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Instructions with immediates can be precomputed when operating on a constant - do so for SLTI/SLTIU, SLLI/SRLI/SRAI, NEG/NEGW, ANDI, ORI and ADDI. Additionally, optimise ANDI and ORI when the immediate is all ones or all zeroes. In particular, the RISCV64 logical left and right shift rules (Lsh*x*/Rsh*Ux*) produce sequences that check if the shift amount exceeds 64 and if so returns zero. When the shift amount is a constant we can precompute and eliminate the filter entirely. Likewise the arithmetic right shift rules produce sequences that check if the shift amount exceeds 64 and if so, ensures that the lower six bits of the shift are all ones. When the shift amount is a constant we can precompute the shift value. Arithmetic right shift sequences like: 117fc: 00100513 li a0,1 11800: 04053593 sltiu a1,a0,64 11804: fff58593 addi a1,a1,-1 11808: 0015e593 ori a1,a1,1 1180c: 40b45433 sra s0,s0,a1 Are now a single srai instruction: 117fc: 40145413 srai s0,s0,0x1 Likewise for logical left shift (and logical right shift): 1d560: 01100413 li s0,17 1d564: 04043413 sltiu s0,s0,64 1d568: 40800433 neg s0,s0 1d56c: 01131493 slli s1,t1,0x11 1d570: 0084f433 and s0,s1,s0 Which are now a single slli (or srli) instruction: 1d120: 01131413 slli s0,t1,0x11 This removes more than 30,000 instructions from the Go binary and should improve performance in a variety of areas - of note runtime.makemap_small drops from 48 to 36 instructions. Similar gains exist in at least other parts of runtime and math/bits. Change-Id: I33f6f3d1fd36d9ff1bda706997162bfe4bb859b6 Reviewed-on: https://go-review.googlesource.com/c/go/+/350689 Trust: Joel Sing <joel@sing.id.au> Reviewed-by: Michael Munday <mike.munday@lowrisc.org> Reviewed-by: Cherry Mui <cherryyz@google.com>
368 lines
9.2 KiB
Go
368 lines
9.2 KiB
Go
// asmcheck
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// Copyright 2018 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package codegen
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// ------------------ //
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// constant shifts //
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// ------------------ //
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func lshConst64x64(v int64) int64 {
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// riscv64:"SLLI",-"AND",-"SLTIU"
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return v << uint64(33)
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}
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func rshConst64Ux64(v uint64) uint64 {
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// riscv64:"SRLI",-"AND",-"SLTIU"
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return v >> uint64(33)
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}
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func rshConst64x64(v int64) int64 {
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// riscv64:"SRAI",-"OR",-"SLTIU"
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return v >> uint64(33)
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}
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func lshConst32x64(v int32) int32 {
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// riscv64:"SLLI",-"AND",-"SLTIU"
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return v << uint64(29)
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}
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func rshConst32Ux64(v uint32) uint32 {
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// riscv64:"SRLI",-"AND",-"SLTIU"
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return v >> uint64(29)
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}
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func rshConst32x64(v int32) int32 {
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// riscv64:"SRAI",-"OR",-"SLTIU"
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return v >> uint64(29)
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}
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func lshConst64x32(v int64) int64 {
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// riscv64:"SLLI",-"AND",-"SLTIU"
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return v << uint32(33)
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}
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func rshConst64Ux32(v uint64) uint64 {
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// riscv64:"SRLI",-"AND",-"SLTIU"
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return v >> uint32(33)
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}
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func rshConst64x32(v int64) int64 {
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// riscv64:"SRAI",-"OR",-"SLTIU"
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return v >> uint32(33)
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}
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// ------------------ //
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// masked shifts //
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// ------------------ //
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func lshMask64x64(v int64, s uint64) int64 {
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// ppc64:"ANDCC",-"ORN",-"ISEL"
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// ppc64le:"ANDCC",-"ORN",-"ISEL"
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// riscv64:"SLL","AND","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v << (s & 63)
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}
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func rshMask64Ux64(v uint64, s uint64) uint64 {
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// ppc64:"ANDCC",-"ORN",-"ISEL"
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// ppc64le:"ANDCC",-"ORN",-"ISEL"
