Exemple #1
0
func ssaGenBlock(s *gc.SSAGenState, b, next *ssa.Block) {
	s.SetLineno(b.Line)

	switch b.Kind {
	case ssa.BlockPlain, ssa.BlockCall, ssa.BlockCheck:
		if b.Succs[0] != next {
			p := gc.Prog(obj.AJMP)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{p, b.Succs[0]})
		}
	case ssa.BlockDefer:
		// defer returns in rax:
		// 0 if we should continue executing
		// 1 if we should jump to deferreturn call
		p := gc.Prog(x86.ATESTL)
		p.From.Type = obj.TYPE_REG
		p.From.Reg = x86.REG_AX
		p.To.Type = obj.TYPE_REG
		p.To.Reg = x86.REG_AX
		p = gc.Prog(x86.AJNE)
		p.To.Type = obj.TYPE_BRANCH
		s.Branches = append(s.Branches, gc.Branch{p, b.Succs[1]})
		if b.Succs[0] != next {
			p := gc.Prog(obj.AJMP)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{p, b.Succs[0]})
		}
	case ssa.BlockExit:
		gc.Prog(obj.AUNDEF) // tell plive.go that we never reach here
	case ssa.BlockRet:
		gc.Prog(obj.ARET)
	case ssa.BlockRetJmp:
		p := gc.Prog(obj.AJMP)
		p.To.Type = obj.TYPE_MEM
		p.To.Name = obj.NAME_EXTERN
		p.To.Sym = gc.Linksym(b.Aux.(*gc.Sym))

	case ssa.BlockAMD64EQF:
		gc.SSAGenFPJump(s, b, next, &eqfJumps)

	case ssa.BlockAMD64NEF:
		gc.SSAGenFPJump(s, b, next, &nefJumps)

	case ssa.BlockAMD64EQ, ssa.BlockAMD64NE,
		ssa.BlockAMD64LT, ssa.BlockAMD64GE,
		ssa.BlockAMD64LE, ssa.BlockAMD64GT,
		ssa.BlockAMD64ULT, ssa.BlockAMD64UGT,
		ssa.BlockAMD64ULE, ssa.BlockAMD64UGE:
		jmp := blockJump[b.Kind]
		likely := b.Likely
		var p *obj.Prog
		switch next {
		case b.Succs[0]:
			p = gc.Prog(jmp.invasm)
			likely *= -1
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{p, b.Succs[1]})
		case b.Succs[1]:
			p = gc.Prog(jmp.asm)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{p, b.Succs[0]})
		default:
			p = gc.Prog(jmp.asm)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{p, b.Succs[0]})
			q := gc.Prog(obj.AJMP)
			q.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{q, b.Succs[1]})
		}

		// liblink reorders the instruction stream as it sees fit.
		// Pass along what we know so liblink can make use of it.
		// TODO: Once we've fully switched to SSA,
		// make liblink leave our output alone.
		switch likely {
		case ssa.BranchUnlikely:
			p.From.Type = obj.TYPE_CONST
			p.From.Offset = 0
		case ssa.BranchLikely:
			p.From.Type = obj.TYPE_CONST
			p.From.Offset = 1
		}

	default:
		b.Unimplementedf("branch not implemented: %s. Control: %s", b.LongString(), b.Control.LongString())
	}
}
Exemple #2
0
func ssaGenBlock(s *gc.SSAGenState, b, next *ssa.Block) {
	s.SetLineno(b.Line)

