; RUN: llc < %s -march=ppc64le -mcpu=pwr8 -mattr=+altivec -mattr=-vsx | FileCheck %s ; RUN: llc < %s -march=ppc64le -mattr=+altivec -mattr=-vsx | FileCheck %s ; Currently VSX support is disabled for this test because we generate lxsdx ; instead of lfd, and stxsdx instead of stfd. That is a poor choice when we ; have reg+imm addressing, and is on the list of things to be fixed. ; The second run step is to ensure that -march=ppc64le is adequate to select ; the same feature set as with -mcpu=pwr8 since that is the baseline for ppc64le. target datalayout = "e-m:e-i64:64-n32:64" target triple = "powerpc64le-unknown-linux-gnu" ; ; Verify use of registers for float/vector aggregate return. ; define [8 x float] @return_float([8 x float] %x) { entry: ret [8 x float] %x } ; CHECK-LABEL: @return_float ; CHECK: %entry ; CHECK-NEXT: blr define [8 x double] @return_double([8 x double] %x) { entry: ret [8 x double] %x } ; CHECK-LABEL: @return_double ; CHECK: %entry ; CHECK-NEXT: blr define [4 x ppc_fp128] @return_ppcf128([4 x ppc_fp128] %x) { entry: ret [4 x ppc_fp128] %x } ; CHECK-LABEL: @return_ppcf128 ; CHECK: %entry ; CHECK-NEXT: blr define [8 x <4 x i32>] @return_v4i32([8 x <4 x i32>] %x) { entry: ret [8 x <4 x i32>] %x } ; CHECK-LABEL: @return_v4i32 ; CHECK: %entry ; CHECK-NEXT: blr ; ; Verify amount of space taken up by aggregates in the parameter save area. ; define i64 @callee_float([7 x float] %a, [7 x float] %b, i64 %c) { entry: ret i64 %c } ; CHECK-LABEL: @callee_float ; CHECK: ld 3, 96(1) ; CHECK: blr define void @caller_float(i64 %x, [7 x float] %y) { entry: tail call void @test_float([7 x float] %y, [7 x float] %y, i64 %x) ret void } ; CHECK-LABEL: @caller_float ; CHECK: std 3, 96(1) ; CHECK: bl test_float declare void @test_float([7 x float], [7 x float], i64) define i64 @callee_double(i64 %a, [7 x double] %b, i64 %c) { entry: ret i64 %c } ; CHECK-LABEL: @callee_double ; CHECK: ld 3, 96(1) ; CHECK: blr define void @caller_double(i64 %x, [7 x double] %y) { entry: tail call void @test_double(i64 %x, [7 x double] %y, i64 %x) ret void } ; CHECK-LABEL: @caller_double ; CHECK: std 3, 96(1) ; CHECK: bl test_double declare void @test_double(i64, [7 x double], i64) define i64 @callee_ppcf128(i64 %a, [4 x ppc_fp128] %b, i64 %c) { entry: ret i64 %c } ; CHECK-LABEL: @callee_ppcf128 ; CHECK: ld 3, 104(1) ; CHECK: blr define void @caller_ppcf128(i64 %x, [4 x ppc_fp128] %y) { entry: tail call void @test_ppcf128(i64 %x, [4 x ppc_fp128] %y, i64 %x) ret void } ; CHECK-LABEL: @caller_ppcf128 ; CHECK: std 3, 104(1) ; CHECK: bl test_ppcf128 declare void @test_ppcf128(i64, [4 x ppc_fp128], i64) define i64 @callee_i64(i64 %a, [7 x i64] %b, i64 %c) { entry: ret i64 %c } ; CHECK-LABEL: @callee_i64 ; CHECK: ld 3, 96(1) ; CHECK: blr define void @caller_i64(i64 %x, [7 x i64] %y) { entry: tail call void @test_i64(i64 %x, [7 x i64] %y, i64 %x) ret void } ; CHECK-LABEL: @caller_i64 ; CHECK: std 3, 96(1) ; CHECK: bl test_i64 declare void @test_i64(i64, [7 x i64], i64) define i64 @callee_i128(i64 %a, [4 x i128] %b, i64 %c) { entry: ret i64 %c } ; CHECK-LABEL: @callee_i128 ; CHECK: ld 3, 112(1) ; CHECK: blr define void @caller_i128(i64 %x, [4 x i128] %y) { entry: tail call void @test_i128(i64 %x, [4 x i128] %y, i64 %x) ret void } ; CHECK-LABEL: @caller_i128 ; CHECK: std 3, 112(1) ; CHECK: bl test_i128 declare void @test_i128(i64, [4 x i128], i64) define i64 @callee_v4i32(i64 %a, [4 x <4 x i32>] %b, i64 %c) { entry: ret i64 %c } ; CHECK-LABEL: @callee_v4i32 ; CHECK: ld 3, 112(1) ; CHECK: blr define void @caller_v4i32(i64 %x, [4 x <4 x i32>] %y) { entry: tail call void @test_v4i32(i64 %x, [4 x <4 x i32>] %y, i64 %x) ret void } ; CHECK-LABEL: @caller_v4i32 ; CHECK: std 3, 112(1) ; CHECK: bl test_v4i32 declare void @test_v4i32(i64, [4 x <4 x i32>], i64) ; ; Verify handling of floating point arguments in GPRs ; %struct.float8 = type { [8 x float] } %struct.float5 = type { [5 x float] } %struct.float2 = type { [2 x float] } @g8 = common global %struct.float8 zeroinitializer, align 4 @g5 = common global %struct.float5 zeroinitializer, align 4 @g2 = common global %struct.float2 zeroinitializer, align 4 define float @callee0([7 x float] %a, [7 x float] %b) { entry: %b.extract = extractvalue [7 x float] %b, 6 ret float %b.extract } ; CHECK-LABEL: @callee0 ; CHECK: stw 10, [[OFF:.*]](1) ; CHECK: lfs 1, [[OFF]](1) ; CHECK: blr define void @caller0([7 x float] %a) { entry: tail call void @test0([7 x float] %a, [7 x float] %a) ret void } ; CHECK-LABEL: @caller0 ; CHECK-DAG: fmr 8, 1 ; CHECK-DAG: fmr 9, 2 ; CHECK-DAG: fmr 10, 3 ; CHECK-DAG: fmr 11, 4 ; CHECK-DAG: fmr 12, 5 ; CHECK-DAG: fmr 13, 6 ; CHECK-DAG: stfs 7, [[OFF:[0-9]+]](1) ; CHECK-DAG: lwz 10, [[OFF]](1) ; CHECK: bl test0 declare void @test0([7 x float], [7 x float]) define float @callee1([8 x float] %a, [8 x float] %b) { entry: %b.extract = extractvalue [8 x float] %b, 7 ret float %b.extract } ; CHECK-LABEL: @callee1 ; CHECK: rldicl [[REG:[0-9]+]], 10, 32, 32 ; CHECK: stw [[REG]], [[OFF:.*]](1) ; CHECK: lfs 1, [[OFF]](1) ; CHECK: blr define void @caller1([8 x float] %a) { entry: tail call void @test1([8 x float] %a, [8 x float] %a) ret void } ; CHECK-LABEL: @caller1 ; CHECK-DAG: fmr 9, 1 ; CHECK-DAG: fmr 10, 2 ; CHECK-DAG: fmr 11, 3 ; CHECK-DAG: fmr 12, 4 ; CHECK-DAG: fmr 13, 5 ; CHECK-DAG: stfs 5, [[OFF0:[0-9]+]](1) ; CHECK-DAG: stfs 6, [[OFF1:[0-9]+]](1) ; CHECK-DAG: stfs 7, [[OFF2:[0-9]+]](1) ; CHECK-DAG: stfs 8, [[OFF3:[0-9]+]](1) ; CHECK-DAG: lwz [[REG0:[0-9]+]], [[OFF0]](1) ; CHECK-DAG: lwz [[REG1:[0-9]+]], [[OFF1]](1) ; CHECK-DAG: lwz [[REG2:[0-9]+]], [[OFF2]](1) ; CHECK-DAG: lwz [[REG3:[0-9]+]], [[OFF3]](1) ; CHECK-DAG: sldi [[REG1]], [[REG1]], 32 ; CHECK-DAG: sldi [[REG3]], [[REG3]], 32 ; CHECK-DAG: or 9, [[REG0]], [[REG1]] ; CHECK-DAG: or 10, [[REG2]], [[REG3]] ; CHECK: bl test1 declare void @test1([8 x float], [8 x float]) define float @callee2([8 x float] %a, [5 x float] %b, [2 x float] %c) { entry: %c.extract = extractvalue [2 x float] %c, 1 ret float %c.extract } ; CHECK-LABEL: @callee2 ; CHECK: rldicl [[REG:[0-9]+]], 10, 32, 32 ; CHECK: stw [[REG]], [[OFF:.