicit killed $r4, implicit killed $r5, implicit killed $r6, implicit killed $r7, implicit killed $r8, implicit killed $r9, implicit killed $r10, implicit $r2, implicit-def $r1
; 32BIT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; 64BIT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT: $x3 = LI8 1
; 64BIT: $x4 = LI8 2
; 64BIT: $x5 = LI8 3
; 64BIT: $x6 = LI8 4
; 64BIT: BL8_NOP <mcsymbol .test_i64>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit killed $x3, implicit killed $x4, implicit killed $x5, implicit killed $x6, implicit $x2, implicit-def $r1
; 64BIT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
define i64 @test_i64(i64 %a, i64 %b, i64 %c, i64 %d) {
entry:
%add = add nsw i64 %a, %b
%add1 = add nsw i64 %add, %c
%add2 = add nsw i64 %add1, %d
ret i64 %add2
}
; CHECK-LABEL: name: test_i64
; 32BIT: liveins:
; 32BIT-NEXT: - { reg: '$r3', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r4', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r5', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r6', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r7', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r8', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r9', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r10', virtual-reg: '' }
; 32BIT: body: |
; 32BIT-NEXT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3, $r4, $r5, $r6, $r7, $r8, $r9, $r10
; 64BIT: liveins:
; 64BIT-NEXT: - { reg: '$x3', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x4', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x5', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x6', virtual-reg: '' }
; 64BIT: body: |
; 64BIT-NEXT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3, $x4, $x5, $x6
define void @call_test_int_ptr() {
entry:
%b = alloca i32, align 4
store i32 0, i32* %b, align 4
call void @test_int_ptr(i32* %b)
ret void
}
; CHECK-LABEL: name: call_test_int_ptr
; 32BIT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT: renamable $r3 = ADDI %stack.0.b, 0
; 32BIT: BL_NOP <mcsymbol .test_int_ptr>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit $r2, implicit-def $r1
; 32BIT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; 64BIT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT: renamable $x3 = ADDI8 %stack.0.b, 0
; 64BIT: BL8_NOP <mcsymbol .test_int_ptr>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit $x2, implicit-def $r1
; 64BIT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
define void @test_int_ptr(i32* %a) {
entry:
%a.addr = alloca i32*, align 8
store i32* %a, i32** %a.addr, align 8
ret void
}
; CHECK-LABEL: name: test_int_ptr
; 32BIT: liveins:
; 32BIT-NEXT: - { reg: '$r3', virtual-reg: '' }
; 32BIT: body: |
; 32BIT-NEXT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3
; 32BIT: STW killed renamable $r3, 0, %stack.0.a.addr :: (store (s32) into %ir.a.addr, align 8)
; 64BIT: liveins:
; 64BIT-NEXT: - { reg: '$x3', virtual-reg: '' }
; 64BIT: body: |
; 64BIT-NEXT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3
; 64BIT: STD killed renamable $x3, 0, %stack.0.a.addr :: (store (s64) into %ir.a.addr)
define i32 @caller(i32 %i) {
entry:
%i.addr = alloca i32, align 4
%b = alloca i8, align 1
store i32 %i, i32* %i.addr, align 4
%0 = load i32, i32* %i.addr, align 4
%cmp = icmp ne i32 %0, 0
%frombool = zext i1 %cmp to i8
store i8 %frombool, i8* %b, align 1
%1 = load i8, i8* %b, align 1
%tobool = trunc i8 %1 to i1
%call = call i32 @call_test_bool(i1 zeroext %tobool)
ret i32 %call
}
declare i32 @call_test_bool(i1 zeroext)
; CHECK-LABEL: name: caller
; 32BIT: liveins:
; 32BIT-NEXT: - { reg: '$r3', virtual-reg: '' }
; 32BIT: body: |
; 32BIT-NEXT: bb.0.entry:
; 32BIT: liveins: $r3
; 32BIT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT: BL_NOP <mcsymbol .call_test_bool[PR]>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit $r2, implicit-def $r1, implicit-def $r3
; 32BIT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; 64BIT: liveins:
; 64BIT-NEXT: - { reg: '$x3', virtual-reg: '' }
; 64BIT: body: |
; 64BIT-NEXT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3
; 64BIT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT: BL8_NOP <mcsymbol .call_test_bool[PR]>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit $x2, implicit-def $r1, implicit-def $x3
; 64BIT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
@f1 = global float 0.000000e+00, align 4
@d1 = global double 0.000000e+00, align 8
define void @call_test_floats() {
entry:
%0 = load float, float* @f1, align 4
call float @test_floats(float %0, float %0, float %0)
ret void
}
; CHECK-LABEL: name: call_test_floats{{.*}}
; 32BIT: renamable $r3 = LWZtoc @f1, $r2 :: (load (s32) from got)
; 32BIT-NEXT: renamable $f1 = LFS 0, killed renamable $r3 :: (dereferenceable load (s32) from @f1)
; 32BIT-NEXT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT-NEXT: $f2 = COPY renamable $f1
; 32BIT-NEXT: $f3 = COPY renamable $f1
; 32BIT-NEXT: BL_NOP <mcsymbol .test_floats>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $f1, implicit killed $f2, implicit killed $f3, implicit $r2, implicit-def $r1
; 32BIT-NEXT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; 64BIT: renamable $x3 = LDtoc @f1, $x2 :: (load (s64) from got)
; 64BIT-NEXT: renamable $f1 = LFS 0, killed renamable $x3 :: (dereferenceable load (s32) from @f1)
; 64BIT-NEXT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT-NEXT: $f2 = COPY renamable $f1
; 64BIT-NEXT: $f3 = COPY renamable $f1
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_floats>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $f1, implicit killed $f2, implicit killed $f3, implicit $x2, implicit-def $r1
; 64BIT-NEXT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
define float @test_floats(float %f1, float %f2, float %f3) {
entry:
%add = fadd float %f1, %f2
%add1 = fadd float %add, %f3
ret float %add1
}
; CHECK-LABEL: name: test_floats{{.*}}
; CHECK: liveins:
; CHECK-NEXT: - { reg: '$f1', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f2', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f3', virtual-reg: '' }
; CHECK: body: |
; CHECK-NEXT: bb.0.entry:
; CHECK-NEXT: liveins: $f1, $f2, $f3
define void @call_test_fpr_max() {
entry:
%0 = load double, double* @d1, align 8
call double @test_fpr_max(double %0, double %0, double %0, double %0, double %0, double %0, double %0, double %0, double %0, double %0, double %0, double %0, double %0)
ret void
}
; CHECK-LABEL: name: call_test_fpr_max{{.*}}
; 32BIT: renamable $r[[REG:[0-9]+]] = LWZtoc @d1, $r2 :: (load (s32) from got)
; 32BIT-NEXT: renamable $f1 = LFD 0, killed renamable $r[[REG]] :: (dereferenceable load (s64) from @d1)
; 32BIT-NEXT: ADJCALLSTACKDOWN 128, 0, implicit-def dead $r1, implicit $r1
; 32BIT-DAG: STFD renamable $f1, 56, $r1 :: (store (s64))
; 32BIT-DAG: STFD renamable $f1, 64, $r1 :: (store (s64))
; 32BIT-DAG: STFD renamable $f1, 72, $r1 :: (store (s64))
; 32BIT-DAG: STFD renamable $f1, 80, $r1 :: (store (s64))
; 32BIT-DAG: STFD renamable $f1, 88, $r1 :: (store (s64))
; 32BIT-DAG: STFD renamable $f1, 96, $r1 :: (store (s64))
; 32BIT-DAG: STFD renamable $f1, 104, $r1 :: (store (s64))
; 32BIT-DAG: STFD renamable $f1, 112, $r1 :: (store (s64))
; 32BIT-DAG: STFD renamable $f1, 120, $r1 :: (store (s64))
; 32BIT-DAG: $f2 = COPY renamable $f1
; 32BIT-DAG: $f3 = COPY renamable $f1
; 32BIT-DAG: $f4 = COPY renamable $f1
; 32BIT-DAG: $f5 = COPY renamable $f1
; 32BIT-DAG: $f6 = COPY renamable $f1
; 32BIT-DAG: $f7 = COPY renamable $f1
; 32BIT-DAG: $f8 = COPY renamable $f1
; 32BIT-DAG: $f9 = COPY renamable $f1
; 32BIT-DAG: $f10 = COPY renamable $f1
; 32BIT-DAG: $f11 = COPY renamable $f1
; 32BIT-DAG: $f12 = COPY renamable $f1
; 32BIT-DAG: $f13 = COPY renamable $f1
; 32BIT-NEXT: BL_NOP <mcsymbol .test_fpr_max>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $f1, implicit killed $f2, implicit killed $f3, implicit killed $f4, implicit killed $f5, implicit killed $f6, implicit killed $f7, implicit killed $f8, implicit killed $f9, implicit killed $f10, implicit killed $f11, implicit killed $f12, implicit killed $f13, implicit $r2, implicit-def $r1, implicit-def dead $f1
; 32BIT-NEXT: ADJCALLSTACKUP 128, 0, implicit-def dead $r1, implicit $r1
; CHECKASM-LABEL: .call_test_fpr_max:
; ASM32PWR4: stwu 1, -128(1)
; ASM32PWR4-NEXT: lwz [[REG:[0-9]+]], L..C2(2)
; ASM32PWR4-NEXT: lfd 1, 0([[REG]])
; ASM32PWR4-DAG: stfd 1, 56(1)
; ASM32PWR4-DAG: stfd 1, 64(1)
; ASM32PWR4-DAG: stfd 1, 72(1)
; ASM32PWR4-DAG: stfd 1, 80(1)
; ASM32PWR4-DAG: stfd 1, 88(1)
; ASM32PWR4-DAG: stfd 1, 96(1)
; ASM32PWR4-DAG: stfd 1, 104(1)
; ASM32PWR4-DAG: stfd 1, 112(1)
; ASM32PWR4-DAG: stfd 1, 120(1)
; ASM32PWR4-DAG: fmr 2, 1
; ASM32PWR4-DAG: fmr 3, 1
; ASM32PWR4-DAG: fmr 4, 1
; ASM32PWR4-DAG: fmr 5, 1
; ASM32PWR4-DAG: fmr 6, 1
; ASM32PWR4-DAG: fmr 7, 1
; ASM32PWR4-DAG: fmr 8, 1
; ASM32PWR4-DAG: fmr 9, 1
; ASM32PWR4-DAG: fmr 10, 1
; ASM32PWR4-DAG: fmr 11, 1
; ASM32PWR4-DAG: fmr 12, 1
; ASM32PWR4-DAG: fmr 13, 1
; ASM32PWR4-NEXT: bl .test_fpr_max
; ASM32PWR4-NEXT: nop
; ASM32PWR4-NEXT: addi 1, 1, 128
; 64BIT: renamable $x[[REGD1ADDR:[0-9]+]] = LDtoc @d1, $x2 :: (load (s64) from got)
; 64BIT-NEXT: renamable $f1 = LFD 0, killed renamable $x[[REGD1ADDR:[0-9]+]] :: (dereferenceable load (s64) from @d1)
; 64BIT-NEXT: ADJCALLSTACKDOWN 152, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: STFD renamable $f1, 112, $x1 :: (store (s64))
; 64BIT-DAG: STFD renamable $f1, 120, $x1 :: (store (s64))
; 64BIT-DAG: STFD renamable $f1, 128, $x1 :: (store (s64))
; 64BIT-DAG: STFD renamable $f1, 136, $x1 :: (store (s64))
; 64BIT-DAG: STFD renamable $f1, 144, $x1 :: (store (s64))
; 64BIT-DAG: $f2 = COPY renamable $f1
; 64BIT-DAG: $f3 = COPY renamable $f1
; 64BIT-DAG: $f4 = COPY renamable $f1
; 64BIT-DAG: $f5 = COPY renamable $f1
; 64BIT-DAG: $f6 = COPY renamable $f1
; 64BIT-DAG: $f7 = COPY renamable $f1
; 64BIT-DAG: $f8 = COPY renamable $f1
; 64BIT-DAG: $f9 = COPY renamable $f1
; 64BIT-DAG: $f10 = COPY renamable $f1
; 64BIT-DAG: $f11 = COPY renamable $f1
; 64BIT-DAG: $f12 = COPY renamable $f1
; 64BIT-DAG: $f13 = COPY renamable $f1
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_fpr_max>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $f1, implicit killed $f2, implicit killed $f3, implicit killed $f4, implicit killed $f5, implicit killed $f6, implicit killed $f7, implicit killed $f8, implicit killed $f9, implicit killed $f10, implicit killed $f11, implicit killed $f12, implicit killed $f13, implicit $x2, implicit-def $r1
; 64BIT-NEXT: ADJCALLSTACKUP 152, 0, implicit-def dead $r1, implicit $r1
; ASM64PWR4: stdu 1, -160(1)
; ASM64PWR4-NEXT: ld [[REG:[0-9]+]], L..C2(2)
; ASM64PWR4-NEXT: lfd 1, 0([[REG]])
; ASM64PWR4-DAG: stfd 1, 112(1)
; ASM64PWR4-DAG: stfd 1, 120(1)
; ASM64PWR4-DAG: stfd 1, 128(1)
; ASM64PWR4-DAG: stfd 1, 136(1)
; ASM64PWR4-DAG: stfd 1, 144(1)
; ASM64PWR4-DAG: fmr 2, 1
; ASM64PWR4-DAG: fmr 3, 1
; ASM64PWR4-DAG: fmr 4, 1
; ASM64PWR4-DAG: fmr 5, 1
; ASM64PWR4-DAG: fmr 6, 1
; ASM64PWR4-DAG: fmr 7, 1
; ASM64PWR4-DAG: fmr 8, 1
; ASM64PWR4-DAG: fmr 9, 1
; ASM64PWR4-DAG: fmr 10, 1
; ASM64PWR4-DAG: fmr 11, 1
; ASM64PWR4-DAG: fmr 12, 1
; ASM64PWR4-DAG: fmr 13, 1
; ASM64PWR4-NEXT: bl .test_fpr_max
; ASM64PWR4-NEXT: nop
; ASM64PWR4-NEXT: addi 1, 1, 160
define double @test_fpr_max(double %d1, double %d2, double %d3, double %d4, double %d5, double %d6, double %d7, double %d8, double %d9, double %d10, double %d11, double %d12, double %d13) {
entry:
%add = fadd double %d1, %d2
%add1 = fadd double %add, %d3
%add2 = fadd double %add1, %d4
%add3 = fadd double %add2, %d5
%add4 = fadd double %add3, %d6
%add5 = fadd double %add4, %d7
%add6 = fadd double %add5, %d8
%add7 = fadd double %add6, %d9
%add8 = fadd double %add7, %d10
%add9 = fadd double %add8, %d11
%add10 = fadd double %add9, %d12
%add11 = fadd double %add10, %d13
ret double %add11
}
; CHECK-LABEL: name: test_fpr_max{{.*}}
; CHECK: liveins:
; CHECK-NEXT: - { reg: '$f1', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f2', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f3', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f4', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f5', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f6', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f7', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f8', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f9', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f10', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f11', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f12', virtual-reg: '' }
