llvm/test/CodeGen/Mips/GlobalISel/irtranslator/aggregate_struct_return.ll - llvm-project - Git at Google

 ; NOTE: Assertions have been autogenerated by utils/update_mir_test_checks.py
 ; RUN: llc -O0 -mtriple=mipsel-linux-gnu -global-isel -stop-after=irtranslator -verify-machineinstrs %s -o - | FileCheck %s -check-prefixes=MIPS32

 define { float, float } @add_complex_float({ float, float }* %a, { float, float }* %b) {
   ; MIPS32-LABEL: name: add_complex_float
   ; MIPS32: bb.1.entry:
   ; MIPS32:   liveins: $a0, $a1
   ; MIPS32:   [[COPY:%[0-9]+]]:_(p0) = COPY $a0
   ; MIPS32:   [[COPY1:%[0-9]+]]:_(p0) = COPY $a1
   ; MIPS32:   [[DEF:%[0-9]+]]:_(s32) = G_IMPLICIT_DEF
   ; MIPS32:   [[COPY2:%[0-9]+]]:_(p0) = COPY [[COPY]](p0)
   ; MIPS32:   [[LOAD:%[0-9]+]]:_(s32) = G_LOAD [[COPY2]](p0) :: (load (s32) from %ir..realp)
   ; MIPS32:   [[C:%[0-9]+]]:_(s32) = G_CONSTANT i32 4
   ; MIPS32:   [[PTR_ADD:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY]], [[C]](s32)
   ; MIPS32:   [[LOAD1:%[0-9]+]]:_(s32) = G_LOAD [[PTR_ADD]](p0) :: (load (s32) from %ir..imagp)
   ; MIPS32:   [[COPY3:%[0-9]+]]:_(p0) = COPY [[COPY1]](p0)
   ; MIPS32:   [[LOAD2:%[0-9]+]]:_(s32) = G_LOAD [[COPY3]](p0) :: (load (s32) from %ir..realp1)
   ; MIPS32:   [[PTR_ADD1:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY1]], [[C]](s32)
   ; MIPS32:   [[LOAD3:%[0-9]+]]:_(s32) = G_LOAD [[PTR_ADD1]](p0) :: (load (s32) from %ir..imagp3)
   ; MIPS32:   [[FADD:%[0-9]+]]:_(s32) = G_FADD [[LOAD]], [[LOAD2]]
   ; MIPS32:   [[FADD1:%[0-9]+]]:_(s32) = G_FADD [[LOAD1]], [[LOAD3]]
   ; MIPS32:   $f0 = COPY [[FADD]](s32)
   ; MIPS32:   $f2 = COPY [[FADD1]](s32)
   ; MIPS32:   RetRA implicit $f0, implicit $f2
 entry:
   %.realp = getelementptr inbounds { float, float }, { float, float }* %a, i32 0, i32 0
   %.real = load float, float* %.realp, align 4
   %.imagp = getelementptr inbounds { float, float }, { float, float }* %a, i32 0, i32 1
   %.imag = load float, float* %.imagp, align 4
   %.realp1 = getelementptr inbounds { float, float }, { float, float }* %b, i32 0, i32 0
   %.real2 = load float, float* %.realp1, align 4
   %.imagp3 = getelementptr inbounds { float, float }, { float, float }* %b, i32 0, i32 1
   %.imag4 = load float, float* %.imagp3, align 4
   %add.r = fadd float %.real, %.real2
   %add.i = fadd float %.imag, %.imag4
   %.fca.0.insert = insertvalue { float, float } undef, float %add.r, 0
   %.fca.1.insert = insertvalue { float, float } %.fca.0.insert, float %add.i, 1
   ret { float, float } %.fca.1.insert
 }

