test/Transforms/Reassociate/local-cse.ll - llvm-project/llvm - Git at Google

 ; NOTE: Assertions have been autogenerated by utils/update_test_checks.py UTC_ARGS: --version 2
 ; Check that the default heuristic use the local cse constraints.
 ; RUN: opt -S -passes=reassociate,early-cse %s -o - | FileCheck %s -check-prefix=LOCAL_CSE
 ; RUN: opt -S -passes=reassociate,early-cse %s -reassociate-use-cse-local=true -o - | FileCheck %s -check-prefix=LOCAL_CSE
 ; RUN: opt -S -passes=reassociate,early-cse %s -reassociate-use-cse-local=false -o - | FileCheck %s -check-prefix=CSE


 ; Check that when we use the heuristic to expose only local (to the first
 ; encountered block) CSE opportunities, we choose the right sub expression
 ; to expose.
 ;
 ; In these example we have three chains of expressions:
 ; chain a: inv1, val_bb2, inv2, inv4
 ; chain b: inv1, val_bb2, inv2, inv5
 ; chain c: inv1, val_bb2, inv3
 ;
 ; The CSE-able pairs with there respective occurrences are:
 ; inv1, val_bb2: 3
 ; inv1, inv2: 2
 ;
 ; val_bb2 is anchored in bb2 but inv1 and inv2 can start in bb1.
 ; With the local heuristic we will push inv1, inv2 at the beginning
 ; of chain_a and chain_b.
 ; With the non-local heuristic we will push inv1, val_bb2.
 define void @chain_spanning_several_blocks(i64 %inv1, i64 %inv2, i64 %inv3, i64 %inv4, i64 %inv5) {
 ; LOCAL_CSE-LABEL: define void @chain_spanning_several_blocks
 ; LOCAL_CSE-SAME: (i64 [[INV1:%.*]], i64 [[INV2:%.*]], i64 [[INV3:%.*]], i64 [[INV4:%.*]], i64 [[INV5:%.*]]) {
 ; LOCAL_CSE-NEXT:  bb1:
 ; LOCAL_CSE-NEXT:    [[CHAIN_A0:%.*]] = add i64 [[INV2]], [[INV1]]
 ; LOCAL_CSE-NEXT:    br label [[BB2:%.*]]
 ; LOCAL_CSE:       bb2:
 ; LOCAL_CSE-NEXT:    [[VAL_BB2:%.*]] = call i64 @get_val()
 ; LOCAL_CSE-NEXT:    [[CHAIN_A1:%.*]] = add i64 [[CHAIN_A0]], [[INV4]]
 ; LOCAL_CSE-NEXT:    [[CHAIN_A2:%.*]] = add i64 [[CHAIN_A1]], [[VAL_BB2]]
 ; LOCAL_CSE-NEXT:    [[CHAIN_B1:%.*]] = add i64 [[CHAIN_A0]], [[INV5]]
 ; LOCAL_CSE-NEXT:    [[CHAIN_B2:%.*]] = add i64 [[CHAIN_B1]], [[VAL_BB2]]
 ; LOCAL_CSE-NEXT:    [[CHAIN_C0:%.*]] = add i64 [[INV3]], [[INV1]]
 ; LOCAL_CSE-NEXT:    [[CHAIN_C1:%.*]] = add i64 [[CHAIN_C0]], [[VAL_BB2]]
 ; LOCAL_CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_A2]])
 ; LOCAL_CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_B2]])
 ; LOCAL_CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_C1]])
 ; LOCAL_CSE-NEXT:    ret void
 ;
 ; CSE-LABEL: define void @chain_spanning_several_blocks
 ; CSE-SAME: (i64 [[INV1:%.*]], i64 [[INV2:%.*]], i64 [[INV3:%.*]], i64 [[INV4:%.*]], i64 [[INV5:%.*]]) {
 ; CSE-NEXT:  bb1:
 ; CSE-NEXT:    br label [[BB2:%.*]]
 ; CSE:       bb2:
 ; CSE-NEXT:    [[VAL_BB2:%.*]] = call i64 @get_val()
 ; CSE-NEXT:    [[CHAIN_A0:%.*]] = add i64 [[VAL_BB2]], [[INV1]]
 ; CSE-NEXT:    [[CHAIN_A1:%.*]] = add i64 [[CHAIN_A0]], [[INV2]]
 ; CSE-NEXT:    [[CHAIN_A2:%.*]] = add nuw nsw i64 [[CHAIN_A1]], [[INV4]]
 ; CSE-NEXT:    [[CHAIN_B2:%.*]] = add nuw nsw i64 [[CHAIN_A1]], [[INV5]]
 ; CSE-NEXT:    [[CHAIN_C1:%.*]] = add i64 [[CHAIN_A0]], [[INV3]]
 ; CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_A2]])
 ; CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_B2]])
 ; CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_C1]])
 ; CSE-NEXT:    ret void
 ;
 bb1:
   %chain_a0 = add nuw nsw i64 %inv1, %inv2
   br label %bb2