; CHECK-NEXT: - { reg: '$f13', virtual-reg: '' }
; CHECK: body: |
; CHECK-NEXT: bb.0.entry:
; CHECK-NEXT: liveins: $f1, $f2, $f3, $f4, $f5, $f6, $f7, $f8, $f9, $f10, $f11, $f12, $f13
define void @call_test_mix() {
entry:
%0 = load float, float* @f1, align 4
%1 = load double, double* @d1, align 8
call i32 @test_mix(float %0, i32 1, double %1, i8 signext 97)
ret void
}
; CHECK-LABEL: name: call_test_mix{{.*}}
; 32BIT: renamable $r[[REG1:[0-9]+]] = LWZtoc @f1, $r2 :: (load (s32) from got)
; 32BIT-NEXT: renamable $r[[REG2:[0-9]+]] = LWZtoc @d1, $r2 :: (load (s32) from got)
; 32BIT-NEXT: renamable $f1 = LFS 0, killed renamable $r[[REG1]] :: (dereferenceable load (s32) from @f1)
; 32BIT-NEXT: renamable $f2 = LFD 0, killed renamable $r[[REG2]] :: (dereferenceable load (s64) from @d1)
; 32BIT-NEXT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT-NEXT: $r4 = LI 1
; 32BIT-NEXT: $r7 = LI 97
; 32BIT-NEXT: BL_NOP <mcsymbol .test_mix>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $f1, implicit $r4, implicit $f2, implicit killed $r7, implicit $r2, implicit-def $r1
; 32BIT-NEXT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; 64BIT: renamable $x[[REG1:[0-9]+]] = LDtoc @f1, $x2 :: (load (s64) from got)
; 64BIT-NEXT: renamable $x[[REG2:[0-9]+]] = LDtoc @d1, $x2 :: (load (s64) from got)
; 64BIT-NEXT: renamable $f1 = LFS 0, killed renamable $x[[REG1]] :: (dereferenceable load (s32) from @f1)
; 64BIT-NEXT: renamable $f2 = LFD 0, killed renamable $x[[REG2]] :: (dereferenceable load (s64) from @d1)
; 64BIT-NEXT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT-NEXT: $x4 = LI8 1
; 64BIT-NEXT: $x6 = LI8 97
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_mix>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $f1, implicit $x4, implicit $f2, implicit killed $x6, implicit $x2, implicit-def $r1
; 64BIT-NEXT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
define i32 @test_mix(float %f, i32 signext %i, double %d, i8 signext %c) {
entry:
%conv = fpext float %f to double
%add = fadd double %conv, %d
%conv1 = fptrunc double %add to float
%conv2 = zext i8 %c to i32
%add3 = add nsw i32 %i, %conv2
%conv4 = sitofp i32 %add3 to float
%add5 = fadd float %conv4, %conv1
%conv6 = fptosi float %add5 to i32
ret i32 %conv6
}
; CHECK-LABEL: name: test_mix{{.*}}
; 32BIT: liveins:
; 32BIT-NEXT: - { reg: '$f1', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r4', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$f2', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r7', virtual-reg: '' }
; 32BIT: body: |
; 32BIT-NEXT: bb.0.entry:
; 32BIT-NEXT: liveins: $f1, $f2, $r4, $r7
; 64BIT: liveins:
; 64BIT-NEXT: - { reg: '$f1', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x4', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$f2', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x6', virtual-reg: '' }
; 64BIT: body: |
; 64BIT-NEXT: bb.0.entry:
; 64BIT-NEXT: liveins: $f1, $f2, $x4, $x6
define i64 @callee_mixed_ints(i32 %a, i8 signext %b, i32 %c, i16 signext %d, i64 %e) {
entry:
%conv = zext i8 %b to i32
%add = add nsw i32 %a, %conv
%add1 = add nsw i32 %add, %c
%conv2 = sext i16 %d to i32
%add3 = add nsw i32 %add1, %conv2
%conv4 = sext i32 %add3 to i64
%add5 = add nsw i64 %conv4, %e
ret i64 %add5
}
; CHECK-LABEL: name: callee_mixed_ints
; 32BIT: liveins:
; 32BIT-NEXT: - { reg: '$r3', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r4', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r5', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r6', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r7', virtual-reg: '' }
; 32BIT-NEXT: - { reg: '$r8', virtual-reg: '' }
; 32BIT: body: |
; 32BIT-NEXT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3, $r4, $r5, $r6, $r7, $r8
; 64BIT: liveins:
; 64BIT-NEXT: - { reg: '$x3', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x4', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x5', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x6', virtual-reg: '' }
; 64BIT-NEXT: - { reg: '$x7', virtual-reg: '' }
; 64BIT: body: |
; 64BIT-NEXT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3, $x4, $x5, $x6, $x7
define void @call_test_vararg() {
entry:
%0 = load float, float* @f1, align 4
%conv = fpext float %0 to double
%1 = load double, double* @d1, align 8
call void (i32, ...) @test_vararg(i32 42, double %conv, double %1)
ret void
}
declare void @test_vararg(i32, ...)
; CHECK-LABEL: name: call_test_vararg
; 32BIT: renamable $r[[REG:[0-9]+]] = LWZtoc @f1, $r2 :: (load (s32) from got)
; 32BIT-NEXT: renamable $f1 = LFS 0, killed renamable $r[[REG]] :: (dereferenceable load (s32) from @f1)
; 32BIT-NEXT: renamable $r[[REG:[0-9]+]] = LWZtoc @d1, $r2 :: (load (s32) from got)
; 32BIT-NEXT: STFD renamable $f1, 0, %stack.[[SLOT1:[0-9]+]] :: (store (s64) into %stack.[[SLOT1]])
; 32BIT-NEXT: renamable $r4 = LWZ 0, %stack.[[SLOT1]] :: (load (s32) from %stack.[[SLOT1]], align 8)
; 32BIT-NEXT: renamable $f2 = LFD 0, killed renamable $r[[REG]] :: (dereferenceable load (s64) from @d1)
; 32BIT-NEXT: renamable $r5 = LWZ 4, %stack.[[SLOT1]] :: (load (s32) from %stack.[[SLOT1]] + 4)
; 32BIT-NEXT: STFD renamable $f2, 0, %stack.[[SLOT2:[0-9]+]] :: (store (s64) into %stack.[[SLOT2]])
; 32BIT-NEXT: renamable $r6 = LWZ 0, %stack.[[SLOT2]] :: (load (s32) from %stack.[[SLOT2]], align 8)
; 32BIT-NEXT: renamable $r7 = LWZ 4, %stack.[[SLOT2]] :: (load (s32) from %stack.[[SLOT2]] + 4)
; 32BIT-NEXT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT-NEXT: $r3 = LI 42
; 32BIT-NEXT: BL_NOP <mcsymbol .test_vararg[PR]>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit $f1, implicit $r4, implicit $r5, implicit $f2, implicit $r6, implicit $r7, implicit $r2, implicit-def $r1
; 32BIT-NEXT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; CHECKASM-LABEL: .call_test_vararg:
; ASM32PWR4: stwu 1, -80(1)
; ASM32PWR4-NEXT: lwz [[REG:[0-9]+]], L..C1(2)
; ASM32PWR4-NEXT: lfs 1, 0([[REG]])
; ASM32PWR4-NEXT: lwz [[REG:[0-9]+]], L..C2(2)
; ASM32PWR4-NEXT: stfd 1, 64(1)
; ASM32PWR4-NEXT: lfd 2, 0([[REG]])
; ASM32PWR4-NEXT: li 3, 42
; ASM32PWR4-NEXT: stfd 2, 72(1)
; ASM32PWR4-DAG: lwz 4, 64(1)
; ASM32PWR4-DAG: lwz 5, 68(1)
; ASM32PWR4-DAG: lwz 6, 72(1)
; ASM32PWR4-DAG: lwz 7, 76(1)
; ASM32PWR4-NEXT: bl .test_vararg[PR]
; ASM32PWR4-NEXT: nop
; 64BIT: renamable $x[[REG:[0-9]+]] = LDtoc @f1, $x2 :: (load (s64) from got)
; 64BIT-NEXT: renamable $f1 = LFS 0, killed renamable $x[[REG]] :: (dereferenceable load (s32) from @f1)
; 64BIT-NEXT: renamable $x[[REG:[0-9]+]] = LDtoc @d1, $x2 :: (load (s64) from got)
; 64BIT-NEXT: STFD renamable $f1, 0, %stack.[[SLOT1:[0-9]+]] :: (store (s64) into %stack.[[SLOT1]])
; 64BIT-NEXT: renamable $f2 = LFD 0, killed renamable $x[[REG]] :: (dereferenceable load (s64) from @d1)
; 64BIT-NEXT: renamable $x4 = LD 0, %stack.[[SLOT1]] :: (load (s64) from %stack.[[SLOT1]])
; 64BIT-NEXT: STFD renamable $f2, 0, %stack.[[SLOT2:[0-9]+]] :: (store (s64) into %stack.[[SLOT2]])
; 64BIT-NEXT: renamable $x5 = LD 0, %stack.[[SLOT2]] :: (load (s64) from %stack.[[SLOT2]])
; 64BIT-NEXT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT-NEXT: $x3 = LI8 42
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_vararg[PR]>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit $f1, implicit $x4, implicit $f2, implicit $x5, implicit $x2, implicit-def $r1
; 64BIT-NEXT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
; ASM64PWR4: stdu 1, -128(1)
; ASM64PWR4-NEXT: ld [[REG:[0-9]+]], L..C1(2)
; ASM64PWR4-NEXT: lfs 1, 0([[REG]])
; ASM64PWR4-NEXT: ld [[REG:[0-9]+]], L..C2(2)
; ASM64PWR4-NEXT: stfd 1, 112(1)
; ASM64PWR4-NEXT: lfd 2, 0([[REG]])
; ASM64PWR4-NEXT: li 3, 42
; ASM64PWR4-NEXT: stfd 2, 120(1)
; ASM64PWR4-NEXT: ld 4, 112(1)
; ASM64PWR4-NEXT: ld 5, 120(1)
; ASM64PWR4-NEXT: bl .test_vararg[PR]
; ASM64PWR4-NEXT: nop
define void @call_test_vararg2() {
entry:
%0 = load float, float* @f1, align 4
%conv = fpext float %0 to double
%1 = load double, double* @d1, align 8
call void (i32, ...) @test_vararg(i32 42, double %conv, i32 42, double %1)
ret void
}
; CHECK-LABEL: name: call_test_vararg2
; 32BIT: renamable $r[[REG:[0-9]+]] = LWZtoc @f1, $r2 :: (load (s32) from got)
; 32BIT-NEXT: renamable $f1 = LFS 0, killed renamable $r[[REG]] :: (dereferenceable load (s32) from @f1)
; 32BIT-NEXT: renamable $r[[REG:[0-9]+]] = LWZtoc @d1, $r2 :: (load (s32) from got)
; 32BIT-NEXT: STFD renamable $f1, 0, %stack.[[SLOT1:[0-9]+]] :: (store (s64) into %stack.[[SLOT1]])
; 32BIT-NEXT: renamable $r4 = LWZ 0, %stack.[[SLOT1]] :: (load (s32) from %stack.[[SLOT1]], align 8)
; 32BIT-NEXT: renamable $f2 = LFD 0, killed renamable $r[[REG]] :: (dereferenceable load (s64) from @d1)
; 32BIT-NEXT: renamable $r5 = LWZ 4, %stack.[[SLOT1]] :: (load (s32) from %stack.[[SLOT1]] + 4)
; 32BIT-NEXT: STFD renamable $f2, 0, %stack.[[SLOT2:[0-9]+]] :: (store (s64) into %stack.[[SLOT2]])
; 32BIT-NEXT: renamable $r7 = LWZ 0, %stack.[[SLOT2]] :: (load (s32) from %stack.[[SLOT2]], align 8)
; 32BIT-NEXT: renamable $r8 = LWZ 4, %stack.[[SLOT2]] :: (load (s32) from %stack.[[SLOT2]] + 4)
; 32BIT-NEXT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT-NEXT: $r3 = LI 42
; 32BIT-NEXT: $r6 = LI 42
; 32BIT-NEXT: BL_NOP <mcsymbol .test_vararg[PR]>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit $f1, implicit $r4, implicit $r5, implicit killed $r6, implicit $f2, implicit $r7, implicit $r8, implicit $r2, implicit-def $r1
; 32BIT-NEXT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; ASM32PWR4: stwu 1, -80(1)
; ASM32PWR4-NEXT: lwz [[REG:[0-9]+]], L..C1(2)
; ASM32PWR4-NEXT: li 6, 42
; ASM32PWR4-NEXT: lfs 1, 0([[REG]])
; ASM32PWR4-NEXT: lwz [[REG:[0-9]+]], L..C2(2)
; ASM32PWR4-NEXT: stfd 1, 64(1)
; ASM32PWR4-NEXT: lfd 2, 0([[REG]])
; ASM32PWR4-NEXT: li 3, 42
; ASM32PWR4-NEXT: stfd 2, 72(1)
; ASM32PWR4-DAG: lwz 4, 64(1)
; ASM32PWR4-DAG: lwz 5, 68(1)
; ASM32PWR4-DAG: lwz 7, 72(1)
; ASM32PWR4-DAG: lwz 8, 76(1)
; ASM32PWR4-NEXT: bl .test_vararg[PR]
; ASM32PWR4-NEXT: nop
; 64BIT: renamable $x[[REG:[0-9]+]] = LDtoc @f1, $x2 :: (load (s64) from got)
; 64BIT-NEXT: renamable $f1 = LFS 0, killed renamable $x[[REG]] :: (dereferenceable load (s32) from @f1)
; 64BIT-NEXT: renamable $x[[REG:[0-9]+]] = LDtoc @d1, $x2 :: (load (s64) from got)
; 64BIT-NEXT: STFD renamable $f1, 0, %stack.[[SLOT1:[0-9]+]] :: (store (s64) into %stack.[[SLOT1]])
; 64BIT-NEXT: renamable $f2 = LFD 0, killed renamable $x[[REG]] :: (dereferenceable load (s64) from @d1)
; 64BIT-NEXT: renamable $x4 = LD 0, %stack.[[SLOT1]] :: (load (s64) from %stack.[[SLOT1]])
; 64BIT-NEXT: STFD renamable $f2, 0, %stack.[[SLOT2:[0-9]+]] :: (store (s64) into %stack.[[SLOT2]])
; 64BIT-NEXT: renamable $x6 = LD 0, %stack.[[SLOT2]] :: (load (s64) from %stack.[[SLOT2]])
; 64BIT-NEXT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT-NEXT: $x3 = LI8 42
; 64BIT-NEXT: $x5 = LI8 42
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_vararg[PR]>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit $f1, implicit $x4, implicit killed $x5, implicit $f2, implicit $x6, implicit $x2, implicit-def $r1
; 64BIT-NEXT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
; ASM64PWR4: stdu 1, -128(1)
; ASM64PWR4-NEXT: ld [[REG:[0-9]+]], L..C1(2)
; ASM64PWR4-NEXT: li 5, 42
; ASM64PWR4-NEXT: lfs 1, 0([[REG]])
; ASM64PWR4-NEXT: ld [[REG:[0-9]+]], L..C2(2)
; ASM64PWR4-NEXT: stfd 1, 112(1)
; ASM64PWR4-NEXT: lfd 2, 0([[REG]])
; ASM64PWR4-NEXT: li 3, 42
; ASM64PWR4-NEXT: stfd 2, 120(1)
; ASM64PWR4-NEXT: ld 4, 112(1)
; ASM64PWR4-NEXT: ld 6, 120(1)
; ASM64PWR4-NEXT: bl .test_vararg[PR]
; ASM64PWR4-NEXT: nop
define void @call_test_vararg3() {
entry:
%0 = load float, float* @f1, align 4
%conv = fpext float %0 to double
%1 = load double, double* @d1, align 8
call void (i32, ...) @test_vararg(i32 42, double %conv, i64 42, double %1)
ret void
}
; CHECK-LABEL: name: call_test_vararg3
; 32BIT: renamable $r[[REG:[0-9]+]] = LWZtoc @f1, $r2 :: (load (s32) from got)
; 32BIT-NEXT: renamable $f1 = LFS 0, killed renamable $r[[REG]] :: (dereferenceable load (s32) from @f1)
