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llvm-project/llvm/test/CodeGen/NVPTX/local-stack-frame.ll
Alex MacLean d494eb0fa3
[NVPTX] Skip numbering unreferenced virtual registers (readability) (#154391) 
When assigning numbers to registers, skip any with neither uses nor
defs. This is will not have any impact at all on the final SASS but it
makes for slightly more readable PTX. This change should also ensure
that future minor changes are less likely to cause noisy diffs in
register numbering.
2025-08-19 12:27:46 -07:00

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; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py UTC_ARGS: --version 5
; RUN: llc < %s -mtriple=nvptx -mcpu=sm_20 -verify-machineinstrs | FileCheck %s --check-prefix=PTX32
; RUN: llc < %s -mtriple=nvptx64 -mcpu=sm_20 -verify-machineinstrs | FileCheck %s --check-prefix=PTX64
; RUN: %if ptxas && !ptxas-12.0 %{ llc < %s -mtriple=nvptx -mcpu=sm_20 -verify-machineinstrs | %ptxas-verify %}
; RUN: %if ptxas %{ llc < %s -mtriple=nvptx64 -mcpu=sm_20 -verify-machineinstrs | %ptxas-verify %}
; Ensure we access the local stack properly
define void @foo(i32 %a) {
; PTX32-LABEL: foo(
; PTX32: {
; PTX32-NEXT: .local .align 4 .b8 __local_depot0[4];
; PTX32-NEXT: .reg .b32 %SP;
; PTX32-NEXT: .reg .b32 %SPL;
; PTX32-NEXT: .reg .b32 %r<3>;
; PTX32-EMPTY:
; PTX32-NEXT: // %bb.0:
; PTX32-NEXT: mov.b32 %SPL, __local_depot0;
; PTX32-NEXT: ld.param.b32 %r1, [foo_param_0];
; PTX32-NEXT: add.u32 %r2, %SPL, 0;
; PTX32-NEXT: st.local.b32 [%r2], %r1;
; PTX32-NEXT: ret;
;
; PTX64-LABEL: foo(
; PTX64: {
; PTX64-NEXT: .local .align 4 .b8 __local_depot0[4];
; PTX64-NEXT: .reg .b64 %SP;
; PTX64-NEXT: .reg .b64 %SPL;
; PTX64-NEXT: .reg .b32 %r<2>;
; PTX64-NEXT: .reg .b64 %rd<2>;
; PTX64-EMPTY:
; PTX64-NEXT: // %bb.0:
; PTX64-NEXT: mov.b64 %SPL, __local_depot0;
; PTX64-NEXT: ld.param.b32 %r1, [foo_param_0];
; PTX64-NEXT: add.u64 %rd1, %SPL, 0;
; PTX64-NEXT: st.local.b32 [%rd1], %r1;
; PTX64-NEXT: ret;
%local = alloca i32, align 4
store volatile i32 %a, ptr %local
ret void
}
define ptx_kernel void @foo2(i32 %a) {
; PTX32-LABEL: foo2(
; PTX32: {
; PTX32-NEXT: .local .align 4 .b8 __local_depot1[4];
; PTX32-NEXT: .reg .b32 %SP;
; PTX32-NEXT: .reg .b32 %SPL;
; PTX32-NEXT: .reg .b32 %r<4>;
; PTX32-EMPTY:
; PTX32-NEXT: // %bb.0:
; PTX32-NEXT: mov.b32 %SPL, __local_depot1;
; PTX32-NEXT: cvta.local.u32 %SP, %SPL;
; PTX32-NEXT: ld.param.b32 %r1, [foo2_param_0];
; PTX32-NEXT: add.u32 %r2, %SP, 0;
; PTX32-NEXT: add.u32 %r3, %SPL, 0;
; PTX32-NEXT: st.local.b32 [%r3], %r1;
; PTX32-NEXT: { // callseq 0, 0
; PTX32-NEXT: .param .b32 param0;
; PTX32-NEXT: st.param.b32 [param0], %r2;
; PTX32-NEXT: call.uni bar, (param0);
; PTX32-NEXT: } // callseq 0
; PTX32-NEXT: ret;
;
; PTX64-LABEL: foo2(
; PTX64: {
; PTX64-NEXT: .local .align 4 .b8 __local_depot1[4];
; PTX64-NEXT: .reg .b64 %SP;
; PTX64-NEXT: .reg .b64 %SPL;
; PTX64-NEXT: .reg .b32 %r<2>;
; PTX64-NEXT: .reg .b64 %rd<3>;
; PTX64-EMPTY:
; PTX64-NEXT: // %bb.0:
; PTX64-NEXT: mov.b64 %SPL, __local_depot1;
; PTX64-NEXT: cvta.local.u64 %SP, %SPL;
; PTX64-NEXT: ld.param.b32 %r1, [foo2_param_0];
; PTX64-NEXT: add.u64 %rd1, %SP, 0;
; PTX64-NEXT: add.u64 %rd2, %SPL, 0;
; PTX64-NEXT: st.local.b32 [%rd2], %r1;
; PTX64-NEXT: { // callseq 0, 0
; PTX64-NEXT: .param .b64 param0;