 bb2:
   %val_bb2 = call i64 @get_val()
   %chain_a1 = add nuw nsw i64 %chain_a0, %val_bb2
   %chain_a2 = add nuw nsw i64 %chain_a1, %inv4
   %chain_b0 = add nuw nsw i64 %val_bb2, %inv1
   %chain_b1 = add nuw nsw i64 %chain_b0, %inv2
   %chain_b2 = add nuw nsw i64 %chain_b1, %inv5
   %chain_c0 = add nuw nsw i64 %val_bb2, %inv3
   %chain_c1 = add nuw nsw i64 %chain_c0, %inv1
   call void @keep_alive(i64 %chain_a2)
   call void @keep_alive(i64 %chain_b2)
   call void @keep_alive(i64 %chain_c1)
   ret void
 }

 ; Same as @chain_spanning_several_blocks, but with values that are all anchored
 ; on the non-entry block.
 ; I.e., same pair map as previous but with invX_bbY instead of invX.
 ; Note: Although %inv1_bb0 is anchored in the entry block, it doesn't constrain
 ; the sub expressions on the entry block because we need to see at least two
 ; values to be able to form a sub-expression and thus only the second one
 ; add a constraint.
 define void @chain_spanning_several_blocks_no_entry_anchor() {
 ; LOCAL_CSE-LABEL: define void @chain_spanning_several_blocks_no_entry_anchor() {
 ; LOCAL_CSE-NEXT:  bb0:
 ; LOCAL_CSE-NEXT:    [[INV2_BB0:%.*]] = call i64 @get_val()
 ; LOCAL_CSE-NEXT:    br label [[BB1:%.*]]
 ; LOCAL_CSE:       bb1:
 ; LOCAL_CSE-NEXT:    [[INV1_BB1:%.*]] = call i64 @get_val()
 ; LOCAL_CSE-NEXT:    [[CHAIN_A0:%.*]] = add i64 [[INV1_BB1]], [[INV2_BB0]]
 ; LOCAL_CSE-NEXT:    br label [[BB2:%.*]]
 ; LOCAL_CSE:       bb2:
 ; LOCAL_CSE-NEXT:    [[INV3_BB2:%.*]] = call i64 @get_val()
 ; LOCAL_CSE-NEXT:    [[INV4_BB2:%.*]] = call i64 @get_val()
 ; LOCAL_CSE-NEXT:    [[INV5_BB2:%.*]] = call i64 @get_val()
 ; LOCAL_CSE-NEXT:    [[VAL_BB2:%.*]] = call i64 @get_val()
 ; LOCAL_CSE-NEXT:    [[CHAIN_A1:%.*]] = add i64 [[CHAIN_A0]], [[INV4_BB2]]
 ; LOCAL_CSE-NEXT:    [[CHAIN_A2:%.*]] = add i64 [[CHAIN_A1]], [[VAL_BB2]]
 ; LOCAL_CSE-NEXT:    [[CHAIN_B1:%.*]] = add i64 [[CHAIN_A0]], [[INV5_BB2]]
 ; LOCAL_CSE-NEXT:    [[CHAIN_B2:%.*]] = add i64 [[CHAIN_B1]], [[VAL_BB2]]
 ; LOCAL_CSE-NEXT:    [[CHAIN_C0:%.*]] = add i64 [[VAL_BB2]], [[INV1_BB1]]
 ; LOCAL_CSE-NEXT:    [[CHAIN_C1:%.*]] = add i64 [[CHAIN_C0]], [[INV3_BB2]]
 ; LOCAL_CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_A2]])
 ; LOCAL_CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_B2]])
 ; LOCAL_CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_C1]])
 ; LOCAL_CSE-NEXT:    ret void
 ;
 ; CSE-LABEL: define void @chain_spanning_several_blocks_no_entry_anchor() {