 define { double, double } @add_complex_double({ double, double }* %a, { double, double }* %b) {
   ; MIPS32-LABEL: name: add_complex_double
   ; MIPS32: bb.1.entry:
   ; MIPS32:   liveins: $a0, $a1
   ; MIPS32:   [[COPY:%[0-9]+]]:_(p0) = COPY $a0
   ; MIPS32:   [[COPY1:%[0-9]+]]:_(p0) = COPY $a1
   ; MIPS32:   [[DEF:%[0-9]+]]:_(s64) = G_IMPLICIT_DEF
   ; MIPS32:   [[COPY2:%[0-9]+]]:_(p0) = COPY [[COPY]](p0)
   ; MIPS32:   [[LOAD:%[0-9]+]]:_(s64) = G_LOAD [[COPY2]](p0) :: (load (s64) from %ir..realp)
   ; MIPS32:   [[C:%[0-9]+]]:_(s32) = G_CONSTANT i32 8
   ; MIPS32:   [[PTR_ADD:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY]], [[C]](s32)
   ; MIPS32:   [[LOAD1:%[0-9]+]]:_(s64) = G_LOAD [[PTR_ADD]](p0) :: (load (s64) from %ir..imagp)
   ; MIPS32:   [[COPY3:%[0-9]+]]:_(p0) = COPY [[COPY1]](p0)
   ; MIPS32:   [[LOAD2:%[0-9]+]]:_(s64) = G_LOAD [[COPY3]](p0) :: (load (s64) from %ir..realp1)
   ; MIPS32:   [[PTR_ADD1:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY1]], [[C]](s32)
   ; MIPS32:   [[LOAD3:%[0-9]+]]:_(s64) = G_LOAD [[PTR_ADD1]](p0) :: (load (s64) from %ir..imagp3)
   ; MIPS32:   [[FADD:%[0-9]+]]:_(s64) = G_FADD [[LOAD]], [[LOAD2]]
   ; MIPS32:   [[FADD1:%[0-9]+]]:_(s64) = G_FADD [[LOAD1]], [[LOAD3]]
   ; MIPS32:   $d0 = COPY [[FADD]](s64)
   ; MIPS32:   $d1 = COPY [[FADD1]](s64)
   ; MIPS32:   RetRA implicit $d0, implicit $d1
 entry:
   %.realp = getelementptr inbounds { double, double }, { double, double }* %a, i32 0, i32 0
   %.real = load double, double* %.realp, align 8
   %.imagp = getelementptr inbounds { double, double }, { double, double }* %a, i32 0, i32 1
   %.imag = load double, double* %.imagp, align 8
   %.realp1 = getelementptr inbounds { double, double }, { double, double }* %b, i32 0, i32 0
   %.real2 = load double, double* %.realp1, align 8
   %.imagp3 = getelementptr inbounds { double, double }, { double, double }* %b, i32 0, i32 1
   %.imag4 = load double, double* %.imagp3, align 8
   %add.r = fadd double %.real, %.real2
   %add.i = fadd double %.imag, %.imag4
   %.fca.0.insert = insertvalue { double, double } undef, double %add.r, 0
   %.fca.1.insert = insertvalue { double, double } %.fca.0.insert, double %add.i, 1
   ret { double, double } %.fca.1.insert
 }

 declare { float, float } @ret_complex_float()
 define void @call_ret_complex_float({ float, float }* %z) {
   ; MIPS32-LABEL: name: call_ret_complex_float
   ; MIPS32: bb.1.entry:
   ; MIPS32:   liveins: $a0
   ; MIPS32:   [[COPY:%[0-9]+]]:_(p0) = COPY $a0
   ; MIPS32:   ADJCALLSTACKDOWN 16, 0, implicit-def $sp, implicit $sp
   ; MIPS32:   JAL @ret_complex_float, csr_o32, implicit-def $ra, implicit-def $sp, implicit-def $f0, implicit-def $f2
   ; MIPS32:   [[COPY1:%[0-9]+]]:_(s32) = COPY $f0
   ; MIPS32:   [[COPY2:%[0-9]+]]:_(s32) = COPY $f2
   ; MIPS32:   ADJCALLSTACKUP 16, 0, implicit-def $sp, implicit $sp
   ; MIPS32:   [[COPY3:%[0-9]+]]:_(p0) = COPY [[COPY]](p0)
   ; MIPS32:   [[C:%[0-9]+]]:_(s32) = G_CONSTANT i32 4
   ; MIPS32:   [[PTR_ADD:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY]], [[C]](s32)
   ; MIPS32:   G_STORE [[COPY1]](s32), [[COPY3]](p0) :: (store (s32) into %ir..realp)
   ; MIPS32:   G_STORE [[COPY2]](s32), [[PTR_ADD]](p0) :: (store (s32) into %ir..imagp)
   ; MIPS32:   RetRA
 entry:
   %call = call { float, float } @ret_complex_float()
   %0 = extractvalue { float, float } %call, 0
   %1 = extractvalue { float, float } %call, 1
   %.realp = getelementptr inbounds { float, float }, { float, float }* %z, i32 0, i32 0
   %.imagp = getelementptr inbounds { float, float }, { float, float }* %z, i32 0, i32 1
   store float %0, float* %.realp, align 4
   store float %1, float* %.imagp, align 4
   ret void
 }