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// riscv64:"SRL","AND","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v >> (s & 63)
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}
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func rshMask64x64(v int64, s uint64) int64 {
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// ppc64:"ANDCC",-"ORN",-"ISEL"
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// ppc64le:"ANDCC",-ORN",-"ISEL"
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// riscv64:"SRA","OR","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v >> (s & 63)
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}
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func lshMask32x64(v int32, s uint64) int32 {
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// ppc64:"ISEL",-"ORN"
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// ppc64le:"ISEL",-"ORN"
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// riscv64:"SLL","AND","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v << (s & 63)
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}
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func rshMask32Ux64(v uint32, s uint64) uint32 {
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// ppc64:"ISEL",-"ORN"
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// ppc64le:"ISEL",-"ORN"
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// riscv64:"SRL","AND","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v >> (s & 63)
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}
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func rshMask32x64(v int32, s uint64) int32 {
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// ppc64:"ISEL",-"ORN"
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// ppc64le:"ISEL",-"ORN"
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// riscv64:"SRA","OR","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v >> (s & 63)
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}
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func lshMask64x32(v int64, s uint32) int64 {
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// ppc64:"ANDCC",-"ORN"
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// ppc64le:"ANDCC",-"ORN"
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// riscv64:"SLL","AND","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v << (s & 63)
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}
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func rshMask64Ux32(v uint64, s uint32) uint64 {
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// ppc64:"ANDCC",-"ORN"
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// ppc64le:"ANDCC",-"ORN"
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// riscv64:"SRL","AND","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v >> (s & 63)
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}
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func rshMask64x32(v int64, s uint32) int64 {
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// ppc64:"ANDCC",-"ORN",-"ISEL"
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// ppc64le:"ANDCC",-"ORN",-"ISEL"
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// riscv64:"SRA","OR","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v >> (s & 63)
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}
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func lshMask64x32Ext(v int64, s int32) int64 {
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// ppc64:"ANDCC",-"ORN",-"ISEL"
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// ppc64le:"ANDCC",-"ORN",-"ISEL"
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// riscv64:"SLL","AND","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v << uint(s&63)
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}
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func rshMask64Ux32Ext(v uint64, s int32) uint64 {
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// ppc64:"ANDCC",-"ORN",-"ISEL"
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// ppc64le:"ANDCC",-"ORN",-"ISEL"
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// riscv64:"SRL","AND","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v >> uint(s&63)
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}
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func rshMask64x32Ext(v int64, s int32) int64 {
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// ppc64:"ANDCC",-"ORN",-"ISEL"
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// ppc64le:"ANDCC",-"ORN",-"ISEL"
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// riscv64:"SRA","OR","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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return v >> uint(s&63)
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}
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// --------------- //
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// signed shifts //
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// --------------- //
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// We do want to generate a test + panicshift for these cases.
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func lshSigned(v8 int8, v16 int16, v32 int32, v64 int64, x int) {
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// amd64:"TESTB"
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_ = x << v8
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// amd64:"TESTW"
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_ = x << v16
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// amd64:"TESTL"
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_ = x << v32
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// amd64:"TESTQ"
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_ = x << v64
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}
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// We want to avoid generating a test + panicshift for these cases.
