// asmcheck // Copyright 2018 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package codegen // ------------------ // // constant shifts // // ------------------ // func lshConst64x64(v int64) int64 { // ppc64x:"SLD" // riscv64:"SLLI",-"AND",-"SLTIU" return v << uint64(33) } func rshConst64Ux64(v uint64) uint64 { // ppc64x:"SRD" // riscv64:"SRLI\t",-"AND",-"SLTIU" return v >> uint64(33) } func rshConst64Ux64Overflow32(v uint32) uint64 { // riscv64:"MOV\t\\$0,",-"SRL" return uint64(v) >> 32 } func rshConst64Ux64Overflow16(v uint16) uint64 { // riscv64:"MOV\t\\$0,",-"SRL" return uint64(v) >> 16 } func rshConst64Ux64Overflow8(v uint8) uint64 { // riscv64:"MOV\t\\$0,",-"SRL" return uint64(v) >> 8 } func rshConst64x64(v int64) int64 { // ppc64x:"SRAD" // riscv64:"SRAI\t",-"OR",-"SLTIU" return v >> uint64(33) } func rshConst64x64Overflow32(v int32) int64 { // riscv64:"SRAIW",-"SLLI",-"SRAI\t" return int64(v) >> 32 } func rshConst64x64Overflow16(v int16) int64 { // riscv64:"SLLI","SRAI",-"SRAIW" return int64(v) >> 16 } func rshConst64x64Overflow8(v int8) int64 { // riscv64:"SLLI","SRAI",-"SRAIW" return int64(v) >> 8 } func lshConst32x64(v int32) int32 { // ppc64x:"SLW" // riscv64:"SLLI",-"AND",-"SLTIU", -"MOVW" return v << uint64(29) } func rshConst32Ux64(v uint32) uint32 { // ppc64x:"SRW" // riscv64:"SRLIW",-"AND",-"SLTIU", -"MOVW" return v >> uint64(29) } func rshConst32x64(v int32) int32 { // ppc64x:"SRAW" // riscv64:"SRAIW",-"OR",-"SLTIU", -"MOVW" return v >> uint64(29) } func lshConst64x32(v int64) int64 { // ppc64x:"SLD" // riscv64:"SLLI",-"AND",-"SLTIU" return v << uint32(33) } func rshConst64Ux32(v uint64) uint64 { // ppc64x:"SRD" // riscv64:"SRLI\t",-"AND",-"SLTIU" return v >> uint32(33) } func rshConst64x32(v int64) int64 { // ppc64x:"SRAD" // riscv64:"SRAI\t",-"OR",-"SLTIU" return v >> uint32(33) } // ------------------ // // masked shifts // // ------------------ // func lshMask64x64(v int64, s uint64) int64 { // arm64:"LSL",-"AND" // ppc64x:"RLDICL",-"ORN",-"ISEL" // riscv64:"SLL",-"AND\t",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v << (s & 63) } func rshMask64Ux64(v uint64, s uint64) uint64 { // arm64:"LSR",-"AND",-"CSEL" // ppc64x:"RLDICL",-"ORN",-"ISEL" // riscv64:"SRL\t",-"AND\t",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v >> (s & 63) } func rshMask64x64(v int64, s uint64) int64 { // arm64:"ASR",-"AND",-"CSEL" // ppc64x:"RLDICL",-"ORN",-"ISEL" // riscv64:"SRA\t",-"OR",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v >> (s & 63) } func lshMask32x64(v int32, s uint64) int32 { // arm64:"LSL",-"AND" // ppc64x:"ISEL",-"ORN" // riscv64:"SLL",-"AND\t",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v << (s & 63) } func rshMask32Ux64(v