 declare { double, double } @ret_complex_double()
 define void @call_ret_complex_double({ double, double }* %z) {
   ; MIPS32-LABEL: name: call_ret_complex_double
   ; MIPS32: bb.1.entry:
   ; MIPS32:   liveins: $a0
   ; MIPS32:   [[COPY:%[0-9]+]]:_(p0) = COPY $a0
   ; MIPS32:   ADJCALLSTACKDOWN 16, 0, implicit-def $sp, implicit $sp
   ; MIPS32:   JAL @ret_complex_double, csr_o32, implicit-def $ra, implicit-def $sp, implicit-def $d0, implicit-def $d1
   ; MIPS32:   [[COPY1:%[0-9]+]]:_(s64) = COPY $d0
   ; MIPS32:   [[COPY2:%[0-9]+]]:_(s64) = COPY $d1
   ; MIPS32:   ADJCALLSTACKUP 16, 0, implicit-def $sp, implicit $sp
   ; MIPS32:   [[COPY3:%[0-9]+]]:_(p0) = COPY [[COPY]](p0)
   ; MIPS32:   [[C:%[0-9]+]]:_(s32) = G_CONSTANT i32 8
   ; MIPS32:   [[PTR_ADD:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY]], [[C]](s32)
   ; MIPS32:   G_STORE [[COPY1]](s64), [[COPY3]](p0) :: (store (s64) into %ir..realp)
   ; MIPS32:   G_STORE [[COPY2]](s64), [[PTR_ADD]](p0) :: (store (s64) into %ir..imagp)
   ; MIPS32:   RetRA
 entry:
   %call = call { double, double } @ret_complex_double()
   %0 = extractvalue { double, double } %call, 0
   %1 = extractvalue { double, double } %call, 1
   %.realp = getelementptr inbounds { double, double }, { double, double }* %z, i32 0, i32 0
   %.imagp = getelementptr inbounds { double, double }, { double, double }* %z, i32 0, i32 1
   store double %0, double* %.realp, align 8
   store double %1, double* %.imagp, align 8
   ret void
 }
	; NOTE: Assertions have been autogenerated by utils/update_mir_test_checks.py
	; RUN: llc -O0 -mtriple=mipsel-linux-gnu -global-isel -stop-after=irtranslator -verify-machineinstrs %s -o - \| FileCheck %s -check-prefixes=MIPS32

	define { float, float } @add_complex_float({ float, float }* %a, { float, float }* %b) {
	; MIPS32-LABEL: name: add_complex_float
	; MIPS32: bb.1.entry:
	; MIPS32: liveins: $a0, $a1
	; MIPS32: [[COPY:%[0-9]+]]:_(p0) = COPY $a0
	; MIPS32: [[COPY1:%[0-9]+]]:_(p0) = COPY $a1
	; MIPS32: [[DEF:%[0-9]+]]:_(s32) = G_IMPLICIT_DEF
	; MIPS32: [[COPY2:%[0-9]+]]:_(p0) = COPY [[COPY]](p0)
	; MIPS32: [[LOAD:%[0-9]+]]:_(s32) = G_LOAD [[COPY2]](p0) :: (load (s32) from %ir..realp)
	; MIPS32: [[C:%[0-9]+]]:_(s32) = G_CONSTANT i32 4
	; MIPS32: [[PTR_ADD:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY]], [[C]](s32)
	; MIPS32: [[LOAD1:%[0-9]+]]:_(s32) = G_LOAD [[PTR_ADD]](p0) :: (load (s32) from %ir..imagp)
	; MIPS32: [[COPY3:%[0-9]+]]:_(p0) = COPY [[COPY1]](p0)
	; MIPS32: [[LOAD2:%[0-9]+]]:_(s32) = G_LOAD [[COPY3]](p0) :: (load (s32) from %ir..realp1)
	; MIPS32: [[PTR_ADD1:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY1]], [[C]](s32)
	; MIPS32: [[LOAD3:%[0-9]+]]:_(s32) = G_LOAD [[PTR_ADD1]](p0) :: (load (s32) from %ir..imagp3)
	; MIPS32: [[FADD:%[0-9]+]]:_(s32) = G_FADD [[LOAD]], [[LOAD2]]
	; MIPS32: [[FADD1:%[0-9]+]]:_(s32) = G_FADD [[LOAD1]], [[LOAD3]]
	; MIPS32: $f0 = COPY [[FADD]](s32)
	; MIPS32: $f2 = COPY [[FADD1]](s32)
	; MIPS32: RetRA implicit $f0, implicit $f2
	entry:
	%.realp = getelementptr inbounds { float, float }, { float, float }* %a, i32 0, i32 0
	%.real = load float, float* %.realp, align 4
	%.imagp = getelementptr inbounds { float, float }, { float, float }* %a, i32 0, i32 1
	%.imag = load float, float* %.imagp, align 4
	%.realp1 = getelementptr inbounds { float, float }, { float, float }* %b, i32 0, i32 0
	%.real2 = load float, float* %.realp1, align 4
	%.imagp3 = getelementptr inbounds { float, float }, { float, float }* %b, i32 0, i32 1
	%.imag4 = load float, float* %.imagp3, align 4
	%add.r = fadd float %.real, %.real2
	%add.i = fadd float %.imag, %.imag4
	%.fca.0.insert = insertvalue { float, float } undef, float %add.r, 0
	%.fca.1.insert = insertvalue { float, float } %.fca.0.insert, float %add.i, 1
	ret { float, float } %.fca.1.insert
	}