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func lshSignedMasked(v8 int8, v16 int16, v32 int32, v64 int64, x int) {
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// amd64:-"TESTB"
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_ = x << (v8 & 7)
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// amd64:-"TESTW"
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_ = x << (v16 & 15)
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// amd64:-"TESTL"
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_ = x << (v32 & 31)
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// amd64:-"TESTQ"
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_ = x << (v64 & 63)
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}
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// ------------------ //
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// bounded shifts //
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// ------------------ //
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func lshGuarded64(v int64, s uint) int64 {
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if s < 64 {
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// riscv64:"SLL","AND","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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// wasm:-"Select",-".*LtU"
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return v << s
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}
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panic("shift too large")
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}
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func rshGuarded64U(v uint64, s uint) uint64 {
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if s < 64 {
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// riscv64:"SRL","AND","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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// wasm:-"Select",-".*LtU"
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return v >> s
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}
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panic("shift too large")
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}
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func rshGuarded64(v int64, s uint) int64 {
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if s < 64 {
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// riscv64:"SRA","OR","SLTIU"
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// s390x:-"RISBGZ",-"AND",-"LOCGR"
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// wasm:-"Select",-".*LtU"
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return v >> s
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}
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panic("shift too large")
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}
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func checkUnneededTrunc(tab *[100000]uint32, d uint64, v uint32, h uint16, b byte) (uint32, uint64) {
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// ppc64le:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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// ppc64:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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f := tab[byte(v)^b]
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// ppc64le:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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// ppc64:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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f += tab[byte(v)&b]
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// ppc64le:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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// ppc64:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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f += tab[byte(v)|b]
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// ppc64le:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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// ppc64:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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f += tab[uint16(v)&h]
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// ppc64le:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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// ppc64:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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f += tab[uint16(v)^h]
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// ppc64le:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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// ppc64:-".*RLWINM",-".*RLDICR",".*CLRLSLDI"
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f += tab[uint16(v)|h]
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// ppc64le:-".*AND",-"RLDICR",".*CLRLSLDI"
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// ppc64:-".*AND",-"RLDICR",".*CLRLSLDI"
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f += tab[v&0xff]
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// ppc64le:-".*AND",".*CLRLSLWI"
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// ppc64:-".*AND",".*CLRLSLWI"
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f += 2 * uint32(uint16(d))
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// ppc64le:-".*AND",-"RLDICR",".*CLRLSLDI"
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// ppc64:-".*AND",-"RLDICR",".*CLRLSLDI"
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g := 2 * uint64(uint32(d))
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return f, g
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}
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func checkCombinedShifts(v8 uint8, v16 uint16, v32 uint32, x32 int32, v64 uint64) (uint8, uint16, uint32, uint64, int64) {
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// ppc64le:-"AND","CLRLSLWI"
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// ppc64:-"AND","CLRLSLWI"
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f := (v8 & 0xF) << 2
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// ppc64le:"CLRLSLWI"
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// ppc64:"CLRLSLWI"
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f += byte(v16) << 3
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// ppc64le:-"AND","CLRLSLWI"
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// ppc64:-"AND","CLRLSLWI"
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g := (v16 & 0xFF) << 3
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// ppc64le:-"AND","CLRLSLWI"
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// ppc64:-"AND","CLRLSLWI"
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h := (v32 & 0xFFFFF) << 2
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// ppc64le:"CLRLSLDI"
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// ppc64:"CLRLSLDI"
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i := (v64 & 0xFFFFFFFF) << 5
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// ppc64le:-"CLRLSLDI"
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// ppc64:-"CLRLSLDI"
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i += (v64 & 0xFFFFFFF) << 38
