test/Analysis/ScalarEvolution/no-wrap-add-exprs.ll - llvm - Git at Google

 ; RUN: opt -S -analyze -scalar-evolution < %s | FileCheck %s

 !0 = !{i8 0, i8 127}

 define void @f0(i8* %len_addr) {
 ; CHECK-LABEL: Classifying expressions for: @f0
  entry:
   %len = load i8, i8* %len_addr, !range !0
   %len_norange = load i8, i8* %len_addr
 ; CHECK:  %len = load i8, i8* %len_addr, !range !0
 ; CHECK-NEXT:  -->  %len U: [0,127) S: [0,127)
 ; CHECK:  %len_norange = load i8, i8* %len_addr
 ; CHECK-NEXT:  -->  %len_norange U: full-set S: full-set

   %t0 = add i8 %len, 1
   %t1 = add i8 %len, 2
 ; CHECK:  %t0 = add i8 %len, 1
 ; CHECK-NEXT:  -->  (1 + %len)<nuw><nsw> U: [1,-128) S: [1,-128)
 ; CHECK:  %t1 = add i8 %len, 2
 ; CHECK-NEXT:  -->  (2 + %len)<nuw> U: [2,-127) S: [2,-127)

   %t2 = sub i8 %len, 1
   %t3 = sub i8 %len, 2
 ; CHECK:  %t2 = sub i8 %len, 1
 ; CHECK-NEXT:  -->  (-1 + %len)<nsw> U: [-1,126) S: [-1,126)
 ; CHECK:  %t3 = sub i8 %len, 2
 ; CHECK-NEXT:  -->  (-2 + %len)<nsw> U: [-2,125) S: [-2,125)

   %q0 = add i8 %len_norange, 1
   %q1 = add i8 %len_norange, 2
 ; CHECK:  %q0 = add i8 %len_norange, 1
 ; CHECK-NEXT:  -->  (1 + %len_norange) U: full-set S: full-set
 ; CHECK:  %q1 = add i8 %len_norange, 2
 ; CHECK-NEXT:  -->  (2 + %len_norange) U: full-set S: full-set

   %q2 = sub i8 %len_norange, 1
   %q3 = sub i8 %len_norange, 2
 ; CHECK:  %q2 = sub i8 %len_norange, 1
 ; CHECK-NEXT:  -->  (-1 + %len_norange) U: full-set S: full-set
 ; CHECK:  %q3 = sub i8 %len_norange, 2
 ; CHECK-NEXT:  -->  (-2 + %len_norange) U: full-set S: full-set

   ret void
 }

 define void @f1(i8* %len_addr) {
 ; CHECK-LABEL: Classifying expressions for: @f1
  entry:
   %len = load i8, i8* %len_addr, !range !0
   %len_norange = load i8, i8* %len_addr
 ; CHECK:  %len = load i8, i8* %len_addr, !range !0
 ; CHECK-NEXT:  -->  %len U: [0,127) S: [0,127)
 ; CHECK:  %len_norange = load i8, i8* %len_addr
 ; CHECK-NEXT:  -->  %len_norange U: full-set S: full-set

   %t0 = add i8 %len, -1
   %t1 = add i8 %len, -2
 ; CHECK:  %t0 = add i8 %len, -1
 ; CHECK-NEXT:  -->  (-1 + %len)<nsw> U: [-1,126) S: [-1,126)
 ; CHECK:  %t1 = add i8 %len, -2
 ; CHECK-NEXT:  -->  (-2 + %len)<nsw> U: [-2,125) S: [-2,125)

   %t0.sext = sext i8 %t0 to i16
   %t1.sext = sext i8 %t1 to i16
 ; CHECK:  %t0.sext = sext i8 %t0 to i16
 ; CHECK-NEXT:  -->  (-1 + (zext i8 %len to i16))<nsw> U: [-1,126) S: [-1,126)
 ; CHECK:  %t1.sext = sext i8 %t1 to i16
 ; CHECK-NEXT:  -->  (-2 + (zext i8 %len to i16))<nsw> U: [-2,125) S: [-2,125)