; 32BIT-NEXT: renamable $r[[REG:[0-9]+]] = LWZtoc @d1, $r2 :: (load (s32) from got)
; 32BIT-NEXT: STFD renamable $f1, 0, %stack.[[SLOT1:[0-9]+]] :: (store (s64) into %stack.[[SLOT1]])
; 32BIT-NEXT: renamable $r4 = LWZ 0, %stack.[[SLOT1]] :: (load (s32) from %stack.[[SLOT1]], align 8)
; 32BIT-NEXT: renamable $f2 = LFD 0, killed renamable $r[[REG]] :: (dereferenceable load (s64) from @d1)
; 32BIT-NEXT: renamable $r5 = LWZ 4, %stack.[[SLOT1]] :: (load (s32) from %stack.[[SLOT1]] + 4)
; 32BIT-NEXT: STFD renamable $f2, 0, %stack.[[SLOT2:[0-9]+]] :: (store (s64) into %stack.[[SLOT2]])
; 32BIT-NEXT: renamable $r8 = LWZ 0, %stack.[[SLOT2]] :: (load (s32) from %stack.[[SLOT2]], align 8)
; 32BIT-NEXT: renamable $r9 = LWZ 4, %stack.[[SLOT2]] :: (load (s32) from %stack.[[SLOT2]] + 4)
; 32BIT-NEXT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT-NEXT: $r3 = LI 42
; 32BIT-NEXT: $r6 = LI 0
; 32BIT-NEXT: $r7 = LI 42
; 32BIT-NEXT: BL_NOP <mcsymbol .test_vararg[PR]>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit $f1, implicit $r4, implicit $r5, implicit killed $r6, implicit killed $r7, implicit $f2, implicit $r8, implicit $r9, implicit $r2, implicit-def $r1
; 32BIT-NEXT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; ASM32PWR4: stwu 1, -80(1)
; ASM32PWR4-NEXT: lwz [[REG:[0-9]+]], L..C1(2)
; ASM32PWR4-DAG: li 6, 0
; ASM32PWR4-DAG: li 7, 42
; ASM32PWR4-NEXT: lfs 1, 0([[REG]])
; ASM32PWR4-NEXT: lwz [[REG:[0-9]+]], L..C2(2)
; ASM32PWR4-NEXT: stfd 1, 64(1)
; ASM32PWR4-NEXT: lfd 2, 0([[REG]])
; ASM32PWR4-NEXT: li 3, 42
; ASM32PWR4-NEXT: stfd 2, 72(1)
; ASM32PWR4-DAG: lwz 4, 64(1)
; ASM32PWR4-DAG: lwz 5, 68(1)
; ASM32PWR4-DAG: lwz 8, 72(1)
; ASM32PWR4-DAG: lwz 9, 76(1)
; ASM32PWR4-NEXT: bl .test_vararg[PR]
; ASM32PWR4-NEXT: nop
; 64BIT: renamable $x[[REG:[0-9]+]] = LDtoc @f1, $x2 :: (load (s64) from got)
; 64BIT-NEXT: renamable $f1 = LFS 0, killed renamable $x[[REG]] :: (dereferenceable load (s32) from @f1)
; 64BIT-NEXT: renamable $x[[REG:[0-9]+]] = LDtoc @d1, $x2 :: (load (s64) from got)
; 64BIT-NEXT: STFD renamable $f1, 0, %stack.[[SLOT1:[0-9]+]] :: (store (s64) into %stack.[[SLOT1]])
; 64BIT-NEXT: renamable $f2 = LFD 0, killed renamable $x[[REG]] :: (dereferenceable load (s64) from @d1)
; 64BIT-NEXT: renamable $x4 = LD 0, %stack.[[SLOT1]] :: (load (s64) from %stack.[[SLOT1]])
; 64BIT-NEXT: STFD renamable $f2, 0, %stack.[[SLOT2:[0-9]+]] :: (store (s64) into %stack.[[SLOT2]])
; 64BIT-NEXT: renamable $x6 = LD 0, %stack.[[SLOT2]] :: (load (s64) from %stack.[[SLOT2]])
; 64BIT-NEXT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT-NEXT: $x3 = LI8 42
; 64BIT-NEXT: $x5 = LI8 42
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_vararg[PR]>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit $f1, implicit $x4, implicit killed $x5, implicit $f2, implicit $x6, implicit $x2, implicit-def $r1
; 64BIT-NEXT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
; ASM64PWR4: stdu 1, -128(1)
; ASM64PWR4-NEXT: ld [[REG:[0-9]+]], L..C1(2)
; ASM64PWR4-NEXT: li 5, 42
; ASM64PWR4-NEXT: lfs 1, 0([[REG]])
; ASM64PWR4-NEXT: ld [[REG:[0-9]+]], L..C2(2)
; ASM64PWR4-NEXT: stfd 1, 112(1)
; ASM64PWR4-NEXT: lfd 2, 0([[REG]])
; ASM64PWR4-NEXT: li 3, 42
; ASM64PWR4-NEXT: stfd 2, 120(1)
; ASM64PWR4-DAG: ld 4, 112(1)
; ASM64PWR4-DAG: ld 6, 120(1)
; ASM64PWR4-NEXT: bl .test_vararg[PR]
; ASM64PWR4-NEXT: nop
define void @call_test_vararg4() {
entry:
%0 = load float, float* @f1, align 4
call void (i32, ...) @test_vararg(i32 42, float %0)
ret void
}
; CHECK-LABEL: name: call_test_vararg4
; 32BIT: renamable $r[[REG:[0-9]+]] = LWZtoc @f1, $r2 :: (load (s32) from got)
; 32BIT-NEXT: renamable $f1 = LFS 0, killed renamable $r[[REG]] :: (dereferenceable load (s32) from @f1)
; 32BIT-NEXT: STFS renamable $f1, 0, %stack.[[SLOT:[0-9]+]] :: (store (s32) into %stack.[[SLOT]])
; 32BIT-NEXT: renamable $r4 = LWZ 0, %stack.[[SLOT]] :: (load (s32) from %stack.[[SLOT]])
; 32BIT-NEXT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT-NEXT: $r3 = LI 42
; 32BIT-NEXT: BL_NOP <mcsymbol .test_vararg[PR]>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit $f1, implicit $r4, implicit $r2, implicit-def $r1
; 32BIT-NEXT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; ASM32PWR4: stwu 1, -64(1)
; ASM32PWR4-NEXT: lwz [[REG:[0-9]+]], L..C1(2)
; ASM32PWR4-NEXT: lfs 1, 0([[REG]])
; ASM32PWR4-NEXT: li 3, 42
; ASM32PWR4-NEXT: stfs 1, 60(1)
; ASM32PWR4-NEXT: lwz 4, 60(1)
; ASM32PWR4-NEXT: bl .test_vararg[PR]
; ASM32PWR4-NEXT: nop
; 64BIT: renamable $x[[REG:[0-9]+]] = LDtoc @f1, $x2 :: (load (s64) from got)
; 64BIT-NEXT: renamable $f1 = LFS 0, killed renamable $x[[REG]] :: (dereferenceable load (s32) from @f1)
; 64BIT-NEXT: STFS renamable $f1, 0, %stack.[[SLOT:[0-9]+]] :: (store (s32) into %stack.[[SLOT]])
; 64BIT-NEXT: renamable $x4 = LWZ8 0, %stack.[[SLOT]] :: (load (s32) from %stack.[[SLOT]])
; 64BIT-NEXT: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT-NEXT: $x3 = LI8 42
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_vararg[PR]>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit $f1, implicit $x4, implicit $x2, implicit-def $r1
; 64BIT-NEXT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
; ASM64PWR4: stdu 1, -128(1)
; ASM64PWR4-NEXT: ld [[REG:[0-9]+]], L..C1(2)
; ASM64PWR4-NEXT: lfs 1, 0([[REG]])
; ASM64PWR4-NEXT: li 3, 42
; ASM64PWR4-NEXT: stfs 1, 124(1)
; ASM64PWR4-NEXT: lwz 4, 124(1)
; ASM64PWR4-NEXT: bl .test_vararg[PR]
; ASM64PWR4-NEXT: nop
@c = common global i8 0, align 1
@si = common global i16 0, align 2
@i = common global i32 0, align 4
@lli = common global i64 0, align 8
@f = common global float 0.000000e+00, align 4
@d = common global double 0.000000e+00, align 8
; Basic saving of integral type arguments to the parameter save area.
define void @call_test_stackarg_int() {
entry:
%0 = load i8, i8* @c, align 1
%1 = load i16, i16* @si, align 2
%2 = load i32, i32* @i, align 4
%3 = load i64, i64* @lli, align 8
%4 = load i32, i32* @i, align 4
call void @test_stackarg_int(i32 1, i32 2, i32 3, i32 4, i32 5, i32 6, i32 7, i32 8, i8 zeroext %0, i16 signext %1, i32 %2, i64 %3, i32 %4)
ret void
}
declare void @test_stackarg_int(i32, i32, i32, i32, i32, i32, i32, i32, i8 zeroext, i16 signext, i32, i64, i32)
; CHECK-LABEL: name: call_test_stackarg_int{{.*}}
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; 32BIT-DAG: ADJCALLSTACKDOWN 80, 0, implicit-def dead $r1, implicit $r1
; 32BIT-DAG: $r3 = LI 1
; 32BIT-DAG: $r4 = LI 2
; 32BIT-DAG: $r5 = LI 3
; 32BIT-DAG: $r6 = LI 4
; 32BIT-DAG: $r7 = LI 5
; 32BIT-DAG: $r8 = LI 6
; 32BIT-DAG: $r9 = LI 7
; 32BIT-DAG: $r10 = LI 8
; 32BIT-DAG: renamable $r[[REGCADDR:[0-9]+]] = LWZtoc @c, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGC:[0-9]+]] = LBZ 0, killed renamable $r[[REGCADDR]] :: (dereferenceable load (s8) from @c)
; 32BIT-DAG: STW killed renamable $r[[REGC]], 56, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGSIADDR:[0-9]+]] = LWZtoc @si, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGSI:[0-9]+]] = LHA 0, killed renamable $r[[REGSIADDR]] :: (dereferenceable load (s16) from @si)
; 32BIT-DAG: STW killed renamable $r[[REGSI]], 60, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGIADDR:[0-9]+]] = LWZtoc @i, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGI:[0-9]+]] = LWZ 0, killed renamable $r[[REGIADDR]] :: (dereferenceable load (s32) from @i)
; 32BIT-DAG: STW killed renamable $r[[REGI]], 64, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGLLIADDR:[0-9]+]] = LWZtoc @lli, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGLLI1:[0-9]+]] = LWZ 0, renamable $r[[REGLLIADDR]] :: (dereferenceable load (s32) from @lli, align 8)
; 32BIT-DAG: STW killed renamable $r[[REGLLI1]], 68, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGLLI2:[0-9]+]] = LWZ 4, killed renamable $r[[REGLLIADDR]] :: (dereferenceable load (s32) from @lli + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REGLLI2]], 72, $r1 :: (store (s32))
; 32BIT-DAG: STW renamable $r[[REGI]], 76, $r1 :: (store (s32))
; 32BIT-NEXT: BL_NOP <mcsymbol .test_stackarg_int[PR]>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit $r4, implicit $r5, implicit $r6, implicit $r7, implicit $r8, implicit $r9, implicit $r10, implicit $r2, implicit-def $r1
; 32BIT-NEXT: ADJCALLSTACKUP 80, 0, implicit-def dead $r1, implicit $r1
; CHECKASM-LABEL: .call_test_stackarg_int:
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; ASM32PWR4: stwu 1, -80(1)
; ASM32PWR4-DAG: li 3, 1
; ASM32PWR4-DAG: li 4, 2
; ASM32PWR4-DAG: li 5, 3
; ASM32PWR4-DAG: li 6, 4
; ASM32PWR4-DAG: li 7, 5
; ASM32PWR4-DAG: li 8, 6
; ASM32PWR4-DAG: li 9, 7
; ASM32PWR4-DAG: li 10, 8
; ASM32PWR4-DAG: lwz [[REGCADDR:[0-9]+]], L..C6(2)
; ASM32PWR4-DAG: lbz [[REGC:[0-9]+]], 0([[REGCADDR]])
; ASM32PWR4-DAG: stw [[REGC]], 56(1)
; ASM32PWR4-DAG: lwz [[REGSIADDR:[0-9]+]], L..C4(2)
; ASM32PWR4-DAG: lha [[REGSI:[0-9]+]], 0([[REGSIADDR]])
; ASM32PWR4-DAG: stw [[REGSI]], 60(1)
; ASM32PWR4-DAG: lwz [[REGIADDR:[0-9]+]], L..C5(2)
; ASM32PWR4-DAG: lwz [[REGI:[0-9]+]], 0([[REGIADDR]])
; ASM32PWR4-DAG: stw [[REGI]], 64(1)
; ASM32PWR4-DAG: lwz [[REGLLIADDR:[0-9]+]], L..C7(2)
; ASM32PWR4-DAG: lwz [[REGLLI1:[0-9]+]], 0([[REGLLIADDR]])
; ASM32PWR4-DAG: stw [[REGLLI1]], 68(1)
; ASM32PWR4-DAG: lwz [[REGLLI2:[0-9]+]], 4([[REGLLIADDR]])
; ASM32PWR4-DAG: stw [[REGLLI2]], 72(1)
; ASM32PWR4-DAG: stw [[REGI]], 76(1)
; ASM32PWR4-NEXT: bl .test_stackarg_int[PR]
; ASM32PWR4-NEXT: nop
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; 64BIT-DAG: ADJCALLSTACKDOWN 152, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: $x3 = LI8 1
; 64BIT-DAG: $x4 = LI8 2
; 64BIT-DAG: $x5 = LI8 3
; 64BIT-DAG: $x6 = LI8 4
; 64BIT-DAG: $x7 = LI8 5
; 64BIT-DAG: $x8 = LI8 6
; 64BIT-DAG: $x9 = LI8 7
; 64BIT-DAG: $x10 = LI8 8
; 64BIT-DAG: renamable $x[[REGCADDR:[0-9]+]] = LDtoc @c, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGC:[0-9]+]] = LBZ8 0, killed renamable $x[[REGCADDR]] :: (dereferenceable load (s8) from @c)
; 64BIT-DAG: STD killed renamable $x[[REGC]], 112, $x1 :: (store (s64))
; 64BIT-DAG: renamable $x[[REGSIADDR:[0-9]+]] = LDtoc @si, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGSI:[0-9]+]] = LHA8 0, killed renamable $x[[REGSIADDR]] :: (dereferenceable load (s16) from @si)
; 64BIT-DAG: STD killed renamable $x[[REGSI]], 120, $x1 :: (store (s64))
; 64BIT-DAG: renamable $x[[REGIADDR:[0-9]+]] = LDtoc @i, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGI:[0-9]+]] = LWZ8 0, killed renamable $x[[REGIADDR]] :: (dereferenceable load (s32) from @i)
; 64BIT-DAG: STD killed renamable $x[[REGI]], 128, $x1 :: (store (s64))
; 64BIT-DAG: renamable $x[[REGLLIADDR:[0-9]+]] = LDtoc @lli, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGLLI:[0-9]+]] = LD 0, killed renamable $x[[REGLLIADDR]] :: (dereferenceable load (s64) from @lli)
; 64BIT-DAG: STD killed renamable $x[[REGLLI]], 136, $x1 :: (store (s64))
; 64BIT-DAG: STD renamable $x[[REGI]], 144, $x1 :: (store (s64))
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_stackarg_int[PR]>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit $x4, implicit $x5, implicit $x6, implicit $x7, implicit $x8, implicit $x9, implicit $x10, implicit $x2, implicit-def $r1
; 64BIT-NEXT: ADJCALLSTACKUP 152, 0, implicit-def dead $r1, implicit $r1
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; ASM64PWR4-DAG: stdu 1, -160(1)
; ASM64PWR4-DAG: li 3, 1
; ASM64PWR4-DAG: li 4, 2
; ASM64PWR4-DAG: li 5, 3
; ASM64PWR4-DAG: li 6, 4
; ASM64PWR4-DAG: li 7, 5
; ASM64PWR4-DAG: li 8, 6
; ASM64PWR4-DAG: li 9, 7
; ASM64PWR4-DAG: li 10, 8
; ASM64PWR4-DAG: ld [[REGCADDR:[0-9]+]], L..C5(2)
; ASM64PWR4-DAG: lbz [[REGC:[0-9]+]], 0([[REGCADDR]])
; ASM64PWR4-DAG: std [[REGC]], 112(1)
; ASM64PWR4-DAG: ld [[REGSIADDR:[0-9]+]], L..C3(2)
; ASM64PWR4-DAG: lha [[REGSI:[0-9]+]], 0([[REGSIADDR]])
; ASM64PWR4-DAG: std [[REGSI]], 120(1)
; ASM64PWR4-DAG: ld [[REGIADDR:[0-9]+]], L..C4(2)
; ASM64PWR4-DAG: lwz [[REGI:[0-9]+]], 0([[REGIADDR]])
; ASM64PWR4-DAG: std [[REGI]], 128(1)
; ASM64PWR4-DAG: ld [[REGLLIADDR:[0-9]+]], L..C6(2)
; ASM64PWR4-DAG: ld [[REGLLI:[0-9]+]], 0([[REGLLIADDR]])
; ASM64PWR4-DAG: std [[REGLLI]], 136(1)
; ASM64PWR4-DAG: std [[REGI]], 144(1)
; ASM64PWR4-NEXT: bl .test_stackarg_int[PR]
; ASM64PWR4-NEXT: nop
; Basic saving of floating point type arguments to the parameter save area.
