コード例 #1
0
ファイル: expr.go プロジェクト: lougxing/golang-china
// extractEffect separates out any effects that the expression may
// have, returning a function that will perform those effects and a
// new exprCompiler that is guaranteed to be side-effect free.  These
// are the moral equivalents of "temp := expr" and "temp" (or "temp :=
// &expr" and "*temp" for addressable exprs).  Because this creates a
// temporary variable, the caller should create a temporary block for
// the compilation of this expression and the evaluation of the
// results.
func (a *expr) extractEffect(b *block, errOp string) (func(*Thread), *expr) {
	// Create "&a" if a is addressable
	rhs := a
	if a.evalAddr != nil {
		rhs = a.compileUnaryExpr(token.AND, rhs)
	}

	// Create temp
	ac, ok := a.checkAssign(a.pos, []*expr{rhs}, errOp, "")
	if !ok {
		return nil, nil
	}
	if len(ac.rmt.Elems) != 1 {
		a.diag("multi-valued expression not allowed in %s", errOp)
		return nil, nil
	}
	tempType := ac.rmt.Elems[0]
	if tempType.isIdeal() {
		// It's too bad we have to duplicate this rule.
		switch {
		case tempType.isInteger():
			tempType = IntType
		case tempType.isFloat():
			tempType = FloatType
		default:
			log.Crashf("unexpected ideal type %v", tempType)
		}
	}
	temp := b.DefineTemp(tempType)
	tempIdx := temp.Index

	// Create "temp := rhs"
	assign := ac.compile(b, tempType)
	if assign == nil {
		log.Crashf("compileAssign type check failed")
	}

	effect := func(t *Thread) {
		tempVal := tempType.Zero()
		t.f.Vars[tempIdx] = tempVal
		assign(tempVal, t)
	}

	// Generate "temp" or "*temp"
	getTemp := a.compileVariable(0, temp)
	if a.evalAddr == nil {
		return effect, getTemp
	}

	deref := a.compileStarExpr(getTemp)
	if deref == nil {
		return nil, nil
	}
	return effect, deref
}
コード例 #2
0
ファイル: stmt.go プロジェクト: rapgamer/golang-china
func (a *stmtCompiler) compileIncDecStmt(s *ast.IncDecStmt) {
	// Create temporary block for extractEffect
	bc := a.enterChild()
	defer bc.exit()

	l := a.compileExpr(bc.block, false, s.X)
	if l == nil {
		return
	}

	if l.evalAddr == nil {
		l.diag("cannot assign to %s", l.desc)
		return
	}
	if !(l.t.isInteger() || l.t.isFloat()) {
		l.diagOpType(s.Tok, l.t)
		return
	}

	var op token.Token
	var desc string
	switch s.Tok {
	case token.INC:
		op = token.ADD
		desc = "increment statement"
	case token.DEC:
		op = token.SUB
		desc = "decrement statement"
	default:
		log.Crashf("Unexpected IncDec token %v", s.Tok)
	}

	effect, l := l.extractEffect(bc.block, desc)

	one := l.newExpr(IdealIntType, "constant")
	one.pos = s.Pos()
	one.eval = func() *bignum.Integer { return bignum.Int(1) }

	binop := l.compileBinaryExpr(op, l, one)
	if binop == nil {
		return
	}

	assign := a.compileAssign(s.Pos(), bc.block, l.t, []*expr{binop}, "", "")
	if assign == nil {
		log.Crashf("compileAssign type check failed")
	}

	lf := l.evalAddr
	a.push(func(v *Thread) {
		effect(v)
		assign(lf(v), v)
	})
}
コード例 #3
0
ファイル: expr.go プロジェクト: lougxing/golang-china
// TODO(austin) This is a hack to eliminate a circular dependency
// between type.go and expr.go
func (a *compiler) compileArrayLen(b *block, expr ast.Expr) (int64, bool) {
	lenExpr := a.compileExpr(b, true, expr)
	if lenExpr == nil {
		return 0, false
	}

	// XXX(Spec) Are ideal floats with no fractional part okay?
	if lenExpr.t.isIdeal() {
		lenExpr = lenExpr.convertTo(IntType)
		if lenExpr == nil {
			return 0, false
		}
	}

	if !lenExpr.t.isInteger() {
		a.diagAt(expr, "array size must be an integer")
		return 0, false
	}

