Exemplo n.º 1
0
func (p *plugin) hasLoop(field *descriptor.FieldDescriptorProto, visited []*generator.Descriptor, excludes []*generator.Descriptor) *generator.Descriptor {
	if field.IsMessage() || p.IsGroup(field) {
		fieldMessage := p.ObjectNamed(field.GetTypeName()).(*generator.Descriptor)
		fieldTypeName := generator.CamelCaseSlice(fieldMessage.TypeName())
		for _, message := range visited {
			messageTypeName := generator.CamelCaseSlice(message.TypeName())
			if fieldTypeName == messageTypeName {
				for _, e := range excludes {
					if fieldTypeName == generator.CamelCaseSlice(e.TypeName()) {
						return nil
					}
				}
				return fieldMessage
			}
		}
		for _, f := range fieldMessage.Field {
			visited = append(visited, fieldMessage)
			loopTo := p.hasLoop(f, visited, excludes)
			if loopTo != nil {
				return loopTo
			}
		}
	}
	return nil
}
Exemplo n.º 2
0
func (g *Generator) field(field *descriptor.FieldDescriptorProto, fieldname string) {
	repeated := field.IsRepeated()
	gotype, _ := g.GoType(nil, field)
	fieldtype := GoTypeToName(gotype)
	if repeated {
		g.P(`m.`, SizerName(fieldname), ` += 1`)
	} else {
		g.P(`m.`, SetterName(fieldname), ` = true`)
	}
	if gogoproto.IsCustomType(field) {
		_, typ, err := GetCustomType(field)
		if err != nil {
			panic(err)
		}
		fieldtype = typ
	}
	switch *field.Type {
	case descriptor.FieldDescriptorProto_TYPE_DOUBLE:
		if repeated {
			g.P(`var v uint64`)
			g.decodeFixed64("v", "uint64")
			g.P(`v2 := `, g.Pkg["math"], `.Float64frombits(v)`)
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(v2))`)
		} else {
			g.P(`var v uint64`)
			g.decodeFixed64("v", "uint64")
			g.P(`m.`, fieldname, ` = `, fieldtype, `(`, g.Pkg["math"], `.Float64frombits(v))`)
		}
	case descriptor.FieldDescriptorProto_TYPE_FLOAT:
		if repeated {
			g.P(`var v uint32`)
			g.decodeFixed32("v", "uint32")
			g.P(`v2 := `, g.Pkg["math"], `.Float32frombits(v)`)
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(v2))`)
		} else {
			g.P(`var v uint32`)
			g.decodeFixed32("v", "uint32")
			g.P(`m.`, fieldname, ` = `, fieldtype, `(`, g.Pkg["math"], `.Float32frombits(v))`)
		}
	case descriptor.FieldDescriptorProto_TYPE_INT64:
		if repeated {
			g.P(`var v int64`)
			g.decodeVarint("v", "int64")
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(v))`)
		} else {
			g.decodeVarint("m."+fieldname, fieldtype)
		}
	case descriptor.FieldDescriptorProto_TYPE_UINT64:
		if repeated {
			g.P(`var v uint64`)
			g.decodeVarint("v", "uint64")
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(v))`)
		} else {
			g.decodeVarint("m."+fieldname, fieldtype)
		}
	case descriptor.FieldDescriptorProto_TYPE_INT32:
		if repeated {
			g.P(`var v int32`)
			g.decodeVarint("v", "int32")
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(v))`)
		} else {
			g.decodeVarint("m."+fieldname, fieldtype)
		}
	case descriptor.FieldDescriptorProto_TYPE_FIXED64:
		if repeated {
			g.P(`var v uint64`)
			g.decodeFixed64("v", "uint64")
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(v))`)
		} else {
			g.decodeFixed64("m."+fieldname, fieldtype)
		}
	case descriptor.FieldDescriptorProto_TYPE_FIXED32:
		if repeated {
			g.P(`var v uint32`)
			g.decodeFixed32("v", "uint32")
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(v))`)