; The float and double arguments will pass in both fpr as well as parameter save area.
define void @call_test_stackarg_float() {
entry:
%0 = load float, float* @f, align 4
%1 = load double, double* @d, align 8
call void @test_stackarg_float(i32 1, i32 2, i32 3, i32 4, i32 5, i32 6, i32 7, i32 8, float %0, double %1)
ret void
}
declare void @test_stackarg_float(i32, i32, i32, i32, i32, i32, i32, i32, float, double)
; CHECK-LABEL: name: call_test_stackarg_float
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; 32BIT-DAG: ADJCALLSTACKDOWN 68, 0, implicit-def dead $r1, implicit $r1
; 32BIT-DAG: $r3 = LI 1
; 32BIT-DAG: $r4 = LI 2
; 32BIT-DAG: $r5 = LI 3
; 32BIT-DAG: $r6 = LI 4
; 32BIT-DAG: $r7 = LI 5
; 32BIT-DAG: $r8 = LI 6
; 32BIT-DAG: $r9 = LI 7
; 32BIT-DAG: $r10 = LI 8
; 32BIT-DAG: renamable $r[[REGF:[0-9]+]] = LWZtoc @f, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $f1 = LFS 0, killed renamable $r[[REGF]] :: (dereferenceable load (s32) from @f)
; 32BIT-DAG: renamable $r[[REGD:[0-9]+]] = LWZtoc @d, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $f2 = LFD 0, killed renamable $r[[REGD]] :: (dereferenceable load (s64) from @d)
; 32BIT-DAG: STFS renamable $f1, 56, $r1 :: (store (s32))
; 32BIT-DAG: STFD renamable $f2, 60, $r1 :: (store (s64))
; 32BIT-NEXT: BL_NOP <mcsymbol .test_stackarg_float[PR]>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit $r4, implicit killed $r5, implicit killed $r6, implicit killed $r7, implicit killed $r8, implicit killed $r9, implicit killed $r10, implicit $f1, implicit $f2, implicit $r2, implicit-def $r1
; 32BIT-NEXT: ADJCALLSTACKUP 68, 0, implicit-def dead $r1, implicit $r1
; CHECKASM-LABEL: .call_test_stackarg_float:
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; ASM32PWR4: stwu 1, -80(1)
; ASM32PWR4-DAG: li 3, 1
; ASM32PWR4-DAG: li 4, 2
; ASM32PWR4-DAG: li 5, 3
; ASM32PWR4-DAG: li 6, 4
; ASM32PWR4-DAG: li 7, 5
; ASM32PWR4-DAG: li 8, 6
; ASM32PWR4-DAG: li 9, 7
; ASM32PWR4-DAG: li 10, 8
; ASM32PWR4-DAG: lwz [[REGF:[0-9]+]], L..C8(2)
; ASM32PWR4-DAG: lfs 1, 0([[REGF]])
; ASM32PWR4-DAG: lwz [[REGD:[0-9]+]], L..C9(2)
; ASM32PWR4-DAG: lfd 2, 0([[REGD:[0-9]+]])
; ASM32PWR4-DAG: stfs 1, 56(1)
; ASM32PWR4-DAG: stfd 2, 60(1)
; ASM32PWR4-NEXT: bl .test_stackarg_float[PR]
; ASM32PWR4-NEXT: nop
; ASM32PWR4-NEXT: addi 1, 1, 80
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; 64BIT-DAG: ADJCALLSTACKDOWN 128, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: $x3 = LI8 1
; 64BIT-DAG: $x4 = LI8 2
; 64BIT-DAG: $x5 = LI8 3
; 64BIT-DAG: $x6 = LI8 4
; 64BIT-DAG: $x7 = LI8 5
; 64BIT-DAG: $x8 = LI8 6
; 64BIT-DAG: $x9 = LI8 7
; 64BIT-DAG: $x10 = LI8 8
; 64BIT-DAG: renamable $x[[REGF:[0-9]+]] = LDtoc @f, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $f1 = LFS 0, killed renamable $x[[REGF]] :: (dereferenceable load (s32) from @f)
; 64BIT-DAG: renamable $x[[REGD:[0-9]+]] = LDtoc @d, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $f2 = LFD 0, killed renamable $x[[REGD]] :: (dereferenceable load (s64) from @d)
; 64BIT-DAG: STFS renamable $f1, 112, $x1 :: (store (s32))
; 64BIT-DAG: STFD renamable $f2, 120, $x1 :: (store (s64))
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_stackarg_float[PR]>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit $x4, implicit killed $x5, implicit killed $x6, implicit killed $x7, implicit killed $x8, implicit killed $x9, implicit killed $x10, implicit $f1, implicit $f2, implicit $x2, implicit-def $r1
; 64BIT-NEXT: ADJCALLSTACKUP 128, 0, implicit-def dead $r1, implicit $r1
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; ASM64PWR4: stdu 1, -128(1)
; ASM64PWR4-DAG: li 3, 1
; ASM64PWR4-DAG: li 4, 2
; ASM64PWR4-DAG: li 5, 3
; ASM64PWR4-DAG: li 6, 4
; ASM64PWR4-DAG: li 7, 5
; ASM64PWR4-DAG: li 8, 6
; ASM64PWR4-DAG: li 9, 7
; ASM64PWR4-DAG: li 10, 8
; ASM64PWR4-DAG: ld [[REGF:[0-9]+]], L..C7(2)
; ASM64PWR4-DAG: lfs 1, 0([[REGF]])
; ASM64PWR4-DAG: ld [[REGD:[0-9]+]], L..C8(2)
; ASM64PWR4-DAG: lfd 2, 0([[REGD]])
; ASM64PWR4-DAG: stfs 1, 112(1)
; ASM64PWR4-DAG: stfd 2, 120(1)
; ASM64PWR4-NEXT: bl .test_stackarg_float[PR]
; ASM64PWR4-NEXT: nop
; ASM64PWR4-NEXT: addi 1, 1, 128
define void @call_test_stackarg_float2() {
entry:
%0 = load double, double* @d, align 8
call void (i32, i32, i32, i32, i32, i32, ...) @test_stackarg_float2(i32 1, i32 2, i32 3, i32 4, i32 5, i32 6, double %0)
ret void
}
declare void @test_stackarg_float2(i32, i32, i32, i32, i32, i32, ...)
; CHECK-LABEL: name: call_test_stackarg_float2{{.*}}
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; 32BIT-DAG: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
; 32BIT-DAG: $r3 = LI 1
; 32BIT-DAG: $r4 = LI 2
; 32BIT-DAG: $r5 = LI 3
; 32BIT-DAG: $r6 = LI 4
; 32BIT-DAG: $r7 = LI 5
; 32BIT-DAG: $r8 = LI 6
; 32BIT-DAG: renamable $r[[REG:[0-9]+]] = LWZtoc @d, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $f1 = LFD 0, killed renamable $r[[REG]] :: (dereferenceable load (s64) from @d)
; 32BIT-DAG: STFD renamable $f1, 0, %stack.0 :: (store (s64) into %stack.0)
; 32BIT-DAG: renamable $r9 = LWZ 0, %stack.0 :: (load (s32) from %stack.0, align 8)
; 32BIT-DAG: renamable $r10 = LWZ 4, %stack.0 :: (load (s32) from %stack.0 + 4)
; 32BIT-NEXT: BL_NOP <mcsymbol .test_stackarg_float2[PR]>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit killed $r4, implicit killed $r5, implicit killed $r6, implicit killed $r7, implicit killed $r8, implicit $f1, implicit $r9, implicit $r10, implicit $r2, implicit-def $r1
; 32BIT-NEXT: ADJCALLSTACKUP 56, 0, implicit-def dead $r1, implicit $r1
; CHECKASM-LABEL: .call_test_stackarg_float2:
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; ASM32PWR4: stwu 1, -64(1)
; ASM32PWR4-DAG: li 3, 1
; ASM32PWR4-DAG: li 4, 2
; ASM32PWR4-DAG: li 5, 3
; ASM32PWR4-DAG: li 6, 4
; ASM32PWR4-DAG: li 7, 5
; ASM32PWR4-DAG: li 8, 6
; ASM32PWR4-DAG: lwz [[REG:[0-9]+]], L..C9(2)
; ASM32PWR4-DAG: lfd 1, 0([[REG]])
; ASM32PWR4-DAG: stfd 1, 56(1)
; ASM32PWR4-DAG: lwz 9, 56(1)
; ASM32PWR4-DAG: lwz 10, 60(1)
; ASM32PWR4-NEXT: bl .test_stackarg_float2[PR]
; ASM32PWR4-NEXT: nop
; ASM32PWR4-NEXT: addi 1, 1, 64
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; 64BIT-DAG: ADJCALLSTACKDOWN 112, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: $x3 = LI8 1
; 64BIT-DAG: $x4 = LI8 2
; 64BIT-DAG: $x5 = LI8 3
; 64BIT-DAG: $x6 = LI8 4
; 64BIT-DAG: $x7 = LI8 5
; 64BIT-DAG: $x8 = LI8 6
; 64BIT-DAG: renamable $x[[REG:[0-9]+]] = LDtoc @d, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $f1 = LFD 0, killed renamable $x[[REG]] :: (dereferenceable load (s64) from @d)
; 64BIT-DAG: STFD renamable $f1, 0, %stack.0 :: (store (s64) into %stack.0)
; 64BIT-DAG: renamable $x9 = LD 0, %stack.0 :: (load (s64) from %stack.0)
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_stackarg_float2[PR]>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit killed $x4, implicit killed $x5, implicit killed $x6, implicit killed $x7, implicit killed $x8, implicit $f1, implicit $x9, implicit $x2, implicit-def $r1
; 64BIT-NEXT: ADJCALLSTACKUP 112, 0, implicit-def dead $r1, implicit $r1
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; ASM64PWR4: stdu 1, -128(1)
; ASM64PWR4-DAG: li 3, 1
; ASM64PWR4-DAG: li 4, 2
; ASM64PWR4-DAG: li 5, 3
; ASM64PWR4-DAG: li 6, 4
; ASM64PWR4-DAG: li 7, 5
; ASM64PWR4-DAG: li 8, 6
; ASM64PWR4-DAG: ld [[REG:[0-9]+]], L..C8(2)
; ASM64PWR4-DAG: lfd 1, 0([[REG]])
; ASM64PWR4-DAG: stfd 1, 120(1)
; ASM64PWR4-DAG: ld 9, 120(1)
; ASM64PWR4-NEXT: bl .test_stackarg_float2[PR]
; ASM64PWR4-NEXT: nop
; ASM64PWR4-NEXT: addi 1, 1, 128
; A double arg will pass on the stack in PPC32 if there is only one available GPR.
define void @call_test_stackarg_float3() {
entry:
%0 = load double, double* @d, align 8
%1 = load float, float* @f, align 4
call void (i32, i32, i32, i32, i32, i32, i32, ...) @test_stackarg_float3(i32 1, i32 2, i32 3, i32 4, i32 5, i32 6, i32 7, double %0, float %1)
ret void
}
declare void @test_stackarg_float3(i32, i32, i32, i32, i32, i32, i32, ...)