uint32, s uint64) uint32 { // arm64:"LSR",-"AND" // ppc64x:"ISEL",-"ORN" // riscv64:"SRLW","SLTIU","NEG","AND\t",-"SRL\t" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v >> (s & 63) } func rsh5Mask32Ux64(v uint32, s uint64) uint32 { // riscv64:"SRLW",-"AND\t",-"SLTIU",-"SRL\t" return v >> (s & 31) } func rshMask32x64(v int32, s uint64) int32 { // arm64:"ASR",-"AND" // ppc64x:"ISEL",-"ORN" // riscv64:"SRAW","OR","SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v >> (s & 63) } func rsh5Mask32x64(v int32, s uint64) int32 { // riscv64:"SRAW",-"OR",-"SLTIU" return v >> (s & 31) } func lshMask64x32(v int64, s uint32) int64 { // arm64:"LSL",-"AND" // ppc64x:"RLDICL",-"ORN" // riscv64:"SLL",-"AND\t",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v << (s & 63) } func rshMask64Ux32(v uint64, s uint32) uint64 { // arm64:"LSR",-"AND",-"CSEL" // ppc64x:"RLDICL",-"ORN" // riscv64:"SRL\t",-"AND\t",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v >> (s & 63) } func rshMask64x32(v int64, s uint32) int64 { // arm64:"ASR",-"AND",-"CSEL" // ppc64x:"RLDICL",-"ORN",-"ISEL" // riscv64:"SRA\t",-"OR",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v >> (s & 63) } func lshMask64x32Ext(v int64, s int32) int64 { // ppc64x:"RLDICL",-"ORN",-"ISEL" // riscv64:"SLL",-"AND\t",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v << uint(s&63) } func rshMask64Ux32Ext(v uint64, s int32) uint64 { // ppc64x:"RLDICL",-"ORN",-"ISEL" // riscv64:"SRL\t",-"AND\t",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v >> uint(s&63) } func rshMask64x32Ext(v int64, s int32) int64 { // ppc64x:"RLDICL",-"ORN",-"ISEL" // riscv64:"SRA\t",-"OR",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" return v >> uint(s&63) } // --------------- // // signed shifts // // --------------- // // We do want to generate a test + panicshift for these cases. func lshSigned(v8 int8, v16 int16, v32 int32, v64 int64, x int) { // amd64:"TESTB" _ = x << v8 // amd64:"TESTW" _ = x << v16 // amd64:"TESTL" _ = x << v32 // amd64:"TESTQ" _ = x << v64 } // We want to avoid generating a test + panicshift for these cases. func lshSignedMasked(v8 int8, v16 int16, v32 int32, v64 int64, x int) { // amd64:-"TESTB" _ = x << (v8 & 7) // amd64:-"TESTW" _ = x << (v16 & 15) // amd64:-"TESTL" _ = x << (v32 & 31) // amd64:-"TESTQ" _ = x << (v64 & 63) } // ------------------ // // bounded shifts // // ------------------ // func lshGuarded64(v int64, s uint) int64 { if s < 64 { // riscv64:"SLL",-"AND",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" // wasm:-"Select",-".*LtU" // arm64:"LSL",-"CSEL" return v << s } panic("shift too large") } func rshGuarded64U(v uint64, s uint) uint64 { if s < 64 { // riscv64:"SRL\t",-"AND",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" // wasm:-"Select",-".