 ; CSE-NEXT:  bb0:
 ; CSE-NEXT:    [[INV2_BB0:%.*]] = call i64 @get_val()
 ; CSE-NEXT:    br label [[BB1:%.*]]
 ; CSE:       bb1:
 ; CSE-NEXT:    [[INV1_BB1:%.*]] = call i64 @get_val()
 ; CSE-NEXT:    br label [[BB2:%.*]]
 ; CSE:       bb2:
 ; CSE-NEXT:    [[INV3_BB2:%.*]] = call i64 @get_val()
 ; CSE-NEXT:    [[INV4_BB2:%.*]] = call i64 @get_val()
 ; CSE-NEXT:    [[INV5_BB2:%.*]] = call i64 @get_val()
 ; CSE-NEXT:    [[VAL_BB2:%.*]] = call i64 @get_val()
 ; CSE-NEXT:    [[CHAIN_A0:%.*]] = add i64 [[VAL_BB2]], [[INV1_BB1]]
 ; CSE-NEXT:    [[CHAIN_A1:%.*]] = add i64 [[CHAIN_A0]], [[INV2_BB0]]
 ; CSE-NEXT:    [[CHAIN_A2:%.*]] = add nuw nsw i64 [[CHAIN_A1]], [[INV4_BB2]]
 ; CSE-NEXT:    [[CHAIN_B2:%.*]] = add nuw nsw i64 [[CHAIN_A1]], [[INV5_BB2]]
 ; CSE-NEXT:    [[CHAIN_C1:%.*]] = add i64 [[CHAIN_A0]], [[INV3_BB2]]
 ; CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_A2]])
 ; CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_B2]])
 ; CSE-NEXT:    call void @keep_alive(i64 [[CHAIN_C1]])
 ; CSE-NEXT:    ret void
 ;
 bb0:
   %inv2_bb0 = call i64 @get_val()
   br label %bb1

 bb1:
   %inv1_bb1 = call i64 @get_val()
   %chain_a0 = add nuw nsw i64 %inv1_bb1, %inv2_bb0
   br label %bb2

 bb2:
   %inv3_bb2 = call i64 @get_val()
   %inv4_bb2 = call i64 @get_val()
   %inv5_bb2 = call i64 @get_val()
   %val_bb2 = call i64 @get_val()
   %chain_a1 = add nuw nsw i64 %chain_a0, %val_bb2
   %chain_a2 = add nuw nsw i64 %chain_a1, %inv4_bb2
   %chain_b0 = add nuw nsw i64 %val_bb2, %inv1_bb1
   %chain_b1 = add nuw nsw i64 %chain_b0, %inv2_bb0
   %chain_b2 = add nuw nsw i64 %chain_b1, %inv5_bb2
   %chain_c0 = add nuw nsw i64 %val_bb2, %inv3_bb2
   %chain_c1 = add nuw nsw i64 %chain_c0, %inv1_bb1
   call void @keep_alive(i64 %chain_a2)
   call void @keep_alive(i64 %chain_b2)
   call void @keep_alive(i64 %chain_c1)
   ret void
 }
 declare i64 @get_val()
 declare void @keep_alive(i64)
	; NOTE: Assertions have been autogenerated by utils/update_test_checks.py UTC_ARGS: --version 2
	; Check that the default heuristic use the local cse constraints.
	; RUN: opt -S -passes=reassociate,early-cse %s -o - \| FileCheck %s -check-prefix=LOCAL_CSE
	; RUN: opt -S -passes=reassociate,early-cse %s -reassociate-use-cse-local=true -o - \| FileCheck %s -check-prefix=LOCAL_CSE
	; RUN: opt -S -passes=reassociate,early-cse %s -reassociate-use-cse-local=false -o - \| FileCheck %s -check-prefix=CSE