; CHECK-LABEL: name: call_test_stackarg_float3{{.*}}
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; In 32-bit the double arg is written to memory because it cannot be fully stored in the last 32-bit GPR.
; 32BIT-DAG: ADJCALLSTACKDOWN 64, 0, implicit-def dead $r1, implicit $r1
; 32BIT-DAG: $r3 = LI 1
; 32BIT-DAG: $r4 = LI 2
; 32BIT-DAG: $r5 = LI 3
; 32BIT-DAG: $r6 = LI 4
; 32BIT-DAG: $r7 = LI 5
; 32BIT-DAG: $r8 = LI 6
; 32BIT-DAG: $r9 = LI 7
; 32BIT-DAG: renamable $r[[REGD:[0-9]+]] = LWZtoc @d, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $f1 = LFD 0, killed renamable $r[[REGD]] :: (dereferenceable load (s64) from @d)
; 32BIT-DAG: renamable $r[[REGF:[0-9]+]] = LWZtoc @f, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $f2 = LFS 0, killed renamable $r[[REGF]] :: (dereferenceable load (s32) from @f)
; 32BIT-DAG: STFD renamable $f1, 52, $r1 :: (store (s64))
; 32BIT-DAG: STFS renamable $f2, 60, $r1 :: (store (s32))
; 32BIT-DAG: STFD renamable $f1, 0, %stack.0 :: (store (s64) into %stack.0)
; 32BIT-DAG: renamable $r10 = LWZ 0, %stack.0 :: (load (s32) from %stack.0, align 8)
; 32BIT-NEXT: BL_NOP <mcsymbol .test_stackarg_float3[PR]>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit killed $r4, implicit killed $r5, implicit killed $r6, implicit killed $r7, implicit killed $r8, implicit killed $r9, implicit $f1, implicit $r10, implicit $f2, implicit $r2, implicit-def $r1
; 32BIT-NEXT: ADJCALLSTACKUP 64, 0, implicit-def dead $r1, implicit $r1
; CHECKASM-LABEL: .call_test_stackarg_float3:
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; ASM32PWR4: stwu 1, -80(1)
; ASM32PWR4-DAG: li 3, 1
; ASM32PWR4-DAG: li 4, 2
; ASM32PWR4-DAG: li 5, 3
; ASM32PWR4-DAG: li 6, 4
; ASM32PWR4-DAG: li 7, 5
; ASM32PWR4-DAG: li 8, 6
; ASM32PWR4-DAG: li 9, 7
; ASM32PWR4-DAG: lwz [[REGD:[0-9]+]], L..C9(2)
; ASM32PWR4-DAG: lfd 1, 0([[REGD]])
; ASM32PWR4-DAG: lwz [[REGF:[0-9]+]], L..C8(2)
; ASM32PWR4-DAG: lfs 2, 0([[REGF]])
; ASM32PWR4-DAG: stfd 1, 52(1)
; ASM32PWR4-DAG: stfs 2, 60(1)
; ASM32PWR4-DAG: stfd 1, 72(1)
; ASM32PWR4-DAG: lwz 10, 72(1)
; ASM32PWR4-NEXT: bl .test_stackarg_float3[PR]
; ASM32PWR4-NEXT: nop
; ASM32PWR4-NEXT: addi 1, 1, 80
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; In 64-bit the double arg is not written to memory because it is fully stored in the last 64-bit GPR.
; 64BIT-DAG: ADJCALLSTACKDOWN 120, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: $x3 = LI8 1
; 64BIT-DAG: $x4 = LI8 2
; 64BIT-DAG: $x5 = LI8 3
; 64BIT-DAG: $x6 = LI8 4
; 64BIT-DAG: $x7 = LI8 5
; 64BIT-DAG: $x8 = LI8 6
; 64BIT-DAG: $x9 = LI8 7
; 64BIT-DAG: renamable $x[[REGD:[0-9]+]] = LDtoc @d, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $f1 = LFD 0, killed renamable $x[[REGD]] :: (dereferenceable load (s64) from @d)
; 64BIT-DAG: renamable $x[[REGF:[0-9]+]] = LDtoc @f, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $f2 = LFS 0, killed renamable $x[[REGF]] :: (dereferenceable load (s32) from @f)
; 64BIT-DAG: STFS renamable $f2, 112, $x1 :: (store (s32))
; 64BIT-DAG: STFD renamable $f1, 0, %stack.0 :: (store (s64) into %stack.0)
; 64BIT-DAG: renamable $x10 = LD 0, %stack.0 :: (load (s64) from %stack.0)
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_stackarg_float3[PR]>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit killed $x4, implicit killed $x5, implicit killed $x6, implicit killed $x7, implicit killed $x8, implicit killed $x9, implicit $f1, implicit $x10, implicit $f2, implicit $x2, implicit-def $r1
; 64BIT-NEXT: ADJCALLSTACKUP 120, 0, implicit-def dead $r1, implicit $r1
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
; ASM64PWR4: stdu 1, -128(1)
; ASM64PWR4-DAG: li 3, 1
; ASM64PWR4-DAG: li 4, 2
; ASM64PWR4-DAG: li 5, 3
; ASM64PWR4-DAG: li 6, 4
; ASM64PWR4-DAG: li 7, 5
; ASM64PWR4-DAG: li 8, 6
; ASM64PWR4-DAG: li 9, 7
; ASM64PWR4-DAG: ld [[REGD:[0-9]+]], L..C8(2)
; ASM64PWR4-DAG: lfd 1, 0([[REGD]])
; ASM64PWR4-DAG: ld [[REGF:[0-9]+]], L..C7(2)
; ASM64PWR4-DAG: lfs 2, 0([[REGF]])
; ASM64PWR4-DAG: stfs 2, 112(1)
; ASM64PWR4-DAG: stfd 1, 120(1)
; ASM64PWR4-DAG: ld 10, 120(1)
; ASM64PWR4-NEXT: bl .test_stackarg_float3[PR]
; ASM64PWR4-NEXT: nop
; ASM64PWR4-NEXT: addi 1, 1, 128
define i64 @test_ints_stack(i32 %i1, i32 %i2, i32 %i3, i32 %i4, i32 %i5, i32 %i6, i32 %i7, i32 %i8, i64 %ll9, i16 signext %s10, i8 zeroext %c11, i32 %ui12, i32 %si13, i64 %ll14, i8 zeroext %uc15, i32 %i16) {
entry:
%add = add nsw i32 %i1, %i2
%add1 = add nsw i32 %add, %i3
%add2 = add nsw i32 %add1, %i4
%add3 = add nsw i32 %add2, %i5
%add4 = add nsw i32 %add3, %i6
%add5 = add nsw i32 %add4, %i7
%add6 = add nsw i32 %add5, %i8
%conv = sext i32 %add6 to i64
%add7 = add nsw i64 %conv, %ll9
%conv8 = sext i16 %s10 to i64
%add9 = add nsw i64 %add7, %conv8
%conv10 = zext i8 %c11 to i64
%add11 = add nsw i64 %add9, %conv10
%conv12 = zext i32 %ui12 to i64
%add13 = add nsw i64 %add11, %conv12
%conv14 = sext i32 %si13 to i64
%add15 = add nsw i64 %add13, %conv14
%add16 = add nsw i64 %add15, %ll14
%conv17 = zext i8 %uc15 to i64
%add18 = add nsw i64 %add16, %conv17
%conv19 = sext i32 %i16 to i64
%add20 = add nsw i64 %add18, %conv19
ret i64 %add20
}
; CHECK-LABEL: name: test_ints_stack
; 32BIT-LABEL: liveins:
; 32BIT-DAG: - { reg: '$r3', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r4', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r5', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r6', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r7', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r8', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r9', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r10', virtual-reg: '' }
; 32BIT-LABEL: fixedStack:
; 32BIT-DAG: - { id: 9, type: default, offset: 56, size: 4
; 32BIT-DAG: - { id: 8, type: default, offset: 60, size: 4
; 32BIT-DAG: - { id: 7, type: default, offset: 64, size: 4
; 32BIT-DAG: - { id: 6, type: default, offset: 68, size: 4
; 32BIT-DAG: - { id: 5, type: default, offset: 72, size: 4
; 32BIT-DAG: - { id: 4, type: default, offset: 76, size: 4
; 32BIT-DAG: - { id: 3, type: default, offset: 80, size: 4
; 32BIT-DAG: - { id: 2, type: default, offset: 84, size: 4
; 32BIT-DAG: - { id: 1, type: default, offset: 88, size: 4
; 32BIT-DAG: - { id: 0, type: default, offset: 92, size: 4
; 32BIT-LABEL: body: |
; 32BIT-DAG: bb.0.entry:
; 32BIT-DAG: liveins: $r3, $r4, $r5, $r6, $r7, $r8, $r9, $r10
; 64BIT-LABEL: liveins:
; 64BIT-DAG: - { reg: '$x3', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x4', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x5', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x6', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x7', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x8', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x9', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x10', virtual-reg: '' }
; 64BIT-LABEL: fixedStack:
; 64BIT-DAG: - { id: 7, type: default, offset: 112, size: 8
; 64BIT-DAG: - { id: 6, type: default, offset: 124, size: 4
; 64BIT-DAG: - { id: 5, type: default, offset: 132, size: 4
; 64BIT-DAG: - { id: 4, type: default, offset: 140, size: 4
; 64BIT-DAG: - { id: 3, type: default, offset: 148, size: 4
; 64BIT-DAG: - { id: 2, type: default, offset: 152, size: 8
; 64BIT-DAG: - { id: 1, type: default, offset: 164, size: 4
; 64BIT-DAG: - { id: 0, type: default, offset: 172, size: 4
; 64BIT-DAG: body: |
; 64BIT-DAG: bb.0.entry:
; 64BIT-DAG: liveins: $x3, $x4, $x5, $x6, $x7, $x8, $x9, $x10
; CHECKASM-LABEL: .test_ints_stack:
; ASM32PWR4-DAG: lwz [[REG1:[0-9]+]], 56(1)
; ASM32PWR4-DAG: lwz [[REG2:[0-9]+]], 60(1)
; ASM32PWR4-DAG: lwz [[REG3:[0-9]+]], 64(1)
; ASM32PWR4-DAG: lwz [[REG4:[0-9]+]], 68(1)
; ASM32PWR4-DAG: lwz [[REG5:[0-9]+]], 72(1)
; ASM32PWR4-DAG: lwz [[REG6:[0-9]+]], 76(1)
; ASM32PWR4-DAG: lwz [[REG7:[0-9]+]], 80(1)
; ASM32PWR4-DAG: lwz [[REG8:[0-9]+]], 84(1)
; ASM32PWR4-DAG: lwz [[REG9:[0-9]+]], 88(1)
; ASM32PWR4-DAG: lwz [[REG10:[0-9]+]], 92(1)
; ASM64PWR4-DAG: ld [[REG1:[0-9]+]], 112(1)
; ASM64PWR4-DAG: lwz [[REG2:[0-9]+]], 124(1)
; ASM64PWR4-DAG: lwz [[REG3:[0-9]+]], 132(1)
; ASM64PWR4-DAG: lwz [[REG4:[0-9]+]], 140(1)
; ASM64PWR4-DAG: lwa [[REG5:[0-9]+]], 148(1)
; ASM64PWR4-DAG: ld [[REG6:[0-9]+]], 152(1)
; ASM64PWR4-DAG: lwz [[REG7:[0-9]+]], 164(1)
; ASM64PWR4-DAG: lwa [[REG8:[0-9]+]], 172(1)
@ll1 = common global i64 0, align 8
@si1 = common global i16 0, align 2
@ch = common global i8 0, align 1
@ui = common global i32 0, align 4
@sint = common global i32 0, align 4
@ll2 = common global i64 0, align 8
@uc1 = common global i8 0, align 1
@i1 = common global i32 0, align 4
define void @caller_ints_stack() {
entry:
%0 = load i64, i64* @ll1, align 8
%1 = load i16, i16* @si1, align 2
%2 = load i8, i8* @ch, align 1
%3 = load i32, i32* @ui, align 4
%4 = load i32, i32* @sint, align 4
%5 = load i64, i64* @ll2, align 8
%6 = load i8, i8* @uc1, align 1
%7 = load i32, i32* @i1, align 4
%call = call i64 @test_ints_stack(i32 1, i32 2, i32 3, i32 4, i32 5, i32 6, i32 7, i32 8, i64 %0, i16 signext %1, i8 zeroext %2, i32 %3, i32 %4, i64 %5, i8 zeroext %6, i32 %7)
ret void
}
; CHECK-LABEL: name: caller_ints_stack
; 32BIT-DAG: $r3 = LI 1
; 32BIT-DAG: $r4 = LI 2
; 32BIT-DAG: $r5 = LI 3
; 32BIT-DAG: $r6 = LI 4
; 32BIT-DAG: $r7 = LI 5
; 32BIT-DAG: $r8 = LI 6
; 32BIT-DAG: $r9 = LI 7
; 32BIT-DAG: $r10 = LI 8
; 32BIT-DAG: renamable $r[[REGLL1ADDR:[0-9]+]] = LWZtoc @ll1, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGLL1A:[0-9]+]] = LWZ 0, renamable $r[[REGLL1ADDR]] :: (dereferenceable load (s32) from @ll1, align 8)
; 32BIT-DAG: renamable $r[[REGLL1B:[0-9]+]] = LWZ 4, killed renamable $r[[REGLL1ADDR]] :: (dereferenceable load (s32) from @ll1 + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REGLL1A]], 56, $r1 :: (store (s32))
; 32BIT-DAG: STW killed renamable $r[[REGLL1B]], 60, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGSIADDR:[0-9]+]] = LWZtoc @si1, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGSI:[0-9]+]] = LHA 0, killed renamable $r[[REGSIADDR]] :: (dereferenceable load (s16) from @si1)
; 32BIT-DAG: STW killed renamable $r[[REGSI]], 64, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGCHADDR:[0-9]+]] = LWZtoc @ch, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGCH:[0-9]+]] = LBZ 0, killed renamable $r[[REGCHADDR]] :: (dereferenceable load (s8) from @ch)
; 32BIT-DAG: STW killed renamable $r[[REGCH]], 68, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGUIADDR:[0-9]+]] = LWZtoc @ui, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGUI:[0-9]+]] = LWZ 0, killed renamable $r[[REGUIADDR]] :: (dereferenceable load (s32) from @ui)
; 32BIT-DAG: STW killed renamable $r[[REGUI]], 72, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGSIADDR:[0-9]+]] = LWZtoc @sint, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGSI:[0-9]+]] = LWZ 0, killed renamable $r[[REGSIADDR]] :: (dereferenceable load (s32) from @sint)
; 32BIT-DAG: STW killed renamable $r[[REGSI]], 76, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGLL2ADDR:[0-9]+]] = LWZtoc @ll2, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGLL2A:[0-9]+]] = LWZ 0, renamable $r[[REGLL2ADDR]] :: (dereferenceable load (s32) from @ll2, align 8)
; 32BIT-DAG: renamable $r[[REGLL2B:[0-9]+]] = LWZ 4, killed renamable $r[[REGLL2ADDR]] :: (dereferenceable load (s32) from @ll2 + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REGLL2A]], 80, $r1 :: (store (s32))
; 32BIT-DAG: STW killed renamable $r[[REGLL2B]], 84, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGUCADDR:[0-9]+]] = LWZtoc @uc1, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGUC:[0-9]+]] = LBZ 0, killed renamable $r[[REGUCADDR]] :: (dereferenceable load (s8) from @uc1)
; 32BIT-DAG: STW killed renamable $r[[REGUC]], 88, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGIADDR:[0-9]+]] = LWZtoc @i1, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[REGI:[0-9]+]] = LWZ 0, killed renamable $r[[REGIADDR]] :: (dereferenceable load (s32) from @i1)
; 32BIT-DAG: STW killed renamable $r[[REGI]], 92, $r1 :: (store (s32))
; 32BIT-DAG: ADJCALLSTACKDOWN 96, 0, implicit-def dead $r1, implicit $r1
; 32BIT-NEXT: BL_NOP <mcsymbol .test_ints_stack>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit $r4, implicit $r5, implicit $r6, implicit $r7, implicit $r8, implicit $r9, implicit $r10, implicit $r2, implicit-def $r1, implicit-def dead $r3
; 32BIT-NEXT: ADJCALLSTACKUP 96, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: $x3 = LI8 1
; 64BIT-DAG: $x4 = LI8 2
; 64BIT-DAG: $x5 = LI8 3
; 64BIT-DAG: $x6 = LI8 4
; 64BIT-DAG: $x7 = LI8 5
; 64BIT-DAG: $x8 = LI8 6
; 64BIT-DAG: $x9 = LI8 7
; 64BIT-DAG: $x10 = LI8 8
; 64BIT-DAG: renamable $x[[REGLL1ADDR:[0-9]+]] = LDtoc @ll1, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGLL1:[0-9]+]] = LD 0, killed renamable $x[[REGLL1ADDR]] :: (dereferenceable load (s64) from @ll1)
; 64BIT-DAG: STD killed renamable $x[[REGLL1]], 112, $x1 :: (store (s64))
; 64BIT-DAG: renamable $x[[REGSIADDR:[0-9]+]] = LDtoc @si1, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGSI:[0-9]+]] = LHA8 0, killed renamable $x[[REGSIADDR]] :: (dereferenceable load (s16) from @si1)
; 64BIT-DAG: STD killed renamable $x[[REGSI]], 120, $x1 :: (store (s64))
