Ejemplo n.º 1
0
func (gen *codeGen) writeTopLevel(t types.Type, ordinal int) {
	switch t.Kind() {
	case types.EnumKind:
		gen.writeEnum(t, ordinal)
	case types.StructKind:
		gen.writeStruct(t, ordinal)
	default:
		gen.write(t)
	}
}
Ejemplo n.º 2
0
// UserToValue returns a string containing Go code to convert an instance of a User type (named val) to a Noms types.Value of the type described by t. For Go primitive types, this will use NativeToValue(). For other types, their UserType is a Noms types.Value (or a wrapper around one), so this is more-or-less a pass-through.
func (gen *Generator) UserToValue(val string, t types.Type) string {
	t = gen.R.Resolve(t)
	k := t.Kind()
	switch k {
	case types.BlobKind, types.EnumKind, types.ListKind, types.MapKind, types.PackageKind, types.RefKind, types.SetKind, types.StructKind, types.TypeKind, types.ValueKind:
		return val
	case types.BoolKind, types.Float32Kind, types.Float64Kind, types.Int16Kind, types.Int32Kind, types.Int64Kind, types.Int8Kind, types.StringKind, types.Uint16Kind, types.Uint32Kind, types.Uint64Kind, types.Uint8Kind:
		return gen.NativeToValue(val, t)
	}
	panic("unreachable")
}
Ejemplo n.º 3
0
// ValueToNative returns a string containing Go code to convert an instance of a types.Value (val) into the native type appropriate for t.
func (gen *Generator) ValueToNative(val string, t types.Type) string {
	k := t.Kind()
	switch k {
	case types.BoolKind, types.Float32Kind, types.Float64Kind, types.Int16Kind, types.Int32Kind, types.Int64Kind, types.Int8Kind, types.Uint16Kind, types.Uint32Kind, types.Uint64Kind, types.Uint8Kind:
		n := kindToString(k)
		return fmt.Sprintf("%s(%s.(%s%s))", strings.ToLower(n), val, gen.TypesPackage, n)
	case types.StringKind:
		return fmt.Sprintf("%s.(%sString).String()", val, gen.TypesPackage)
	}
	panic("unreachable")
}
Ejemplo n.º 4
0
// NativeToValue returns a string containing Go code to convert an instance of a native type (named val) to a Noms types.Value of the type described by t.
func (gen *Generator) NativeToValue(val string, t types.Type) string {
	t = gen.R.Resolve(t)
	k := t.Kind()
	switch k {
	case types.BoolKind, types.Float32Kind, types.Float64Kind, types.Int16Kind, types.Int32Kind, types.Int64Kind, types.Int8Kind, types.Uint16Kind, types.Uint32Kind, types.Uint64Kind, types.Uint8Kind:
		return fmt.Sprintf("%s%s(%s)", gen.TypesPackage, kindToString(k), val)
	case types.StringKind:
		return fmt.Sprintf("%sNewString(%s)", gen.TypesPackage, val)
	}
	panic("unreachable")
}
Ejemplo n.º 5
0
func (gen *codeGen) shouldBeWritten(t types.Type) bool {
	if t.IsUnresolved() {
		return false
	}
	if t.Kind() == types.EnumKind || t.Kind() == types.StructKind {
		name := gen.generator.UserName(t)
		d.Chk.False(gen.written[name], "Multiple definitions of type named %s", name)
		return true
	}
	return !gen.written[gen.generator.UserName(t)]
}
Ejemplo n.º 6
0
// ToType returns a string containing Go code that instantiates a types.Type instance equivalent to t.
func (gen *Generator) ToType(t types.Type, fileID, packageName string) string {
	d.Chk.True(!t.HasPackageRef() && !t.IsUnresolved() || t.HasOrdinal(), "%s does not have an ordinal set", t.Name())
	if t.HasPackageRef() {
		d.Chk.True(t.HasOrdinal(), "%s does not have an ordinal set", t.Name())
		return fmt.Sprintf(`%sMakeType(ref.Parse("%s"), %d)`, gen.TypesPackage, t.PackageRef().String(), t.Ordinal())
	}

	if t.IsUnresolved() {
		if fileID != "" {
			return fmt.Sprintf(`%sMakeType(__%sPackageInFile_%s_CachedRef, %d)`, gen.TypesPackage, packageName, fileID, t.Ordinal())
		}

		d.Chk.True(t.HasOrdinal(), "%s does not have an ordinal set", t.Name())
		return fmt.Sprintf(`%sMakeType(ref.Ref{}, %d)`, gen.TypesPackage, t.Ordinal())
	}

	if types.IsPrimitiveKind(t.Kind()) {
		return fmt.Sprintf("%sMakePrimitiveType(%s%sKind)", gen.TypesPackage, gen.TypesPackage, kindToString(t.Kind()))
	}