	; Check that when we use the heuristic to expose only local (to the first
	; encountered block) CSE opportunities, we choose the right sub expression
	; to expose.
	;
	; In these example we have three chains of expressions:
	; chain a: inv1, val_bb2, inv2, inv4
	; chain b: inv1, val_bb2, inv2, inv5
	; chain c: inv1, val_bb2, inv3
	;
	; The CSE-able pairs with there respective occurrences are:
	; inv1, val_bb2: 3
	; inv1, inv2: 2
	;
	; val_bb2 is anchored in bb2 but inv1 and inv2 can start in bb1.
	; With the local heuristic we will push inv1, inv2 at the beginning
	; of chain_a and chain_b.
	; With the non-local heuristic we will push inv1, val_bb2.
	define void @chain_spanning_several_blocks(i64 %inv1, i64 %inv2, i64 %inv3, i64 %inv4, i64 %inv5) {
	; LOCAL_CSE-LABEL: define void @chain_spanning_several_blocks
	; LOCAL_CSE-SAME: (i64 [[INV1:%.]], i64 [[INV2:%.]], i64 [[INV3:%.]], i64 [[INV4:%.]], i64 [[INV5:%.*]]) {
	; LOCAL_CSE-NEXT: bb1:
	; LOCAL_CSE-NEXT: [[CHAIN_A0:%.*]] = add i64 [[INV2]], [[INV1]]
	; LOCAL_CSE-NEXT: br label [[BB2:%.*]]
	; LOCAL_CSE: bb2:
	; LOCAL_CSE-NEXT: [[VAL_BB2:%.*]] = call i64 @get_val()
	; LOCAL_CSE-NEXT: [[CHAIN_A1:%.*]] = add i64 [[CHAIN_A0]], [[INV4]]
	; LOCAL_CSE-NEXT: [[CHAIN_A2:%.*]] = add i64 [[CHAIN_A1]], [[VAL_BB2]]
	; LOCAL_CSE-NEXT: [[CHAIN_B1:%.*]] = add i64 [[CHAIN_A0]], [[INV5]]
	; LOCAL_CSE-NEXT: [[CHAIN_B2:%.*]] = add i64 [[CHAIN_B1]], [[VAL_BB2]]
	; LOCAL_CSE-NEXT: [[CHAIN_C0:%.*]] = add i64 [[INV3]], [[INV1]]
	; LOCAL_CSE-NEXT: [[CHAIN_C1:%.*]] = add i64 [[CHAIN_C0]], [[VAL_BB2]]
	; LOCAL_CSE-NEXT: call void @keep_alive(i64 [[CHAIN_A2]])
	; LOCAL_CSE-NEXT: call void @keep_alive(i64 [[CHAIN_B2]])
	; LOCAL_CSE-NEXT: call void @keep_alive(i64 [[CHAIN_C1]])
	; LOCAL_CSE-NEXT: ret void
	;
	; CSE-LABEL: define void @chain_spanning_several_blocks
	; CSE-SAME: (i64 [[INV1:%.]], i64 [[INV2:%.]], i64 [[INV3:%.]], i64 [[INV4:%.]], i64 [[INV5:%.*]]) {
	; CSE-NEXT: bb1:
	; CSE-NEXT: br label [[BB2:%.*]]
	; CSE: bb2:
	; CSE-NEXT: [[VAL_BB2:%.*]] = call i64 @get_val()
	; CSE-NEXT: [[CHAIN_A0:%.*]] = add i64 [[VAL_BB2]], [[INV1]]
	; CSE-NEXT: [[CHAIN_A1:%.*]] = add i64 [[CHAIN_A0]], [[INV2]]
	; CSE-NEXT: [[CHAIN_A2:%.*]] = add nuw nsw i64 [[CHAIN_A1]], [[INV4]]
	; CSE-NEXT: [[CHAIN_B2:%.*]] = add nuw nsw i64 [[CHAIN_A1]], [[INV5]]
	; CSE-NEXT: [[CHAIN_C1:%.*]] = add i64 [[CHAIN_A0]], [[INV3]]
	; CSE-NEXT: call void @keep_alive(i64 [[CHAIN_A2]])
	; CSE-NEXT: call void @keep_alive(i64 [[CHAIN_B2]])
	; CSE-NEXT: call void @keep_alive(i64 [[CHAIN_C1]])
	; CSE-NEXT: ret void
	;
	bb1:
	%chain_a0 = add nuw nsw i64 %inv1, %inv2
	br label %bb2

