예제 #1
0
파일: types.go 프로젝트: minux/llgo
func (m *TypeMap) descriptorInterface(t *types.Interface, name string) TypeDebugDescriptor {
	ifaceStruct := types.NewStruct([]*types.Var{
		types.NewVar(0, nil, "type", types.NewPointer(types.Typ[types.Uint8])),
		types.NewVar(0, nil, "data", types.NewPointer(types.Typ[types.Uint8])),
	}, nil)
	return m.typeDebugDescriptor(ifaceStruct, name)
}
예제 #2
0
파일: types.go 프로젝트: minux/llgo
// tupleType returns a struct type with anonymous
// fields with the specified types.
func tupleType(fieldTypes ...types.Type) types.Type {
	vars := make([]*types.Var, len(fieldTypes))
	for i, t := range fieldTypes {
		vars[i] = types.NewParam(0, nil, fmt.Sprintf("f%d", i), t)
	}
	return types.NewStruct(vars, nil)
}
예제 #3
0
파일: types.go 프로젝트: minux/llgo
func (m *TypeMap) descriptorSlice(t *types.Slice, name string) TypeDebugDescriptor {
	sliceStruct := types.NewStruct([]*types.Var{
		types.NewVar(0, nil, "ptr", types.NewPointer(t.Elem())),
		types.NewVar(0, nil, "len", types.Typ[types.Int]),
		types.NewVar(0, nil, "cap", types.Typ[types.Int]),
	}, nil)
	return m.typeDebugDescriptor(sliceStruct, name)
}
예제 #4
0
// StructType = "struct" "{" { Field } "}" .
func (p *parser) parseStructType(pkg *types.Package) types.Type {
	p.expectKeyword("struct")

	var fields []*types.Var
	var tags []string

	p.expect('{')
	for p.tok != '}' && p.tok != scanner.EOF {
		field, tag := p.parseField(pkg)
		p.expect(';')
		fields = append(fields, field)
		tags = append(tags, tag)
	}
	p.expect('}')

	return types.NewStruct(fields, tags)
}
예제 #5
0
파일: types.go 프로젝트: minux/llgo
func (m *TypeMap) descriptorBasic(t *types.Basic, name string) TypeDebugDescriptor {
	switch t.Kind() {
	case types.String:
		return m.descriptorStruct(types.NewStruct([]*types.Var{
			types.NewVar(0, nil, "ptr", types.NewPointer(types.Typ[types.Uint8])),
			types.NewVar(0, nil, "len", types.Typ[types.Int]),
		}, nil), name)
	case types.UnsafePointer:
		return &BasicTypeDescriptor{
			TypeDescriptorCommon: TypeDescriptorCommon{
				Name:      name,
				Size:      uint64(m.Sizes.Sizeof(t) * 8),
				Alignment: uint64(m.Sizes.Alignof(t) * 8),
			},
			TypeEncoding: DW_ATE_unsigned,
		}
	default:
		bt := &BasicTypeDescriptor{
			TypeDescriptorCommon: TypeDescriptorCommon{
				Name:      t.String(),
				Size:      uint64(m.Sizes.Sizeof(t) * 8),
				Alignment: uint64(m.Sizes.Alignof(t) * 8),
			},
		}
		switch bi := t.Info(); {
		case bi&types.IsBoolean != 0:
			bt.TypeEncoding = DW_ATE_boolean
		case bi&types.IsUnsigned != 0:
			bt.TypeEncoding = DW_ATE_unsigned
		case bi&types.IsInteger != 0:
			bt.TypeEncoding = DW_ATE_signed
		case bi&types.IsFloat != 0:
			bt.TypeEncoding = DW_ATE_float
		case bi&types.IsComplex != 0:
			bt.TypeEncoding = DW_ATE_imaginary_float
		case bi&types.IsUnsigned != 0:
			bt.TypeEncoding = DW_ATE_unsigned
		default:
			panic(fmt.Sprintf("unhandled: %#v", t))
		}
		return bt
	}
}
예제 #6
0
// StructType = "struct" "{" [ FieldList ] "}" .
// FieldList  = Field { ";" Field } .
//
func (p *parser) parseStructType() types.Type {
	var fields []*types.Var
	var tags []string

