Пример #1
0
func (mach X86) binaryIntCompareOp(code gen.RegCoder, cond uint8, a, b values.Operand) (result values.Operand) {
	result = values.ConditionFlagsOperand(values.Condition(cond))

	targetReg, _, own := mach.opBorrowMaybeResultReg(code, a, false)
	if own {
		defer code.FreeReg(a.Type, targetReg)
	}

	if b.Storage == values.VarMem {
		Cmp.opFromStack(code, a.Type, targetReg, b.VarMemOffset())
		return
	}

	var sourceReg regs.R

	if b.Storage.IsReg() {
		sourceReg = b.Reg()
	} else {
		if b.Storage == values.Imm {
			if value := b.ImmValue(); value >= -0x80000000 && value < 0x80000000 {
				Cmp.opImm(code, a.Type, targetReg, int32(value))
				return
			}
		}
		sourceReg = regScratch
		mach.OpMove(code, sourceReg, b, false)
	}

	Cmp.opFromReg(code, a.Type, targetReg, sourceReg)
	code.Consumed(b)
	return
}
Пример #2
0
func (mach X86) binaryShiftOp(code gen.RegCoder, index uint8, a, b values.Operand) values.Operand {
	insn := binaryShiftInsns[index]

	var targetReg regs.R

	switch b.Storage {
	case values.Imm:
		targetReg, _ = mach.opMaybeResultReg(code, a, true)
		insn.imm.op(code, b.Type, targetReg, uint8(b.ImmValue()))

	default:
		if b.Storage.IsReg() && b.Reg() == regShiftCount {
			targetReg, _ = mach.opMaybeResultReg(code, a, false)
			defer code.Discard(b)
		} else {
			if code.RegAllocated(types.I32, regShiftCount) {
				targetReg, _ = mach.opMaybeResultReg(code, a, true)
				if targetReg == regShiftCount {
					Mov.opFromReg(code, a.Type, regResult, regShiftCount)
					targetReg = regResult

					defer code.FreeReg(types.I32, regShiftCount)
				} else {
					// unknown operand in regShiftCount
					Mov.opFromReg(code, types.I64, regScratch, regShiftCount)
					defer Mov.opFromReg(code, types.I64, regShiftCount, regScratch)
				}
			} else {
				code.AllocSpecificReg(types.I32, regShiftCount)
				defer code.FreeReg(types.I32, regShiftCount)

				targetReg, _ = mach.opMaybeResultReg(code, a, true)
			}

			b.Type = types.I32 // TODO: 8-bit mov
			mach.OpMove(code, regShiftCount, b, false)
		}

		insn.opReg(code, a.Type, targetReg)
	}

	return values.TempRegOperand(a.Type, targetReg, true)
}
Пример #3
0
Файл: x86.go Проект: tsavola/wag
// OpPush must not allocate registers, and must not update CPU's condition
// flags unless the operand is the condition flags.
func (mach X86) OpPush(code gen.Coder, x values.Operand) {
	var reg regs.R

	switch {
	case x.Storage.IsReg():
		reg = x.Reg()

	case x.Storage == values.Imm:
		value := x.ImmValue()

		switch {
		case value >= -0x80 && value < 0x80:
			PushImm8.op(code, imm{int8(value)})
			return

		case value >= -0x80000000 && value < 0x80000000:
			PushImm32.op(code, imm{int32(value)})
			return
		}

		fallthrough

	default:
		reg = regScratch
		mach.OpMove(code, reg, x, true)
	}

	switch x.Type.Category() {
	case types.Int:
		Push.op(code, reg)

	case types.Float:
		pushFloatOp(code, x.Type, reg)

	default:
		panic(x)
	}

	if x.Storage == values.TempReg {
		code.FreeReg(x.Type, reg)
	}
}
Пример #4
0
Файл: x86.go Проект: tsavola/wag
func (mach X86) OpSelect(code gen.RegCoder, a, b, condOperand values.Operand) values.Operand {
	defer code.Consumed(condOperand)

	var cond values.Condition

	switch condOperand.Storage {
	case values.VarMem:
		Cmp.opImmToStack(code, types.I32, condOperand.VarMemOffset(), 0)
		cond = values.Ne

