; RUN: llc < %s -mtriple=ve | FileCheck %s ;;; Test both ‘lshr’ and `ashr` instructions ;;; ;;; ‘lshr’ Instruction ;;; ;;; Syntax: ;;; = lshr , ; yields ty:result ;;; = lshr exact , ; yields ty:result ;;; ;;; Overview: ;;; The ‘lshr’ instruction (logical shift right) returns the first operand ;;; shifted to the right a specified number of bits with zero fill. ;;; ;;; Arguments: ;;; Both arguments to the ‘lshr’ instruction must be the same integer or ;;; vector of integer type. ‘op2’ is treated as an unsigned value. ;;; ;;; Semantics: ;;; This instruction always performs a logical shift right operation. The ;;; most significant bits of the result will be filled with zero bits after ;;; the shift. If op2 is (statically or dynamically) equal to or larger than ;;; the number of bits in op1, this instruction returns a poison value. If ;;; the arguments are vectors, each vector element of op1 is shifted by the ;;; corresponding shift amount in op2. ;;; ;;; If the exact keyword is present, the result value of the lshr is a ;;; poison value if any of the bits shifted out are non-zero. ;;; ;;; Example: ;;; = lshr i32 4, 1 ; yields i32:result = 2 ;;; = lshr i32 4, 2 ; yields i32:result = 1 ;;; = lshr i8 4, 3 ; yields i8:result = 0 ;;; = lshr i8 -2, 1 ; yields i8:result = 0x7F ;;; = lshr i32 1, 32 ; undefined ;;; = lshr <2 x i32> < i32 -2, i32 4>, < i32 1, i32 2> ;;; ; yields: result=<2 x i32> < i32 0x7FFFFFFF, i32 1> ;;; ;;; ‘ashr’ Instruction ;;; ;;; Syntax: ;;; = ashr , ; yields ty:result ;;; = ashr exact , ; yields ty:result ;;; ;;; Overview: ;;; The ‘ashr’ instruction (arithmetic shift right) returns the first operand ;;; shifted to the right a specified number of bits with sign extension. ;;; ;;; Arguments: ;;; Both arguments to the ‘ashr’ instruction must be the same integer or ;;; vector of integer type. ‘op2’ is treated as an unsigned value. ;;; ;;; Semantics: ;;; This instruction always performs an arithmetic shift right operation, The ;;; most significant bits of the result will be filled with the sign bit of ;;; op1. If op2 is (statically or dynamically) equal to or larger than the ;;; number of bits in op1, this instruction returns a poison value. If the ;;; arguments are vectors, each vector element of op1 is shifted by the ;;; corresponding shift amount in op2. ;;; ;;; If the exact keyword is present, the result value of the ashr is a poison ;;; value if any of the bits shifted out are non-zero. ;;; ;;; Example: ;;; = ashr i32 4, 1 ; yields i32:result = 2 ;;; = ashr i32 4, 2 ; yields i32:result = 1 ;;; = ashr i8 4, 3 ; yields i8:result = 0 ;;; = ashr i8 -2, 1 ; yields i8:result = -1 ;;; = ashr i32 1, 32 ; undefined ;;; = ashr <2 x i32> < i32 -2, i32 4>, < i32 1, i32 3> ;;; ; yields: result=<2 x i32> < i32 -1, i32 0> ;;; ;;; Note: ;;; We test only i8/i16/i32/i64/i128 and unsigned of them. ; Function Attrs: norecurse nounwind readnone define signext i8 @shl_i8_var(i8 signext %0, i8 signext %1) { ; CHECK-LABEL: shl_i8_var: ; CHECK: # %bb.0: ; CHECK-NEXT: and %s1, %s1, (56)0 ; CHECK-NEXT: sra.w.sx %s0, %s0, %s1 ; CHECK-NEXT: adds.w.sx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %3 = sext i8 %0 to i32 %4 = zext i8 %1 to