   %q0 = add i8 %len_norange, 1
   %q1 = add i8 %len_norange, 2
 ; CHECK:  %q0 = add i8 %len_norange, 1
 ; CHECK-NEXT:  -->  (1 + %len_norange) U: full-set S: full-set
 ; CHECK:  %q1 = add i8 %len_norange, 2
 ; CHECK-NEXT:  -->  (2 + %len_norange) U: full-set S: full-set

   %q0.sext = sext i8 %q0 to i16
   %q1.sext = sext i8 %q1 to i16
 ; CHECK:  %q0.sext = sext i8 %q0 to i16
 ; CHECK-NEXT:  -->  (sext i8 (1 + %len_norange) to i16) U: [-128,128) S: [-128,128)
 ; CHECK:  %q1.sext = sext i8 %q1 to i16
 ; CHECK-NEXT:  -->  (sext i8 (2 + %len_norange) to i16) U: [-128,128) S: [-128,128)

   ret void
 }

 define void @f2(i8* %len_addr) {
 ; CHECK-LABEL: Classifying expressions for: @f2
  entry:
   %len = load i8, i8* %len_addr, !range !0
   %len_norange = load i8, i8* %len_addr
 ; CHECK:  %len = load i8, i8* %len_addr, !range !0
 ; CHECK-NEXT:  -->  %len U: [0,127) S: [0,127)
 ; CHECK:  %len_norange = load i8, i8* %len_addr
 ; CHECK-NEXT:  -->  %len_norange U: full-set S: full-set

   %t0 = add i8 %len, 1
   %t1 = add i8 %len, 2
 ; CHECK:  %t0 = add i8 %len, 1
 ; CHECK-NEXT:  -->  (1 + %len)<nuw><nsw>
 ; CHECK:  %t1 = add i8 %len, 2
 ; CHECK-NEXT:  -->  (2 + %len)<nuw>

   %t0.zext = zext i8 %t0 to i16
   %t1.zext = zext i8 %t1 to i16
 ; CHECK:  %t0.zext = zext i8 %t0 to i16
 ; CHECK-NEXT: -->  (1 + (zext i8 %len to i16))<nuw><nsw> U: [1,128) S: [1,128)
 ; CHECK:  %t1.zext = zext i8 %t1 to i16
 ; CHECK-NEXT:  -->  (2 + (zext i8 %len to i16))<nuw><nsw> U: [2,129) S: [2,129)

   %q0 = add i8 %len_norange, 1
   %q1 = add i8 %len_norange, 2
   %q0.zext = zext i8 %q0 to i16
   %q1.zext = zext i8 %q1 to i16

 ; CHECK:  %q0.zext = zext i8 %q0 to i16
 ; CHECK-NEXT:  -->  (zext i8 (1 + %len_norange) to i16) U: [0,256) S: [0,256)
 ; CHECK:  %q1.zext = zext i8 %q1 to i16
 ; CHECK-NEXT:  -->  (zext i8 (2 + %len_norange) to i16) U: [0,256) S: [0,256)

   ret void
 }

 @z_addr = external global [16 x i8], align 4
 @z_addr_noalign = external global [16 x i8]

 %union = type { [10 x [4 x float]] }
 @tmp_addr = external unnamed_addr global { %union, [2000 x i8] }

 define void @f3(i8* %x_addr, i8* %y_addr, i32* %tmp_addr) {
 ; CHECK-LABEL: Classifying expressions for: @f3
  entry:
   %x = load i8, i8* %x_addr
   %t0 = mul i8 %x, 4
   %t1 = add i8 %t0, 5
   %t1.zext = zext i8 %t1 to i16
 ; CHECK:  %t1.zext = zext i8 %t1 to i16
 ; CHECK-NEXT:  -->  (1 + (zext i8 (4 + (4 * %x)) to i16))<nuw><nsw> U: [1,254) S: [1,257)

   %q0 = mul i8 %x, 4
   %q1 = add i8 %q0, 7
   %q1.zext = zext i8 %q1 to i16
 ; CHECK:  %q1.zext = zext i8 %q1 to i16
 ; CHECK-NEXT:  -->  (3 + (zext i8 (4 + (4 * %x)) to i16))<nuw><nsw> U: [3,256) S: [3,259)