	switch lenExpr.t.lit().(type) {
	case *intType:
		return lenExpr.asInt()(nil), true
	case *uintType:
		return int64(lenExpr.asUint()(nil)), true
	}
	log.Crashf("unexpected integer type %T", lenExpr.t)
	return 0, false
}
コード例 #4
0
ファイル: expr1.go プロジェクト: 8l/go-learn
func (a *expr) genConstant(v Value) {
	switch a.t.lit().(type) {
	case *boolType:
		a.eval = func(t *Thread) bool { return v.(BoolValue).Get(t) }
	case *uintType:
		a.eval = func(t *Thread) uint64 { return v.(UintValue).Get(t) }
	case *intType:
		a.eval = func(t *Thread) int64 { return v.(IntValue).Get(t) }
	case *idealIntType:
		val := v.(IdealIntValue).Get()
		a.eval = func() *bignum.Integer { return val }
	case *floatType:
		a.eval = func(t *Thread) float64 { return v.(FloatValue).Get(t) }
	case *idealFloatType:
		val := v.(IdealFloatValue).Get()
		a.eval = func() *bignum.Rational { return val }
	case *stringType:
		a.eval = func(t *Thread) string { return v.(StringValue).Get(t) }
	case *ArrayType:
		a.eval = func(t *Thread) ArrayValue { return v.(ArrayValue).Get(t) }
	case *StructType:
		a.eval = func(t *Thread) StructValue { return v.(StructValue).Get(t) }
	case *PtrType:
		a.eval = func(t *Thread) Value { return v.(PtrValue).Get(t) }
	case *FuncType:
		a.eval = func(t *Thread) Func { return v.(FuncValue).Get(t) }
	case *SliceType:
		a.eval = func(t *Thread) Slice { return v.(SliceValue).Get(t) }
	case *MapType:
		a.eval = func(t *Thread) Map { return v.(MapValue).Get(t) }
	default:
		log.Crashf("unexpected constant type %v at %v", a.t, a.pos)
	}
}
コード例 #5
0
ファイル: expr1.go プロジェクト: 8l/go-learn
func (a *expr) genUnaryOpNeg(v *expr) {
	switch a.t.lit().(type) {
	case *uintType:
		vf := v.asUint()
		a.eval = func(t *Thread) uint64 {
			v := vf(t)
			return -v
		}
	case *intType:
		vf := v.asInt()
		a.eval = func(t *Thread) int64 {
			v := vf(t)
			return -v
		}
	case *idealIntType:
		v := v.asIdealInt()()
		val := v.Neg()
		a.eval = func() *bignum.Integer { return val }
	case *floatType:
		vf := v.asFloat()
		a.eval = func(t *Thread) float64 {
			v := vf(t)
			return -v
		}
	case *idealFloatType:
		v := v.asIdealFloat()()
		val := v.Neg()
		a.eval = func() *bignum.Rational { return val }
	default:
		log.Crashf("unexpected type %v at %v", a.t, a.pos)
	}
}
コード例 #6
0
ファイル: expr1.go プロジェクト: ivanwyc/google-go
func (a *expr) genIdentOp(level, index int) {
	a.evalAddr = func(t *Thread) Value { return t.f.Get(level, index) }
	switch a.t.lit().(type) {
	case *boolType:
		a.eval = func(t *Thread) bool { return t.f.Get(level, index).(BoolValue).Get(t) }
	case *uintType:
		a.eval = func(t *Thread) uint64 { return t.f.Get(level, index).(UintValue).Get(t) }
	case *intType:
		a.eval = func(t *Thread) int64 { return t.f.Get(level, index).(IntValue).Get(t) }
	case *floatType:
		a.eval = func(t *Thread) float64 { return t.f.Get(level, index).(FloatValue).Get(t) }
	case *stringType:
		a.eval = func(t *Thread) string { return t.f.Get(level, index).(StringValue).Get(t) }
	case *ArrayType:
		a.eval = func(t *Thread) ArrayValue { return t.f.Get(level, index).(ArrayValue).Get(t) }
	case *StructType:
		a.eval = func(t *Thread) StructValue { return t.f.Get(level, index).(StructValue).Get(t) }
	case *PtrType:
		a.eval = func(t *Thread) Value { return t.f.Get(level, index).(PtrValue).Get(t) }
	case *FuncType:
		a.eval = func(t *Thread) Func { return t.f.Get(level, index).(FuncValue).Get(t) }
	case *SliceType:
		a.eval = func(t *Thread) Slice { return t.f.Get(level, index).(SliceValue).Get(t) }
	case *MapType:
		a.eval = func(t *Thread) Map { return t.f.Get(level, index).(MapValue).Get(t) }
	default:
		log.Crashf("unexpected identifier type %v at %v", a.t, a.pos)
	}
}
コード例 #7
0
ファイル: process.go プロジェクト: rapgamer/golang-china
// processEvent processes a single event, without manipulating the
// event queues.  It returns either EAStop or EAContinue and possibly
// an error.
func (p *Process) processEvent(ev Event) (EventAction, os.Error) {
	p.event = ev

	var action EventAction
	var err os.Error
	switch ev := p.event.(type) {
	case *Breakpoint:
		hook, ok := p.breakpointHooks[ev.pc]
		if !ok {
			break
		}
		p.curGoroutine = ev.Goroutine()
		action, err = hook.handle(ev)

	case *GoroutineCreate:
		p.curGoroutine = ev.Goroutine()
		action, err = p.goroutineCreateHook.handle(ev)

	case *GoroutineExit:
		action, err = p.goroutineExitHook.handle(ev)