; 64BIT-DAG: renamable $x[[REGCHADDR:[0-9]+]] = LDtoc @ch, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGCH:[0-9]+]] = LBZ8 0, killed renamable $x[[REGCHADDR]] :: (dereferenceable load (s8) from @ch)
; 64BIT-DAG: STD killed renamable $x[[REGCH]], 128, $x1 :: (store (s64))
; 64BIT-DAG: renamable $x[[REGUIADDR:[0-9]+]] = LDtoc @ui, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGUI:[0-9]+]] = LWZ8 0, killed renamable $x[[REGUIADDR]] :: (dereferenceable load (s32) from @ui)
; 64BIT-DAG: STD killed renamable $x[[REGUI]], 136, $x1 :: (store (s64))
; 64BIT-DAG: renamable $x[[REGSIADDR:[0-9]+]] = LDtoc @sint, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGSI:[0-9]+]] = LWZ8 0, killed renamable $x[[REGSIADDR]] :: (dereferenceable load (s32) from @sint)
; 64BIT-DAG: STD killed renamable $x[[REGSI]], 144, $x1 :: (store (s64))
; 64BIT-DAG: renamable $x[[REGLL2ADDR:[0-9]+]] = LDtoc @ll2, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGLL2:[0-9]+]] = LD 0, killed renamable $x[[REGLL2ADDR]] :: (dereferenceable load (s64) from @ll2)
; 64BIT-DAG: STD killed renamable $x[[REGLL2]], 152, $x1 :: (store (s64))
; 64BIT-DAG: renamable $x[[REGUCADDR:[0-9]+]] = LDtoc @uc1, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGUC:[0-9]+]] = LBZ8 0, killed renamable $x[[REGUCADDR]] :: (dereferenceable load (s8) from @uc1)
; 64BIT-DAG: STD killed renamable $x[[REGUC]], 160, $x1 :: (store (s64))
; 64BIT-DAG: renamable $x[[REGIADDR:[0-9]+]] = LDtoc @i1, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGI:[0-9]+]] = LWZ8 0, killed renamable $x[[REGIADDR]] :: (dereferenceable load (s32) from @i1)
; 64BIT-DAG: STD killed renamable $x[[REGI]], 168, $x1 :: (store (s64))
; 64BIT-DAG: ADJCALLSTACKDOWN 176, 0, implicit-def dead $r1, implicit $r1
; 64BIT-NEXT: BL8_NOP <mcsymbol .test_ints_stack>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit $x4, implicit $x5, implicit $x6, implicit $x7, implicit $x8, implicit $x9, implicit $x10, implicit $x2, implicit-def $r1, implicit-def dead $x3
; 64BIT-NEXT: ADJCALLSTACKUP 176, 0, implicit-def dead $r1, implicit $r1
; 64BIT-NEXT: BLR8 implicit $lr8, implicit $rm
; CHECKASM-LABEL: .caller_ints_stack:
; ASM32PWR4: mflr 0
; ASM32PWR4-DAG: stw 0, 8(1)
; ASM32PWR4-DAG: stwu 1, -96(1)
; ASM32PWR4-DAG: li 3, 1
; ASM32PWR4-DAG: li 4, 2
; ASM32PWR4-DAG: li 5, 3
; ASM32PWR4-DAG: li 6, 4
; ASM32PWR4-DAG: li 7, 5
; ASM32PWR4-DAG: li 9, 7
; ASM32PWR4-DAG: li 8, 6
; ASM32PWR4-DAG: li 10, 8
; ASM32PWR4-DAG: lwz [[REG1:[0-9]+]], L..C10(2)
; ASM32PWR4-DAG: lwz [[REG2:[0-9]+]], L..C11(2)
; ASM32PWR4-DAG: lwz [[REG3:[0-9]+]], L..C12(2)
; ASM32PWR4-DAG: lwz [[REG4:[0-9]+]], L..C13(2)
; ASM32PWR4-DAG: lwz [[REG5:[0-9]+]], L..C14(2)
; ASM32PWR4-DAG: lwz [[REG6:[0-9]+]], L..C15(2)
; ASM32PWR4-DAG: lwz [[REG7:[0-9]+]], L..C16(2)
; ASM32PWR4-DAG: lwz [[REG8:[0-9]+]], L..C17(2)
; ASM32PWR4-DAG: lha 5, 0([[REG1]])
; ASM32PWR4-DAG: lwz 11, 0([[REG7]])
; ASM32PWR4-DAG: lwz 7, 4([[REG7]])
; ASM32PWR4-DAG: lbz 4, 0([[REG2]])
; ASM32PWR4-DAG: lwz 3, 0([[REG8]])
; ASM32PWR4-DAG: lwz 6, 0([[REG3]])
; ASM32PWR4-DAG: lwz 9, 0([[REG4]])
; ASM32PWR4-DAG: lwz 8, 4([[REG4]])
; ASM32PWR4-DAG: lbz 10, 0([[REG5]])
; ASM32PWR4-DAG: lwz 12, 0([[REG6]])
; ASM32PWR4-DAG: stw 11, 56(1)
; ASM32PWR4-DAG: stw 7, 60(1)
; ASM32PWR4-DAG: stw 5, 64(1)
; ASM32PWR4-DAG: stw 4, 68(1)
; ASM32PWR4-DAG: stw 3, 72(1)
; ASM32PWR4-DAG: stw 6, 76(1)
; ASM32PWR4-DAG: stw 9, 80(1)
; ASM32PWR4-DAG: stw 8, 84(1)
; ASM32PWR4-DAG: stw 10, 88(1)
; ASM32PWR4-DAG: stw 12, 92(1)
; ASM32PWR4-DAG: bl .test_ints_stack
; ASM32PWR4-DAG: nop
; ASM32PWR4-DAG: addi 1, 1, 96
; ASM32PWR4-DAG: lwz 0, 8(1)
; ASM32PWR4-NEXT: mtlr 0
; ASM32PWR4-NEXT: blr
; ASM64PWR4: mflr 0
; ASM64PWR4-DAG: std 0, 16(1)
; ASM64PWR4-DAG: stdu 1, -176(1)
; ASM64PWR4-DAG: li 3, 1
; ASM64PWR4-DAG: li 4, 2
; ASM64PWR4-DAG: li 5, 3
; ASM64PWR4-DAG: li 6, 4
; ASM64PWR4-DAG: li 7, 5
; ASM64PWR4-DAG: li 8, 6
; ASM64PWR4-DAG: li 9, 7
; ASM64PWR4-DAG: li 10, 8
; ASM64PWR4-DAG: ld [[REG1:[0-9]+]], L..C9(2)
; ASM64PWR4-DAG: ld [[REG2:[0-9]+]], L..C10(2)
; ASM64PWR4-DAG: ld [[REG3:[0-9]+]], L..C11(2)
; ASM64PWR4-DAG: ld [[REG4:[0-9]+]], L..C12(2)
; ASM64PWR4-DAG: ld [[REG5:[0-9]+]], L..C13(2)
; ASM64PWR4-DAG: ld [[REG6:[0-9]+]], L..C14(2)
; ASM64PWR4-DAG: ld [[REG7:[0-9]+]], L..C15(2)
; ASM64PWR4-DAG: ld [[REG8:[0-9]+]], L..C16(2)
; ASM64PWR4-DAG: lha 7, 0([[REG1]])
; ASM64PWR4-DAG: lbz 5, 0([[REG2]])
; ASM64PWR4-DAG: ld 6, 0([[REG3]])
; ASM64PWR4-DAG: lbz 8, 0([[REG4]])
; ASM64PWR4-DAG: lwz 9, 0([[REG5]])
; ASM64PWR4-DAG: ld 11, 0([[REG6]])
; ASM64PWR4-DAG: lwz 3, 0([[REG7]])
; ASM64PWR4-DAG: lwz 4, 0([[REG8]])
; ASM64PWR4-DAG: std 11, 112(1)
; ASM64PWR4-DAG: std 7, 120(1)
; ASM64PWR4-DAG: std 5, 128(1)
; ASM64PWR4-DAG: std 3, 136(1)
; ASM64PWR4-DAG: std 4, 144(1)
; ASM64PWR4-DAG: std 6, 152(1)
; ASM64PWR4-DAG: std 8, 160(1)
; ASM64PWR4-DAG: std 9, 168(1)
; ASM64PWR4-NEXT: bl .test_ints_stack
; ASM64PWR4-NEXT: nop
; ASM64PWR4-NEXT: addi 1, 1, 176
; ASM64PWR4-NEXT: ld 0, 16(1)
; ASM64PWR4-NEXT: mtlr 0
; ASM64PWR4-NEXT: blr
@globali1 = global i8 0, align 1
define void @test_i1_stack(i32 %a, i32 %c, i32 %d, i32 %e, i32 %f, i32 %g, i32 %h, i32 %i, i1 zeroext %b) {
entry:
%frombool = zext i1 %b to i8
store i8 %frombool, i8* @globali1, align 1
ret void
}
; CHECK-LABEL: name: test_i1_stack
; 32BIT-LABEL: fixedStack:
; 32BIT-DAG: - { id: 0, type: default, offset: 59, size: 1
; 32BIT-DAG: body: |
; 32BIT-DAG: bb.0.entry:
; 32BIT-DAG: renamable $r[[REGB:[0-9]+]] = LBZ 0, %fixed-stack.0 :: (load (s8) from %fixed-stack.0)
; 32BIT-DAG: renamable $r[[REGBTOC:[0-9]+]] = LWZtoc @globali1, $r2 :: (load (s32) from got)
; 32BIT-DAG: STB killed renamable $r[[REGB]], 0, killed renamable $r[[REGBTOC]] :: (store (s8) into @globali1)
; 64BIT-LABEL: fixedStack:
; 64BIT-DAG: - { id: 0, type: default, offset: 119, size: 1
; 64BIT-DAG: body: |
; 64BIT-DAG: bb.0.entry:
; 64BIT-DAG: renamable $r[[REGB:[0-9]+]] = LBZ 0, %fixed-stack.0 :: (load (s8) from %fixed-stack.0)
; 64BIT-DAG: renamable $x[[REGBTOC:[0-9]+]] = LDtoc @globali1, $x2 :: (load (s64) from got)
; 64BIT-DAG: STB killed renamable $r[[SCRATCHREG:[0-9]+]], 0, killed renamable $x[[REGBTOC]] :: (store (s8) into @globali1)
; 64BIT-DAG: BLR8 implicit $lr8, implicit $rm
; CHECKASM-LABEL: test_i1_stack:
; ASM32PWR4-DAG: lbz [[REGB:[0-9]+]], 59(1)
; ASM32PWR4-DAG: lwz [[REGBTOC:[0-9]+]], L..C18(2)
; ASM32PWR4-DAG: stb [[SCRATCHREG:[0-9]+]], 0([[REGBTOC]])
; ASM32PWR4-DAG: blr
; ASM64PWR4-DAG: lbz [[REGB:[0-9]+]], 119(1)
; ASM64PWR4-DAG: ld [[REGBTOC:[0-9]+]], L..C17(2)
; ASM64PWR4-DAG: stb [[SCRATCHREG:[0-9]+]], 0([[REGBTOC]])
; ASM64PWR4-DAG: blr
define void @call_test_i1_stack() {
entry:
call void @test_i1_stack(i32 1, i32 2, i32 3, i32 4, i32 5, i32 6, i32 7, i32 8, i1 true)
ret void
}
; CHECK-LABEL: name: call_test_i1_stack
; 32BIT-DAG: ADJCALLSTACKDOWN 60, 0, implicit-def dead $r1, implicit $r1
; 32BIT-DAG: $r3 = LI 1
; 32BIT-DAG: $r4 = LI 2
; 32BIT-DAG: $r5 = LI 3
; 32BIT-DAG: $r6 = LI 4
; 32BIT-DAG: $r7 = LI 5
; 32BIT-DAG: $r8 = LI 6
; 32BIT-DAG: $r9 = LI 7
; 32BIT-DAG: $r10 = LI 8
; 32BIT-DAG: renamable $r[[REGBOOLADDR:[0-9]+]] = LI 1
; 32BIT-DAG: STW killed renamable $r[[REGBOOLADDR]], 56, $r1 :: (store (s32))
; 32BIT-DAG: BL_NOP <mcsymbol .test_i1_stack>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit $r4, implicit $r5, implicit $r6, implicit $r7, implicit $r8, implicit $r9, implicit $r10, implicit $r2, implicit-def $r1
; 32BIT-DAG: ADJCALLSTACKUP 60, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: ADJCALLSTACKDOWN 120, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: $x3 = LI8 1
; 64BIT-DAG: $x4 = LI8 2
; 64BIT-DAG: $x5 = LI8 3
; 64BIT-DAG: $x6 = LI8 4
; 64BIT-DAG: $x7 = LI8 5
; 64BIT-DAG: $x8 = LI8 6
; 64BIT-DAG: $x9 = LI8 7
; 64BIT-DAG: $x10 = LI8 8
; 64BIT-DAG: renamable $x[[REGBOOLADDR:[0-9]+]] = LI8 1
; 64BIT-DAG: STD killed renamable $x[[REGBOOLADDR]], 112, $x1 :: (store (s64))
; 64BIT-DAG: BL8_NOP <mcsymbol .test_i1_stack>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit $x4, implicit $x5, implicit $x6, implicit $x7, implicit $x8, implicit $x9, implicit $x10, implicit $x2, implicit-def $r1
; 64BIT-DAG: ADJCALLSTACKUP 120, 0, implicit-def dead $r1, implicit $r1
; CHECKASM-LABEL: .call_test_i1_stack:
; ASM32PWR4-DAG: mflr 0
; ASM32PWR4-DAG: li 3, 1
; ASM32PWR4-DAG: li 4, 2
; ASM32PWR4-DAG: li 5, 3
; ASM32PWR4-DAG: li 6, 4
; ASM32PWR4-DAG: li 7, 5
; ASM32PWR4-DAG: li 8, 6
; ASM32PWR4-DAG: li 9, 7
; ASM32PWR4-DAG: li 10, 8
; ASM32PWR4-DAG: stw [[REGB:[0-9]+]], 56(1)
; ASM32PWR4-DAG: li [[REGB]], 1
; ASM32PWR4-DAG: bl .test_i1
define double @test_fpr_stack(double %d1, double %d2, double %d3, double %d4, double %d5, double %d6, double %d7, double %d8, double %d9, double %s10, double %l11, double %d12, double %d13, float %f14, double %d15, float %f16) {
entry:
%add = fadd double %d1, %d2
%add1 = fadd double %add, %d3
%add2 = fadd double %add1, %d4
%add3 = fadd double %add2, %d5
%add4 = fadd double %add3, %d6
%add5 = fadd double %add4, %d7
%add6 = fadd double %add5, %d8
%add7 = fadd double %add6, %d9
%add8 = fadd double %add7, %s10
%add9 = fadd double %add8, %l11
%add10 = fadd double %add9, %d12
%add11 = fadd double %add10, %d13
%add12 = fadd double %add11, %d13
%conv = fpext float %f14 to double
%add13 = fadd double %add12, %conv
%add14 = fadd double %add13, %d15
%conv15 = fpext float %f16 to double
%add16 = fadd double %add14, %conv15
ret double %add16
}
; CHECK-LABEL: name: test_fpr_stack{{.*}}
; CHECK-LABEL: liveins:
; CHECK-DAG: - { reg: '$f1', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f2', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f3', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f4', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f5', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f6', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f7', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f8', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f9', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f10', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f11', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f12', virtual-reg: '' }
; CHECK-DAG: - { reg: '$f13', virtual-reg: '' }
; CHECK-LABEL: fixedStack:
; 32BIT-DAG: - { id: 2, type: default, offset: 128, size: 4
; 32BIT-DAG: - { id: 1, type: default, offset: 132, size: 8
; 32BIT-DAG: - { id: 0, type: default, offset: 140, size: 4
; 64BIT-DAG: - { id: 2, type: default, offset: 152, size: 4
; 64BIT-DAG: - { id: 1, type: default, offset: 160, size: 8
; 64BIT-DAG: - { id: 0, type: default, offset: 168, size: 4
; CHECK-LABEL: body: |
; CHECK-DAG: bb.0.entry:
; CHECK-DAG: liveins: $f1, $f2, $f3, $f4, $f5, $f6, $f7, $f8, $f9, $f10, $f11, $f12, $f13
; CHECKASM-LABEL: .test_fpr_stack:
; ASM32PWR4-DAG: lfs [[REG1:[0-9]+]], 128(1)
; ASM32PWR4-DAG: lfd [[REG2:[0-9]+]], 132(1)
; ASM32PWR4-DAG: lfs [[REG3:[0-9]+]], 140(1)
; ASM32PWR4-DAG: fadd 0, 0, [[REG1]]
; ASM32PWR4-DAG: fadd 0, 0, [[REG2]]
; ASM32PWR4-DAG: fadd 1, 0, [[REG3]]
; ASM64PWR4-DAG: lfs [[REG1:[0-9]+]], 152(1)
; ASM64PWR4-DAG: lfd [[REG2:[0-9]+]], 160(1)
; ASM64PWR4-DAG: lfs [[REG3:[0-9]+]], 168(1)
; ASM64PWR4-DAG: fadd 0, 0, [[REG1]]
; ASM64PWR4-DAG: fadd 0, 0, [[REG2]]
; ASM64PWR4-DAG: fadd 1, 0, [[REG3]]
@f14 = common global float 0.000000e+00, align 4
@d15 = common global double 0.000000e+00, align 8
@f16 = common global float 0.000000e+00, align 4
define void @caller_fpr_stack() {
entry:
%0 = load float, float* @f14, align 4
%1 = load double, double* @d15, align 8
%2 = load float, float* @f16, align 4
%call = call double @test_fpr_stack(double 1.000000e-01, double 2.000000e-01, double 3.000000e-01, double 4.000000e-01, double 5.000000e-01, double 6.000000e-01, double 0x3FE6666666666666, double 8.000000e-01, double 9.000000e-01, double 1.000000e-01, double 1.100000e-01, double 1.200000e-01, double 1.300000e-01, float %0, double %1, float %2)
ret void
}
; CHECK-LABEL: caller_fpr_stack
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.0, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.1, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.2, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.3, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.4, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.5, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.6, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.7, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.8, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.9, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.10, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.11, $r2 :: (load (s32) from got)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 56, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 60, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 64, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 68, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 72, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 76, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 80, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW renamable $r[[SCRATCHREG:[0-9]+]], 84, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 88, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 92, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 96, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 100, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 104, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 108, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 112, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 116, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 120, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 124, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 128, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGF1:[0-9]+]] = LWZtoc @f14, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r3 = LWZ 0, killed renamable $r[[REGF1]] :: (load (s32) from @f14)
