llvm/test/CodeGen/SPIRV/structurizer/loop-continue-split.ll - rust-lang/llvm-project - Git at Google

 ; RUN: %if spirv-tools %{ llc -O0 -mtriple=spirv-unknown-vulkan-compute %s -o - -filetype=obj | spirv-val %}
 ; RUN: llc -mtriple=spirv-unknown-vulkan-compute -O0 %s -o - | FileCheck %s

 ; The goal of this test is to voluntarily create 2 overlapping convergence
 ; structures: the loop, and the inner condition.
 ; Here, the condition header also branches to 2 internal nodes, which are not
 ; directly a merge/exits.
 ; This will require a proper header-split.
 ; In addition, splitting the header makes the continue the merge of the inner
 ; condition, so we need to properly split the continue block to create a
 ; valid inner merge, in the correct order.

 target datalayout = "e-i64:64-v16:16-v24:32-v32:32-v48:64-v96:128-v192:256-v256:256-v512:512-v1024:1024-G1"
 target triple = "spirv-unknown-vulkan1.3-compute"

 ; CHECK-DAG:    OpName %[[#switch_0:]] "reg1"
 ; CHECK-DAG:    OpName %[[#variable:]] "var"

 ; CHECK-DAG:    %[[#int_0:]] = OpConstant %[[#]] 0
 ; CHECK-DAG:    %[[#int_1:]] = OpConstant %[[#]] 1
 ; CHECK-DAG:    %[[#int_2:]] = OpConstant %[[#]] 2
 ; CHECK-DAG:    %[[#int_3:]] = OpConstant %[[#]] 3
 ; CHECK-DAG:    %[[#int_4:]] = OpConstant %[[#]] 4

 define internal spir_func void @main() #1 {
 ; CHECK:      %[[#entry:]] = OpLabel
 ; CHECK:    %[[#switch_0]] = OpVariable %[[#]] Function
 ; CHECK:    %[[#variable]] = OpVariable %[[#]] Function
 ; CHECK:                     OpBranch %[[#header:]]
 entry:
   %0 = call token @llvm.experimental.convergence.entry()
   %var = alloca i32, align 4
   br label %header

 ; CHECK: %[[#header]] = OpLabel
 ; CHECK:                OpLoopMerge %[[#merge:]] %[[#continue:]] None
 ; CHECK:                OpBranch %[[#split_header:]]

 ; CHECK: %[[#split_header]] = OpLabel
 ; CHECK:                      OpSelectionMerge %[[#inner_merge:]] None
 ; CHECK:                      OpBranchConditional %[[#]] %[[#left:]] %[[#right:]]
 header:
   %2 = call token @llvm.experimental.convergence.loop() [ "convergencectrl"(token %0) ]
   br i1 true, label %left, label %right

 ; CHECK:     %[[#right]] = OpLabel
 ; CHECK-DAG:               OpStore %[[#switch_0]] %[[#int_0]]
 ; CHECK-DAG:               OpStore %[[#variable]] %[[#int_2]]
 ; CHECK:                   OpBranchConditional %[[#]] %[[#inner_merge]] %[[#right_next:]]
 right:
   store i32 2, ptr %var
   br i1 true, label %merge, label %right_next

 ; CHECK:     %[[#right_next]] = OpLabel
 ; CHECK-DAG:                    OpStore %[[#switch_0]] %[[#int_1]]
 ; CHECK-DAG:                    OpStore %[[#variable]] %[[#int_4]]
 ; CHECK:                        OpBranch %[[#inner_merge]]
 right_next:
   store i32 4, ptr %var
   br label %continue

 ; CHECK:     %[[#left]] = OpLabel
 ; CHECK-DAG:              OpStore %[[#switch_0]] %[[#int_0]]
 ; CHECK-DAG:              OpStore %[[#variable]] %[[#int_1]]
 ; CHECK:                  OpBranchConditional %[[#]] %[[#inner_merge]] %[[#left_next:]]
 left:
   store i32 1, ptr %var
   br i1 true, label %merge, label %left_next

 ; CHECK:     %[[#left_next]] = OpLabel
 ; CHECK-DAG:                   OpStore %[[#switch_0]] %[[#int_1]]
 ; CHECK-DAG:                   OpStore %[[#variable]] %[[#int_3]]
 ; CHECK:                       OpBranch %[[#inner_merge]]
 left_next:
   store i32 3, ptr %var
   br label %continue

 ; CHECK: %[[#inner_merge]] = OpLabel
 ; CHECK:        %[[#tmp:]] = OpLoad %[[#]] %[[#switch_0]]
 ; CHECK:       %[[#cond:]] = OpIEqual %[[#]] %[[#int_0]] %[[#tmp]]
 ; CHECK:                     OpBranchConditional %[[#cond]] %[[#merge]] %[[#continue]]

 ; CHECK: %[[#continue]] = OpLabel
 ; CHECK:                  OpBranch %[[#header]]
 continue:
   br label %header

 ; CHECK: %[[#merge]] = OpLabel
 ; CHECK:               OpReturn
 merge:
   ret void
 }


 declare token @llvm.experimental.convergence.entry() #0
 declare token @llvm.experimental.convergence.loop() #0

 attributes #0 = { convergent nocallback nofree nosync nounwind willreturn memory(none) }
 attributes #1 = { convergent noinline norecurse nounwind optnone "frame-pointer"="all" "no-trapping-math"="true" "stack-protector-buffer-size"="8" }

