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llvm-mirror/test/CodeGen/NVPTX/load-with-non-coherent-cache.ll
Bjarke Hammersholt Roune f7c0d778e2 [NVPTX] Use LDG for pointer induction variables.
More specifically, make NVPTXISelDAGToDAG able to emit cached loads (LDG) for pointer induction variables.

Also fix latent bug where LDG was not restricted to kernel functions. I believe that this could not be triggered so far since we do not currently infer that a pointer is global outside a kernel function, and only loads of global pointers are considered for cached loads.

llvm-svn: 244166
2015-08-05 23:11:57 +00:00

265 lines
8.5 KiB
LLVM

; RUN: llc < %s -march=nvptx64 -mcpu=sm_20 | FileCheck -check-prefix=SM20 %s
; RUN: llc < %s -march=nvptx64 -mcpu=sm_35 | FileCheck -check-prefix=SM35 %s
target datalayout = "e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v16:16:16-v32:32:32-v64:64:64-v128:128:128-n16:32:64"
target triple = "nvptx64-unknown-unknown"
; SM20-LABEL: .visible .entry foo1(
; SM20: ld.global.f32
; SM35-LABEL: .visible .entry foo1(
; SM35: ld.global.nc.f32
define void @foo1(float * noalias readonly %from, float * %to) {
%1 = load float, float * %from
store float %1, float * %to
ret void
}
; SM20-LABEL: .visible .entry foo2(
; SM20: ld.global.f64
; SM35-LABEL: .visible .entry foo2(
; SM35: ld.global.nc.f64
define void @foo2(double * noalias readonly %from, double * %to) {
%1 = load double, double * %from
store double %1, double * %to
ret void
}
; SM20-LABEL: .visible .entry foo3(
; SM20: ld.global.u16
; SM35-LABEL: .visible .entry foo3(
; SM35: ld.global.nc.u16
define void @foo3(i16 * noalias readonly %from, i16 * %to) {
%1 = load i16, i16 * %from
store i16 %1, i16 * %to
ret void
}
; SM20-LABEL: .visible .entry foo4(
; SM20: ld.global.u32
; SM35-LABEL: .visible .entry foo4(
; SM35: ld.global.nc.u32
define void @foo4(i32 * noalias readonly %from, i32 * %to) {
%1 = load i32, i32 * %from
store i32 %1, i32 * %to
ret void
}
; SM20-LABEL: .visible .entry foo5(
; SM20: ld.global.u64
; SM35-LABEL: .visible .entry foo5(
; SM35: ld.global.nc.u64
define void @foo5(i64 * noalias readonly %from, i64 * %to) {
%1 = load i64, i64 * %from
store i64 %1, i64 * %to
ret void
}
; i128 is non standard integer in nvptx64
; SM20-LABEL: .visible .entry foo6(
; SM20: ld.global.u64
; SM20: ld.global.u64
; SM35-LABEL: .visible .entry foo6(
; SM35: ld.global.nc.u64
; SM35: ld.global.nc.u64
define void @foo6(i128 * noalias readonly %from, i128 * %to) {
%1 = load i128, i128 * %from
store i128 %1, i128 * %to
ret void
}
; SM20-LABEL: .visible .entry foo7(
; SM20: ld.global.v2.u8
; SM35-LABEL: .visible .entry foo7(
; SM35: ld.global.nc.v2.u8
define void @foo7(<2 x i8> * noalias readonly %from, <2 x i8> * %to) {
%1 = load <2 x i8>, <2 x i8> * %from
store <2 x i8> %1, <2 x i8> * %to
ret void
}
; SM20-LABEL: .visible .entry foo8(
; SM20: ld.global.v2.u16
; SM35-LABEL: .visible .entry foo8(
; SM35: ld.global.nc.v2.u16
define void @foo8(<2 x i16> * noalias readonly %from, <2 x i16> * %to) {
%1 = load <2 x i16>, <2 x i16> * %from