	switch b.Kind {
	case ssa.BlockPlain:
		if b.Succs[0].Block() != next {
			p := gc.Prog(obj.AJMP)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
		}
	case ssa.BlockDefer:
		// defer returns in R1:
		// 0 if we should continue executing
		// 1 if we should jump to deferreturn call
		p := gc.Prog(mips.ABNE)
		p.From.Type = obj.TYPE_REG
		p.From.Reg = mips.REGZERO
		p.Reg = mips.REG_R1
		p.To.Type = obj.TYPE_BRANCH
		s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[1].Block()})
		if b.Succs[0].Block() != next {
			p := gc.Prog(obj.AJMP)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
		}
	case ssa.BlockExit:
		gc.Prog(obj.AUNDEF) // tell plive.go that we never reach here
	case ssa.BlockRet:
		gc.Prog(obj.ARET)
	case ssa.BlockRetJmp:
		p := gc.Prog(obj.ARET)
		p.To.Type = obj.TYPE_MEM
		p.To.Name = obj.NAME_EXTERN
		p.To.Sym = gc.Linksym(b.Aux.(*gc.Sym))
	case ssa.BlockMIPSEQ, ssa.BlockMIPSNE,
		ssa.BlockMIPSLTZ, ssa.BlockMIPSGEZ,
		ssa.BlockMIPSLEZ, ssa.BlockMIPSGTZ,
		ssa.BlockMIPSFPT, ssa.BlockMIPSFPF:
		jmp := blockJump[b.Kind]
		var p *obj.Prog
		switch next {
		case b.Succs[0].Block():
			p = gc.Prog(jmp.invasm)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[1].Block()})
		case b.Succs[1].Block():
			p = gc.Prog(jmp.asm)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
		default:
			p = gc.Prog(jmp.asm)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
			q := gc.Prog(obj.AJMP)
			q.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: q, B: b.Succs[1].Block()})
		}
		if !b.Control.Type.IsFlags() {
			p.From.Type = obj.TYPE_REG
			p.From.Reg = b.Control.Reg()
		}
	default:
		b.Fatalf("branch not implemented: %s. Control: %s", b.LongString(), b.Control.LongString())
	}
}
Exemple #3
0
func ssaGenBlock(s *gc.SSAGenState, b, next *ssa.Block) {
	s.SetLineno(b.Line)

	switch b.Kind {
	case ssa.BlockPlain:
		if b.Succs[0].Block() != next {
			p := gc.Prog(obj.AJMP)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
		}

	case ssa.BlockDefer:
		// defer returns in R0:
		// 0 if we should continue executing
		// 1 if we should jump to deferreturn call
		p := gc.Prog(arm.ACMP)
		p.From.Type = obj.TYPE_CONST
		p.From.Offset = 0
		p.Reg = arm.REG_R0
		p = gc.Prog(arm.ABNE)
		p.To.Type = obj.TYPE_BRANCH
		s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[1].Block()})
		if b.Succs[0].Block() != next {
			p := gc.Prog(obj.AJMP)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
		}

	case ssa.BlockExit:
		gc.Prog(obj.AUNDEF) // tell plive.go that we never reach here

	case ssa.BlockRet:
		gc.Prog(obj.ARET)

	case ssa.BlockRetJmp:
		p := gc.Prog(obj.ARET)
		p.To.Type = obj.TYPE_MEM
		p.To.Name = obj.NAME_EXTERN
		p.To.Sym = gc.Linksym(b.Aux.(*gc.Sym))

	case ssa.BlockARMEQ, ssa.BlockARMNE,
		ssa.BlockARMLT, ssa.BlockARMGE,
		ssa.BlockARMLE, ssa.BlockARMGT,
		ssa.BlockARMULT, ssa.BlockARMUGT,
		ssa.BlockARMULE, ssa.BlockARMUGE:
		jmp := blockJump[b.Kind]
		var p *obj.Prog
		switch next {
		case b.Succs[0].Block():
			p = gc.Prog(jmp.invasm)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[1].Block()})
		case b.Succs[1].Block():
			p = gc.Prog(jmp.asm)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
		default:
			p = gc.Prog(jmp.asm)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
			q := gc.Prog(obj.AJMP)
			q.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: q, B: b.Succs[1].Block()})
		}

	default:
		b.Fatalf("branch not implemented: %s. Control: %s", b.LongString(), b.Control.LongString())
	}
}
Exemple #4
0
Fichier : ssa.go Projet : hurkgu/go
func ssaGenBlock(s *gc.SSAGenState, b, next *ssa.Block) {
	s.SetLineno(b.Line)

