test/Transforms/TailCallElim/accum_recursion.ll - llvm - Git at Google

 ; RUN: opt < %s -tailcallelim -S | FileCheck %s
 ; RUN: opt < %s -passes=tailcallelim -S | FileCheck %s

 define i32 @test1_factorial(i32 %x) {
 entry:
 	%tmp.1 = icmp sgt i32 %x, 0		; <i1> [#uses=1]
 	br i1 %tmp.1, label %then, label %else
 then:		; preds = %entry
 	%tmp.6 = add i32 %x, -1		; <i32> [#uses=1]
 	%tmp.4 = call i32 @test1_factorial( i32 %tmp.6 )		; <i32> [#uses=1]
 	%tmp.7 = mul i32 %tmp.4, %x		; <i32> [#uses=1]
 	ret i32 %tmp.7
 else:		; preds = %entry
 	ret i32 1
 }

 ; CHECK-LABEL: define i32 @test1_factorial(
 ; CHECK: phi i32
 ; CHECK-NOT: call i32
 ; CHECK: else:

 ; This is a more aggressive form of accumulator recursion insertion, which
 ; requires noticing that X doesn't change as we perform the tailcall.

 define i32 @test2_mul(i32 %x, i32 %y) {
 entry:
 	%tmp.1 = icmp eq i32 %y, 0		; <i1> [#uses=1]
 	br i1 %tmp.1, label %return, label %endif
 endif:		; preds = %entry
 	%tmp.8 = add i32 %y, -1		; <i32> [#uses=1]
 	%tmp.5 = call i32 @test2_mul( i32 %x, i32 %tmp.8 )		; <i32> [#uses=1]
 	%tmp.9 = add i32 %tmp.5, %x		; <i32> [#uses=1]
 	ret i32 %tmp.9
 return:		; preds = %entry
 	ret i32 %x
 }

 ; CHECK-LABEL: define i32 @test2_mul(
 ; CHECK: phi i32
 ; CHECK-NOT: call i32
 ; CHECK: return:


 define i64 @test3_fib(i64 %n) nounwind readnone {
 ; CHECK-LABEL: @test3_fib(
 entry:
 ; CHECK: tailrecurse:
 ; CHECK: %accumulator.tr = phi i64 [ %n, %entry ], [ %3, %bb1 ]
 ; CHECK: %n.tr = phi i64 [ %n, %entry ], [ %2, %bb1 ]
   switch i64 %n, label %bb1 [
 ; CHECK: switch i64 %n.tr, label %bb1 [
     i64 0, label %bb2
     i64 1, label %bb2
   ]

 bb1:
 ; CHECK: bb1:
   %0 = add i64 %n, -1
 ; CHECK: %0 = add i64 %n.tr, -1
   %1 = tail call i64 @test3_fib(i64 %0) nounwind
 ; CHECK: %1 = tail call i64 @test3_fib(i64 %0)
   %2 = add i64 %n, -2
 ; CHECK: %2 = add i64 %n.tr, -2
   %3 = tail call i64 @test3_fib(i64 %2) nounwind
 ; CHECK-NOT: tail call i64 @test3_fib
   %4 = add nsw i64 %3, %1
 ; CHECK: add nsw i64 %accumulator.tr, %1
   ret i64 %4
 ; CHECK: br label %tailrecurse

 bb2:
 ; CHECK: bb2:
   ret i64 %n
 ; CHECK: ret i64 %accumulator.tr
 }
	; RUN: opt < %s -tailcallelim -S \| FileCheck %s
	; RUN: opt < %s -passes=tailcallelim -S \| FileCheck %s

	define i32 @test1_factorial(i32 %x) {
	entry:
	%tmp.1 = icmp sgt i32 %x, 0 ; <i1> [#uses=1]
	br i1 %tmp.1, label %then, label %else
	then: ; preds = %entry
	%tmp.6 = add i32 %x, -1 ; <i32> [#uses=1]
	%tmp.4 = call i32 @test1_factorial( i32 %tmp.6 ) ; <i32> [#uses=1]
	%tmp.7 = mul i32 %tmp.4, %x ; <i32> [#uses=1]
	ret i32 %tmp.7
	else: ; preds = %entry
	ret i32 1
	}

	; CHECK-LABEL: define i32 @test1_factorial(
	; CHECK: phi i32
	; CHECK-NOT: call i32
	; CHECK: else:

	; This is a more aggressive form of accumulator recursion insertion, which
	; requires noticing that X doesn't change as we perform the tailcall.

	define i32 @test2_mul(i32 %x, i32 %y) {
	entry:
	%tmp.1 = icmp eq i32 %y, 0 ; <i1> [#uses=1]
	br i1 %tmp.1, label %return, label %endif
	endif: ; preds = %entry
	%tmp.8 = add i32 %y, -1 ; <i32> [#uses=1]
	%tmp.5 = call i32 @test2_mul( i32 %x, i32 %tmp.8 ) ; <i32> [#uses=1]
	%tmp.9 = add i32 %tmp.5, %x ; <i32> [#uses=1]
	ret i32 %tmp.9
	return: ; preds = %entry
	ret i32 %x
	}

	; CHECK-LABEL: define i32 @test2_mul(
	; CHECK: phi i32
	; CHECK-NOT: call i32
	; CHECK: return:


	define i64 @test3_fib(i64 %n) nounwind readnone {
	; CHECK-LABEL: @test3_fib(
	entry:
	; CHECK: tailrecurse:
	; CHECK: %accumulator.tr = phi i64 [ %n, %entry ], [ %3, %bb1 ]
	; CHECK: %n.tr = phi i64 [ %n, %entry ], [ %2, %bb1 ]
	switch i64 %n, label %bb1 [
	; CHECK: switch i64 %n.tr, label %bb1 [
	i64 0, label %bb2
	i64 1, label %bb2
	]

	bb1:
	; CHECK: bb1:
	%0 = add i64 %n, -1
	; CHECK: %0 = add i64 %n.tr, -1
	%1 = tail call i64 @test3_fib(i64 %0) nounwind
	; CHECK: %1 = tail call i64 @test3_fib(i64 %0)
	%2 = add i64 %n, -2
	; CHECK: %2 = add i64 %n.tr, -2
	%3 = tail call i64 @test3_fib(i64 %2) nounwind
	; CHECK-NOT: tail call i64 @test3_fib
	%4 = add nsw i64 %3, %1
	; CHECK: add nsw i64 %accumulator.tr, %1
	ret i64 %4
	; CHECK: br label %tailrecurse

	bb2:
	; CHECK: bb2:
	ret i64 %n
	; CHECK: ret i64 %accumulator.tr
	}