	define { double, double } @add_complex_double({ double, double }* %a, { double, double }* %b) {
	; MIPS32-LABEL: name: add_complex_double
	; MIPS32: bb.1.entry:
	; MIPS32: liveins: $a0, $a1
	; MIPS32: [[COPY:%[0-9]+]]:_(p0) = COPY $a0
	; MIPS32: [[COPY1:%[0-9]+]]:_(p0) = COPY $a1
	; MIPS32: [[DEF:%[0-9]+]]:_(s64) = G_IMPLICIT_DEF
	; MIPS32: [[COPY2:%[0-9]+]]:_(p0) = COPY [[COPY]](p0)
	; MIPS32: [[LOAD:%[0-9]+]]:_(s64) = G_LOAD [[COPY2]](p0) :: (load (s64) from %ir..realp)
	; MIPS32: [[C:%[0-9]+]]:_(s32) = G_CONSTANT i32 8
	; MIPS32: [[PTR_ADD:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY]], [[C]](s32)
	; MIPS32: [[LOAD1:%[0-9]+]]:_(s64) = G_LOAD [[PTR_ADD]](p0) :: (load (s64) from %ir..imagp)
	; MIPS32: [[COPY3:%[0-9]+]]:_(p0) = COPY [[COPY1]](p0)
	; MIPS32: [[LOAD2:%[0-9]+]]:_(s64) = G_LOAD [[COPY3]](p0) :: (load (s64) from %ir..realp1)
	; MIPS32: [[PTR_ADD1:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY1]], [[C]](s32)
	; MIPS32: [[LOAD3:%[0-9]+]]:_(s64) = G_LOAD [[PTR_ADD1]](p0) :: (load (s64) from %ir..imagp3)
	; MIPS32: [[FADD:%[0-9]+]]:_(s64) = G_FADD [[LOAD]], [[LOAD2]]
	; MIPS32: [[FADD1:%[0-9]+]]:_(s64) = G_FADD [[LOAD1]], [[LOAD3]]
	; MIPS32: $d0 = COPY [[FADD]](s64)
	; MIPS32: $d1 = COPY [[FADD1]](s64)
	; MIPS32: RetRA implicit $d0, implicit $d1
	entry:
	%.realp = getelementptr inbounds { double, double }, { double, double }* %a, i32 0, i32 0
	%.real = load double, double* %.realp, align 8
	%.imagp = getelementptr inbounds { double, double }, { double, double }* %a, i32 0, i32 1
	%.imag = load double, double* %.imagp, align 8
	%.realp1 = getelementptr inbounds { double, double }, { double, double }* %b, i32 0, i32 0
	%.real2 = load double, double* %.realp1, align 8
	%.imagp3 = getelementptr inbounds { double, double }, { double, double }* %b, i32 0, i32 1
	%.imag4 = load double, double* %.imagp3, align 8
	%add.r = fadd double %.real, %.real2
	%add.i = fadd double %.imag, %.imag4
	%.fca.0.insert = insertvalue { double, double } undef, double %add.r, 0
	%.fca.1.insert = insertvalue { double, double } %.fca.0.insert, double %add.i, 1
	ret { double, double } %.fca.1.insert
	}