*LtU" // arm64:"LSR",-"CSEL" return v >> s } panic("shift too large") } func rshGuarded64(v int64, s uint) int64 { if s < 64 { // riscv64:"SRA\t",-"OR",-"SLTIU" // s390x:-"RISBGZ",-"AND",-"LOCGR" // wasm:-"Select",-".*LtU" // arm64:"ASR",-"CSEL" return v >> s } panic("shift too large") } func provedUnsignedShiftLeft(val64 uint64, val32 uint32, val16 uint16, val8 uint8, shift int) (r1 uint64, r2 uint32, r3 uint16, r4 uint8) { if shift >= 0 && shift < 64 { // arm64:"LSL",-"CSEL" r1 = val64 << shift } if shift >= 0 && shift < 32 { // arm64:"LSL",-"CSEL" r2 = val32 << shift } if shift >= 0 && shift < 16 { // arm64:"LSL",-"CSEL" r3 = val16 << shift } if shift >= 0 && shift < 8 { // arm64:"LSL",-"CSEL" r4 = val8 << shift } return r1, r2, r3, r4 } func provedSignedShiftLeft(val64 int64, val32 int32, val16 int16, val8 int8, shift int) (r1 int64, r2 int32, r3 int16, r4 int8) { if shift >= 0 && shift < 64 { // arm64:"LSL",-"CSEL" r1 = val64 << shift } if shift >= 0 && shift < 32 { // arm64:"LSL",-"CSEL" r2 = val32 << shift } if shift >= 0 && shift < 16 { // arm64:"LSL",-"CSEL" r3 = val16 << shift } if shift >= 0 && shift < 8 { // arm64:"LSL",-"CSEL" r4 = val8 << shift } return r1, r2, r3, r4 } func provedUnsignedShiftRight(val64 uint64, val32 uint32, val16 uint16, val8 uint8, shift int) (r1 uint64, r2 uint32, r3 uint16, r4 uint8) { if shift >= 0 && shift < 64 { // arm64:"LSR",-"CSEL" r1 = val64 >> shift } if shift >= 0 && shift < 32 { // arm64:"LSR",-"CSEL" r2 = val32 >> shift } if shift >= 0 && shift < 16 { // arm64:"LSR",-"CSEL" r3 = val16 >> shift } if shift >= 0 && shift < 8 { // arm64:"LSR",-"CSEL" r4 = val8 >> shift } return r1, r2, r3, r4 } func provedSignedShiftRight(val64 int64, val32 int32, val16 int16, val8 int8, shift int) (r1 int64, r2 int32, r3 int16, r4 int8) { if shift >= 0 && shift < 64 { // arm64:"ASR",-"CSEL" r1 = val64 >> shift } if shift >= 0 && shift < 32 { // arm64:"ASR",-"CSEL" r2 = val32 >> shift } if shift >= 0 && shift < 16 { // arm64:"ASR",-"CSEL" r3 = val16 >> shift } if shift >= 0 && shift < 8 { // arm64:"ASR",-"CSEL" r4 = val8 >> shift } return r1, r2, r3, r4 } func checkUnneededTrunc(tab *[100000]uint32, d uint64, v uint32, h uint16, b byte) (uint32, uint64) { // ppc64x:-".*RLWINM",-".*RLDICR",".*CLRLSLDI" f := tab[byte(v)^b] // ppc64x:-".*RLWINM",-".*RLDICR",".*CLRLSLDI" f += tab[byte(v)&b] // ppc64x:-".*RLWINM",-".*RLDICR",".*CLRLSLDI" f += tab[byte(v)|b] // ppc64x:-".*RLWINM",-".*RLDICR",".*CLRLSLDI" f += tab[uint16(v)&h] // ppc64x:-".*RLWINM",-".*RLDICR",".*CLRLSLDI" f += tab[uint16(v)^h] // ppc64x:-".*RLWINM",-".*RLDICR",".*CLRLSLDI" f += tab[uint16(v)|h] // ppc64x:-".*AND",-"RLDICR",".