	default:
		log.Crashf("Unknown event type %T in queue", p.event)
	}

	if err != nil {
		return EAStop, err
	} else if action == EAStop {
		return EAStop, nil
	}
	return EAContinue, nil
}
コード例 #8
0
ファイル: typec.go プロジェクト: 8l/go-learn
func (a *typeCompiler) compileIdent(x *ast.Ident, allowRec bool) Type {
	_, _, def := a.block.Lookup(x.Value)
	if def == nil {
		a.diagAt(x, "%s: undefined", x.Value)
		return nil
	}
	switch def := def.(type) {
	case *Constant:
		a.diagAt(x, "constant %v used as type", x.Value)
		return nil
	case *Variable:
		a.diagAt(x, "variable %v used as type", x.Value)
		return nil
	case *NamedType:
		if !allowRec && def.incomplete {
			a.diagAt(x, "illegal recursive type")
			return nil
		}
		if !def.incomplete && def.Def == nil {
			// Placeholder type from an earlier error
			return nil
		}
		return def
	case Type:
		return def
	}
	log.Crashf("name %s has unknown type %T", x.Value, def)
	return nil
}
コード例 #9
0
ファイル: stmt.go プロジェクト: rapgamer/golang-china
// put creates a flow control point for the next PC in the code buffer.
// This should be done before pushing the instruction into the code buffer.
func (f *flowBuf) put(cond bool, term bool, jumps []*uint) {
	pc := f.cb.nextPC()
	if ent, ok := f.ents[pc]; ok {
		log.Crashf("Flow entry already exists at PC %d: %+v", pc, ent)
	}
	f.ents[pc] = &flowEnt{cond, term, jumps, false}
}
コード例 #10
0
ファイル: expr1.go プロジェクト: 8l/go-learn
func (a *expr) genValue(vf func(*Thread) Value) {
	a.evalAddr = vf
	switch a.t.lit().(type) {
	case *boolType:
		a.eval = func(t *Thread) bool { return vf(t).(BoolValue).Get(t) }
	case *uintType:
		a.eval = func(t *Thread) uint64 { return vf(t).(UintValue).Get(t) }
	case *intType:
		a.eval = func(t *Thread) int64 { return vf(t).(IntValue).Get(t) }
	case *floatType:
		a.eval = func(t *Thread) float64 { return vf(t).(FloatValue).Get(t) }
	case *stringType:
		a.eval = func(t *Thread) string { return vf(t).(StringValue).Get(t) }
	case *ArrayType:
		a.eval = func(t *Thread) ArrayValue { return vf(t).(ArrayValue).Get(t) }
	case *StructType:
		a.eval = func(t *Thread) StructValue { return vf(t).(StructValue).Get(t) }
	case *PtrType:
		a.eval = func(t *Thread) Value { return vf(t).(PtrValue).Get(t) }
	case *FuncType:
		a.eval = func(t *Thread) Func { return vf(t).(FuncValue).Get(t) }
	case *SliceType:
		a.eval = func(t *Thread) Slice { return vf(t).(SliceValue).Get(t) }
	case *MapType:
		a.eval = func(t *Thread) Map { return vf(t).(MapValue).Get(t) }
	default:
		log.Crashf("unexpected result type %v at %v", a.t, a.pos)
	}
}
コード例 #11
0
ファイル: expr1.go プロジェクト: 8l/go-learn
func (a *expr) asInterface() func(*Thread) interface{} {
	switch sf := a.eval.(type) {
	case func(t *Thread) bool:
		return func(t *Thread) interface{} { return sf(t) }
	case func(t *Thread) uint64:
		return func(t *Thread) interface{} { return sf(t) }
	case func(t *Thread) int64:
		return func(t *Thread) interface{} { return sf(t) }
	case func() *bignum.Integer:
		return func(*Thread) interface{} { return sf() }
	case func(t *Thread) float64:
		return func(t *Thread) interface{} { return sf(t) }
	case func() *bignum.Rational:
		return func(*Thread) interface{} { return sf() }
	case func(t *Thread) string:
		return func(t *Thread) interface{} { return sf(t) }
	case func(t *Thread) ArrayValue:
		return func(t *Thread) interface{} { return sf(t) }
	case func(t *Thread) StructValue:
		return func(t *Thread) interface{} { return sf(t) }
	case func(t *Thread) Value:
		return func(t *Thread) interface{} { return sf(t) }
	case func(t *Thread) Func:
		return func(t *Thread) interface{} { return sf(t) }
	case func(t *Thread) Slice:
		return func(t *Thread) interface{} { return sf(t) }
	case func(t *Thread) Map:
		return func(t *Thread) interface{} { return sf(t) }
	default:
		log.Crashf("unexpected expression node type %T at %v", a.eval, a.pos)
	}
	panic()
}
コード例 #12
0
ファイル: stmt.go プロジェクト: rapgamer/golang-china
func (a *stmtCompiler) compileDecl(decl ast.Decl) {
	switch d := decl.(type) {
	case *ast.BadDecl:
		// Do nothing.  Already reported by parser.
		a.silentErrors++