	p.expectKeyword("struct")
	p.expect('{')
	for i := 0; p.tok != '}' && p.tok != scanner.EOF; i++ {
		if i > 0 {
			p.expect(';')
		}
		fld, tag := p.parseField()
		if tag != "" && tags == nil {
			tags = make([]string, i)
		}
		if tags != nil {
			tags = append(tags, tag)
		}
		fields = append(fields, fld)
	}
	p.expect('}')

	return types.NewStruct(fields, tags)
}
예제 #7
0
파일: type.go 프로젝트: rjammala/emgo
func (cdd *CDD) tupleName(tup *types.Tuple) (tupName string, fields []*types.Var, acds []*CDD) {
	n := tup.Len()
	for i := 0; i < n; i++ {
		if i != 0 {
			tupName += "$$"
		}
		name, dim, a := cdd.TypeStr(tup.At(i).Type())
		tupName += dimFuncPtr(name, dim)
		acds = append(acds, a...)

	}
	tupName = strings.Map(symToDol, tupName)

	fields = make([]*types.Var, n)
	for i := 0; i < n; i++ {
		v := tup.At(i)
		fields[i] = types.NewField(
			v.Pos(), v.Pkg(), "_"+strconv.Itoa(i), v.Type(), false,
		)
	}

	if _, ok := cdd.gtc.tupNames[tupName]; ok {
		return
	}

	cdd.gtc.tupNames[tupName] = struct{}{}

	s := types.NewStruct(fields, nil)
	o := types.NewTypeName(tup.At(0).Pos(), cdd.gtc.pkg, tupName, s)
	acd := cdd.gtc.newCDD(o, TypeDecl, 0)
	acd.structDecl(new(bytes.Buffer), tupName, s)
	cdd.DeclUses[o] = true
	acds = append(acds, acd)

	return
}
예제 #8
0
func (p *importer) typ() types.Type {
	// if the type was seen before, i is its index (>= 0)
	i := p.int()
	if i >= 0 {
		return p.typList[i]
	}

	// otherwise, i is the type tag (< 0)
	switch i {
	case arrayTag:
		t := new(types.Array)
		p.record(t)

		n := p.int64()
		*t = *types.NewArray(p.typ(), n)
		return t

	case sliceTag:
		t := new(types.Slice)
		p.record(t)

		*t = *types.NewSlice(p.typ())
		return t

	case structTag:
		t := new(types.Struct)
		p.record(t)

		n := p.int()
		fields := make([]*types.Var, n)
		tags := make([]string, n)
		for i := range fields {
			fields[i] = p.field()
			tags[i] = p.string()
		}
		*t = *types.NewStruct(fields, tags)
		return t

	case pointerTag:
		t := new(types.Pointer)
		p.record(t)

		*t = *types.NewPointer(p.typ())
		return t

	case signatureTag:
		t := new(types.Signature)
		p.record(t)

		*t = *p.signature()
		return t

	case interfaceTag:
		t := new(types.Interface)
		p.record(t)

		// read embedded interfaces
		embeddeds := make([]*types.Named, p.int())
		for i := range embeddeds {
			embeddeds[i] = p.typ().(*types.Named)
		}

		// read methods
		methods := make([]*types.Func, p.int())
		for i := range methods {
			pkg, name := p.qualifiedName()
			methods[i] = types.NewFunc(token.NoPos, pkg, name, p.typ().(*types.Signature))
		}

		*t = *types.NewInterface(methods, embeddeds)
		return t

	case mapTag:
		t := new(types.Map)
		p.record(t)

		*t = *types.NewMap(p.typ(), p.typ())
		return t

	case chanTag:
		t := new(types.Chan)
		p.record(t)

		*t = *types.NewChan(types.ChanDir(p.int()), p.typ())
		return t

	case namedTag:
		// read type object
		name := p.string()
		pkg := p.pkg()
		scope := pkg.Scope()
		obj := scope.Lookup(name)

		// if the object doesn't exist yet, create and insert it
		if obj == nil {
			obj = types.NewTypeName(token.NoPos, pkg, name, nil)
			scope.Insert(obj)
		}

		// associate new named type with obj if it doesn't exist yet
		t0 := types.NewNamed(obj.(*types.TypeName), nil, nil)