 !llvm.module.flags = !{!0, !1}

 !0 = !{i32 1, !"wchar_size", i32 4}
 !1 = !{i32 4, !"dx.disable_optimizations", i32 1}
	; RUN: %if spirv-tools %{ llc -O0 -mtriple=spirv-unknown-vulkan-compute %s -o - -filetype=obj \| spirv-val %}
	; RUN: llc -mtriple=spirv-unknown-vulkan-compute -O0 %s -o - \| FileCheck %s

	; The goal of this test is to voluntarily create 2 overlapping convergence
	; structures: the loop, and the inner condition.
	; Here, the condition header also branches to 2 internal nodes, which are not
	; directly a merge/exits.
	; This will require a proper header-split.
	; In addition, splitting the header makes the continue the merge of the inner
	; condition, so we need to properly split the continue block to create a
	; valid inner merge, in the correct order.

	target datalayout = "e-i64:64-v16:16-v24:32-v32:32-v48:64-v96:128-v192:256-v256:256-v512:512-v1024:1024-G1"
	target triple = "spirv-unknown-vulkan1.3-compute"

	; CHECK-DAG: OpName %[[#switch_0:]] "reg1"
	; CHECK-DAG: OpName %[[#variable:]] "var"

	; CHECK-DAG: %[[#int_0:]] = OpConstant %[[#]] 0
	; CHECK-DAG: %[[#int_1:]] = OpConstant %[[#]] 1
	; CHECK-DAG: %[[#int_2:]] = OpConstant %[[#]] 2
	; CHECK-DAG: %[[#int_3:]] = OpConstant %[[#]] 3
	; CHECK-DAG: %[[#int_4:]] = OpConstant %[[#]] 4

	define internal spir_func void @main() #1 {
	; CHECK: %[[#entry:]] = OpLabel
	; CHECK: %[[#switch_0]] = OpVariable %[[#]] Function
	; CHECK: %[[#variable]] = OpVariable %[[#]] Function
	; CHECK: OpBranch %[[#header:]]
	entry:
	%0 = call token @llvm.experimental.convergence.entry()
	%var = alloca i32, align 4
	br label %header

	; CHECK: %[[#header]] = OpLabel
	; CHECK: OpLoopMerge %[[#merge:]] %[[#continue:]] None
	; CHECK: OpBranch %[[#split_header:]]

	; CHECK: %[[#split_header]] = OpLabel
	; CHECK: OpSelectionMerge %[[#inner_merge:]] None
	; CHECK: OpBranchConditional %[[#]] %[[#left:]] %[[#right:]]
	header:
	%2 = call token @llvm.experimental.convergence.loop() [ "convergencectrl"(token %0) ]
	br i1 true, label %left, label %right

	; CHECK: %[[#right]] = OpLabel
	; CHECK-DAG: OpStore %[[#switch_0]] %[[#int_0]]
	; CHECK-DAG: OpStore %[[#variable]] %[[#int_2]]
	; CHECK: OpBranchConditional %[[#]] %[[#inner_merge]] %[[#right_next:]]
	right:
	store i32 2, ptr %var
	br i1 true, label %merge, label %right_next

	; CHECK: %[[#right_next]] = OpLabel
	; CHECK-DAG: OpStore %[[#switch_0]] %[[#int_1]]
	; CHECK-DAG: OpStore %[[#variable]] %[[#int_4]]
	; CHECK: OpBranch %[[#inner_merge]]
	right_next:
	store i32 4, ptr %var
	br label %continue

	; CHECK: %[[#left]] = OpLabel
	; CHECK-DAG: OpStore %[[#switch_0]] %[[#int_0]]
	; CHECK-DAG: OpStore %[[#variable]] %[[#int_1]]
	; CHECK: OpBranchConditional %[[#]] %[[#inner_merge]] %[[#left_next:]]
	left:
	store i32 1, ptr %var
	br i1 true, label %merge, label %left_next

	; CHECK: %[[#left_next]] = OpLabel
	; CHECK-DAG: OpStore %[[#switch_0]] %[[#int_1]]
	; CHECK-DAG: OpStore %[[#variable]] %[[#int_3]]
	; CHECK: OpBranch %[[#inner_merge]]
	left_next:
	store i32 3, ptr %var
	br label %continue

	; CHECK: %[[#inner_merge]] = OpLabel
	; CHECK: %[[#tmp:]] = OpLoad %[[#]] %[[#switch_0]]
	; CHECK: %[[#cond:]] = OpIEqual %[[#]] %[[#int_0]] %[[#tmp]]
	; CHECK: OpBranchConditional %[[#cond]] %[[#merge]] %[[#continue]]

	; CHECK: %[[#continue]] = OpLabel
	; CHECK: OpBranch %[[#header]]
	continue:
	br label %header

	; CHECK: %[[#merge]] = OpLabel
	; CHECK: OpReturn
	merge:
	ret void
	}


	declare token @llvm.experimental.convergence.entry() #0
	declare token @llvm.experimental.convergence.loop() #0

	attributes #0 = { convergent nocallback nofree nosync nounwind willreturn memory(none) }
	attributes #1 = { convergent noinline norecurse nounwind optnone "frame-pointer"="all" "no-trapping-math"="true" "stack-protector-buffer-size"="8" }

	!llvm.module.flags = !{!0, !1}

	!0 = !{i32 1, !"wchar_size", i32 4}
	!1 = !{i32 4, !"dx.disable_optimizations", i32 1}