	case *ast.FuncDecl:
		decl := a.compileFuncType(a.block, d.Type)
		if decl == nil {
			return
		}
		// Declare and initialize v before compiling func
		// so that body can refer to itself.
		c, prev := a.block.DefineConst(d.Name.Name(), a.pos, decl.Type, decl.Type.Zero())
		if prev != nil {
			pos := prev.Pos()
			if pos.IsValid() {
				a.diagAt(d.Name, "identifier %s redeclared in this block\n\tprevious declaration at %s", d.Name.Name(), &pos)
			} else {
				a.diagAt(d.Name, "identifier %s redeclared in this block", d.Name.Name())
			}
		}
		fn := a.compileFunc(a.block, decl, d.Body)
		if c == nil || fn == nil {
			return
		}
		var zeroThread Thread
		c.Value.(FuncValue).Set(nil, fn(&zeroThread))

	case *ast.GenDecl:
		switch d.Tok {
		case token.IMPORT:
			log.Crashf("%v not implemented", d.Tok)
		case token.CONST:
			log.Crashf("%v not implemented", d.Tok)
		case token.TYPE:
			a.compileTypeDecl(a.block, d)
		case token.VAR:
			a.compileVarDecl(d)
		}

	default:
		log.Crashf("Unexpected Decl type %T", decl)
	}
}
コード例 #13
0
ファイル: expr1.go プロジェクト: rapgamer/golang-china
func (a *expr) genUnaryOpNot(v *expr) {
	switch a.t.lit().(type) {
	case *boolType:
		vf := v.asBool()
		a.eval = func(t *Thread) bool { v := vf(t); return !v }
	default:
		log.Crashf("unexpected type %v at %v", a.t, a.pos)
	}
}
コード例 #14
0
ファイル: expr.go プロジェクト: lougxing/golang-china
func (a *compiler) compileExpr(b *block, constant bool, expr ast.Expr) *expr {
	ec := &exprCompiler{a, b, constant}
	nerr := a.numError()
	e := ec.compile(expr, false)
	if e == nil && nerr == a.numError() {
		log.Crashf("expression compilation failed without reporting errors")
	}
	return e
}
コード例 #15
0
ファイル: expr.go プロジェクト: lougxing/golang-china
func (a *exprInfo) compileFloatLit(lit string) *expr {
	f, _, n := bignum.RatFromString(lit, 0)
	if n != len(lit) {
		log.Crashf("malformed float literal %s at %v passed parser", lit, a.pos)
	}
	expr := a.newExpr(IdealFloatType, "float literal")
	expr.eval = func() *bignum.Rational { return f }
	return expr
}
コード例 #16
0
ファイル: type.go プロジェクト: rapgamer/golang-china
func (t *NamedType) Complete(def Type) {
	if !t.incomplete {
		log.Crashf("cannot complete already completed NamedType %+v", *t)
	}
	// We strip the name from def because multiple levels of
	// naming are useless.
	if ndef, ok := def.(*NamedType); ok {
		def = ndef.Def
	}
	t.Def = def
	t.incomplete = false
}
コード例 #17
0
ファイル: expr.go プロジェクト: lougxing/golang-china
// derefArray returns an expression of array type if the given
// expression is a *array type.  Otherwise, returns the given
// expression.
func (a *expr) derefArray() *expr {
	if pt, ok := a.t.lit().(*PtrType); ok {
		if _, ok := pt.Elem.lit().(*ArrayType); ok {
			deref := a.compileStarExpr(a)
			if deref == nil {
				log.Crashf("failed to dereference *array")
			}
			return deref
		}
	}
	return a
}
コード例 #18
0
ファイル: type.go プロジェクト: rapgamer/golang-china
func (t *floatType) maxVal() *bignum.Rational {
	bits := t.Bits
	if bits == 0 {
		bits = uint(8 * unsafe.Sizeof(float(0)))
	}
	switch bits {
	case 32:
		return maxFloat32Val
	case 64:
		return maxFloat64Val
	}
	log.Crashf("unexpected floating point bit count: %d", bits)
	panic("unreachable")
}
コード例 #19
0
ファイル: parse.go プロジェクト: ivanwyc/google-go
// goFiles returns a list of the *.go source files in dir,
// excluding those in package main or ending in _test.go.
// It also returns a map giving the packages imported
// by those files.  The map keys are the imported paths.
// The key's value is one file that imports that path.
func goFiles(dir string) (files []string, imports map[string]string, err os.Error) {
	f, err := os.Open(dir, os.O_RDONLY, 0)
	if err != nil {
		return nil, nil, err
	}
	dirs, err := f.Readdir(-1)
	f.Close()
	if err != nil {
		return nil, nil, err
	}