		} else {
			g.decodeFixed32("m."+fieldname, fieldtype)
		}
	case descriptor.FieldDescriptorProto_TYPE_BOOL:
		if repeated {
			g.P(`var v int`)
			g.decodeVarint("v", "int")
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(bool(v != 0)))`)
		} else {
			g.P(`var v int`)
			g.decodeVarint("v", "int")
			g.P(`m.`, fieldname, ` = `, fieldtype, `(bool(v != 0))`)
		}
	case descriptor.FieldDescriptorProto_TYPE_STRING:
		g.P(`var stringLen uint64`)
		g.decodeVarint("stringLen", "uint64")
		g.P(`postIndex := index + int(stringLen)`)
		g.P(`if postIndex > l {`)
		g.In()
		g.P(`return `, g.Pkg["io"], `.ErrUnexpectedEOF`)
		g.Out()
		g.P(`}`)
		if repeated {
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(data[index:postIndex]))`)
		} else {
			g.P(`m.`, fieldname, ` = `, fieldtype, `(data[index:postIndex])`)
		}
		g.P(`index = postIndex`)
	case descriptor.FieldDescriptorProto_TYPE_GROUP:
		panic(fmt.Errorf("unmarshaler does not support group %v", fieldname))
	case descriptor.FieldDescriptorProto_TYPE_MESSAGE:
		desc := g.ObjectNamed(field.GetTypeName())
		msgname := g.TypeName(desc)
		g.P(`var msglen int`)
		g.decodeVarint("msglen", "int")
		g.P(`postIndex := index + msglen`)
		g.P(`if postIndex > l {`)
		g.In()
		g.P(`return `, g.Pkg["io"], `.ErrUnexpectedEOF`)
		g.Out()
		g.P(`}`)
		if repeated {
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, &`, msgname, `{})`)
			g.P(`m.`, fieldname, `[len(m.`, fieldname, `)-1].Unmarshal(data[index:postIndex])`)
		} else {
			g.P(`m.`, fieldname, ` = &`, msgname, `{}`)
			g.P(`if err := m.`, fieldname, `.Unmarshal(data[index:postIndex]); err != nil {`)
			g.In()
			g.P(`return err`)
			g.Out()
			g.P(`}`)
		}
		g.P(`index = postIndex`)
	case descriptor.FieldDescriptorProto_TYPE_BYTES:
		g.P(`var byteLen int`)
		g.decodeVarint("byteLen", "int")
		g.P(`postIndex := index + byteLen`)
		g.P(`if postIndex > l {`)
		g.In()
		g.P(`return `, g.Pkg["io"], `.ErrUnexpectedEOF`)
		g.Out()
		g.P(`}`)
		if !gogoproto.IsCustomType(field) {
			if repeated {
				g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, make([]byte, postIndex-index))`)
				g.P(`copy(m.`, fieldname, `[len(m.`, fieldname, `)-1], data[index:postIndex])`)
			} else {
				g.P(`m.`, fieldname, ` = append([]byte{}, data[index:postIndex]...)`)
			}
		} else {
			if repeated {
				g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, make(([]byte), postIndex-index))`)
				g.P(`copy(m.`, fieldname, `[len(m.`, fieldname, `)-1], data[index:postIndex])`)
			} else {
				g.P(`m.`, fieldname, ` = append([]byte{}, data[index:postIndex]...)`)
			}
		}
		g.P(`index = postIndex`)
	case descriptor.FieldDescriptorProto_TYPE_UINT32:
		if repeated {
			g.P(`var v uint32`)
			g.decodeVarint("v", "uint32")
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(v))`)
		} else {
			g.decodeVarint("m."+fieldname, fieldtype)
		}
	case descriptor.FieldDescriptorProto_TYPE_ENUM:
		if !gogoproto.IsCustomType(field) {
			typName := g.TypeName(g.ObjectNamed(field.GetTypeName()))
			if repeated {
				g.P(`var v `, typName)
				g.decodeVarint("v", typName)
				g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, v)`)
			} else {
				g.decodeVarint("m."+fieldname, typName)
			}
		} else {
			panic("Enum custom types is not supported!")