*]](1) ; CHECK: lfs 1, [[OFF]](1) ; CHECK: blr define void @caller2() { entry: %0 = load [8 x float]* getelementptr inbounds (%struct.float8* @g8, i64 0, i32 0), align 4 %1 = load [5 x float]* getelementptr inbounds (%struct.float5* @g5, i64 0, i32 0), align 4 %2 = load [2 x float]* getelementptr inbounds (%struct.float2* @g2, i64 0, i32 0), align 4 tail call void @test2([8 x float] %0, [5 x float] %1, [2 x float] %2) ret void } ; CHECK-LABEL: @caller2 ; CHECK: ld {{[0-9]+}}, .LC ; CHECK-DAG: lfs 1, 0({{[0-9]+}}) ; CHECK-DAG: lfs 2, 4({{[0-9]+}}) ; CHECK-DAG: lfs 3, 8({{[0-9]+}}) ; CHECK-DAG: lfs 4, 12({{[0-9]+}}) ; CHECK-DAG: lfs 5, 16({{[0-9]+}}) ; CHECK-DAG: lfs 6, 20({{[0-9]+}}) ; CHECK-DAG: lfs 7, 24({{[0-9]+}}) ; CHECK-DAG: lfs 8, 28({{[0-9]+}}) ; CHECK-DAG: lfs 9, 0({{[0-9]+}}) ; CHECK-DAG: lfs 10, 4({{[0-9]+}}) ; CHECK-DAG: lfs 11, 8({{[0-9]+}}) ; CHECK-DAG: lfs 12, 12({{[0-9]+}}) ; CHECK-DAG: lfs 13, 16({{[0-9]+}}) ; CHECK-DAG: lwz [[REG0:[0-9]+]], 0({{[0-9]+}}) ; CHECK-DAG: lwz [[REG1:[0-9]+]], 4({{[0-9]+}}) ; CHECK-DAG: sldi [[REG2:[0-9]+]], [[REG1]], 32 ; CHECK-DAG: or 10, [[REG0]], [[REG2]] ; CHECK: bl test2 declare void @test2([8 x float], [5 x float], [2 x float]) define double @callee3([8 x float] %a, [5 x float] %b, double %c) { entry: ret double %c } ; CHECK-LABEL: @callee3 ; CHECK: std 10, [[OFF:.*]](1) ; CHECK: lfd 1, [[OFF]](1) ; CHECK: blr define void @caller3(double %d) { entry: %0 = load [8 x float]* getelementptr inbounds (%struct.float8* @g8, i64 0, i32 0), align 4 %1 = load [5 x float]* getelementptr inbounds (%struct.float5* @g5, i64 0, i32 0), align 4 tail call void @test3([8 x float] %0, [5 x float] %1, double %d) ret void } ; CHECK-LABEL: @caller3 ; CHECK: stfd 1, [[OFF:.*]](1) ; CHECK: ld 10, [[OFF]](1) ; CHECK: bl test3 declare void @test3([8 x float], [5 x float], double) define float @callee4([8 x float] %a, [5 x float] %b, float %c) { entry: ret float %c } ; CHECK-LABEL: @callee4 ; CHECK: stw 10, [[OFF:.*]](1) ; CHECK: lfs 1, [[OFF]](1) ; CHECK: blr define void @caller4(float %f) { entry: %0 = load [8 x float]* getelementptr inbounds (%struct.float8* @g8, i64 0, i32 0), align 4 %1 = load [5 x float]* getelementptr inbounds (%struct.float5* @g5, i64 0, i32 0), align 4 tail call void @test4([8 x float] %0, [5 x float] %1, float %f) ret void } ; CHECK-LABEL: @caller4 ; CHECK: stfs 1, [[OFF:.*]](1) ; CHECK: lwz 10, [[OFF]](1) ; CHECK: bl test4 declare void @test4([8 x float], [5 x float], float)