	files = make([]string, 0, len(dirs))
	imports = make(map[string]string)
	pkgName := ""
	for i := range dirs {
		d := &dirs[i]
		if !strings.HasSuffix(d.Name, ".go") || strings.HasSuffix(d.Name, "_test.go") {
			continue
		}
		filename := path.Join(dir, d.Name)
		pf, err := parser.ParseFile(filename, nil, nil, parser.ImportsOnly)
		if err != nil {
			return nil, nil, err
		}
		s := string(pf.Name.Name())
		if s == "main" {
			continue
		}
		if pkgName == "" {
			pkgName = s
		} else if pkgName != s {
			return nil, nil, os.ErrorString("multiple package names in " + dir)
		}
		n := len(files)
		files = files[0 : n+1]
		files[n] = filename
		for _, decl := range pf.Decls {
			for _, spec := range decl.(*ast.GenDecl).Specs {
				quoted := string(spec.(*ast.ImportSpec).Path.Value)
				unquoted, err := strconv.Unquote(quoted)
				if err != nil {
					log.Crashf("%s: parser returned invalid quoted string: <%s>", filename, quoted)
				}
				imports[unquoted] = filename
			}
		}
	}
	return files, imports, nil
}
コード例 #20
0
ファイル: expr1.go プロジェクト: rapgamer/golang-china
func (a *expr) genUnaryOpXor(v *expr) {
	switch a.t.lit().(type) {
	case *uintType:
		vf := v.asUint()
		a.eval = func(t *Thread) uint64 { v := vf(t); return ^v }
	case *intType:
		vf := v.asInt()
		a.eval = func(t *Thread) int64 { v := vf(t); return ^v }
	case *idealIntType:
		v := v.asIdealInt()()
		val := v.Neg().Sub(bignum.Int(1))
		a.eval = func() *bignum.Integer { return val }
	default:
		log.Crashf("unexpected type %v at %v", a.t, a.pos)
	}
}
コード例 #21
0
ファイル: eval_test.go プロジェクト: rapgamer/golang-china
func toValue(val interface{}) Value {
	switch val := val.(type) {
	case bool:
		r := boolV(val)
		return &r
	case uint8:
		r := uint8V(val)
		return &r
	case uint:
		r := uintV(val)
		return &r
	case int:
		r := intV(val)
		return &r
	case *bignum.Integer:
		return &idealIntV{val}
	case float:
		r := floatV(val)
		return &r
	case *bignum.Rational:
		return &idealFloatV{val}
	case string:
		r := stringV(val)
		return &r
	case vstruct:
		elems := make([]Value, len(val))
		for i, e := range val {
			elems[i] = toValue(e)
		}
		r := structV(elems)
		return &r
	case varray:
		elems := make([]Value, len(val))
		for i, e := range val {
			elems[i] = toValue(e)
		}
		r := arrayV(elems)
		return &r
	case vslice:
		return &sliceV{Slice{toValue(val.arr).(ArrayValue), int64(val.len), int64(val.cap)}}
	case Func:
		return &funcV{val}
	}
	log.Crashf("toValue(%T) not implemented", val)
	panic("unreachable")
}
コード例 #22
0
ファイル: expr1.go プロジェクト: 8l/go-learn
func (a *expr) genBinOpGeq(l, r *expr) {
	switch t := l.t.lit().(type) {
	case *uintType:
		lf := l.asUint()
		rf := r.asUint()
		a.eval = func(t *Thread) bool {
			l, r := lf(t), rf(t)
			return l >= r
		}
	case *intType:
		lf := l.asInt()
		rf := r.asInt()
		a.eval = func(t *Thread) bool {
			l, r := lf(t), rf(t)
			return l >= r
		}
	case *idealIntType:
		l := l.asIdealInt()()
		r := r.asIdealInt()()
		val := l.Cmp(r) >= 0
		a.eval = func(t *Thread) bool { return val }
	case *floatType:
		lf := l.asFloat()
		rf := r.asFloat()
		a.eval = func(t *Thread) bool {
			l, r := lf(t), rf(t)
			return l >= r
		}
	case *idealFloatType:
		l := l.asIdealFloat()()
		r := r.asIdealFloat()()
		val := l.Cmp(r) >= 0
		a.eval = func(t *Thread) bool { return val }
	case *stringType:
		lf := l.asString()
		rf := r.asString()
		a.eval = func(t *Thread) bool {
			l, r := lf(t), rf(t)
			return l >= r
		}
	default:
		log.Crashf("unexpected type %v at %v", l.t, a.pos)
	}
}
コード例 #23
0
ファイル: expr.go プロジェクト: lougxing/golang-china
func (a *exprInfo) compileIdent(b *block, constant bool, callCtx bool, name string) *expr {
	bl, level, def := b.Lookup(name)
	if def == nil {
		a.diag("%s: undefined", name)
		return nil
	}
	switch def := def.(type) {
	case *Constant:
		expr := a.newExpr(def.Type, "constant")
		if ft, ok := def.Type.(*FuncType); ok && ft.builtin != "" {
			// XXX(Spec) I don't think anything says that
			// built-in functions can't be used as values.
			if !callCtx {
				a.diag("built-in function %s cannot be used as a value", ft.builtin)
				return nil
			}
			// Otherwise, we leave the evaluators empty
			// because this is handled specially
		} else {
			expr.genConstant(def.Value)
		}
		return expr
	case *Variable:
		if constant {
			a.diag("variable %s used in constant expression", name)
			return nil
		}
		if bl.global {
			return a.compileGlobalVariable(def)
		}
		return a.compileVariable(level, def)
	case Type:
		if callCtx {
			return a.exprFromType(def)
		}
		a.diag("type %v used as expression", name)
		return nil
	}
	log.Crashf("name %s has unknown type %T", name, def)
	panic()
}
コード例 #24
0
ファイル: stmt.go プロジェクト: rapgamer/golang-china
func (a *stmtCompiler) compileDeclStmt(s *ast.DeclStmt) {
	switch decl := s.Decl.(type) {
	case *ast.BadDecl:
		// Do nothing.  Already reported by parser.
		a.silentErrors++