		}
	case descriptor.FieldDescriptorProto_TYPE_SFIXED32:
		if repeated {
			g.P(`var v int32`)
			g.decodeFixed32("v", "int32")
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(v))`)
		} else {
			g.decodeFixed32("m."+fieldname, fieldtype)
		}
	case descriptor.FieldDescriptorProto_TYPE_SFIXED64:
		if repeated {
			g.P(`var v int64`)
			g.decodeFixed64("v", "int64")
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(v))`)
		} else {
			g.decodeFixed64("m."+fieldname, fieldtype)
		}
	case descriptor.FieldDescriptorProto_TYPE_SINT32:
		g.P(`var v int32`)
		g.decodeVarint("v", "int32")
		g.P(`v = int32((uint32(v) >> 1) ^ uint32(((v&1)<<31)>>31))`)
		if repeated {
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(v))`)
		} else {
			g.P(`m.`, fieldname, ` = `, fieldtype, `(v)`)
		}
	case descriptor.FieldDescriptorProto_TYPE_SINT64:
		g.P(`var v uint64`)
		g.decodeVarint("v", "uint64")
		g.P(`v = (v >> 1) ^ uint64((int64(v&1)<<63)>>63)`)
		if repeated {
			g.P(`m.`, fieldname, ` = append(m.`, fieldname, `, `, fieldtype, `(int64(v)))`)
		} else {
			g.P(`m.`, fieldname, ` = `, fieldtype, `(int64(v))`)
		}
	default:
		panic("not implemented")
	}
}
Exemplo n.º 3
0
func (p *plugin) GenerateField(message *generator.Descriptor, field *descriptor.FieldDescriptorProto) {
	goTyp, _ := p.GoType(message, field)
	fieldname := p.GetFieldName(message, field)
	goTypName := generator.GoTypeToName(goTyp)
	ctype := ""
	if gogoproto.IsCustomType(field) {
		_, typ, err := generator.GetCustomType(field)
		if err != nil {
			panic(err)
		}
		ctype = typ
	}
	if field.IsMessage() || p.IsGroup(field) {
		funcName := "NewPopulated" + goTypName
		goTypNames := strings.Split(goTypName, ".")
		if len(goTypNames) == 2 {
			funcName = goTypNames[0] + ".NewPopulated" + goTypNames[1]
		} else if len(goTypNames) != 1 {
			panic(fmt.Errorf("unreachable: too many dots in %v", goTypName))
		}
		funcCall := funcName + "(r, easy)"
		if field.IsRepeated() {
			p.P(p.varGen.Next(), ` := r.Intn(10)`)
			p.P(`this.`, fieldname, ` = make(`, goTyp, `, `, p.varGen.Current(), `)`)
			p.P(`for i := 0; i < `, p.varGen.Current(), `; i++ {`)
			p.In()
			p.P(p.varGen.Next(), `:= `, funcCall)
			p.P(`this.`, generator.SizerName(fieldname), ` += 1`)
			p.P(`this.`, fieldname, `[i] = `, p.varGen.Current())
			p.Out()
			p.P(`}`)
		} else {
			p.P(p.varGen.Next(), `:= `, funcCall)
			p.P(`this.`, generator.SetterName(fieldname), ` = true`)
			p.P(`this.`, fieldname, ` = `, p.varGen.Current())
		}
	} else {
		if field.IsEnum() {
			enum := p.ObjectNamed(field.GetTypeName()).(*generator.EnumDescriptor)
			l := len(enum.Value)
			values := make([]string, l)
			for i := range enum.Value {
				values[i] = strconv.Itoa(int(*enum.Value[i].Number))
			}
			arr := "[]int32{" + strings.Join(values, ",") + "}"
			val := strings.Join([]string{generator.GoTypeToName(goTyp), `(`, arr, `[r.Intn(`, fmt.Sprintf("%d", l), `)])`}, "")
			if field.IsRepeated() {
				p.P(p.varGen.Next(), ` := r.Intn(10)`)