	switch b.Kind {

	case ssa.BlockDefer:
		// defer returns in R3:
		// 0 if we should continue executing
		// 1 if we should jump to deferreturn call
		p := gc.Prog(ppc64.ACMP)
		p.From.Type = obj.TYPE_REG
		p.From.Reg = ppc64.REG_R3
		p.To.Type = obj.TYPE_REG
		p.To.Reg = ppc64.REG_R0

		p = gc.Prog(ppc64.ABNE)
		p.To.Type = obj.TYPE_BRANCH
		s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[1].Block()})
		if b.Succs[0].Block() != next {
			p := gc.Prog(obj.AJMP)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
		}

	case ssa.BlockPlain, ssa.BlockCall, ssa.BlockCheck:
		if b.Succs[0].Block() != next {
			p := gc.Prog(obj.AJMP)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
		}
	case ssa.BlockExit:
		gc.Prog(obj.AUNDEF) // tell plive.go that we never reach here
	case ssa.BlockRet:
		gc.Prog(obj.ARET)
	case ssa.BlockRetJmp:
		p := gc.Prog(obj.AJMP)
		p.To.Type = obj.TYPE_MEM
		p.To.Name = obj.NAME_EXTERN
		p.To.Sym = gc.Linksym(b.Aux.(*gc.Sym))

	case ssa.BlockPPC64EQ, ssa.BlockPPC64NE,
		ssa.BlockPPC64LT, ssa.BlockPPC64GE,
		ssa.BlockPPC64LE, ssa.BlockPPC64GT,
		ssa.BlockPPC64FLT, ssa.BlockPPC64FGE,
		ssa.BlockPPC64FLE, ssa.BlockPPC64FGT:
		jmp := blockJump[b.Kind]
		likely := b.Likely
		var p *obj.Prog
		switch next {
		case b.Succs[0].Block():
			p = gc.Prog(jmp.invasm)
			likely *= -1
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[1].Block()})
			if jmp.invasmun {
				// TODO: The second branch is probably predict-not-taken since it is for FP unordered
				q := gc.Prog(ppc64.ABVS)
				q.To.Type = obj.TYPE_BRANCH
				s.Branches = append(s.Branches, gc.Branch{P: q, B: b.Succs[1].Block()})
			}
		case b.Succs[1].Block():
			p = gc.Prog(jmp.asm)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
			if jmp.asmeq {
				q := gc.Prog(ppc64.ABEQ)
				q.To.Type = obj.TYPE_BRANCH
				s.Branches = append(s.Branches, gc.Branch{P: q, B: b.Succs[0].Block()})
			}
		default:
			p = gc.Prog(jmp.asm)
			p.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: p, B: b.Succs[0].Block()})
			if jmp.asmeq {
				q := gc.Prog(ppc64.ABEQ)
				q.To.Type = obj.TYPE_BRANCH
				s.Branches = append(s.Branches, gc.Branch{P: q, B: b.Succs[0].Block()})
			}
			q := gc.Prog(obj.AJMP)
			q.To.Type = obj.TYPE_BRANCH
			s.Branches = append(s.Branches, gc.Branch{P: q, B: b.Succs[1].Block()})
		}

		// liblink reorders the instruction stream as it sees fit.
		// Pass along what we know so liblink can make use of it.
		// TODO: Once we've fully switched to SSA,
		// make liblink leave our output alone.
		//switch likely {
		//case ssa.BranchUnlikely:
		//	p.From.Type = obj.TYPE_CONST
		//	p.From.Offset = 0
		//case ssa.BranchLikely:
		//	p.From.Type = obj.TYPE_CONST
		//	p.From.Offset = 1
		//}

	default:
		b.Unimplementedf("branch not implemented: %s. Control: %s", b.LongString(), b.Control.LongString())
	}
}