; 32BIT-DAG: STFD killed renamable $f0, 132, $r1 :: (store (s64))
; 32BIT-DAG: renamable $r[[REGD:[0-9]+]] = LWZtoc @d15, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $f0 = LFD 0, killed renamable $r[[REGD]] :: (dereferenceable load (s64) from @d15)
; 32BIT-DAG: STW killed renamable $r[[SCRATCHREG:[0-9]+]], 140, $r1 :: (store (s32))
; 32BIT-DAG: renamable $r[[REGF2:[0-9]+]] = LWZtoc @f16, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZ 0, killed renamable $r[[REGF2]] :: (load (s32) from @f16)
; 32BIT-DAG: renamable $f1 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $f2 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $f3 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $f4 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $f5 = LFS 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s32) from constant-pool)
; 32BIT-DAG: renamable $f6 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $f7 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $f8 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $f9 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: $f10 = COPY renamable $f1
; 32BIT-DAG: renamable $f11 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $f12 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $f13 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-NEXT: BL_NOP <mcsymbol .test_fpr_stack>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $f1, implicit $f2, implicit $f3, implicit $f4, implicit $f5, implicit $f6, implicit $f7, implicit $f8, implicit $f9, implicit killed $f10, implicit $f11, implicit $f12, implicit $f13, implicit $r2, implicit-def $r1, implicit-def dead $f1
; 32BIT-NEXT: ADJCALLSTACKUP 144, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.0, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.1, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.2, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.[[SCRATCHREG:[0-9]+]], $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.4, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.5, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.6, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.7, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.8, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.9, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.10, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[REGF1:[0-9]+]] = LDtoc @f14, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $r3 = LWZ 0, killed renamable $x[[REGF1]] :: (load (s32) from @f14)
; 64BIT-DAG: renamable $x[[REGF2:[0-9]+]] = LDtoc @f16, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $r5 = LWZ 0, killed renamable $x[[REGF2]] :: (load (s32) from @f16)
; 64BIT-DAG: renamable $x[[REGD:[0-9]+]] = LDtoc @d15, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x4 = LD 0, killed renamable $x[[REGD]] :: (load (s64) from @d15)
; 64BIT-DAG: ADJCALLSTACKDOWN 176, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: renamable $f1 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f2 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f[[SCRATCHREG:[0-9]+]] = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f4 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f5 = LFS 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s32) from constant-pool)
; 64BIT-DAG: renamable $f6 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f7 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f8 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f9 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: $f10 = COPY renamable $f1
; 64BIT-DAG: renamable $f11 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f12 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f13 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: BL8_NOP <mcsymbol .test_fpr_stack>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $f1, implicit $f2, implicit $f3, implicit $f4, implicit $f5, implicit $f6, implicit $f7, implicit $f8, implicit $f9, implicit killed $f10, implicit $f11, implicit $f12, implicit $f13, implicit $x2, implicit-def $r1, implicit-def dead $f1
; 64BIT-NEXT: ADJCALLSTACKUP 176, 0, implicit-def dead $r1, implicit $r1
; 64BIT-NEXT: BLR8 implicit $lr8, implicit $rm
; CHECKASM-LABEL: .caller_fpr_stack:
; ASM32PWR4: mflr 0
; ASM32PWR4-DAG: stw 0, 8(1)
; ASM32PWR4-DAG: stwu 1, -144(1)
; ASM32PWR4-DAG: lwz [[REGF1ADDR:[0-9]+]], L..C20(2)
; ASM32PWR4-DAG: lwz [[REGF1:[0-9]+]], 0([[REGF1ADDR]])
; ASM32PWR4-DAG: lwz [[REGDADDR:[0-9]+]], L..C19(2)
; ASM32PWR4-DAG: lfd [[REGD:[0-9]+]], 0([[REGDADDR]])
; ASM32PWR4-DAG: lwz [[REGF2ADDR:[0-9]+]], L..C21(2)
; ASM32PWR4-DAG: lwz [[REGF2:[0-9]+]], 0([[REGF2ADDR]])
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 56(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 60(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 64(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 68(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 72(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 76(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 80(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 84(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 88(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 92(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 96(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 100(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 108(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 104(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 112(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 116(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 120(1)
; ASM32PWR4-DAG: stw [[SCRATCHREG:[0-9]+]], 124(1)
; ASM32PWR4-DAG: stw [[REGF1]], 128(1)
; ASM32PWR4-DAG: stfd [[REGD]], 132(1)
; ASM32PWR4-DAG: stw [[REGF2]], 140(1)
; ASM32PWR4-NEXT: bl .test_fpr_stack
; ASM64PWR4: mflr 0
; ASM64PWR4-DAG: std 0, 16(1)
; ASM64PWR4-DAG: stdu 1, -176(1)
; ASM64PWR4-DAG: ld [[REGF1ADDR:[0-9]+]], L..C18(2)
; ASM64PWR4-DAG: lwz [[REGF1:[0-9]+]], 0([[REGF1ADDR]])
; ASM64PWR4-DAG: ld [[REGDADDR:[0-9]+]], L..C19(2)
; ASM64PWR4-DAG: ld [[REGD:[0-9]+]], 0([[REGDADDR]])
; ASM64PWR4-DAG: ld [[REGF2ADDR:[0-9]+]], L..C20(2)
; ASM64PWR4-DAG: lwz [[REGF2:[0-9]+]], 0([[REGF2ADDR]])
; ASM64PWR4-DAG: std [[SCRATCHREG:[0-9]+]], 112(1)
; ASM64PWR4-DAG: std [[SCRATCHREG:[0-9]+]], 120(1)
; ASM64PWR4-DAG: std [[SCRATCHREG:[0-9]+]], 128(1)
; ASM64PWR4-DAG: std [[SCRATCHREG:[0-9]+]], 136(1)
; ASM64PWR4-DAG: std [[SCRATCHREG:[0-9]+]], 144(1)
; ASM64PWR4-DAG: stw [[REGF1]], 152(1)
; ASM64PWR4-DAG: std [[REGD]], 160(1)
; ASM64PWR4-DAG: stw [[REGF2]], 168(1)
; ASM64PWR4-NEXT: bl .test_fpr_stack
define i32 @mix_callee(double %d1, double %d2, double %d3, double %d4, i8 zeroext %c1, i16 signext %s1, i64 %ll1, i32 %i1, i32 %i2, i32 %i3) {
entry:
%add = fadd double %d1, %d2
%add1 = fadd double %add, %d3
%add2 = fadd double %add1, %d4
%conv = zext i8 %c1 to i32
%conv3 = sext i16 %s1 to i32
%add4 = add nsw i32 %conv, %conv3
%conv5 = sext i32 %add4 to i64
%add6 = add nsw i64 %conv5, %ll1
%conv7 = sext i32 %i1 to i64
%add8 = add nsw i64 %add6, %conv7
%conv9 = sext i32 %i2 to i64
%add10 = add nsw i64 %add8, %conv9
%conv11 = sext i32 %i3 to i64
%add12 = add nsw i64 %add10, %conv11
%conv13 = trunc i64 %add12 to i32
%conv14 = sitofp i32 %conv13 to double
%add15 = fadd double %conv14, %add2
%conv16 = fptosi double %add15 to i32
ret i32 %conv16
}
; CHECK-LABEL: mix_callee
; 32BIT-LABEL: liveins:
; 32BIT-DAG: - { reg: '$f1', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f2', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f3', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f4', virtual-reg: '' }
; 32BIT-LABEL: fixedStack:
; 32BIT-DAG: - { id: 6, type: default, offset: 56, size: 4
; 32BIT-DAG: - { id: 5, type: default, offset: 60, size: 4
; 32BIT-DAG: - { id: 4, type: default, offset: 64, size: 4
; 32BIT-DAG: - { id: 3, type: default, offset: 68, size: 4
; 32BIT-DAG: - { id: 2, type: default, offset: 72, size: 4
; 32BIT-DAG: - { id: 1, type: default, offset: 76, size: 4
; 32BIT-DAG: - { id: 0, type: default, offset: 80, size: 4
; 32BIT-LABEL: body: |
; 32BIT-DAG: bb.0.entry:
; 32BIT-DAG: liveins: $f1, $f2, $f3, $f4
; 64BIT-LABEL: liveins:
; 64BIT-DAG: - { reg: '$f1', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f2', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f3', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f4', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x7', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x8', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x9', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x10', virtual-reg: '' }
; 64BIT-LABEL: fixedStack:
; 64BIT-DAG: - { id: 1, type: default, offset: 116, size: 4
; 64BIT-DAG: - { id: 0, type: default, offset: 124, size: 4
; 64BIT-LABEL: body: |
; 64BIT-DAG: bb.0.entry:
; 64BIT-DAG: liveins: $f1, $f2, $f3, $f4, $x7, $x8, $x9, $x10
; CHECKASM-LABEL: .mix_callee
; ASM32PWR4-DAG: lwz [[REG1:[0-9]+]], 56(1)
; ASM32PWR4-DAG: lwz [[REG2:[0-9]+]], 60(1)
; ASM32PWR4-DAG: lwz [[REG4:[0-9]+]], 68(1)
; ASM32PWR4-DAG: lwz [[REG5:[0-9]+]], 72(1)
; ASM32PWR4-DAG: lwz [[REG6:[0-9]+]], 76(1)
; ASM32PWR4-DAG: lwz [[REG7:[0-9]+]], 80(1)
; ASM32PWR4-DAG: blr
; ASM64PWR-DAG: ld [[REG1:[0-9]+]], 112(1)
; ASM64PWR-DAG: ld [[REG2:[0-9]+]], 120(1)
; ASM64PWR-DAG: fadd 0, 0, [[REG1]]
; ASM64PWR-DAG: add 3, 3, [[REG2]]
; ASM64PWR-DAG: blr
define void @caller_mix() {
entry:
%call = call i32 @mix_callee(double 1.000000e-01, double 2.000000e-01, double 3.000000e-01, double 4.000000e-01, i8 zeroext 1, i16 signext 2, i64 30000000, i32 40, i32 50, i32 60)
ret void
}
; CHECK-LABEL: name: caller_mix
; 32BIT-DAG: ADJCALLSTACKDOWN 84, 0, implicit-def dead $r1, implicit $r1
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.0, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $f1 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.1, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $f2 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.2, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $f3 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LWZtoc %const.3, $r2 :: (load (s32) from got)
; 32BIT-DAG: renamable $f4 = LFD 0, killed renamable $r[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LI 1
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LI 2
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LIS 457
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LI 0
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LI 40
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LI 50
; 32BIT-DAG: renamable $r[[SCRATCHREG:[0-9]+]] = LI 60
; 32BIT-DAG: STW killed renamable $r[[REG1:[0-9]+]], 56, $r1 :: (store (s32))
; 32BIT-DAG: STW killed renamable $r[[REG2:[0-9]+]], 60, $r1 :: (store (s32))
; 32BIT-DAG: STW killed renamable $r[[REG3:[0-9]+]], 64, $r1 :: (store (s32))
; 32BIT-DAG: STW killed renamable $r[[REG4:[0-9]+]], 68, $r1 :: (store (s32))
; 32BIT-DAG: STW killed renamable $r[[REG5:[0-9]+]], 72, $r1 :: (store (s32))
; 32BIT-DAG: STW killed renamable $r[[REG6:[0-9]+]], 76, $r1 :: (store (s32))
; 32BIT-DAG: STW killed renamable $r[[REG7:[0-9]+]], 80, $r1 :: (store (s32))
; 32BIT-DAG: BL_NOP <mcsymbol .mix_callee>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $f1, implicit $f2, implicit $f3, implicit $f4, implicit $r2, implicit-def $r1, implicit-def dead $r3
; 32BIT-DAG: ADJCALLSTACKUP 84, 0, implicit-def dead $r1, implicit $r1
; 32BIT-NEXT: BLR implicit $lr, implicit $rm
; 64BIT-DAG: ADJCALLSTACKDOWN 128, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.0, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.1, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.2, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LDtocCPT %const.3, $x2 :: (load (s64) from got)
; 64BIT-DAG: renamable $f1 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f2 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f3 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $f4 = LFD 0, killed renamable $x[[SCRATCHREG:[0-9]+]] :: (load (s64) from constant-pool)
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LI8 50
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LI8 60
; 64BIT-DAG: renamable $x[[SCRATCHREG:[0-9]+]] = LIS8 457