i32 %5 = ashr i32 %3, %4 %6 = trunc i32 %5 to i8 ret i8 %6 } ; Function Attrs: norecurse nounwind readnone define zeroext i8 @shl_u8_var(i8 zeroext %0, i8 zeroext %1) { ; CHECK-LABEL: shl_u8_var: ; CHECK: # %bb.0: ; CHECK-NEXT: and %s0, %s0, (32)0 ; CHECK-NEXT: srl %s0, %s0, %s1 ; CHECK-NEXT: adds.w.zx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %3 = zext i8 %0 to i32 %4 = zext i8 %1 to i32 %5 = lshr i32 %3, %4 %6 = trunc i32 %5 to i8 ret i8 %6 } ; Function Attrs: norecurse nounwind readnone define signext i16 @shl_i16_var(i16 signext %0, i16 signext %1) { ; CHECK-LABEL: shl_i16_var: ; CHECK: # %bb.0: ; CHECK-NEXT: and %s1, %s1, (48)0 ; CHECK-NEXT: sra.w.sx %s0, %s0, %s1 ; CHECK-NEXT: adds.w.sx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %3 = sext i16 %0 to i32 %4 = zext i16 %1 to i32 %5 = ashr i32 %3, %4 %6 = trunc i32 %5 to i16 ret i16 %6 } ; Function Attrs: norecurse nounwind readnone define zeroext i16 @shl_u16_var(i16 zeroext %0, i16 zeroext %1) { ; CHECK-LABEL: shl_u16_var: ; CHECK: # %bb.0: ; CHECK-NEXT: and %s0, %s0, (32)0 ; CHECK-NEXT: srl %s0, %s0, %s1 ; CHECK-NEXT: adds.w.zx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %3 = zext i16 %0 to i32 %4 = zext i16 %1 to i32 %5 = lshr i32 %3, %4 %6 = trunc i32 %5 to i16 ret i16 %6 } ; Function Attrs: norecurse nounwind readnone define signext i32 @shl_i32_var(i32 signext %0, i32 signext %1) { ; CHECK-LABEL: shl_i32_var: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.w.sx %s0, %s0, %s1 ; CHECK-NEXT: adds.w.sx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %3 = ashr i32 %0, %1 ret i32 %3 } ; Function Attrs: norecurse nounwind readnone define zeroext i32 @shl_u32_var(i32 zeroext %0, i32 zeroext %1) { ; CHECK-LABEL: shl_u32_var: ; CHECK: # %bb.0: ; CHECK-NEXT: and %s0, %s0, (32)0 ; CHECK-NEXT: srl %s0, %s0, %s1 ; CHECK-NEXT: adds.w.zx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %3 = lshr i32 %0, %1 ret i32 %3 } ; Function Attrs: norecurse nounwind readnone define i64 @shl_i64_var(i64 %0, i64 %1) { ; CHECK-LABEL: shl_i64_var: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.l %s0, %s0, %s1 ; CHECK-NEXT: b.l.t (, %s10) %3 = ashr i64 %0, %1 ret i64 %3 } ; Function Attrs: norecurse nounwind readnone define i64 @shl_u64_var(i64 %0, i64 %1) { ; CHECK-LABEL: shl_u64_var: ; CHECK: # %bb.0: ; CHECK-NEXT: srl %s0, %s0, %s1 ; CHECK-NEXT: b.l.t (, %s10) %3 = lshr i64 %0, %1 ret i64 %3 } ; Function Attrs: norecurse nounwind readnone define i128 @shl_i128_var(i128 %0, i128 %1) { ; CHECK-LABEL: shl_i128_var: ; CHECK: .LBB{{[0-9]+}}_2: ; CHECK-NEXT: adds.w.sx %s2, %s2, (0)1 ; CHECK-NEXT: lea %s3, __ashrti3@lo ; CHECK-NEXT: and %s3, %s3, (32)0 ; CHECK-NEXT: lea.sl %s12, __ashrti3@hi(, %s3) ; CHECK-NEXT: bsic %s10, (, %s12) ; CHECK-NEXT: or %s11, 0, %s9 %3 = ashr i128 %0, %1 ret i128 %3 } ; Function Attrs: norecurse nounwind readnone define i128 @shl_u128_var(i128 %0, i128 %1) { ; CHECK-LABEL: shl_u128_var: ; CHECK: .LBB{{[0-9]+}}_2: ; CHECK-NEXT: and %s2, %s2, (32)0 ; CHECK-NEXT: lea %s3, __lshrti3@lo ; CHECK-NEXT: and %s3, %s3, (32)0 ; CHECK-NEXT: lea.sl %s12, __lshrti3@hi(, %s3) ; CHECK-NEXT: bsic %s10, (, %s12) ; CHECK-NEXT: or %s11, 0, %s9 %3 = lshr