	case values.VarReg, values.TempReg:
		reg := condOperand.Reg()
		Test.opFromReg(code, types.I32, reg, reg)
		cond = values.Ne

	case values.Stack:
		mach.OpAddImmToStackPtr(code, 8) // do before cmp to avoid overwriting flags
		Cmp.opImmToStack(code, types.I32, -8, 0)
		cond = values.Ne

	case values.ConditionFlags:
		cond = condOperand.Condition()

	case values.Imm:
		if condOperand.ImmValue() != 0 {
			code.Consumed(b)
			return a
		} else {
			code.Consumed(a)
			return b
		}

	default:
		panic(condOperand)
	}

	t := a.Type
	targetReg, _ := mach.opMaybeResultReg(code, b, true)

	switch t.Category() {
	case types.Int:
		cmov := conditionInsns[cond].cmov

		switch a.Storage {
		case values.VarMem:
			cmov.opFromStack(code, t, targetReg, a.VarMemOffset())

		default:
			aReg, _, own := mach.opBorrowMaybeScratchReg(code, a, true)
			if own {
				defer code.FreeReg(t, aReg)
			}

			cmov.opFromReg(code, t, targetReg, aReg)
		}

	case types.Float:
		var moveIt links.L
		var end links.L

		cond = values.InvertedConditions[cond]
		notCondJump := conditionInsns[cond].jcc

		switch {
		case cond >= values.MinUnorderedOrCondition:
			Jp.rel8.opStub(code) // move it if unordered
			moveIt.AddSite(code.Len())

			notCondJump.rel8.opStub(code) // break if not cond
			end.AddSite(code.Len())

		case cond >= values.MinOrderedAndCondition:
			Jp.rel8.opStub(code) // break if unordered
			end.AddSite(code.Len())

			notCondJump.rel8.opStub(code) // break if not cond
			end.AddSite(code.Len())

		default:
			notCondJump.rel8.opStub(code) // break if not cond
			end.AddSite(code.Len())
		}

		moveIt.Addr = code.Len()
		mach.updateBranches8(code, &moveIt)

		mach.OpMove(code, targetReg, a, false)

		end.Addr = code.Len()
		mach.updateBranches8(code, &end)

	default:
		panic(t)
	}

	// cmov zero-extends the target unconditionally
	return values.TempRegOperand(t, targetReg, true)
}
Пример #5
0
Файл: x86.go Проект: tsavola/wag
// OpMove must not update CPU's condition flags if preserveFlags is set.
//
// X86 implementation note: must not blindly rely on regScratch or regResult in
// this function because we may be moving to one of them.
func (mach X86) OpMove(code gen.Coder, targetReg regs.R, x values.Operand, preserveFlags bool) (zeroExt bool) {
	switch x.Type.Category() {
	case types.Int:
		switch x.Storage {
		case values.Imm:
			if value := x.ImmValue(); value == 0 && !preserveFlags {
				Xor.opFromReg(code, types.I32, targetReg, targetReg)
			} else {
				MovImm64.op(code, x.Type, targetReg, value)
			}
			zeroExt = true

		case values.VarMem:
			Mov.opFromStack(code, x.Type, targetReg, x.VarMemOffset())
			zeroExt = true

		case values.VarReg:
			if sourceReg := x.Reg(); sourceReg != targetReg {
				Mov.opFromReg(code, x.Type, targetReg, sourceReg)
				zeroExt = true
			}

		case values.TempReg:
			if sourceReg := x.Reg(); sourceReg != targetReg {
				Mov.opFromReg(code, x.Type, targetReg, sourceReg)
				zeroExt = true
			} else if targetReg == regResult {
				zeroExt = x.RegZeroExt()
			} else {
				panic("moving temporary integer register to itself")
			}

		case values.Stack:
			Pop.op(code, targetReg)

		case values.ConditionFlags:
			if x.Type != types.I32 {
				panic(x)
			}

			var end links.L

			cond := x.Condition()
			setcc := conditionInsns[cond].setcc

			switch {
			case cond >= values.MinUnorderedOrCondition:
				MovImm.opImm(code, x.Type, targetReg, 1) // true
				Jp.rel8.opStub(code)                     // if unordered, else
				end.AddSite(code.Len())                  //
				setcc.opReg(code, targetReg)             // cond