				p.P(`this.`, fieldname, ` = make(`, goTyp, `, `, p.varGen.Current(), `)`)
				p.P(`for i := 0; i < `, p.varGen.Current(), `; i++ {`)
				p.In()
				p.P(`this.`, generator.SizerName(fieldname), ` += 1`)
				p.P(`this.`, fieldname, `[i] = `, val)
				p.Out()
				p.P(`}`)
			} else {
				p.P(`this.`, generator.SetterName(fieldname), ` = true`)
				p.P(`this.`, fieldname, ` = `, val)
			}
		} else if field.IsString() {
			val := fmt.Sprintf("randString%v(r)", p.localName)
			if field.IsRepeated() {
				p.P(p.varGen.Next(), ` := r.Intn(10)`)
				p.P(`this.`, fieldname, ` = make(`, goTyp, `, `, p.varGen.Current(), `)`)
				p.P(`for i := 0; i < `, p.varGen.Current(), `; i++ {`)
				p.In()
				p.P(`this.`, generator.SizerName(fieldname), ` += 1`)
				p.P(`this.`, fieldname, `[i] = `, ctype, `(`, val, `)`)
				p.Out()
				p.P(`}`)
			} else {
				p.P(`this.`, generator.SetterName(fieldname), ` = true`)
				p.P(`this.`, fieldname, ` = `, ctype, `(`, val, `)`)
			}
		} else if field.IsBytes() {
			if field.IsRepeated() {
				p.P(p.varGen.Next(), ` := r.Intn(100)`)
				p.P(`this.`, fieldname, ` = make(`, goTyp, `, `, p.varGen.Current(), `)`)
				p.P(`for i := 0; i < `, p.varGen.Current(), `; i++ {`)
				p.In()
				p.P(p.varGen.Next(), ` := r.Intn(100)`)
				p.P(`this.`, generator.SizerName(fieldname), ` += 1`)
				p.P(`this.`, fieldname, `[i] = make([]byte,`, p.varGen.Current(), `)`)
				p.P(`for j := 0; j < `, p.varGen.Current(), `; j++ {`)
				p.In()
				p.P(`this.`, fieldname, `[i][j] = byte(r.Intn(256))`)
				p.Out()
				p.P(`}`)
				p.Out()
				p.P(`}`)
			} else {
				p.P(p.varGen.Next(), ` := r.Intn(100)`)
				p.P(`this.`, fieldname, ` = make(`, goTyp, `, `, p.varGen.Current(), `)`)
				p.P(`for i := 0; i < `, p.varGen.Current(), `; i++ {`)
				p.In()
				p.P(`this.`, generator.SetterName(fieldname), ` = true`)
				p.P(`this.`, fieldname, `[i] = byte(r.Intn(256))`)
				p.Out()
				p.P(`}`)
			}
		} else {
			if field.IsRepeated() {
				p.P(p.varGen.Next(), ` := r.Intn(100)`)
				p.P(`this.`, fieldname, ` = make(`, goTyp, `, `, p.varGen.Current(), `)`)
				p.P(`for i := 0; i < `, p.varGen.Current(), `; i++ {`)
				p.In()
				p.P(`this.`, generator.SizerName(fieldname), ` += 1`)
				p.P(`this.`, fieldname, `[i] = `, ctype, `(`, value(field), `)`)
				if negative(field) {
					p.P(`if r.Intn(2) == 0 {`)
					p.In()
					p.P(`this.`, fieldname, `[i] *= `, ctype, `(-1)`)
					p.Out()
					p.P(`}`)
				}
				p.Out()
				p.P(`}`)
			} else {
				p.P(`this.`, generator.SetterName(fieldname), ` = true`)
				p.P(`this.`, fieldname, ` = `, ctype, `(`, value(field), `)`)
				if negative(field) {
					p.P(`if r.Intn(2) == 0 {`)
					p.In()
					p.P(`this.`, fieldname, ` *= `, ctype, `(-1)`)
					p.Out()
					p.P(`}`)
				}
			}
		}
	}
}
Exemplo n.º 4
0
func (g *Generator) IsGroup(field *descriptor.FieldDescriptorProto) bool {
	if d, ok := g.typeNameToObject[field.GetTypeName()].(*Descriptor); ok {
		return d.IsGroup()
	}
	return false
}