	switch desc := t.Desc.(type) {
	case types.CompoundDesc:
		types := make([]string, len(desc.ElemTypes))
		for i, t := range desc.ElemTypes {
			types[i] = gen.ToType(t, fileID, packageName)
		}
		return fmt.Sprintf(`%sMakeCompoundType(%s%sKind, %s)`, gen.TypesPackage, gen.TypesPackage, kindToString(t.Kind()), strings.Join(types, ", "))
	case types.EnumDesc:
		return fmt.Sprintf(`%sMakeEnumType("%s", "%s")`, gen.TypesPackage, t.Name(), strings.Join(desc.IDs, `", "`))
	case types.StructDesc:
		flatten := func(f []types.Field) string {
			out := make([]string, 0, len(f))
			for _, field := range f {
				out = append(out, fmt.Sprintf(`%sField{"%s", %s, %t},`, gen.TypesPackage, field.Name, gen.ToType(field.T, fileID, packageName), field.Optional))
			}
			return strings.Join(out, "\n")
		}
		fields := fmt.Sprintf("[]%sField{\n%s\n}", gen.TypesPackage, flatten(desc.Fields))
		choices := fmt.Sprintf("%sChoices{\n%s\n}", gen.TypesPackage, flatten(desc.Union))
		return fmt.Sprintf("%sMakeStructType(\"%s\",\n%s,\n%s,\n)", gen.TypesPackage, t.Name(), fields, choices)
	default:
		d.Chk.Fail("Unknown TypeDesc.", "%#v (%T)", desc, desc)
	}
	panic("Unreachable")
}
Ejemplo n.º 7
0
// ToTypeValueJS returns a string containing JS code that instantiates a Type instance equivalent to t for JavaScript.
func (gen *Generator) ToTypeValueJS(t types.Type, inPackageDef bool, indent int) string {
	d.Chk.True(!t.HasPackageRef() && !t.IsUnresolved() || t.HasOrdinal(), "%s does not have an ordinal set", t.Name())
	if t.HasPackageRef() {
		return fmt.Sprintf(`%s(%s.parse('%s'), %d)`, gen.ImportJS("makeType"), gen.ImportJS("Ref"), t.PackageRef().String(), t.Ordinal())
	}

	if t.IsUnresolved() {
		if inPackageDef {
			return fmt.Sprintf(`%s(new %s(), %d)`, gen.ImportJS("makeType"), gen.ImportJS("Ref"), t.Ordinal())
		}
		return fmt.Sprintf("%s(_pkg.ref, %d)", gen.ImportJS("makeType"), t.Ordinal())
	}

	if types.IsPrimitiveKind(t.Kind()) {
		return gen.ImportJS(firstToLower(kindToString(t.Kind())) + "Type")
	}

	switch desc := t.Desc.(type) {
	case types.CompoundDesc:
		types := make([]string, len(desc.ElemTypes))
		for i, t := range desc.ElemTypes {
			types[i] = gen.ToTypeValueJS(t, inPackageDef, 0)
		}
		return fmt.Sprintf(`%s(%s.%s, %s)`, gen.ImportJS("makeCompoundType"), gen.ImportJS("Kind"), kindToString(t.Kind()), strings.Join(types, ", "))
	case types.EnumDesc:
		return fmt.Sprintf(`%s('%s', '%s')`, gen.ImportJS("makeEnumType"), t.Name(), strings.Join(desc.IDs, `', '`))
	case types.StructDesc:
		flatten := func(f []types.Field) string {
			out := make([]string, 0, len(f))
			for _, field := range f {
				out = append(out, fmt.Sprintf(`%snew %s('%s', %s, %t),`, ind(indent+1), gen.ImportJS("Field"), field.Name, gen.ToTypeValueJS(field.T, inPackageDef, 0), field.Optional))
			}
			return strings.Join(out, "\n")
		}
		fields := fmt.Sprintf("%s[\n%s\n%s]", ind(indent), flatten(desc.Fields), ind(indent))
		choices := fmt.Sprintf("%s[\n%s\n%s]", ind(indent), flatten(desc.Union), ind(indent))
		return fmt.Sprintf("%s('%s',\n%s,\n%s\n%s)", gen.ImportJS("makeStructType"), t.Name(), fields, choices, ind(indent-1))
	default:
		d.Chk.Fail("Unknown TypeDesc.", "%#v (%T)", desc, desc)
	}
	panic("Unreachable")
}
Ejemplo n.º 8
0
// write generates the code for the given type.
func (gen *codeGen) write(t types.Type) {
	if !gen.shouldBeWritten(t) {
		return
	}
	k := t.Kind()
	switch k {
	case types.BlobKind, types.BoolKind, types.Float32Kind, types.Float64Kind, types.Int16Kind, types.Int32Kind, types.Int64Kind, types.Int8Kind, types.PackageKind, types.StringKind, types.Uint16Kind, types.Uint32Kind, types.Uint64Kind, types.Uint8Kind, types.ValueKind, types.TypeKind:
		return
	case types.ListKind:
		gen.writeList(t)
	case types.MapKind:
		gen.writeMap(t)
	case types.RefKind:
		gen.writeRef(t)
	case types.SetKind:
		gen.writeSet(t)
	default:
		panic("unreachable")
	}
}
Ejemplo n.º 9
0
func (gen *codeGen) canUseDef(t types.Type, p types.Package) bool {
	cache := map[string]bool{}

	var rec func(t types.Type, p types.Package) bool
	rec = func(t types.Type, p types.Package) bool {
		switch t.Kind() {
		case types.UnresolvedKind:
			t2, p2 := gen.resolveInPackage(t, p)
			d.Chk.False(t2.IsUnresolved())
			return rec(t2, p2)
		case types.ListKind:
			return rec(t.Desc.(types.CompoundDesc).ElemTypes[0], p)
		case types.SetKind:
			elemType := t.Desc.(types.CompoundDesc).ElemTypes[0]
			return !gen.containsNonComparable(elemType, p) && rec(elemType, p)
		case types.MapKind:
			elemTypes := t.Desc.(types.CompoundDesc).ElemTypes
			return !gen.containsNonComparable(elemTypes[0], p) && rec(elemTypes[0], p) && rec(elemTypes[1], p)
		case types.StructKind:
			userName := gen.generator.UserName(t)
			if b, ok := cache[userName]; ok {
				return b
			}
			cache[userName] = true
			for _, f := range t.Desc.(types.StructDesc).Fields {
				if f.T.Equals(t) || !rec(f.T, p) {
					cache[userName] = false
					return false
				}
			}
			return true
		default:
			return true
		}
	}

	return rec(t, p)
}