store <2 x i16> %1, <2 x i16> * %to
ret void
}
; SM20-LABEL: .visible .entry foo9(
; SM20: ld.global.v2.u32
; SM35-LABEL: .visible .entry foo9(
; SM35: ld.global.nc.v2.u32
define void @foo9(<2 x i32> * noalias readonly %from, <2 x i32> * %to) {
%1 = load <2 x i32>, <2 x i32> * %from
store <2 x i32> %1, <2 x i32> * %to
ret void
}
; SM20-LABEL: .visible .entry foo10(
; SM20: ld.global.v2.u64
; SM35-LABEL: .visible .entry foo10(
; SM35: ld.global.nc.v2.u64
define void @foo10(<2 x i64> * noalias readonly %from, <2 x i64> * %to) {
%1 = load <2 x i64>, <2 x i64> * %from
store <2 x i64> %1, <2 x i64> * %to
ret void
}
; SM20-LABEL: .visible .entry foo11(
; SM20: ld.global.v2.f32
; SM35-LABEL: .visible .entry foo11(
; SM35: ld.global.nc.v2.f32
define void @foo11(<2 x float> * noalias readonly %from, <2 x float> * %to) {
%1 = load <2 x float>, <2 x float> * %from
store <2 x float> %1, <2 x float> * %to
ret void
}
; SM20-LABEL: .visible .entry foo12(
; SM20: ld.global.v2.f64
; SM35-LABEL: .visible .entry foo12(
; SM35: ld.global.nc.v2.f64
define void @foo12(<2 x double> * noalias readonly %from, <2 x double> * %to) {
%1 = load <2 x double>, <2 x double> * %from
store <2 x double> %1, <2 x double> * %to
ret void
}
; SM20-LABEL: .visible .entry foo13(
; SM20: ld.global.v4.u8
; SM35-LABEL: .visible .entry foo13(
; SM35: ld.global.nc.v4.u8
define void @foo13(<4 x i8> * noalias readonly %from, <4 x i8> * %to) {
%1 = load <4 x i8>, <4 x i8> * %from
store <4 x i8> %1, <4 x i8> * %to
ret void
}
; SM20-LABEL: .visible .entry foo14(
; SM20: ld.global.v4.u16
; SM35-LABEL: .visible .entry foo14(
; SM35: ld.global.nc.v4.u16
define void @foo14(<4 x i16> * noalias readonly %from, <4 x i16> * %to) {
%1 = load <4 x i16>, <4 x i16> * %from
store <4 x i16> %1, <4 x i16> * %to
ret void
}
; SM20-LABEL: .visible .entry foo15(
; SM20: ld.global.v4.u32
; SM35-LABEL: .visible .entry foo15(
; SM35: ld.global.nc.v4.u32
define void @foo15(<4 x i32> * noalias readonly %from, <4 x i32> * %to) {
%1 = load <4 x i32>, <4 x i32> * %from
store <4 x i32> %1, <4 x i32> * %to
ret void
}
; SM20-LABEL: .visible .entry foo16(
; SM20: ld.global.v4.f32
; SM35-LABEL: .visible .entry foo16(
; SM35: ld.global.nc.v4.f32
define void @foo16(<4 x float> * noalias readonly %from, <4 x float> * %to) {
%1 = load <4 x float>, <4 x float> * %from
store <4 x float> %1, <4 x float> * %to
ret void
}
; SM20-LABEL: .visible .entry foo17(
; SM20: ld.global.v2.f64
; SM20: ld.global.v2.f64
; SM35-LABEL: .visible .entry foo17(
; SM35: ld.global.nc.v2.f64
; SM35: ld.global.nc.v2.f64
define void @foo17(<4 x double> * noalias readonly %from, <4 x double> * %to) {
%1 = load <4 x double>, <4 x double> * %from
store <4 x double> %1, <4 x double> * %to
ret void
}
; SM20-LABEL: .visible .entry foo18(
; SM20: ld.global.u64
; SM35-LABEL: .visible .entry foo18(
; SM35: ld.global.nc.u64
define void @foo18(float ** noalias readonly %from, float ** %to) {
%1 = load float *, float ** %from
store float * %1, float ** %to
ret void
}
; Test that we can infer a cached load for a pointer induction variable.