	case *ast.FuncDecl:
		if !a.block.global {
			log.Crash("FuncDecl at statement level")
		}

	case *ast.GenDecl:
		if decl.Tok == token.IMPORT && !a.block.global {
			log.Crash("import at statement level")
		}

	default:
		log.Crashf("Unexpected Decl type %T", s.Decl)
	}
	a.compileDecl(s.Decl)
}
コード例 #25
0
ファイル: expr1.go プロジェクト: 8l/go-learn
func genAssign(lt Type, r *expr) func(lv Value, t *Thread) {
	switch lt.lit().(type) {
	case *boolType:
		rf := r.asBool()
		return func(lv Value, t *Thread) { lv.(BoolValue).Set(t, rf(t)) }
	case *uintType:
		rf := r.asUint()
		return func(lv Value, t *Thread) { lv.(UintValue).Set(t, rf(t)) }
	case *intType:
		rf := r.asInt()
		return func(lv Value, t *Thread) { lv.(IntValue).Set(t, rf(t)) }
	case *floatType:
		rf := r.asFloat()
		return func(lv Value, t *Thread) { lv.(FloatValue).Set(t, rf(t)) }
	case *stringType:
		rf := r.asString()
		return func(lv Value, t *Thread) { lv.(StringValue).Set(t, rf(t)) }
	case *ArrayType:
		rf := r.asArray()
		return func(lv Value, t *Thread) { lv.Assign(t, rf(t)) }
	case *StructType:
		rf := r.asStruct()
		return func(lv Value, t *Thread) { lv.Assign(t, rf(t)) }
	case *PtrType:
		rf := r.asPtr()
		return func(lv Value, t *Thread) { lv.(PtrValue).Set(t, rf(t)) }
	case *FuncType:
		rf := r.asFunc()
		return func(lv Value, t *Thread) { lv.(FuncValue).Set(t, rf(t)) }
	case *SliceType:
		rf := r.asSlice()
		return func(lv Value, t *Thread) { lv.(SliceValue).Set(t, rf(t)) }
	case *MapType:
		rf := r.asMap()
		return func(lv Value, t *Thread) { lv.(MapValue).Set(t, rf(t)) }
	default:
		log.Crashf("unexpected left operand type %v at %v", lt, r.pos)
	}
	panic()
}
コード例 #26
0
ファイル: stmt.go プロジェクト: rapgamer/golang-china
func (a *stmtCompiler) doAssignOp(s *ast.AssignStmt) {
	if len(s.Lhs) != 1 || len(s.Rhs) != 1 {
		a.diag("tuple assignment cannot be combined with an arithmetic operation")
		return
	}

	// Create temporary block for extractEffect
	bc := a.enterChild()
	defer bc.exit()

	l := a.compileExpr(bc.block, false, s.Lhs[0])
	r := a.compileExpr(bc.block, false, s.Rhs[0])
	if l == nil || r == nil {
		return
	}

	if l.evalAddr == nil {
		l.diag("cannot assign to %s", l.desc)
		return
	}

	effect, l := l.extractEffect(bc.block, "operator-assignment")

	binop := r.compileBinaryExpr(assignOpToOp[s.Tok], l, r)
	if binop == nil {
		return
	}

	assign := a.compileAssign(s.Pos(), bc.block, l.t, []*expr{binop}, "assignment", "value")
	if assign == nil {
		log.Crashf("compileAssign type check failed")
	}

	lf := l.evalAddr
	a.push(func(t *Thread) {
		effect(t)
		assign(lf(t), t)
	})
}
コード例 #27
0
ファイル: stmt.go プロジェクト: rapgamer/golang-china
// reachesEnd returns true if the end of f's code buffer can be
// reached from the given program counter.  Error reporting is the
// caller's responsibility.
func (f *flowBuf) reachesEnd(pc uint) bool {
	endPC := f.cb.nextPC()
	if pc > endPC {
		log.Crashf("Reached bad PC %d past end PC %d", pc, endPC)
	}

	for ; pc < endPC; pc++ {
		ent, ok := f.ents[pc]
		if !ok {
			continue
		}

		if ent.visited {
			return false
		}
		ent.visited = true

		if ent.term {
			return false
		}

		// If anything can reach the end, we can reach the end
		// from pc.
		for _, j := range ent.jumps {
			if f.reachesEnd(*j) {
				return true
			}
		}
		// If the jump was conditional, we can reach the next
		// PC, so try reaching the end from it.
		if ent.cond {
			continue
		}
		return false
	}
	return true
}
コード例 #28
0
ファイル: rtype.go プロジェクト: lougxing/golang-china
// newManualType constructs a remote type from an interpreter Type
// using the size and alignment properties of the given architecture.
// Most types are parsed directly out of the remote process, but to do
// so we need to layout the structures that describe those types ourselves.
func newManualType(t eval.Type, arch Arch) *remoteType {
	if nt, ok := t.(*eval.NamedType); ok {
		t = nt.Def
	}