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// ppc64le/power9:-"CLRLSLDI"
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// ppc64/power9:-"CLRLSLDI"
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i += (v64 & 0xFFFF00) << 10
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// ppc64le/power9:-"SLD","EXTSWSLI"
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// ppc64/power9:-"SLD","EXTSWSLI"
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j := int64(x32+32) * 8
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return f, g, h, i, j
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}
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func checkWidenAfterShift(v int64, u uint64) (int64, uint64) {
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// ppc64le:-".*MOVW"
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f := int32(v >> 32)
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// ppc64le:".*MOVW"
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f += int32(v >> 31)
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// ppc64le:-".*MOVH"
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g := int16(v >> 48)
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// ppc64le:".*MOVH"
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g += int16(v >> 30)
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// ppc64le:-".*MOVH"
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g += int16(f >> 16)
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// ppc64le:-".*MOVB"
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h := int8(v >> 56)
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// ppc64le:".*MOVB"
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h += int8(v >> 28)
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// ppc64le:-".*MOVB"
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h += int8(f >> 24)
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// ppc64le:".*MOVB"
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h += int8(f >> 16)
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return int64(h), uint64(g)
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}
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func checkShiftAndMask32(v []uint32) {
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i := 0
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// ppc64le: "RLWNM\t[$]24, R[0-9]+, [$]12, [$]19, R[0-9]+"
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// ppc64: "RLWNM\t[$]24, R[0-9]+, [$]12, [$]19, R[0-9]+"
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v[i] = (v[i] & 0xFF00000) >> 8
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i++
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// ppc64le: "RLWNM\t[$]26, R[0-9]+, [$]22, [$]29, R[0-9]+"
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// ppc64: "RLWNM\t[$]26, R[0-9]+, [$]22, [$]29, R[0-9]+"
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v[i] = (v[i] & 0xFF00) >> 6
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i++
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// ppc64le: "MOVW\tR0"
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// ppc64: "MOVW\tR0"
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v[i] = (v[i] & 0xFF) >> 8
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i++
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// ppc64le: "MOVW\tR0"
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// ppc64: "MOVW\tR0"
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v[i] = (v[i] & 0xF000000) >> 28
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i++
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// ppc64le: "RLWNM\t[$]26, R[0-9]+, [$]24, [$]31, R[0-9]+"
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// ppc64: "RLWNM\t[$]26, R[0-9]+, [$]24, [$]31, R[0-9]+"
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v[i] = (v[i] >> 6) & 0xFF
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i++
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// ppc64le: "RLWNM\t[$]26, R[0-9]+, [$]12, [$]19, R[0-9]+"
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// ppc64: "RLWNM\t[$]26, R[0-9]+, [$]12, [$]19, R[0-9]+"
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v[i] = (v[i] >> 6) & 0xFF000
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i++
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// ppc64le: "MOVW\tR0"
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// ppc64: "MOVW\tR0"
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v[i] = (v[i] >> 20) & 0xFF000
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i++
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// ppc64le: "MOVW\tR0"
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// ppc64: "MOVW\tR0"
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v[i] = (v[i] >> 24) & 0xFF00
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i++
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}
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func checkMergedShifts32(a [256]uint32, b [256]uint64, u uint32, v uint32) {
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//ppc64le: -"CLRLSLDI", "RLWNM\t[$]10, R[0-9]+, [$]22, [$]29, R[0-9]+"
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//ppc64: -"CLRLSLDI", "RLWNM\t[$]10, R[0-9]+, [$]22, [$]29, R[0-9]+"
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a[0] = a[uint8(v>>24)]
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//ppc64le: -"CLRLSLDI", "RLWNM\t[$]11, R[0-9]+, [$]21, [$]28, R[0-9]+"
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//ppc64: -"CLRLSLDI", "RLWNM\t[$]11, R[0-9]+, [$]21, [$]28, R[0-9]+"
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b[0] = b[uint8(v>>24)]
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//ppc64le: -"CLRLSLDI", "RLWNM\t[$]15, R[0-9]+, [$]21, [$]28, R[0-9]+"
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//ppc64: -"CLRLSLDI", "RLWNM\t[$]15, R[0-9]+, [$]21, [$]28, R[0-9]+"
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b[1] = b[(v>>20)&0xFF]
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//ppc64le: -"SLD", "RLWNM\t[$]10, R[0-9]+, [$]22, [$]28, R[0-9]+"
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//ppc64: -"SLD", "RLWNM\t[$]10, R[0-9]+, [$]22, [$]28, R[0-9]+"
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b[2] = b[v>>25]
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}
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// 128 bit shifts
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func check128bitShifts(x, y uint64, bits uint) (uint64, uint64) {
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s := bits & 63
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ŝ := (64 - bits) & 63
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// check that the shift operation has two commas (three operands)
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// amd64:"SHRQ.*,.*,"
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shr := x>>s | y<<ŝ
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// amd64:"SHLQ.*,.*,"
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shl := x<<s | y>>ŝ
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return shr, shl
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}
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