   %p0 = mul i8 %x, 4
   %p1 = add i8 %p0, 8
   %p1.zext = zext i8 %p1 to i16
 ; CHECK:  %p1.zext = zext i8 %p1 to i16
 ; CHECK-NEXT:  -->  (zext i8 (8 + (4 * %x)) to i16) U: [0,253) S: [0,256)

   %r0 = mul i8 %x, 4
   %r1 = add i8 %r0, 254
   %r1.zext = zext i8 %r1 to i16
 ; CHECK:  %r1.zext = zext i8 %r1 to i16
 ; CHECK-NEXT:  -->  (2 + (zext i8 (-4 + (4 * %x)) to i16))<nuw><nsw> U: [2,255) S: [2,258)

   %y = load i8, i8* %y_addr
   %s0 = mul i8 %x, 32
   %s1 = mul i8 %y, 36
   %s2 = add i8 %s0, %s1
   %s3 = add i8 %s2, 5
   %s3.zext = zext i8 %s3 to i16
 ; CHECK:  %s3.zext = zext i8 %s3 to i16
 ; CHECK-NEXT:  -->  (1 + (zext i8 (4 + (32 * %x) + (36 * %y)) to i16))<nuw><nsw> U: [1,254) S: [1,257)

   %ptr = bitcast [16 x i8]* @z_addr to i8*
   %int0 = ptrtoint i8* %ptr to i32
   %int5 = add i32 %int0, 5
   %int.zext = zext i32 %int5 to i64
 ; CHECK:  %int.zext = zext i32 %int5 to i64
 ; CHECK-NEXT:  -->  (1 + (zext i32 (4 + %int0) to i64))<nuw><nsw> U: [1,4294967294) S: [1,4294967297)

   %ptr_noalign = bitcast [16 x i8]* @z_addr_noalign to i8*
   %int0_na = ptrtoint i8* %ptr_noalign to i32
   %int5_na = add i32 %int0_na, 5
   %int.zext_na = zext i32 %int5_na to i64
 ; CHECK:  %int.zext_na = zext i32 %int5_na to i64
 ; CHECK-NEXT:  -->  (zext i32 (5 + %int0_na) to i64) U: [0,4294967296) S: [0,4294967296)

   %tmp = load i32, i32* %tmp_addr
   %mul = and i32 %tmp, -4
   %add4 = add i32 %mul, 4
   %add4.zext = zext i32 %add4 to i64
   %sunkaddr3 = mul i64 %add4.zext, 4
   %sunkaddr4 = getelementptr inbounds i8, i8* bitcast ({ %union, [2000 x i8] }* @tmp_addr to i8*), i64 %sunkaddr3
   %sunkaddr5 = getelementptr inbounds i8, i8* %sunkaddr4, i64 4096
   %addr4.cast = bitcast i8* %sunkaddr5 to i32*
   %addr4.incr = getelementptr i32, i32* %addr4.cast, i64 1
 ; CHECK:  %addr4.incr = getelementptr i32, i32* %addr4.cast, i64 1
 ; CHECK-NEXT:  -->  ([[C:4100]] + ([[SIZE:4]] * (zext i32 ([[OFFSET:4]] + ([[STRIDE:4]] * (%tmp /u [[STRIDE]]))<nuw>) to i64))<nuw><nsw> + @tmp_addr)

   %add5 = add i32 %mul, 5
   %add5.zext = zext i32 %add5 to i64
   %sunkaddr0 = mul i64 %add5.zext, 4
   %sunkaddr1 = getelementptr inbounds i8, i8* bitcast ({ %union, [2000 x i8] }* @tmp_addr to i8*), i64 %sunkaddr0
   %sunkaddr2 = getelementptr inbounds i8, i8* %sunkaddr1, i64 4096
   %addr5.cast = bitcast i8* %sunkaddr2 to i32*
 ; CHECK:  %addr5.cast = bitcast i8* %sunkaddr2 to i32*
 ; CHECK-NEXT:  -->  ([[C]]    +   ([[SIZE]]  *  (zext i32 ([[OFFSET]]  +  ([[STRIDE]]  *  (%tmp /u [[STRIDE]]))<nuw>) to i64))<nuw><nsw> + @tmp_addr)