; 64BIT-DAG: $x7 = LI8 1
; 64BIT-DAG: $x8 = LI8 2
; 64BIT-DAG: $x10 = LI8 40
; 64BIT-DAG: STD killed renamable $x[[REG1:[0-9]+]], 112, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG2:[0-9]+]], 120, $x1 :: (store (s64))
; 64BIT: ADJCALLSTACKUP 128, 0, implicit-def dead $r1, implicit $r1
; 64BIT-NEXT: BLR8 implicit $lr8, implicit $rm
; CHEKASM-LABEL: .caller_mix
; ASM32PWR4: mflr 0
; ASM32PWR4-DAG: stw [[REG1:[0-9]+]], 56(1)
; ASM32PWR4-DAG: stw [[REG2:[0-9]+]], 60(1)
; ASM32PWR4-DAG: stw [[REG3:[0-9]+]], 64(1)
; ASM32PWR4-DAG: stw [[REG4:[0-9]+]], 68(1)
; ASM32PWR4-DAG: stw [[REG5:[0-9]+]], 72(1)
; ASM32PWR4-DAG: stw [[REG6:[0-9]+]], 76(1)
; ASM32PWR4-DAG: stw [[REG7:[0-9]+]], 80(1)
; ASM32PWR4-DAG: bl .mix_callee
; ASM32PWR4-DAG: blr
; ASM64PWR4: mflr 0
; ASM64PWR4-DAG: std [[REG1:[0-9]+]], 112(1)
; ASM64PWR4-DAG: std [[REG2:[0-9]+]], 120(1)
; ASM64PWR4-DAG: bl .mix_callee
; ASM64PWR4-DAG: blr
define i32 @mix_floats(i32 %i1, i32 %i2, i32 %i3, i32 %i4, i32 %i5, i32 %i6, i32 %i7, i32 %i8, double %d1, double %d2, double %d3, double %d4, double %d5, double %d6, double %d7, double %d8, double %d9, double %d10, double %d11, double %d12, double %d13, double %d14) {
entry:
%add = add nsw i32 %i1, %i2
%add1 = add nsw i32 %add, %i3
%add2 = add nsw i32 %add1, %i4
%add3 = add nsw i32 %add2, %i5
%add4 = add nsw i32 %add3, %i6
%add5 = add nsw i32 %add4, %i7
%add6 = add nsw i32 %add5, %i8
%conv = sitofp i32 %add6 to double
%add7 = fadd double %conv, %d1
%add8 = fadd double %add7, %d2
%add9 = fadd double %add8, %d3
%add10 = fadd double %add9, %d4
%add11 = fadd double %add10, %d5
%add12 = fadd double %add11, %d6
%add13 = fadd double %add12, %d7
%add14 = fadd double %add13, %d8
%add15 = fadd double %add14, %d9
%add16 = fadd double %add15, %d10
%add17 = fadd double %add16, %d11
%add18 = fadd double %add17, %d12
%add19 = fadd double %add18, %d13
%add20 = fadd double %add19, %d14
%conv21 = fptosi double %add20 to i32
ret i32 %conv21
}
; CHECK-LABEL: mix_floats
; 32BIT-LABEL: liveins:
; 32BIT-DAG: - { reg: '$r3', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r4', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r5', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r6', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r7', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r8', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r9', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$r10', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f1', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f2', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f3', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f4', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f5', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f6', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f7', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f8', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f9', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f10', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f11', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f12', virtual-reg: '' }
; 32BIT-DAG: - { reg: '$f13', virtual-reg: '' }
; 32BIT-LABEL: fixedStack:
; 32BIT-DAG: - { id: 0, type: default, offset: 160, size: 8
; 32BIT-LABEL: body: |
; 32BIT-DAG: bb.0.entry:
; 32BIT-DAG: liveins: $f1, $f2, $f3, $f4, $f5, $f6, $f7, $f8, $f9, $f10, $f11, $f12, $f13, $r3, $r4, $r5, $r6, $r7, $r8, $r9, $r10
; 64BIT-DAG: liveins:
; 64BIT-DAG: - { reg: '$x3', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x4', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x5', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x6', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x7', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x8', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x9', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$x10', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f1', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f2', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f3', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f4', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f5', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f6', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f7', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f8', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f9', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f10', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f11', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f12', virtual-reg: '' }
; 64BIT-DAG: - { reg: '$f13', virtual-reg: '' }
; 64BIT-LABEL: fixedStack:
; 64BIT-DAG: - { id: 0, type: default, offset: 216, size: 8
; 64BIT-LABEL: body: |
; 64BIT-DAG: bb.0.entry:
; 64BIT-DAG: liveins: $f1, $f2, $f3, $f4, $f5, $f6, $f7, $f8, $f9, $f10, $f11, $f12, $f13, $x3, $x4, $x5, $x6, $x7, $x8, $x9, $x10
; CHECKASM-LABEL: .mix_floats:
; ASM32PWR4-DAG: lfd [[REGF:[0-9]+]], 160(1)
; ASM32PWR4-DAG: fadd 0, 0, [[REGF]]
; ASM32PWR4-DAG: blr
; ASM64PWR4-DAG: lfd [[REG1:[0-9]+]], 216(1)
; ASM64PWR4-DAG: fadd 0, 0, [[REG1]]
; ASM64PWR4-DAG: blr
define void @mix_floats_caller() {
entry:
%call = call i32 @mix_floats(i32 1, i32 2, i32 3, i32 4, i32 5, i32 6, i32 7, i32 8, double 1.000000e-01, double 2.000000e-01, double 3.000000e-01, double 4.000000e-01, double 5.000000e-01, double 6.000000e-01, double 0x3FE6666666666666, double 8.000000e-01, double 9.000000e-01, double 1.000000e+00, double 1.100000e+00, double 1.200000e+00, double 1.300000e+00, double 1.400000e+00)
ret void
}
; CHECK-LABEL: mix_floats_caller
; 32BIT-DAG: ADJCALLSTACKDOWN 168, 0, implicit-def dead $r1, implicit $r1
; 32BIT-DAG: $r3 = LI 1
; 32BIT-DAG: $r4 = LI 2
; 32BIT-DAG: $r5 = LI 3
; 32BIT-DAG: $r6 = LI 4
; 32BIT-DAG: $r7 = LI 5
; 32BIT-DAG: $r8 = LI 6
; 32BIT-DAG: $r9 = LI 7
; 32BIT-DAG: $r10 = LI 8
; 32BIT-DAG: STW killed renamable $r[[REG1:[0-9]+]], 56, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW renamable $r[[REG2:[0-9]+]], 60, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG3:[0-9]+]], 64, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW renamable $r[[REG4:[0-9]+]], 68, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG5:[0-9]+]], 72, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW renamable $r[[REG6:[0-9]+]], 76, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG7:[0-9]+]], 80, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW renamable $r[[REG8:[0-9]+]], 84, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG9:[0-9]+]], 88, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW renamable $r[[REG10:[0-9]+]], 92, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG11:[0-9]+]], 96, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW renamable $r[[REG12:[0-9]+]], 100, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG13:[0-9]+]], 104, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW renamable $r[[REG14:[0-9]+]], 108, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG15:[0-9]+]], 112, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW renamable $r[[REG16:[0-9]+]], 116, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG17:[0-9]+]], 120, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[REG18:[0-9]+]], 128, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW renamable $r[[REG19:[0-9]+]], 124, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG20:[0-9]+]], 132, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG21:[0-9]+]], 136, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[REG22:[0-9]+]], 140, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG23:[0-9]+]], 144, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[REG24:[0-9]+]], 148, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG25:[0-9]+]], 152, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[REG26:[0-9]+]], 156, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-DAG: STW killed renamable $r[[REG27:[0-9]+]], 160, $r1 :: (store (s32), align 8)
; 32BIT-DAG: STW killed renamable $r[[REG28:[0-9]+]], 164, $r1 :: (store (s32) into unknown-address + 4, basealign 8)
; 32BIT-NEXT: BL_NOP <mcsymbol .mix_floats>, csr_aix32, implicit-def dead $lr, implicit $rm, implicit $r3, implicit $r4, implicit $r5, implicit $r6, implicit $r7, implicit $r8, implicit $r9, implicit $r10, implicit $f1, implicit $f2, implicit $f3, implicit $f4, implicit $f5, implicit $f6, implicit $f7, implicit $f8, implicit $f9, implicit $f10, implicit $f11, implicit $f12, implicit $f13, implicit $r2, implicit-def $r1, implicit-def dead $r3
; 32BIT-NEXT: ADJCALLSTACKUP 168, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: ADJCALLSTACKDOWN 224, 0, implicit-def dead $r1, implicit $r1
; 64BIT-DAG: $x3 = LI8 1
; 64BIT-DAG: $x4 = LI8 2
; 64BIT-DAG: $x5 = LI8 3
; 64BIT-DAG: $x6 = LI8 4
; 64BIT-DAG: $x7 = LI8 5
; 64BIT-DAG: $x8 = LI8 6
; 64BIT-DAG: $x9 = LI8 7
; 64BIT-DAG: $x10 = LI8 8
; 64BIT-DAG: STD killed renamable $x[[REG1:[0-9]+]], 112, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG2:[0-9]+]], 120, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG3:[0-9]+]], 128, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG4:[0-9]+]], 136, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG5:[0-9]+]], 144, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG6:[0-9]+]], 152, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG7:[0-9]+]], 160, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG8:[0-9]+]], 168, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG9:[0-9]+]], 176, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG10:[0-9]+]], 184, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG12:[0-9]+]], 192, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG13:[0-9]+]], 200, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG14:[0-9]+]], 208, $x1 :: (store (s64))
; 64BIT-DAG: STD killed renamable $x[[REG15:[0-9]+]], 216, $x1 :: (store (s64))
; 64BIT-DAG: BL8_NOP <mcsymbol .mix_floats>, csr_ppc64, implicit-def dead $lr8, implicit $rm, implicit $x3, implicit $x4, implicit $x5, implicit $x6, implicit $x7, implicit $x8, implicit $x9, implicit $x10, implicit $f1, implicit $f2, implicit $f3, implicit $f4, implicit $f5, implicit $f6, implicit $f7, implicit $f8, implicit $f9, implicit $f10, implicit $f11, implicit $f12, implicit $f13, implicit $x2, implicit-def $r1, implicit-def dead $x3
; 64BIT-NEXT: ADJCALLSTACKUP 224, 0, implicit-def dead $r1, implicit $r1
; CHEKASM-LABEL: .mix_floats_caller:
; ASM32PWR4: mflr 0
; ASM32PWR4-DAG: stw 0, 8(1)
; ASM32PWR4-DAG: stwu 1, -176(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 56(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 60(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 64(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 68(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 72(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 76(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 80(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 84(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 88(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 92(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 96(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 100(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 104(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 108(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 112(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 116(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 120(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 124(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 128(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 132(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 136(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 140(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 144(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 148(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 152(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 156(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 160(1)
; ASM32PWR4-DAG: stw [[REG:[0-9]+]], 164(1)
; ASM32PWR4: bl .mix_floats
; ASM64PWR4: mflr 0
; ASM64PWR4-DAG: std 0, 16(1)
; ASM64PWR4-DAG: stdu 1, -240(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 112(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 120(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 128(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 136(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 144(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 152(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 160(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 168(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 176(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 184(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 192(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 200(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 208(1)
; ASM64PWR4-DAG: std [[REG:[0-9]+]], 216(1)
; ASM64PWR4: bl .mix_floats