// Copyright 2014 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 ppc64
import (
"cmd/compile/internal/gc"
"cmd/internal/obj"
"cmd/internal/obj/ppc64"
)
const (
LeftRdwr uint32 = gc.LeftRead | gc.LeftWrite
RightRdwr uint32 = gc.RightRead | gc.RightWrite
)
// This table gives the basic information about instruction
// generated by the compiler and processed in the optimizer.
// See opt.h for bit definitions.
//
// Instructions not generated need not be listed.
// As an exception to that rule, we typically write down all the
// size variants of an operation even if we just use a subset.
//
// The table is formatted for 8-space tabs.
var progtable = [ppc64.ALAST]obj.ProgInfo{
obj.ATYPE: {gc.Pseudo | gc.Skip, 0, 0, 0},
obj.ATEXT: {gc.Pseudo, 0, 0, 0},
obj.AFUNCDATA: {gc.Pseudo, 0, 0, 0},
obj.APCDATA: {gc.Pseudo, 0, 0, 0},
obj.AUNDEF: {gc.Break, 0, 0, 0},
obj.AUSEFIELD: {gc.OK, 0, 0, 0},
obj.ACHECKNIL: {gc.LeftRead, 0, 0, 0},
obj.AVARDEF: {gc.Pseudo | gc.RightWrite, 0, 0, 0},
obj.AVARKILL: {gc.Pseudo | gc.RightWrite, 0, 0, 0},
// NOP is an internal no-op that also stands
// for USED and SET annotations, not the Power opcode.
obj.ANOP: {gc.LeftRead | gc.RightWrite, 0, 0, 0},
// Integer
ppc64.AADD: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.ASUB: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.ANEG: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AAND: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AOR: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AXOR: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AMULLD: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AMULLW: {gc.SizeL | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AMULHD: {gc.SizeL | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AMULHDU: {gc.SizeL | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.ADIVD: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.ADIVDU: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.ASLD: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.ASRD: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.ASRAD: {gc.SizeQ | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.ACMP: {gc.SizeQ | gc.LeftRead | gc.RightRead, 0, 0, 0},
ppc64.ACMPU: {gc.SizeQ | gc.LeftRead | gc.RightRead, 0, 0, 0},
ppc64.ATD: {gc.SizeQ | gc.RightRead, 0, 0, 0},
// Floating point.
ppc64.AFADD: {gc.SizeD | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AFADDS: {gc.SizeF | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AFSUB: {gc.SizeD | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AFSUBS: {gc.SizeF | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AFMUL: {gc.SizeD | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AFMULS: {gc.SizeF | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AFDIV: {gc.SizeD | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AFDIVS: {gc.SizeF | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AFCTIDZ: {gc.SizeF | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AFCFID: {gc.SizeF | gc.LeftRead | gc.RegRead | gc.RightWrite, 0, 0, 0},
ppc64.AFCMPU: {gc.SizeD | gc.LeftRead | gc.RightRead, 0, 0, 0},
ppc64.AFRSP: {gc.SizeD | gc.LeftRead | gc.RightWrite | gc.Conv, 0, 0, 0},
// Moves
ppc64.AMOVB: {gc.SizeB | gc.LeftRead | gc.RightWrite | gc.Move | gc.Conv, 0, 0, 0},
ppc64.AMOVBU: {gc.SizeB | gc.LeftRead | gc.RightWrite | gc.Move | gc.Conv | gc.PostInc, 0, 0, 0},
ppc64.AMOVBZ: {gc.SizeB | gc.LeftRead | gc.RightWrite | gc.Move | gc.Conv, 0, 0, 0},
ppc64.AMOVH: {gc.SizeW | gc.LeftRead | gc.RightWrite | gc.Move | gc.Conv, 0, 0, 0},
ppc64.AMOVHU: {gc.SizeW | gc.LeftRead | gc.RightWrite | gc.Move | gc.Conv | gc.PostInc, 0, 0, 0},
ppc64.AMOVHZ: {gc.SizeW | gc.LeftRead | gc.RightWrite | gc.Move | gc.Conv, 0, 0, 0},
ppc64.AMOVW: {gc.SizeL | gc.LeftRead | gc.RightWrite | gc.Move | gc.Conv, 0, 0, 0},
// there is no AMOVWU.