; PTX64-NEXT: st.param.b64 [param0], %rd1;
; PTX64-NEXT: call.uni bar, (param0);
; PTX64-NEXT: } // callseq 0
; PTX64-NEXT: ret;
%local = alloca i32, align 4
store i32 %a, ptr %local
call void @bar(ptr %local)
ret void
}
declare void @bar(ptr %a)
define void @foo3(i32 %a) {
; PTX32-LABEL: foo3(
; PTX32: {
; PTX32-NEXT: .local .align 4 .b8 __local_depot2[12];
; PTX32-NEXT: .reg .b32 %SP;
; PTX32-NEXT: .reg .b32 %SPL;
; PTX32-NEXT: .reg .b32 %r<5>;
; PTX32-EMPTY:
; PTX32-NEXT: // %bb.0:
; PTX32-NEXT: mov.b32 %SPL, __local_depot2;
; PTX32-NEXT: ld.param.b32 %r1, [foo3_param_0];
; PTX32-NEXT: add.u32 %r2, %SPL, 0;
; PTX32-NEXT: shl.b32 %r3, %r1, 2;
; PTX32-NEXT: add.s32 %r4, %r2, %r3;
; PTX32-NEXT: st.local.b32 [%r4], %r1;
; PTX32-NEXT: ret;
;
; PTX64-LABEL: foo3(
; PTX64: {
; PTX64-NEXT: .local .align 4 .b8 __local_depot2[12];
; PTX64-NEXT: .reg .b64 %SP;
; PTX64-NEXT: .reg .b64 %SPL;
; PTX64-NEXT: .reg .b32 %r<2>;
; PTX64-NEXT: .reg .b64 %rd<3>;
; PTX64-EMPTY:
; PTX64-NEXT: // %bb.0:
; PTX64-NEXT: mov.b64 %SPL, __local_depot2;
; PTX64-NEXT: ld.param.b32 %r1, [foo3_param_0];
; PTX64-NEXT: add.u64 %rd1, %SPL, 0;
; PTX64-NEXT: mad.wide.s32 %rd2, %r1, 4, %rd1;
; PTX64-NEXT: st.local.b32 [%rd2], %r1;
; PTX64-NEXT: ret;
%local = alloca [3 x i32], align 4
%1 = getelementptr inbounds i32, ptr %local, i32 %a
store i32 %a, ptr %1
ret void
}
define void @foo4() {
; PTX32-LABEL: foo4(
; PTX32: {
; PTX32-NEXT: .local .align 4 .b8 __local_depot3[8];
; PTX32-NEXT: .reg .b32 %SP;
; PTX32-NEXT: .reg .b32 %SPL;
; PTX32-NEXT: .reg .b32 %r<5>;
; PTX32-EMPTY:
; PTX32-NEXT: // %bb.0:
; PTX32-NEXT: mov.b32 %SPL, __local_depot3;
; PTX32-NEXT: cvta.local.u32 %SP, %SPL;
; PTX32-NEXT: add.u32 %r1, %SP, 0;
; PTX32-NEXT: add.u32 %r2, %SPL, 0;
; PTX32-NEXT: add.u32 %r3, %SP, 4;
; PTX32-NEXT: add.u32 %r4, %SPL, 4;
; PTX32-NEXT: st.local.b32 [%r2], 0;
; PTX32-NEXT: st.local.b32 [%r4], 0;
; PTX32-NEXT: { // callseq 1, 0
; PTX32-NEXT: .param .b32 param0;
; PTX32-NEXT: st.param.b32 [param0], %r1;
; PTX32-NEXT: call.uni bar, (param0);
; PTX32-NEXT: } // callseq 1
; PTX32-NEXT: { // callseq 2, 0
; PTX32-NEXT: .param .b32 param0;
; PTX32-NEXT: st.param.b32 [param0], %r3;
; PTX32-NEXT: call.uni bar, (param0);
; PTX32-NEXT: } // callseq 2
; PTX32-NEXT: ret;
;
; PTX64-LABEL: foo4(
; PTX64: {
; PTX64-NEXT: .local .align 4 .b8 __local_depot3[8];
; PTX64-NEXT: .reg .b64 %SP;
; PTX64-NEXT: .reg .b64 %SPL;
; PTX64-NEXT: .reg .b64 %rd<5>;
; PTX64-EMPTY:
; PTX64-NEXT: // %bb.0:
; PTX64-NEXT: mov.b64 %SPL, __local_depot3;
; PTX64-NEXT: cvta.local.u64 %SP, %SPL;
; PTX64-NEXT: add.u64 %rd1, %SP, 0;
; PTX64-NEXT: add.u64 %rd2, %SPL, 0;
; PTX64-NEXT: add.u64 %rd3, %SP, 4;
; PTX64-NEXT: add.u64 %rd4, %SPL, 4;
; PTX64-NEXT: st.local.b32 [%rd2], 0;
; PTX64-NEXT: st.local.b32 [%rd4], 0;
; PTX64-NEXT: { // callseq 1, 0
; PTX64-NEXT: .param .b64 param0;
; PTX64-NEXT: st.param.b64 [param0], %rd1;
; PTX64-NEXT: call.uni bar, (param0);
; PTX64-NEXT: } // callseq 1
; PTX64-NEXT: { // callseq 2, 0
; PTX64-NEXT: .param .b64 param0;
; PTX64-NEXT: st.param.b64 [param0], %rd3;
; PTX64-NEXT: call.uni bar, (param0);
; PTX64-NEXT: } // callseq 2
; PTX64-NEXT: ret;
%A = alloca i32
%B = alloca i32
store i32 0, ptr %A
store i32 0, ptr %B
call void @bar(ptr %A)
call void @bar(ptr %B)
ret void
}
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