	declare { float, float } @ret_complex_float()
	define void @call_ret_complex_float({ float, float }* %z) {
	; MIPS32-LABEL: name: call_ret_complex_float
	; MIPS32: bb.1.entry:
	; MIPS32: liveins: $a0
	; MIPS32: [[COPY:%[0-9]+]]:_(p0) = COPY $a0
	; MIPS32: ADJCALLSTACKDOWN 16, 0, implicit-def $sp, implicit $sp
	; MIPS32: JAL @ret_complex_float, csr_o32, implicit-def $ra, implicit-def $sp, implicit-def $f0, implicit-def $f2
	; MIPS32: [[COPY1:%[0-9]+]]:_(s32) = COPY $f0
	; MIPS32: [[COPY2:%[0-9]+]]:_(s32) = COPY $f2
	; MIPS32: ADJCALLSTACKUP 16, 0, implicit-def $sp, implicit $sp
	; MIPS32: [[COPY3:%[0-9]+]]:_(p0) = COPY [[COPY]](p0)
	; MIPS32: [[C:%[0-9]+]]:_(s32) = G_CONSTANT i32 4
	; MIPS32: [[PTR_ADD:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY]], [[C]](s32)
	; MIPS32: G_STORE [[COPY1]](s32), [[COPY3]](p0) :: (store (s32) into %ir..realp)
	; MIPS32: G_STORE [[COPY2]](s32), [[PTR_ADD]](p0) :: (store (s32) into %ir..imagp)
	; MIPS32: RetRA
	entry:
	%call = call { float, float } @ret_complex_float()
	%0 = extractvalue { float, float } %call, 0
	%1 = extractvalue { float, float } %call, 1
	%.realp = getelementptr inbounds { float, float }, { float, float }* %z, i32 0, i32 0
	%.imagp = getelementptr inbounds { float, float }, { float, float }* %z, i32 0, i32 1
	store float %0, float* %.realp, align 4
	store float %1, float* %.imagp, align 4
	ret void
	}

	declare { double, double } @ret_complex_double()
	define void @call_ret_complex_double({ double, double }* %z) {
	; MIPS32-LABEL: name: call_ret_complex_double
	; MIPS32: bb.1.entry:
	; MIPS32: liveins: $a0
	; MIPS32: [[COPY:%[0-9]+]]:_(p0) = COPY $a0
	; MIPS32: ADJCALLSTACKDOWN 16, 0, implicit-def $sp, implicit $sp
	; MIPS32: JAL @ret_complex_double, csr_o32, implicit-def $ra, implicit-def $sp, implicit-def $d0, implicit-def $d1
	; MIPS32: [[COPY1:%[0-9]+]]:_(s64) = COPY $d0
	; MIPS32: [[COPY2:%[0-9]+]]:_(s64) = COPY $d1
	; MIPS32: ADJCALLSTACKUP 16, 0, implicit-def $sp, implicit $sp
	; MIPS32: [[COPY3:%[0-9]+]]:_(p0) = COPY [[COPY]](p0)
	; MIPS32: [[C:%[0-9]+]]:_(s32) = G_CONSTANT i32 8
	; MIPS32: [[PTR_ADD:%[0-9]+]]:_(p0) = G_PTR_ADD [[COPY]], [[C]](s32)
	; MIPS32: G_STORE [[COPY1]](s64), [[COPY3]](p0) :: (store (s64) into %ir..realp)
	; MIPS32: G_STORE [[COPY2]](s64), [[PTR_ADD]](p0) :: (store (s64) into %ir..imagp)
	; MIPS32: RetRA
	entry:
	%call = call { double, double } @ret_complex_double()
	%0 = extractvalue { double, double } %call, 0
	%1 = extractvalue { double, double } %call, 1
	%.realp = getelementptr inbounds { double, double }, { double, double }* %z, i32 0, i32 0
	%.imagp = getelementptr inbounds { double, double }, { double, double }* %z, i32 0, i32 1
	store double %0, double* %.realp, align 8
	store double %1, double* %.imagp, align 8
	ret void
	}