ppc64.AMOVWZU: {gc.SizeL | gc.LeftRead | gc.RightWrite | gc.Move | gc.Conv | gc.PostInc, 0, 0, 0},
ppc64.AMOVWZ: {gc.SizeL | gc.LeftRead | gc.RightWrite | gc.Move | gc.Conv, 0, 0, 0},
ppc64.AMOVD: {gc.SizeQ | gc.LeftRead | gc.RightWrite | gc.Move, 0, 0, 0},
ppc64.AMOVDU: {gc.SizeQ | gc.LeftRead | gc.RightWrite | gc.Move | gc.PostInc, 0, 0, 0},
ppc64.AFMOVS: {gc.SizeF | gc.LeftRead | gc.RightWrite | gc.Move | gc.Conv, 0, 0, 0},
ppc64.AFMOVD: {gc.SizeD | gc.LeftRead | gc.RightWrite | gc.Move, 0, 0, 0},
// Jumps
ppc64.ABR: {gc.Jump | gc.Break, 0, 0, 0},
ppc64.ABL: {gc.Call, 0, 0, 0},
ppc64.ABEQ: {gc.Cjmp, 0, 0, 0},
ppc64.ABNE: {gc.Cjmp, 0, 0, 0},
ppc64.ABGE: {gc.Cjmp, 0, 0, 0},
ppc64.ABLT: {gc.Cjmp, 0, 0, 0},
ppc64.ABGT: {gc.Cjmp, 0, 0, 0},
ppc64.ABLE: {gc.Cjmp, 0, 0, 0},
obj.ARET: {gc.Break, 0, 0, 0},
obj.ADUFFZERO: {gc.Call, 0, 0, 0},
obj.ADUFFCOPY: {gc.Call, 0, 0, 0},
}
var initproginfo_initialized int
func initproginfo() {
var addvariant = []int{V_CC, V_V, V_CC | V_V}
if initproginfo_initialized != 0 {
return
}
initproginfo_initialized = 1
// Perform one-time expansion of instructions in progtable to
// their CC, V, and VCC variants
var as2 int
var i int
var variant int
for as := int(0); as < len(progtable); as++ {
if progtable[as].Flags == 0 {
continue
}
variant = as2variant(as)
for i = 0; i < len(addvariant); i++ {
as2 = variant2as(as, variant|addvariant[i])
if as2 != 0 && progtable[as2].Flags == 0 {
progtable[as2] = progtable[as]
}
}
}
}
func proginfo(p *obj.Prog) {
initproginfo()
info := &p.Info
*info = progtable[p.As]
if info.Flags == 0 {
gc.Fatal("proginfo: unknown instruction %v", p)
}
if (info.Flags&gc.RegRead != 0) && p.Reg == 0 {
info.Flags &^= gc.RegRead
info.Flags |= gc.RightRead /*CanRegRead |*/
}
if (p.From.Type == obj.TYPE_MEM || p.From.Type == obj.TYPE_ADDR) && p.From.Reg != 0 {
info.Regindex |= RtoB(int(p.From.Reg))
if info.Flags&gc.PostInc != 0 {
info.Regset |= RtoB(int(p.From.Reg))
}
}
if (p.To.Type == obj.TYPE_MEM || p.To.Type == obj.TYPE_ADDR) && p.To.Reg != 0 {
info.Regindex |= RtoB(int(p.To.Reg))
if info.Flags&gc.PostInc != 0 {
info.Regset |= RtoB(int(p.To.Reg))
}
}
if p.From.Type == obj.TYPE_ADDR && p.From.Sym != nil && (info.Flags&gc.LeftRead != 0) {
info.Flags &^= gc.LeftRead
info.Flags |= gc.LeftAddr
}
if p.As == obj.ADUFFZERO {
info.Reguse |= 1<<0 | RtoB(ppc64.REG_R3)
info.Regset |= RtoB(ppc64.REG_R3)
}
if p.As == obj.ADUFFCOPY {
// TODO(austin) Revisit when duffcopy is implemented
info.Reguse |= RtoB(ppc64.REG_R3) | RtoB(ppc64.REG_R4) | RtoB(ppc64.REG_R5)
info.Regset |= RtoB(ppc64.REG_R3) | RtoB(ppc64.REG_R4)
}
}
// Instruction variants table. Initially this contains entries only
// for the "base" form of each instruction. On the first call to
// as2variant or variant2as, we'll add the variants to the table.