   ret void
 }
	; RUN: opt -S -analyze -scalar-evolution < %s \| FileCheck %s

	!0 = !{i8 0, i8 127}

	define void @f0(i8* %len_addr) {
	; CHECK-LABEL: Classifying expressions for: @f0
	entry:
	%len = load i8, i8* %len_addr, !range !0
	%len_norange = load i8, i8* %len_addr
	; CHECK: %len = load i8, i8* %len_addr, !range !0
	; CHECK-NEXT: --> %len U: [0,127) S: [0,127)
	; CHECK: %len_norange = load i8, i8* %len_addr
	; CHECK-NEXT: --> %len_norange U: full-set S: full-set

	%t0 = add i8 %len, 1
	%t1 = add i8 %len, 2
	; CHECK: %t0 = add i8 %len, 1
	; CHECK-NEXT: --> (1 + %len)<nuw><nsw> U: [1,-128) S: [1,-128)
	; CHECK: %t1 = add i8 %len, 2
	; CHECK-NEXT: --> (2 + %len)<nuw> U: [2,-127) S: [2,-127)

	%t2 = sub i8 %len, 1
	%t3 = sub i8 %len, 2
	; CHECK: %t2 = sub i8 %len, 1
	; CHECK-NEXT: --> (-1 + %len)<nsw> U: [-1,126) S: [-1,126)
	; CHECK: %t3 = sub i8 %len, 2
	; CHECK-NEXT: --> (-2 + %len)<nsw> U: [-2,125) S: [-2,125)

	%q0 = add i8 %len_norange, 1
	%q1 = add i8 %len_norange, 2
	; CHECK: %q0 = add i8 %len_norange, 1
	; CHECK-NEXT: --> (1 + %len_norange) U: full-set S: full-set
	; CHECK: %q1 = add i8 %len_norange, 2
	; CHECK-NEXT: --> (2 + %len_norange) U: full-set S: full-set

	%q2 = sub i8 %len_norange, 1
	%q3 = sub i8 %len_norange, 2
	; CHECK: %q2 = sub i8 %len_norange, 1
	; CHECK-NEXT: --> (-1 + %len_norange) U: full-set S: full-set
	; CHECK: %q3 = sub i8 %len_norange, 2
	; CHECK-NEXT: --> (-2 + %len_norange) U: full-set S: full-set

	ret void
	}

	define void @f1(i8* %len_addr) {
	; CHECK-LABEL: Classifying expressions for: @f1
	entry:
	%len = load i8, i8* %len_addr, !range !0
	%len_norange = load i8, i8* %len_addr
	; CHECK: %len = load i8, i8* %len_addr, !range !0
	; CHECK-NEXT: --> %len U: [0,127) S: [0,127)
	; CHECK: %len_norange = load i8, i8* %len_addr
	; CHECK-NEXT: --> %len_norange U: full-set S: full-set

	%t0 = add i8 %len, -1
	%t1 = add i8 %len, -2
	; CHECK: %t0 = add i8 %len, -1
	; CHECK-NEXT: --> (-1 + %len)<nsw> U: [-1,126) S: [-1,126)
	; CHECK: %t1 = add i8 %len, -2
	; CHECK-NEXT: --> (-2 + %len)<nsw> U: [-2,125) S: [-2,125)

	%t0.sext = sext i8 %t0 to i16
	%t1.sext = sext i8 %t1 to i16
	; CHECK: %t0.sext = sext i8 %t0 to i16
	; CHECK-NEXT: --> (-1 + (zext i8 %len to i16))<nsw> U: [-1,126) S: [-1,126)
	; CHECK: %t1.sext = sext i8 %t1 to i16
	; CHECK-NEXT: --> (-2 + (zext i8 %len to i16))<nsw> U: [-2,125) S: [-2,125)