		// but record the existing type, if any
		t := obj.Type().(*types.Named)
		p.record(t)

		// read underlying type
		t0.SetUnderlying(p.typ())

		// read associated methods
		for i, n := 0, p.int(); i < n; i++ {
			t0.AddMethod(types.NewFunc(token.NoPos, pkg, p.string(), p.typ().(*types.Signature)))
		}

		return t

	default:
		panic(fmt.Sprintf("unexpected type tag %d", i))
	}
}
예제 #9
0
파일: literals.go 프로젝트: hzmangel/llgo
func (c *compiler) VisitFuncLit(lit *ast.FuncLit) Value {
	ftyp := c.types.expr[lit].Type.(*types.Signature)

	// Walk the function literal, promoting stack vars not defined
	// in the function literal, and storing the ident's for non-const
	// values not declared in the function literal.
	//
	// (First, set a dummy "stack" value for the params and results.)
	var dummyfunc LLVMValue
	dummyfunc.stack = &dummyfunc
	paramVars := ftyp.Params()
	resultVars := ftyp.Results()
	c.functions.push(&function{
		LLVMValue: &dummyfunc,
		results:   resultVars,
	})
	v := &identVisitor{compiler: c}
	ast.Walk(v, lit.Body)
	c.functions.pop()

	// Create closure by adding a context parameter to the function,
	// and bind it with the values of the stack vars found in the
	// step above.
	origfnpairtyp := c.types.ToLLVM(ftyp)
	fnpairtyp := origfnpairtyp
	fntyp := origfnpairtyp.StructElementTypes()[0].ElementType()
	if v.captures != nil {
		// Add the additional context param.
		ctxfields := make([]*types.Field, len(v.captures))
		for i, capturevar := range v.captures {
			ctxfields[i] = &types.Field{
				Type: types.NewPointer(capturevar.Type()),
			}
		}
		ctxtyp := types.NewPointer(types.NewStruct(ctxfields, nil))
		llvmctxtyp := c.types.ToLLVM(ctxtyp)
		rettyp := fntyp.ReturnType()
		paramtyps := append([]llvm.Type{llvmctxtyp}, fntyp.ParamTypes()...)
		vararg := fntyp.IsFunctionVarArg()
		fntyp = llvm.FunctionType(rettyp, paramtyps, vararg)
		opaqueptrtyp := origfnpairtyp.StructElementTypes()[1]
		elttyps := []llvm.Type{llvm.PointerType(fntyp, 0), opaqueptrtyp}
		fnpairtyp = llvm.StructType(elttyps, false)
	}

	fnptr := llvm.AddFunction(c.module.Module, "", fntyp)
	fnvalue := llvm.ConstNull(fnpairtyp)
	fnvalue = llvm.ConstInsertValue(fnvalue, fnptr, []uint32{0})
	currBlock := c.builder.GetInsertBlock()

	f := c.NewValue(fnvalue, ftyp)
	captureVars := types.NewTuple(v.captures...)
	c.buildFunction(f, captureVars, paramVars, resultVars, lit.Body, ftyp.IsVariadic())

	// Closure? Bind values to a context block.
	if v.captures != nil {
		// Store the free variables in the heap allocated block.
		block := c.createTypeMalloc(fntyp.ParamTypes()[0].ElementType())
		for i, contextvar := range v.captures {
			value := c.objectdata[contextvar].Value
			blockPtr := c.builder.CreateStructGEP(block, i, "")
			c.builder.CreateStore(value.pointer.LLVMValue(), blockPtr)
		}

		// Cast the function pointer type back to the original
		// type, without the context parameter.
		fnptr = llvm.ConstBitCast(fnptr, origfnpairtyp.StructElementTypes()[0])
		fnvalue = llvm.Undef(origfnpairtyp)
		fnvalue = llvm.ConstInsertValue(fnvalue, fnptr, []uint32{0})

		// Set the context value.
		i8ptr := llvm.PointerType(llvm.Int8Type(), 0)
		block = c.builder.CreateBitCast(block, i8ptr, "")
		fnvalue = c.builder.CreateInsertValue(fnvalue, block, 1, "")
		f.value = fnvalue
	} else {
		c.builder.SetInsertPointAtEnd(currBlock)
	}

	return f
}