	// Get the type map for this architecture
	typeMap, _ := manualTypes[arch]
	if typeMap == nil {
		typeMap = make(map[eval.Type]*remoteType)
		manualTypes[arch] = typeMap

		// Construct basic types for this architecture
		basicType := func(t eval.Type, mk maker, size int, fieldAlign int) {
			t = t.(*eval.NamedType).Def
			if fieldAlign == 0 {
				fieldAlign = size
			}
			typeMap[t] = &remoteType{t, size, fieldAlign, mk}
		}
		basicType(eval.Uint8Type, mkUint8, 1, 0)
		basicType(eval.Uint32Type, mkUint32, 4, 0)
		basicType(eval.UintptrType, mkUintptr, arch.PtrSize(), 0)
		basicType(eval.Int16Type, mkInt16, 2, 0)
		basicType(eval.Int32Type, mkInt32, 4, 0)
		basicType(eval.IntType, mkInt, arch.IntSize(), 0)
		basicType(eval.StringType, mkString, arch.PtrSize()+arch.IntSize(), arch.PtrSize())
	}

	if rt, ok := typeMap[t]; ok {
		return rt
	}

	var rt *remoteType
	switch t := t.(type) {
	case *eval.PtrType:
		var elem *remoteType
		mk := func(r remote) eval.Value { return remotePtr{r, elem} }
		rt = &remoteType{t, arch.PtrSize(), arch.PtrSize(), mk}
		// Construct the element type after registering the
		// type to break cycles.
		typeMap[eval.Type(t)] = rt
		elem = newManualType(t.Elem, arch)

	case *eval.ArrayType:
		elem := newManualType(t.Elem, arch)
		mk := func(r remote) eval.Value { return remoteArray{r, t.Len, elem} }
		rt = &remoteType{t, elem.size * int(t.Len), elem.fieldAlign, mk}

	case *eval.SliceType:
		elem := newManualType(t.Elem, arch)
		mk := func(r remote) eval.Value { return remoteSlice{r, elem} }
		rt = &remoteType{t, arch.PtrSize() + 2*arch.IntSize(), arch.PtrSize(), mk}

	case *eval.StructType:
		layout := make([]remoteStructField, len(t.Elems))
		offset := 0
		fieldAlign := 0
		for i, f := range t.Elems {
			elem := newManualType(f.Type, arch)
			if fieldAlign == 0 {
				fieldAlign = elem.fieldAlign
			}
			offset = arch.Align(offset, elem.fieldAlign)
			layout[i].offset = offset
			layout[i].fieldType = elem
			offset += elem.size
		}
		mk := func(r remote) eval.Value { return remoteStruct{r, layout} }
		rt = &remoteType{t, offset, fieldAlign, mk}