	%q0 = add i8 %len_norange, 1
	%q1 = add i8 %len_norange, 2
	; CHECK: %q0 = add i8 %len_norange, 1
	; CHECK-NEXT: --> (1 + %len_norange) U: full-set S: full-set
	; CHECK: %q1 = add i8 %len_norange, 2
	; CHECK-NEXT: --> (2 + %len_norange) U: full-set S: full-set

	%q0.sext = sext i8 %q0 to i16
	%q1.sext = sext i8 %q1 to i16
	; CHECK: %q0.sext = sext i8 %q0 to i16
	; CHECK-NEXT: --> (sext i8 (1 + %len_norange) to i16) U: [-128,128) S: [-128,128)
	; CHECK: %q1.sext = sext i8 %q1 to i16
	; CHECK-NEXT: --> (sext i8 (2 + %len_norange) to i16) U: [-128,128) S: [-128,128)

	ret void
	}

	define void @f2(i8* %len_addr) {
	; CHECK-LABEL: Classifying expressions for: @f2
	entry:
	%len = load i8, i8* %len_addr, !range !0
	%len_norange = load i8, i8* %len_addr
	; CHECK: %len = load i8, i8* %len_addr, !range !0
	; CHECK-NEXT: --> %len U: [0,127) S: [0,127)
	; CHECK: %len_norange = load i8, i8* %len_addr
	; CHECK-NEXT: --> %len_norange U: full-set S: full-set

	%t0 = add i8 %len, 1
	%t1 = add i8 %len, 2
	; CHECK: %t0 = add i8 %len, 1
	; CHECK-NEXT: --> (1 + %len)<nuw><nsw>
	; CHECK: %t1 = add i8 %len, 2
	; CHECK-NEXT: --> (2 + %len)<nuw>

	%t0.zext = zext i8 %t0 to i16
	%t1.zext = zext i8 %t1 to i16
	; CHECK: %t0.zext = zext i8 %t0 to i16
	; CHECK-NEXT: --> (1 + (zext i8 %len to i16))<nuw><nsw> U: [1,128) S: [1,128)
	; CHECK: %t1.zext = zext i8 %t1 to i16
	; CHECK-NEXT: --> (2 + (zext i8 %len to i16))<nuw><nsw> U: [2,129) S: [2,129)

	%q0 = add i8 %len_norange, 1
	%q1 = add i8 %len_norange, 2
	%q0.zext = zext i8 %q0 to i16
	%q1.zext = zext i8 %q1 to i16

	; CHECK: %q0.zext = zext i8 %q0 to i16
	; CHECK-NEXT: --> (zext i8 (1 + %len_norange) to i16) U: [0,256) S: [0,256)
	; CHECK: %q1.zext = zext i8 %q1 to i16
	; CHECK-NEXT: --> (zext i8 (2 + %len_norange) to i16) U: [0,256) S: [0,256)

	ret void
	}

	@z_addr = external global [16 x i8], align 4
	@z_addr_noalign = external global [16 x i8]

	%union = type { [10 x [4 x float]] }
	@tmp_addr = external unnamed_addr global { %union, [2000 x i8] }

	define void @f3(i8* %x_addr, i8* %y_addr, i32* %tmp_addr) {
	; CHECK-LABEL: Classifying expressions for: @f3
	entry:
	%x = load i8, i8* %x_addr
	%t0 = mul i8 %x, 4
	%t1 = add i8 %t0, 5
	%t1.zext = zext i8 %t1 to i16
	; CHECK: %t1.zext = zext i8 %t1 to i16
	; CHECK-NEXT: --> (1 + (zext i8 (4 + (4 * %x)) to i16))<nuw><nsw> U: [1,254) S: [1,257)

	%q0 = mul i8 %x, 4
	%q1 = add i8 %q0, 7
	%q1.zext = zext i8 %q1 to i16
	; CHECK: %q1.zext = zext i8 %q1 to i16
	; CHECK-NEXT: --> (3 + (zext i8 (4 + (4 * %x)) to i16))<nuw><nsw> U: [3,256) S: [3,259)