	bb2:
	%val_bb2 = call i64 @get_val()
	%chain_a1 = add nuw nsw i64 %chain_a0, %val_bb2
	%chain_a2 = add nuw nsw i64 %chain_a1, %inv4
	%chain_b0 = add nuw nsw i64 %val_bb2, %inv1
	%chain_b1 = add nuw nsw i64 %chain_b0, %inv2
	%chain_b2 = add nuw nsw i64 %chain_b1, %inv5
	%chain_c0 = add nuw nsw i64 %val_bb2, %inv3
	%chain_c1 = add nuw nsw i64 %chain_c0, %inv1
	call void @keep_alive(i64 %chain_a2)
	call void @keep_alive(i64 %chain_b2)
	call void @keep_alive(i64 %chain_c1)
	ret void
	}

	; Same as @chain_spanning_several_blocks, but with values that are all anchored
	; on the non-entry block.
	; I.e., same pair map as previous but with invX_bbY instead of invX.
	; Note: Although %inv1_bb0 is anchored in the entry block, it doesn't constrain
	; the sub expressions on the entry block because we need to see at least two
	; values to be able to form a sub-expression and thus only the second one
	; add a constraint.
	define void @chain_spanning_several_blocks_no_entry_anchor() {
	; LOCAL_CSE-LABEL: define void @chain_spanning_several_blocks_no_entry_anchor() {
	; LOCAL_CSE-NEXT: bb0:
	; LOCAL_CSE-NEXT: [[INV2_BB0:%.*]] = call i64 @get_val()
	; LOCAL_CSE-NEXT: br label [[BB1:%.*]]
	; LOCAL_CSE: bb1:
	; LOCAL_CSE-NEXT: [[INV1_BB1:%.*]] = call i64 @get_val()
	; LOCAL_CSE-NEXT: [[CHAIN_A0:%.*]] = add i64 [[INV1_BB1]], [[INV2_BB0]]
	; LOCAL_CSE-NEXT: br label [[BB2:%.*]]
	; LOCAL_CSE: bb2:
	; LOCAL_CSE-NEXT: [[INV3_BB2:%.*]] = call i64 @get_val()
	; LOCAL_CSE-NEXT: [[INV4_BB2:%.*]] = call i64 @get_val()
	; LOCAL_CSE-NEXT: [[INV5_BB2:%.*]] = call i64 @get_val()
	; LOCAL_CSE-NEXT: [[VAL_BB2:%.*]] = call i64 @get_val()
	; LOCAL_CSE-NEXT: [[CHAIN_A1:%.*]] = add i64 [[CHAIN_A0]], [[INV4_BB2]]
	; LOCAL_CSE-NEXT: [[CHAIN_A2:%.*]] = add i64 [[CHAIN_A1]], [[VAL_BB2]]
	; LOCAL_CSE-NEXT: [[CHAIN_B1:%.*]] = add i64 [[CHAIN_A0]], [[INV5_BB2]]
	; LOCAL_CSE-NEXT: [[CHAIN_B2:%.*]] = add i64 [[CHAIN_B1]], [[VAL_BB2]]
	; LOCAL_CSE-NEXT: [[CHAIN_C0:%.*]] = add i64 [[VAL_BB2]], [[INV1_BB1]]
	; LOCAL_CSE-NEXT: [[CHAIN_C1:%.*]] = add i64 [[CHAIN_C0]], [[INV3_BB2]]