i128 %0, %1 ret i128 %3 } ; Function Attrs: norecurse nounwind readnone define signext i8 @shl_const_i8(i8 signext %0) { ; CHECK-LABEL: shl_const_i8: ; CHECK: # %bb.0: ; CHECK-NEXT: and %s0, %s0, (56)0 ; CHECK-NEXT: sra.w.sx %s0, (62)1, %s0 ; CHECK-NEXT: adds.w.sx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %2 = zext i8 %0 to i32 %3 = ashr i32 -4, %2 %4 = trunc i32 %3 to i8 ret i8 %4 } ; Function Attrs: norecurse nounwind readnone define zeroext i8 @shl_const_u8(i8 zeroext %0) { ; CHECK-LABEL: shl_const_u8: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.w.sx %s0, (62)1, %s0 ; CHECK-NEXT: and %s0, %s0, (56)0 ; CHECK-NEXT: b.l.t (, %s10) %2 = zext i8 %0 to i32 %3 = ashr i32 -4, %2 %4 = trunc i32 %3 to i8 ret i8 %4 } ; Function Attrs: norecurse nounwind readnone define signext i16 @shl_const_i16(i16 signext %0) { ; CHECK-LABEL: shl_const_i16: ; CHECK: # %bb.0: ; CHECK-NEXT: and %s0, %s0, (48)0 ; CHECK-NEXT: sra.w.sx %s0, (62)1, %s0 ; CHECK-NEXT: adds.w.sx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %2 = zext i16 %0 to i32 %3 = ashr i32 -4, %2 %4 = trunc i32 %3 to i16 ret i16 %4 } ; Function Attrs: norecurse nounwind readnone define zeroext i16 @shl_const_u16(i16 zeroext %0) { ; CHECK-LABEL: shl_const_u16: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.w.sx %s0, (62)1, %s0 ; CHECK-NEXT: and %s0, %s0, (48)0 ; CHECK-NEXT: b.l.t (, %s10) %2 = zext i16 %0 to i32 %3 = ashr i32 -4, %2 %4 = trunc i32 %3 to i16 ret i16 %4 } ; Function Attrs: norecurse nounwind readnone define signext i32 @shl_const_i32(i32 signext %0) { ; CHECK-LABEL: shl_const_i32: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.w.sx %s0, (62)1, %s0 ; CHECK-NEXT: adds.w.sx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %2 = ashr i32 -4, %0 ret i32 %2 } ; Function Attrs: norecurse nounwind readnone define zeroext i32 @shl_const_u32(i32 zeroext %0) { ; CHECK-LABEL: shl_const_u32: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.w.sx %s0, (62)1, %s0 ; CHECK-NEXT: adds.w.zx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %2 = ashr i32 -4, %0 ret i32 %2 } ; Function Attrs: norecurse nounwind readnone define i64 @shl_const_i64(i64 %0) { ; CHECK-LABEL: shl_const_i64: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.l %s0, (62)1, %s0 ; CHECK-NEXT: b.l.t (, %s10) %2 = ashr i64 -4, %0 ret i64 %2 } ; Function Attrs: norecurse nounwind readnone define i64 @shl_const_u64(i64 %0) { ; CHECK-LABEL: shl_const_u64: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.l %s0, (62)1, %s0 ; CHECK-NEXT: b.l.t (, %s10) %2 = ashr i64 -4, %0 ret i64 %2 } ; Function Attrs: norecurse nounwind readnone define i128 @shl_const_i128(i128 %0) { ; CHECK-LABEL: shl_const_i128: ; CHECK: .LBB{{[0-9]+}}_2: ; CHECK-NEXT: adds.w.sx %s2, %s0, (0)1 ; CHECK-NEXT: lea %s0, __ashrti3@lo ; CHECK-NEXT: and %s0, %s0, (32)0 ; CHECK-NEXT: lea.sl %s12, __ashrti3@hi(, %s0) ; CHECK-NEXT: or %s0, -4, (0)1 ; CHECK-NEXT: or %s1, -1, (0)1 ; CHECK-NEXT: bsic %s10, (, %s12) ; CHECK-NEXT: or %s11, 0, %s9 %2 = ashr i128 -4, %0 ret i128 %2 } ; Function Attrs: norecurse nounwind readnone define i128 @shl_const_u128(i128 %0) { ; CHECK-LABEL: shl_const_u128: ; CHECK: .LBB{{[0-9]+}}_2: ; CHECK-NEXT: adds.w.sx %s2, %s0, (0)1 ; CHECK-NEXT: lea %s0, __ashrti3@lo ; CHECK-NEXT: and %s0, %s0, (32)0 ; CHECK-NEXT: lea.sl %s12, __ashrti3@hi(, %s0) ; CHECK-NEXT: or %s0, -4, (0)1 ; CHECK-NEXT: or %s1, -1, (0)1 ; CHECK-NEXT: bsic %s10, (, %s12) ; CHECK-NEXT: or %s11, 0, %s9 %2 = ashr i128 -4, %0 ret i128 %2 } ; Function Attrs: norecurse nounwind readnone define signext i8 @shl_i8_const(i8 signext %0) { ; CHECK-LABEL: shl_i8_const: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.w.sx %s0, %s0, 3 ; CHECK-NEXT: adds.w.sx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %2 = ashr i8 %0, 3 ret i8 %2 } ; Function Attrs: norecurse nounwind readnone define zeroext i8 @shl_u8_const(i8 zeroext %0) { ; CHECK-LABEL: shl_u8_const: ; CHECK: # %bb.0: ; CHECK-NEXT: and %s0, %s0, (32)0 ; CHECK-NEXT: srl %s0, %s0, 3 ; CHECK-NEXT: adds.w.zx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %2 = lshr i8 %0, 3 ret i8 %2 } ; Function Attrs: norecurse nounwind readnone define signext i16 @shl_i16_const(i16 signext %0) { ; CHECK-LABEL: shl_i16_const: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.w.sx %s0, %s0, 7 ; CHECK-NEXT: adds.w.sx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %2 = ashr i16 %0, 7 ret i16 %2 } ; Function Attrs: norecurse nounwind readnone define zeroext i16 @shl_u16_const(i16 zeroext %0) { ; CHECK-LABEL: shl_u16_const: ; CHECK: # %bb.0: ; CHECK-NEXT: and %s0, %s0, (32)0 ; CHECK-NEXT: srl %s0, %s0, 7 ; CHECK-NEXT: adds.w.zx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %2 = lshr i16 %0, 7 ret i16 %2 } ; Function Attrs: norecurse nounwind readnone define signext i32 @shl_i32_const(i32 signext %0) { ; CHECK-LABEL: shl_i32_const: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.w.sx %s0, %s0, 15 ; CHECK-NEXT: adds.w.sx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %2 = ashr i32 %0, 15 ret i32 %2 } ; Function Attrs: norecurse nounwind readnone define zeroext i32 @shl_u32_const(i32 zeroext %0) { ; CHECK-LABEL: shl_u32_const: ; CHECK: # %bb.0: ; CHECK-NEXT: and %s0, %s0, (32)0 ; CHECK-NEXT: srl %s0, %s0, 15 ; CHECK-NEXT: adds.w.zx %s0, %s0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %2 = lshr i32 %0, 15 ret i32 %2 } ; Function Attrs: norecurse nounwind readnone define i64 @shl_i64_const(i64 %0) { ; CHECK-LABEL: shl_i64_const: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.l %s0, %s0, 63 ; CHECK-NEXT: b.l.t (, %s10) %2 = ashr i64 %0, 63 ret i64 %2 } ; Function Attrs: norecurse nounwind readnone define i64 @shl_u64_const(i64 %0) { ; CHECK-LABEL: shl_u64_const: ; CHECK: # %bb.0: ; CHECK-NEXT: srl %s0, %s0, 63 ; CHECK-NEXT: b.l.t (, %s10) %2 = lshr i64 %0, 63 ret i64 %2 } ; Function Attrs: norecurse nounwind readnone define i128 @shl_i128_const(i128 %0) { ; CHECK-LABEL: shl_i128_const: ; CHECK: # %bb.0: ; CHECK-NEXT: sra.l %s0, %s1, 63 ; CHECK-NEXT: or %s1, 0, %s0 ; CHECK-NEXT: b.l.t (, %s10) %2 = ashr i128 %0, 127 ret i128 %2 } ; Function Attrs: norecurse nounwind readnone define i128 @shl_u128_const(i128 %0) { ; CHECK-LABEL: shl_u128_const: ; CHECK: # %bb.0: ; CHECK-NEXT: srl %s0, %s1, 63 ; CHECK-NEXT: or %s1, 0, (0)1 ; CHECK-NEXT: b.l.t (, %s10) %2 = lshr i128 %0, 127 ret i128 %2 }