			case cond >= values.MinOrderedAndCondition:
				MovImm.opImm(code, x.Type, targetReg, 0) // false
				Jp.rel8.opStub(code)                     // if unordered, else
				end.AddSite(code.Len())                  //
				setcc.opReg(code, targetReg)             // cond

			default:
				setcc.opReg(code, targetReg)
				Movzx8.opFromReg(code, x.Type, targetReg, targetReg)
			}

			end.Addr = code.Len()
			mach.updateBranches8(code, &end)

			zeroExt = true

		default:
			panic(x)
		}

	case types.Float:
		switch x.Storage {
		case values.Imm:
			if value := x.ImmValue(); value == 0 {
				PxorSSE.opFromReg(code, x.Type, targetReg, targetReg)
			} else {
				MovImm64.op(code, x.Type, regScratch, value) // integer scratch register
				MovSSE.opFromReg(code, x.Type, targetReg, regScratch)
			}

		case values.VarMem:
			MovsSSE.opFromStack(code, x.Type, targetReg, x.VarMemOffset())

		case values.VarReg:
			if sourceReg := x.Reg(); sourceReg != targetReg {
				MovsSSE.opFromReg(code, x.Type, targetReg, sourceReg)
			}

		case values.TempReg:
			if sourceReg := x.Reg(); sourceReg != targetReg {
				MovsSSE.opFromReg(code, x.Type, targetReg, sourceReg)
			} else if targetReg != regResult {
				panic("moving temporary float register to itself")
			}

		case values.Stack:
			popFloatOp(code, x.Type, targetReg)

		default:
			panic(x)
		}

	default:
		panic(x)
	}

	code.Consumed(x)

	return
}
Пример #6
0
func (mach X86) binaryIntOp(code gen.RegCoder, index uint8, a, b values.Operand) (result values.Operand) {
	if a.Storage == values.Imm && a.ImmValue() == 0 && index == opers.IndexIntSub {
		targetReg, _ := mach.opMaybeResultReg(code, b, false)
		Neg.opReg(code, a.Type, targetReg)
		return values.TempRegOperand(a.Type, targetReg, true)
	}

	switch b.Storage {
	case values.Imm:
		value := b.ImmValue()

		switch {
		case index == opers.IndexIntAdd && value == 1: // assume that we won't see sub -1
			reg, _ := mach.opMaybeResultReg(code, a, false)
			Inc.opReg(code, a.Type, reg)
			return values.TempRegOperand(a.Type, reg, true)

		case index == opers.IndexIntSub && value == 1: // assume that we won't see add -1
			reg, _ := mach.opMaybeResultReg(code, a, false)
			Dec.opReg(code, a.Type, reg)
			return values.TempRegOperand(a.Type, reg, true)

		case value < -0x80000000 || value >= 0x80000000:
			// TODO: merge this with the next outer case
			sourceReg, _, own := mach.opBorrowMaybeScratchReg(code, b, true)
			b = values.RegOperand(own, a.Type, sourceReg)
		}

	case values.Stack, values.ConditionFlags:
		sourceReg, _, own := mach.opBorrowMaybeScratchReg(code, b, true)
		b = values.RegOperand(own, a.Type, sourceReg)
	}

	insn := binaryIntInsns[index]
	targetReg, _ := mach.opMaybeResultReg(code, a, false)
	result = values.TempRegOperand(a.Type, targetReg, true)

	if b.Storage == values.VarMem {
		insn.opFromStack(code, a.Type, targetReg, b.VarMemOffset())
		return
	}

	var sourceReg regs.R

	if b.Storage.IsReg() {
		sourceReg = b.Reg()
	} else {
		if b.Storage == values.Imm {
			if value := b.ImmValue(); value >= -0x80000000 && value < 0x80000000 {
				insn.opImm(code, a.Type, targetReg, int32(b.ImmValue()))
				return
			}
		}
		sourceReg = regScratch
		mach.OpMove(code, sourceReg, b, false)
	}