	; LOCAL_CSE-NEXT: call void @keep_alive(i64 [[CHAIN_A2]])
	; LOCAL_CSE-NEXT: call void @keep_alive(i64 [[CHAIN_B2]])
	; LOCAL_CSE-NEXT: call void @keep_alive(i64 [[CHAIN_C1]])
	; LOCAL_CSE-NEXT: ret void
	;
	; CSE-LABEL: define void @chain_spanning_several_blocks_no_entry_anchor() {
	; CSE-NEXT: bb0:
	; CSE-NEXT: [[INV2_BB0:%.*]] = call i64 @get_val()
	; CSE-NEXT: br label [[BB1:%.*]]
	; CSE: bb1:
	; CSE-NEXT: [[INV1_BB1:%.*]] = call i64 @get_val()
	; CSE-NEXT: br label [[BB2:%.*]]
	; CSE: bb2:
	; CSE-NEXT: [[INV3_BB2:%.*]] = call i64 @get_val()
	; CSE-NEXT: [[INV4_BB2:%.*]] = call i64 @get_val()
	; CSE-NEXT: [[INV5_BB2:%.*]] = call i64 @get_val()
	; CSE-NEXT: [[VAL_BB2:%.*]] = call i64 @get_val()
	; CSE-NEXT: [[CHAIN_A0:%.*]] = add i64 [[VAL_BB2]], [[INV1_BB1]]
	; CSE-NEXT: [[CHAIN_A1:%.*]] = add i64 [[CHAIN_A0]], [[INV2_BB0]]
	; CSE-NEXT: [[CHAIN_A2:%.*]] = add nuw nsw i64 [[CHAIN_A1]], [[INV4_BB2]]
	; CSE-NEXT: [[CHAIN_B2:%.*]] = add nuw nsw i64 [[CHAIN_A1]], [[INV5_BB2]]
	; CSE-NEXT: [[CHAIN_C1:%.*]] = add i64 [[CHAIN_A0]], [[INV3_BB2]]
	; CSE-NEXT: call void @keep_alive(i64 [[CHAIN_A2]])
	; CSE-NEXT: call void @keep_alive(i64 [[CHAIN_B2]])
	; CSE-NEXT: call void @keep_alive(i64 [[CHAIN_C1]])
	; CSE-NEXT: ret void
	;
	bb0:
	%inv2_bb0 = call i64 @get_val()
	br label %bb1

	bb1:
	%inv1_bb1 = call i64 @get_val()
	%chain_a0 = add nuw nsw i64 %inv1_bb1, %inv2_bb0
	br label %bb2

	bb2:
	%inv3_bb2 = call i64 @get_val()
	%inv4_bb2 = call i64 @get_val()
	%inv5_bb2 = call i64 @get_val()
	%val_bb2 = call i64 @get_val()
	%chain_a1 = add nuw nsw i64 %chain_a0, %val_bb2
	%chain_a2 = add nuw nsw i64 %chain_a1, %inv4_bb2
	%chain_b0 = add nuw nsw i64 %val_bb2, %inv1_bb1
	%chain_b1 = add nuw nsw i64 %chain_b0, %inv2_bb0
	%chain_b2 = add nuw nsw i64 %chain_b1, %inv5_bb2
	%chain_c0 = add nuw nsw i64 %val_bb2, %inv3_bb2
	%chain_c1 = add nuw nsw i64 %chain_c0, %inv1_bb1
	call void @keep_alive(i64 %chain_a2)
	call void @keep_alive(i64 %chain_b2)
	call void @keep_alive(i64 %chain_c1)
	ret void
	}
	declare i64 @get_val()
	declare void @keep_alive(i64)