	%p0 = mul i8 %x, 4
	%p1 = add i8 %p0, 8
	%p1.zext = zext i8 %p1 to i16
	; CHECK: %p1.zext = zext i8 %p1 to i16
	; CHECK-NEXT: --> (zext i8 (8 + (4 * %x)) to i16) U: [0,253) S: [0,256)

	%r0 = mul i8 %x, 4
	%r1 = add i8 %r0, 254
	%r1.zext = zext i8 %r1 to i16
	; CHECK: %r1.zext = zext i8 %r1 to i16
	; CHECK-NEXT: --> (2 + (zext i8 (-4 + (4 * %x)) to i16))<nuw><nsw> U: [2,255) S: [2,258)

	%y = load i8, i8* %y_addr
	%s0 = mul i8 %x, 32
	%s1 = mul i8 %y, 36
	%s2 = add i8 %s0, %s1
	%s3 = add i8 %s2, 5
	%s3.zext = zext i8 %s3 to i16
	; CHECK: %s3.zext = zext i8 %s3 to i16
	; CHECK-NEXT: --> (1 + (zext i8 (4 + (32 * %x) + (36 * %y)) to i16))<nuw><nsw> U: [1,254) S: [1,257)

	%ptr = bitcast [16 x i8]* @z_addr to i8*
	%int0 = ptrtoint i8* %ptr to i32
	%int5 = add i32 %int0, 5
	%int.zext = zext i32 %int5 to i64
	; CHECK: %int.zext = zext i32 %int5 to i64
	; CHECK-NEXT: --> (1 + (zext i32 (4 + %int0) to i64))<nuw><nsw> U: [1,4294967294) S: [1,4294967297)

	%ptr_noalign = bitcast [16 x i8]* @z_addr_noalign to i8*
	%int0_na = ptrtoint i8* %ptr_noalign to i32
	%int5_na = add i32 %int0_na, 5
	%int.zext_na = zext i32 %int5_na to i64
	; CHECK: %int.zext_na = zext i32 %int5_na to i64
	; CHECK-NEXT: --> (zext i32 (5 + %int0_na) to i64) U: [0,4294967296) S: [0,4294967296)

	%tmp = load i32, i32* %tmp_addr
	%mul = and i32 %tmp, -4
	%add4 = add i32 %mul, 4
	%add4.zext = zext i32 %add4 to i64
	%sunkaddr3 = mul i64 %add4.zext, 4
	%sunkaddr4 = getelementptr inbounds i8, i8* bitcast ({ %union, [2000 x i8] }* @tmp_addr to i8*), i64 %sunkaddr3
	%sunkaddr5 = getelementptr inbounds i8, i8* %sunkaddr4, i64 4096
	%addr4.cast = bitcast i8* %sunkaddr5 to i32*
	%addr4.incr = getelementptr i32, i32* %addr4.cast, i64 1
	; CHECK: %addr4.incr = getelementptr i32, i32* %addr4.cast, i64 1
	; CHECK-NEXT: --> ([[C:4100]] + ([[SIZE:4]] * (zext i32 ([[OFFSET:4]] + ([[STRIDE:4]] * (%tmp /u [[STRIDE]]))<nuw>) to i64))<nuw><nsw> + @tmp_addr)

	%add5 = add i32 %mul, 5
	%add5.zext = zext i32 %add5 to i64
	%sunkaddr0 = mul i64 %add5.zext, 4
	%sunkaddr1 = getelementptr inbounds i8, i8* bitcast ({ %union, [2000 x i8] }* @tmp_addr to i8*), i64 %sunkaddr0
	%sunkaddr2 = getelementptr inbounds i8, i8* %sunkaddr1, i64 4096
	%addr5.cast = bitcast i8* %sunkaddr2 to i32*
	; CHECK: %addr5.cast = bitcast i8* %sunkaddr2 to i32*
	; CHECK-NEXT: --> ([[C]] + ([[SIZE]] * (zext i32 ([[OFFSET]] + ([[STRIDE]] * (%tmp /u [[STRIDE]]))<nuw>) to i64))<nuw><nsw> + @tmp_addr)

	ret void
	}