	insn.opFromReg(code, a.Type, targetReg, sourceReg)
	code.Consumed(b)
	return
}
Пример #7
0
func (mach X86) binaryDivmulOp(code gen.RegCoder, index uint8, a, b values.Operand) values.Operand {
	insn := binaryDivmulInsns[index]
	t := a.Type

	if b.Storage == values.Imm {
		value := b.ImmValue()

		switch {
		case value == -1:
			reg, _ := mach.opMaybeResultReg(code, a, false)
			Neg.opReg(code, t, reg)
			return values.TempRegOperand(t, reg, true)

		case insn.shiftImm.defined() && value > 0 && isPowerOfTwo(uint64(value)):
			reg, _ := mach.opMaybeResultReg(code, a, false)
			insn.shiftImm.op(code, t, reg, log2(uint64(value)))
			return values.TempRegOperand(t, reg, true)
		}
	}

	division := (index & opers.DivmulMul) == 0
	checkZero := true
	checkOverflow := true

	if b.Storage.IsReg() {
		if b.Reg() == regResult {
			newReg := regScratch

			if division {
				var ok bool

				// can't use scratch reg as divisor since it contains the dividend high bits
				newReg, ok = code.TryAllocReg(t)
				if !ok {
					// borrow a register which we don't need in this function
					MovMMX.opFromReg(code, types.I64, regScratchMMX, regTextBase)
					defer MovMMX.opToReg(code, types.I64, regTextBase, regScratchMMX)

					newReg = regTextBase
				}
			}

			Mov.opFromReg(code, t, newReg, regResult)
			b = values.RegOperand(true, t, newReg)
		}
	} else {
		if division && b.Storage == values.Imm {
			value := b.ImmValue()
			if value != 0 {
				checkZero = false
			}
			if value != -1 {
				checkOverflow = false
			}
		}

		reg, ok := code.TryAllocReg(t)
		if !ok {
			// borrow a register which we don't need in this function
			MovMMX.opFromReg(code, types.I64, regScratchMMX, regTextBase)
			defer MovMMX.opToReg(code, types.I64, regTextBase, regScratchMMX)

			reg = regTextBase
		}

		mach.OpMove(code, reg, b, true)
		b = values.RegOperand(true, t, reg)
	}

	mach.OpMove(code, regResult, a, false)

	remainder := (index & opers.DivmulRem) != 0

	var doNot links.L

	if division {
		if checkZero {
			mach.opCheckDivideByZero(code, t, b.Reg())
		}

		if a.Storage == values.Imm {
			value := a.ImmValue()
			if t.Size() == types.Size32 {
				if value != -0x80000000 {
					checkOverflow = false
				}
			} else {
				if value != -0x8000000000000000 {
					checkOverflow = false
				}
			}
		}

		signed := (index & opers.DivmulSign) != 0

		if signed && checkOverflow {
			var do links.L

			if remainder {
				Xor.opFromReg(code, types.I32, regScratch, regScratch) // moved to result at the end

				Cmp.opImm(code, t, b.Reg(), -1)
				Je.rel8.opStub(code)
				doNot.AddSite(code.Len())
			} else {
				switch t.Size() {
				case types.Size32:
					Cmp.opImm(code, t, regResult, -0x80000000)

				case types.Size64:
					MovImm64.op(code, t, regScratch, -0x8000000000000000)
					Cmp.opFromReg(code, t, regResult, regScratch)

				default:
					panic(a)
				}

				Jne.rel8.opStub(code)
				do.AddSite(code.Len())

				Cmp.opImm(code, t, b.Reg(), -1)
				Jne.rel8.opStub(code)
				do.AddSite(code.Len())

				code.OpTrapCall(traps.IntegerOverflow)
			}

			do.Addr = code.Len()
			mach.updateBranches8(code, &do)
		}

		if signed {
			// sign-extend dividend low bits to high bits
			CdqCqo.op(code, t)
		} else {
			// zero-extend dividend high bits
			Xor.opFromReg(code, types.I32, regScratch, regScratch)
		}
	}

	insn.opReg(code, t, b.Reg())
	code.Consumed(b)

	doNot.Addr = code.Len()
	mach.updateBranches8(code, &doNot)

	if remainder {
		Mov.opFromReg(code, t, regResult, regScratch)
	}

	return values.TempRegOperand(t, regResult, true)
}