*CLRLSLDI" f += tab[v&0xff] // ppc64x:-".*AND",".*CLRLSLWI" f += 2 * uint32(uint16(d)) // ppc64x:-".*AND",-"RLDICR",".*CLRLSLDI" g := 2 * uint64(uint32(d)) return f, g } func checkCombinedShifts(v8 uint8, v16 uint16, v32 uint32, x32 int32, v64 uint64) (uint8, uint16, uint32, uint64, int64) { // ppc64x:-"AND","CLRLSLWI" f := (v8 & 0xF) << 2 // ppc64x:"CLRLSLWI" f += byte(v16) << 3 // ppc64x:-"AND","CLRLSLWI" g := (v16 & 0xFF) << 3 // ppc64x:-"AND","CLRLSLWI" h := (v32 & 0xFFFFF) << 2 // ppc64x:"CLRLSLDI" i := (v64 & 0xFFFFFFFF) << 5 // ppc64x:-"CLRLSLDI" i += (v64 & 0xFFFFFFF) << 38 // ppc64x/power9:-"CLRLSLDI" i += (v64 & 0xFFFF00) << 10 // ppc64x/power9:-"SLD","EXTSWSLI" j := int64(x32+32) * 8 return f, g, h, i, j } func checkWidenAfterShift(v int64, u uint64) (int64, uint64) { // ppc64x:-".*MOVW" f := int32(v >> 32) // ppc64x:".*MOVW" f += int32(v >> 31) // ppc64x:-".*MOVH" g := int16(v >> 48) // ppc64x:".*MOVH" g += int16(v >> 30) // ppc64x:-".*MOVH" g += int16(f >> 16) // ppc64x:-".*MOVB" h := int8(v >> 56) // ppc64x:".*MOVB" h += int8(v >> 28) // ppc64x:-".*MOVB" h += int8(f >> 24) // ppc64x:".*MOVB" h += int8(f >> 16) return int64(h), uint64(g) } func checkShiftAndMask32(v []uint32) { i := 0 // ppc64x: "RLWNM\t[$]24, R[0-9]+, [$]12, [$]19, R[0-9]+" v[i] = (v[i] & 0xFF00000) >> 8 i++ // ppc64x: "RLWNM\t[$]26, R[0-9]+, [$]22, [$]29, R[0-9]+" v[i] = (v[i] & 0xFF00) >> 6 i++ // ppc64x: "MOVW\tR0" v[i] = (v[i] & 0xFF) >> 8 i++ // ppc64x: "MOVW\tR0" v[i] = (v[i] & 0xF000000) >> 28 i++ // ppc64x: "RLWNM\t[$]26, R[0-9]+, [$]24, [$]31, R[0-9]+" v[i] = (v[i] >> 6) & 0xFF i++ // ppc64x: "RLWNM\t[$]26, R[0-9]+, [$]12, [$]19, R[0-9]+" v[i] = (v[i] >> 6) & 0xFF000 i++ // ppc64x: "MOVW\tR0" v[i] = (v[i] >> 20) & 0xFF000 i++ // ppc64x: "MOVW\tR0" v[i] = (v[i] >> 24) & 0xFF00 i++ } func checkMergedShifts32(a [256]uint32, b [256]uint64, u uint32, v uint32) { // ppc64x: -"CLRLSLDI", "RLWNM\t[$]10, R[0-9]+, [$]22, [$]29, R[0-9]+" a[0] = a[uint8(v>>24)] // ppc64x: -"CLRLSLDI", "RLWNM\t[$]11, R[0-9]+, [$]21, [$]28, R[0-9]+" b[0] = b[uint8(v>>24)] // ppc64x: -"CLRLSLDI", "RLWNM\t[$]15, R[0-9]+, [$]21, [$]28, R[0-9]+" b[1] = b[(v>>20)&0xFF] // ppc64x: -"SLD", "RLWNM\t[$]10, R[0-9]+, [$]22, [$]28, R[0-9]+" b[2] = b[v>>25] } // 128 bit shifts func check128bitShifts(x, y uint64, bits uint) (uint64, uint64) { s := bits & 63 ŝ := (64 - bits) & 63 // check that the shift operation has two commas (three operands) // amd64:"SHRQ.*,.*," shr := x>>s | y<<ŝ // amd64:"SHLQ.*,.*," shl := x<>ŝ return shr, shl } func checkShiftToMask(u []uint64, s []int64) { // amd64:-"SHR",-"SHL","ANDQ" u[0] = u[0] >> 5 << 5 // amd64:-"SAR",-"SHL","ANDQ" s[0] = s[0] >> 5 << 5 // amd64:-"SHR",-"SHL","ANDQ" u[1] = u[1] << 5 >> 5 }