var varianttable = [ppc64.ALAST][4]int{
ppc64.AADD: [4]int{ppc64.AADD, ppc64.AADDCC, ppc64.AADDV, ppc64.AADDVCC},
ppc64.AADDC: [4]int{ppc64.AADDC, ppc64.AADDCCC, ppc64.AADDCV, ppc64.AADDCVCC},
ppc64.AADDE: [4]int{ppc64.AADDE, ppc64.AADDECC, ppc64.AADDEV, ppc64.AADDEVCC},
ppc64.AADDME: [4]int{ppc64.AADDME, ppc64.AADDMECC, ppc64.AADDMEV, ppc64.AADDMEVCC},
ppc64.AADDZE: [4]int{ppc64.AADDZE, ppc64.AADDZECC, ppc64.AADDZEV, ppc64.AADDZEVCC},
ppc64.AAND: [4]int{ppc64.AAND, ppc64.AANDCC, 0, 0},
ppc64.AANDN: [4]int{ppc64.AANDN, ppc64.AANDNCC, 0, 0},
ppc64.ACNTLZD: [4]int{ppc64.ACNTLZD, ppc64.ACNTLZDCC, 0, 0},
ppc64.ACNTLZW: [4]int{ppc64.ACNTLZW, ppc64.ACNTLZWCC, 0, 0},
ppc64.ADIVD: [4]int{ppc64.ADIVD, ppc64.ADIVDCC, ppc64.ADIVDV, ppc64.ADIVDVCC},
ppc64.ADIVDU: [4]int{ppc64.ADIVDU, ppc64.ADIVDUCC, ppc64.ADIVDUV, ppc64.ADIVDUVCC},
ppc64.ADIVW: [4]int{ppc64.ADIVW, ppc64.ADIVWCC, ppc64.ADIVWV, ppc64.ADIVWVCC},
ppc64.ADIVWU: [4]int{ppc64.ADIVWU, ppc64.ADIVWUCC, ppc64.ADIVWUV, ppc64.ADIVWUVCC},
ppc64.AEQV: [4]int{ppc64.AEQV, ppc64.AEQVCC, 0, 0},
ppc64.AEXTSB: [4]int{ppc64.AEXTSB, ppc64.AEXTSBCC, 0, 0},
ppc64.AEXTSH: [4]int{ppc64.AEXTSH, ppc64.AEXTSHCC, 0, 0},
ppc64.AEXTSW: [4]int{ppc64.AEXTSW, ppc64.AEXTSWCC, 0, 0},
ppc64.AFABS: [4]int{ppc64.AFABS, ppc64.AFABSCC, 0, 0},
ppc64.AFADD: [4]int{ppc64.AFADD, ppc64.AFADDCC, 0, 0},
ppc64.AFADDS: [4]int{ppc64.AFADDS, ppc64.AFADDSCC, 0, 0},
ppc64.AFCFID: [4]int{ppc64.AFCFID, ppc64.AFCFIDCC, 0, 0},
ppc64.AFCTID: [4]int{ppc64.AFCTID, ppc64.AFCTIDCC, 0, 0},
ppc64.AFCTIDZ: [4]int{ppc64.AFCTIDZ, ppc64.AFCTIDZCC, 0, 0},
ppc64.AFCTIW: [4]int{ppc64.AFCTIW, ppc64.AFCTIWCC, 0, 0},
ppc64.AFCTIWZ: [4]int{ppc64.AFCTIWZ, ppc64.AFCTIWZCC, 0, 0},
ppc64.AFDIV: [4]int{ppc64.AFDIV, ppc64.AFDIVCC, 0, 0},
ppc64.AFDIVS: [4]int{ppc64.AFDIVS, ppc64.AFDIVSCC, 0, 0},
ppc64.AFMADD: [4]int{ppc64.AFMADD, ppc64.AFMADDCC, 0, 0},
ppc64.AFMADDS: [4]int{ppc64.AFMADDS, ppc64.AFMADDSCC, 0, 0},
ppc64.AFMOVD: [4]int{ppc64.AFMOVD, ppc64.AFMOVDCC, 0, 0},
ppc64.AFMSUB: [4]int{ppc64.AFMSUB, ppc64.AFMSUBCC, 0, 0},
ppc64.AFMSUBS: [4]int{ppc64.AFMSUBS, ppc64.AFMSUBSCC, 0, 0},