; SM20-LABEL: .visible .entry foo19(
; SM20: ld.global.f32
; SM35-LABEL: .visible .entry foo19(
; SM35: ld.global.nc.f32
define void @foo19(float * noalias readonly %from, float * %to, i32 %n) {
entry:
br label %loop
loop:
%i = phi i32 [ 0, %entry ], [ %nexti, %loop ]
%sum = phi float [ 0.0, %entry ], [ %nextsum, %loop ]
%ptr = getelementptr inbounds float, float * %from, i32 %i
%value = load float, float * %ptr, align 4
%nextsum = fadd float %value, %sum
%nexti = add nsw i32 %i, 1
%exitcond = icmp eq i32 %nexti, %n
br i1 %exitcond, label %exit, label %loop
exit:
store float %nextsum, float * %to
ret void
}
; This test captures the case of a non-kernel function. In a
; non-kernel function, without interprocedural analysis, we do not
; know that the parameter is global. We also do not know that the
; pointed-to memory is never written to (for the duration of the
; kernel). For both reasons, we cannot use a cached load here.
; SM20-LABEL: notkernel(
; SM20: ld.f32
; SM35-LABEL: notkernel(
; SM35: ld.f32
define void @notkernel(float * noalias readonly %from, float * %to) {
%1 = load float, float * %from
store float %1, float * %to
ret void
}
; As @notkernel, but with the parameter explicitly marked as global. We still
; do not know that the parameter is never written to (for the duration of the
; kernel). This case does not currently come up normally since we do not infer
; that pointers are global interprocedurally as of 2015-08-05.
; SM20-LABEL: notkernel2(
; SM20: ld.global.f32
; SM35-LABEL: notkernel2(
; SM35: ld.global.f32
define void @notkernel2(float addrspace(1) * noalias readonly %from, float * %to) {
%1 = load float, float addrspace(1) * %from
store float %1, float * %to
ret void
}
!nvvm.annotations = !{!1 ,!2 ,!3 ,!4 ,!5 ,!6, !7 ,!8 ,!9 ,!10 ,!11 ,!12, !13, !14, !15, !16, !17, !18, !19}
!1 = !{void (float *, float *)* @foo1, !"kernel", i32 1}
!2 = !{void (double *, double *)* @foo2, !"kernel", i32 1}
!3 = !{void (i16 *, i16 *)* @foo3, !"kernel", i32 1}
!4 = !{void (i32 *, i32 *)* @foo4, !"kernel", i32 1}
!5 = !{void (i64 *, i64 *)* @foo5, !"kernel", i32 1}
!6 = !{void (i128 *, i128 *)* @foo6, !"kernel", i32 1}
!7 = !{void (<2 x i8> *, <2 x i8> *)* @foo7, !"kernel", i32 1}
!8 = !{void (<2 x i16> *, <2 x i16> *)* @foo8, !"kernel", i32 1}
!9 = !{void (<2 x i32> *, <2 x i32> *)* @foo9, !"kernel", i32 1}
!10 = !{void (<2 x i64> *, <2 x i64> *)* @foo10, !"kernel", i32 1}
!11 = !{void (<2 x float> *, <2 x float> *)* @foo11, !"kernel", i32 1}
!12 = !{void (<2 x double> *, <2 x double> *)* @foo12, !"kernel", i32 1}
!13 = !{void (<4 x i8> *, <4 x i8> *)* @foo13, !"kernel", i32 1}
!14 = !{void (<4 x i16> *, <4 x i16> *)* @foo14, !"kernel", i32 1}
!15 = !{void (<4 x i32> *, <4 x i32> *)* @foo15, !"kernel", i32 1}
!16 = !{void (<4 x float> *, <4 x float> *)* @foo16, !"kernel", i32 1}
!17 = !{void (<4 x double> *, <4 x double> *)* @foo17, !"kernel", i32 1}
!18 = !{void (float **, float **)* @foo18, !"kernel", i32 1}
!19 = !{void (float *, float *, i32)* @foo19, !"kernel", i32 1}