	default:
		log.Crashf("cannot manually construct type %T", t)
	}

	typeMap[t] = rt
	return rt
}
コード例 #29
0
ファイル: expr1.go プロジェクト: 8l/go-learn
func (a *expr) genBinOpRem(l, r *expr) {
	switch t := l.t.lit().(type) {
	case *uintType:
		lf := l.asUint()
		rf := r.asUint()
		switch t.Bits {
		case 8:
			a.eval = func(t *Thread) uint64 {
				l, r := lf(t), rf(t)
				var ret uint64
				if r == 0 {
					t.Abort(DivByZeroError{})
				}
				ret = l % r
				return uint64(uint8(ret))
			}
		case 16:
			a.eval = func(t *Thread) uint64 {
				l, r := lf(t), rf(t)
				var ret uint64
				if r == 0 {
					t.Abort(DivByZeroError{})
				}
				ret = l % r
				return uint64(uint16(ret))
			}
		case 32:
			a.eval = func(t *Thread) uint64 {
				l, r := lf(t), rf(t)
				var ret uint64
				if r == 0 {
					t.Abort(DivByZeroError{})
				}
				ret = l % r
				return uint64(uint32(ret))
			}
		case 64:
			a.eval = func(t *Thread) uint64 {
				l, r := lf(t), rf(t)
				var ret uint64
				if r == 0 {
					t.Abort(DivByZeroError{})
				}
				ret = l % r
				return uint64(uint64(ret))
			}
		case 0:
			a.eval = func(t *Thread) uint64 {
				l, r := lf(t), rf(t)
				var ret uint64
				if r == 0 {
					t.Abort(DivByZeroError{})
				}
				ret = l % r
				return uint64(uint(ret))
			}
		default:
			log.Crashf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
		}
	case *intType:
		lf := l.asInt()
		rf := r.asInt()
		switch t.Bits {
		case 8:
			a.eval = func(t *Thread) int64 {
				l, r := lf(t), rf(t)
				var ret int64
				if r == 0 {
					t.Abort(DivByZeroError{})
				}
				ret = l % r
				return int64(int8(ret))
			}
		case 16:
			a.eval = func(t *Thread) int64 {
				l, r := lf(t), rf(t)
				var ret int64
				if r == 0 {
					t.Abort(DivByZeroError{})
				}
				ret = l % r
				return int64(int16(ret))
			}
		case 32:
			a.eval = func(t *Thread) int64 {
				l, r := lf(t), rf(t)
				var ret int64
				if r == 0 {
					t.Abort(DivByZeroError{})
				}
				ret = l % r
				return int64(int32(ret))
			}
		case 64:
			a.eval = func(t *Thread) int64 {
				l, r := lf(t), rf(t)
				var ret int64
				if r == 0 {
					t.Abort(DivByZeroError{})
				}
				ret = l % r
				return int64(int64(ret))
			}
		case 0:
			a.eval = func(t *Thread) int64 {
				l, r := lf(t), rf(t)
				var ret int64
				if r == 0 {
					t.Abort(DivByZeroError{})
				}
				ret = l % r
				return int64(int(ret))
			}
		default:
			log.Crashf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
		}
	case *idealIntType:
		l := l.asIdealInt()()
		r := r.asIdealInt()()
		val := l.Rem(r)
		a.eval = func() *bignum.Integer { return val }
	default:
		log.Crashf("unexpected type %v at %v", l.t, a.pos)
	}
}
コード例 #30
0
ファイル: expr1.go プロジェクト: 8l/go-learn
func (a *expr) genBinOpMul(l, r *expr) {
	switch t := l.t.lit().(type) {
	case *uintType:
		lf := l.asUint()
		rf := r.asUint()
		switch t.Bits {
		case 8:
			a.eval = func(t *Thread) uint64 {
				l, r := lf(t), rf(t)
				var ret uint64
				ret = l * r
				return uint64(uint8(ret))
			}
		case 16:
			a.eval = func(t *Thread) uint64 {
				l, r := lf(t), rf(t)
				var ret uint64
				ret = l * r
				return uint64(uint16(ret))
			}
		case 32:
			a.eval = func(t *Thread) uint64 {
				l, r := lf(t), rf(t)
				var ret uint64
				ret = l * r
				return uint64(uint32(ret))
			}
		case 64:
			a.eval = func(t *Thread) uint64 {
				l, r := lf(t), rf(t)
				var ret uint64
				ret = l * r
				return uint64(uint64(ret))
			}
		case 0:
			a.eval = func(t *Thread) uint64 {
				l, r := lf(t), rf(t)
				var ret uint64
				ret = l * r
				return uint64(uint(ret))
			}
		default:
			log.Crashf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
		}
	case *intType:
		lf := l.asInt()
		rf := r.asInt()
		switch t.Bits {
		case 8:
			a.eval = func(t *Thread) int64 {
				l, r := lf(t), rf(t)
				var ret int64
				ret = l * r
				return int64(int8(ret))
			}
		case 16:
			a.eval = func(t *Thread) int64 {
				l, r := lf(t), rf(t)
				var ret int64
				ret = l * r
				return int64(int16(ret))
			}
		case 32:
			a.eval = func(t *Thread) int64 {
				l, r := lf(t), rf(t)
				var ret int64
				ret = l * r
				return int64(int32(ret))
			}
		case 64:
			a.eval = func(t *Thread) int64 {
				l, r := lf(t), rf(t)
				var ret int64
				ret = l * r
				return int64(int64(ret))
			}
		case 0:
			a.eval = func(t *Thread) int64 {
				l, r := lf(t), rf(t)
				var ret int64
				ret = l * r
				return int64(int(ret))
			}
		default:
			log.Crashf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
		}
	case *idealIntType:
		l := l.asIdealInt()()
		r := r.asIdealInt()()
		val := l.Mul(r)
		a.eval = func() *bignum.Integer { return val }
	case *floatType:
		lf := l.asFloat()
		rf := r.asFloat()
		switch t.Bits {
		case 32:
			a.eval = func(t *Thread) float64 {
				l, r := lf(t), rf(t)
				var ret float64
				ret = l * r
				return float64(float32(ret))
			}
		case 64:
			a.eval = func(t *Thread) float64 {
				l, r := lf(t), rf(t)
				var ret float64
				ret = l * r
				return float64(float64(ret))
			}
		case 0:
			a.eval = func(t *Thread) float64 {
				l, r := lf(t), rf(t)
				var ret float64
				ret = l * r
				return float64(float(ret))
			}
		default:
			log.Crashf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
		}
	case *idealFloatType:
		l := l.asIdealFloat()()
		r := r.asIdealFloat()()
		val := l.Mul(r)
		a.eval = func() *bignum.Rational { return val }
	default:
		log.Crashf("unexpected type %v at %v", l.t, a.pos)
	}
}