ppc64.AFMUL: [4]int{ppc64.AFMUL, ppc64.AFMULCC, 0, 0},
ppc64.AFMULS: [4]int{ppc64.AFMULS, ppc64.AFMULSCC, 0, 0},
ppc64.AFNABS: [4]int{ppc64.AFNABS, ppc64.AFNABSCC, 0, 0},
ppc64.AFNEG: [4]int{ppc64.AFNEG, ppc64.AFNEGCC, 0, 0},
ppc64.AFNMADD: [4]int{ppc64.AFNMADD, ppc64.AFNMADDCC, 0, 0},
ppc64.AFNMADDS: [4]int{ppc64.AFNMADDS, ppc64.AFNMADDSCC, 0, 0},
ppc64.AFNMSUB: [4]int{ppc64.AFNMSUB, ppc64.AFNMSUBCC, 0, 0},
ppc64.AFNMSUBS: [4]int{ppc64.AFNMSUBS, ppc64.AFNMSUBSCC, 0, 0},
ppc64.AFRES: [4]int{ppc64.AFRES, ppc64.AFRESCC, 0, 0},
ppc64.AFRSP: [4]int{ppc64.AFRSP, ppc64.AFRSPCC, 0, 0},
ppc64.AFRSQRTE: [4]int{ppc64.AFRSQRTE, ppc64.AFRSQRTECC, 0, 0},
ppc64.AFSEL: [4]int{ppc64.AFSEL, ppc64.AFSELCC, 0, 0},
ppc64.AFSQRT: [4]int{ppc64.AFSQRT, ppc64.AFSQRTCC, 0, 0},
ppc64.AFSQRTS: [4]int{ppc64.AFSQRTS, ppc64.AFSQRTSCC, 0, 0},
ppc64.AFSUB: [4]int{ppc64.AFSUB, ppc64.AFSUBCC, 0, 0},
ppc64.AFSUBS: [4]int{ppc64.AFSUBS, ppc64.AFSUBSCC, 0, 0},
ppc64.AMTFSB0: [4]int{ppc64.AMTFSB0, ppc64.AMTFSB0CC, 0, 0},
ppc64.AMTFSB1: [4]int{ppc64.AMTFSB1, ppc64.AMTFSB1CC, 0, 0},
ppc64.AMULHD: [4]int{ppc64.AMULHD, ppc64.AMULHDCC, 0, 0},
ppc64.AMULHDU: [4]int{ppc64.AMULHDU, ppc64.AMULHDUCC, 0, 0},
ppc64.AMULHW: [4]int{ppc64.AMULHW, ppc64.AMULHWCC, 0, 0},
ppc64.AMULHWU: [4]int{ppc64.AMULHWU, ppc64.AMULHWUCC, 0, 0},
ppc64.AMULLD: [4]int{ppc64.AMULLD, ppc64.AMULLDCC, ppc64.AMULLDV, ppc64.AMULLDVCC},
ppc64.AMULLW: [4]int{ppc64.AMULLW, ppc64.AMULLWCC, ppc64.AMULLWV, ppc64.AMULLWVCC},
ppc64.ANAND: [4]int{ppc64.ANAND, ppc64.ANANDCC, 0, 0},
ppc64.ANEG: [4]int{ppc64.ANEG, ppc64.ANEGCC, ppc64.ANEGV, ppc64.ANEGVCC},
ppc64.ANOR: [4]int{ppc64.ANOR, ppc64.ANORCC, 0, 0},
ppc64.AOR: [4]int{ppc64.AOR, ppc64.AORCC, 0, 0},
ppc64.AORN: [4]int{ppc64.AORN, ppc64.AORNCC, 0, 0},
ppc64.AREM: [4]int{ppc64.AREM, ppc64.AREMCC, ppc64.AREMV, ppc64.AREMVCC},
ppc64.AREMD: [4]int{ppc64.AREMD, ppc64.AREMDCC, ppc64.AREMDV, ppc64.AREMDVCC},
ppc64.AREMDU: [4]int{ppc64.AREMDU, ppc64.AREMDUCC, ppc64.AREMDUV, ppc64.AREMDUVCC},
ppc64.AREMU: [4]int{ppc64.AREMU, ppc64.AREMUCC, ppc64.AREMUV, ppc64.AREMUVCC},
ppc64.ARLDC: [4]int{ppc64.ARLDC, ppc64.ARLDCCC, 0, 0},
ppc64.ARLDCL: [4]int{ppc64.ARLDCL, ppc64.ARLDCLCC, 0, 0},
ppc64.ARLDCR: [4]int{ppc64.ARLDCR, ppc64.ARLDCRCC, 0, 0},
ppc64.ARLDMI: [4]int{ppc64.ARLDMI, ppc64.ARLDMICC, 0, 0},
ppc64.ARLWMI: [4]int{ppc64.ARLWMI, ppc64.ARLWMICC, 0, 0},
ppc64.ARLWNM: [4]int{ppc64.ARLWNM, ppc64.ARLWNMCC, 0, 0},
ppc64.ASLD: [4]int{ppc64.ASLD, ppc64.ASLDCC, 0, 0},
ppc64.ASLW: [4]int{ppc64.ASLW, ppc64.ASLWCC, 0, 0},
ppc64.ASRAD: [4]int{ppc64.ASRAD, ppc64.ASRADCC, 0, 0},
ppc64.ASRAW: [4]int{ppc64.ASRAW, ppc64.ASRAWCC, 0, 0},
ppc64.ASRD: [4]int{ppc64.ASRD, ppc64.ASRDCC, 0, 0},
ppc64.ASRW: [4]int{ppc64.ASRW, ppc64.ASRWCC, 0, 0},
ppc64.ASUB: [4]int{ppc64.ASUB, ppc64.ASUBCC, ppc64.ASUBV, ppc64.ASUBVCC},
ppc64.ASUBC: [4]int{ppc64.ASUBC, ppc64.ASUBCCC, ppc64.ASUBCV, ppc64.ASUBCVCC},
ppc64.ASUBE: [4]int{ppc64.ASUBE, ppc64.ASUBECC, ppc64.ASUBEV, ppc64.ASUBEVCC},
ppc64.ASUBME: [4]int{ppc64.ASUBME, ppc64.ASUBMECC, ppc64.ASUBMEV, ppc64.ASUBMEVCC},
ppc64.ASUBZE: [4]int{ppc64.ASUBZE, ppc64.ASUBZECC, ppc64.ASUBZEV, ppc64.ASUBZEVCC},
ppc64.AXOR: [4]int{ppc64.AXOR, ppc64.AXORCC, 0, 0},
}
var initvariants_initialized int
func initvariants() {
if initvariants_initialized != 0 {
return
}
initvariants_initialized = 1
var j int
for i := int(0); i < len(varianttable); i++ {
if varianttable[i][0] == 0 {
// Instruction has no variants
varianttable[i][0] = i
continue
}
// Copy base form to other variants
if varianttable[i][0] == i {
for j = 0; j < len(varianttable[i]); j++ {
varianttable[varianttable[i][j]] = varianttable[i]
}
}
}
}
// as2variant returns the variant (V_*) flags of instruction as.
func as2variant(as int) int {
initvariants()
for i := int(0); i < len(varianttable[as]); i++ {
if varianttable[as][i] == as {
return i
}
}
gc.Fatal("as2variant: instruction %v is not a variant of itself", obj.Aconv(as))
return 0
}
// variant2as returns the instruction as with the given variant (V_*) flags.
// If no such variant exists, this returns 0.
func variant2as(as int, flags int) int {
initvariants()
return varianttable[as][flags]
}