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types.go
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types.go
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package generator
import (
"bytes"
"fmt"
"go/types"
"reflect"
"strconv"
"strings"
"unicode"
)
// https://www.postgresql.org/docs/current/static/sql-keywords-appendix.html
var reservedKeywords = map[string]struct{}{
"all": {},
"analyse": {},
"analyze": {},
"and": {},
"any": {},
"array": {},
"as": {},
"asc": {},
"asymmetric": {},
"authorization": {},
"binary": {},
"both": {},
"case": {},
"cast": {},
"check": {},
"collate": {},
"collation": {},
"columns": {},
"concurrently": {},
"constraint": {},
"create": {},
"cross": {},
"current_catalog": {},
"current_date": {},
"current_role": {},
"current_schema": {},
"current_time": {},
"current_timestamp": {},
"current_user": {},
"default": {},
"deferrable": {},
"desc": {},
"distinct": {},
"do": {},
"end": {},
"except": {},
"false": {},
"fetch": {},
"for": {},
"foreign": {},
"from": {},
"grant": {},
"group": {},
"having": {},
"in": {},
"index": {},
"initially": {},
"inner": {},
"intersect": {},
"into": {},
"join": {},
"key": {},
"lateral": {},
"leading": {},
"left": {},
"like": {},
"limit": {},
"localtime": {},
"localtimestamp": {},
"natural": {},
"not": {},
"null": {},
"offset": {},
"on": {},
"only": {},
"or": {},
"order": {},
"overlaps": {},
"placing": {},
"primary": {},
"references": {},
"returning": {},
"select": {},
"some": {},
"symmetric": {},
"table": {},
"then": {},
"to": {},
"trailing": {},
"true": {},
"union": {},
"unique": {},
"user": {},
"using": {},
"variadic": {},
"verbose": {},
"when": {},
"where": {},
"window": {},
"with": {},
}
// special types that are not analyzed because SQL already knows
// how to handle them
var specialTypes = map[string]string{
"gopkg.in/src-d/go-kallax.v1.UUID": "kallax.UUID",
"gopkg.in/src-d/go-kallax.v1.ULID": "kallax.ULID",
"gopkg.in/src-d/go-kallax.v1.NumericID": "kallax.NumericID",
"github.com/satori/go.uuid.UUID": "kallax.UUID",
"net/url.URL": "url.URL",
"time.Time": "time.Time",
}
// mappings defines the mapping between specific types and their counterpart
// in kallax types
var mappings = map[string]string{
"url.URL": "types.URL",
}
// Package is the representation of a scanned package.
type Package struct {
pkg *types.Package
// Name is the package name.
Name string
// Models are all the models found in the package.
Models []*Model
indexedModels map[string]*Model
}
// NewPackage creates a new package.
func NewPackage(pkg *types.Package) *Package {
return &Package{
Name: pkg.Name(),
pkg: pkg,
indexedModels: make(map[string]*Model),
}
}
// SetModels sets the models of the packages and indexes them.
func (p *Package) SetModels(models []*Model) {
for _, m := range models {
p.indexedModels[m.Name] = m
}
p.Models = models
}
// FindModel finds the model with the given name.
func (p *Package) FindModel(name string) *Model {
return p.indexedModels[name]
}
const (
// StoreNamePattern is the pattern used to name stores.
StoreNamePattern = "%sStore"
// QueryNamePattern is the pattern used to name queries.
QueryNamePattern = "%sQuery"
// ResultSetNamePattern is the pattern used to name result sets.
ResultSetNamePattern = "%sResultSet"
)
// Model is the representation of an user-defined model.
type Model struct {
// Name is the model name.
Name string
// StoreName is the name of the store for this model.
StoreName string
// QueryName is the name of the query for this model.
QueryName string
// ResultSetName is the name of the result set for this model.
ResultSetName string
// Table is the name of the table, which will be extracted from the `table`
// struct tag of the kallax.Model field in the model.
// If one is not provided, it will be the model name transformed to lower
// snake case. A model with an empty table name is not valid.
Table string
// Type is the string representation of the type.
Type string
// Fields contains the list of fields in the model.
Fields []*Field
// ID contains the identifier field of the model.
ID *Field
// Events contains the list of events implemented by the model.
Events Events
// Node is the node where the model was defined.
Node *types.Named
// CtorFunc is a reference to the model constructor.
CtorFunc *types.Func
// Package is a reference to the package where the model was defined.
Package *types.Package
}
// NewModel creates a new model with the given name.
func NewModel(n string) *Model {
return &Model{
Name: n,
StoreName: fmt.Sprintf(StoreNamePattern, n),
QueryName: fmt.Sprintf(QueryNamePattern, n),
ResultSetName: fmt.Sprintf(ResultSetNamePattern, n),
Type: "struct",
}
}
// Alias returns the alias of the model, which is the lowercased name preceded
// by "__".
func (m *Model) Alias() string {
return "__" + strings.ToLower(m.Name)
}
// String prints the representation of the model.
func (m *Model) String() string {
var events []string
for _, e := range m.Events {
events = append(events, string(e))
}
return fmt.Sprintf("%q [%d Field(s)] [Events: %s]", m.Name, len(m.Fields), events)
}
type occurrences map[string]uint
func (o occurrences) inc(name string) {
o[name]++
}
func (o occurrences) repeated() []string {
var result []string
for v, times := range o {
if times > 1 {
result = append(result, v)
}
}
return result
}
// repeatedFields returns the list of repeated fields found in the model.
func (m *Model) repeatedFields() []string {
var occ = make(occurrences)
m.checkFieldOccurrences(m.Fields, occ)
return occ.repeated()
}
func (m *Model) checkFieldOccurrences(fields []*Field, occurrences occurrences) {
for _, f := range fields {
if f.Inline() {
m.checkFieldOccurrences(f.Fields, occurrences)
} else {
occurrences.inc(f.Name)
}
}
}
func (m *Model) repeatedCols() []string {
columns := make(occurrences)
m.checkFieldColumns(m.Fields, columns)
return columns.repeated()
}
func (m *Model) checkFieldColumns(fields []*Field, cols occurrences) {
for _, f := range fields {
if f.Inline() {
m.checkFieldColumns(f.Fields, cols)
} else if f.Kind != Relationship {
cols.inc(f.ColumnName())
}
}
}
// Validate returns an error if the model is not valid. To be valid, a model
// needs a non-empty table name, a non-repeated set of fields.
func (m *Model) Validate() error {
if m.ID == nil {
return fmt.Errorf("kallax: model %s has no primary key defined", m.Name)
}
if !isValidIdentifier(m.ID) {
return fmt.Errorf("kallax: primary key %q of model %q does not have a valid identifier type (%s)", m.ID.Name, m.Name, m.ID.Type)
}
if fields := m.repeatedFields(); len(fields) > 0 {
return fmt.Errorf("kallax: the following fields are repeated: %v", fields)
}
if cols := m.repeatedCols(); len(cols) > 0 {
return fmt.Errorf("kallax: the following column names are repeated: %v", cols)
}
if m.Table == "" {
return fmt.Errorf("kallax: model %s has no table", m.Name)
}
return nil
}
// CtorArgs returns the string with the generated constructor arguments,
// based on the constructor scanned, if any.
func (m *Model) CtorArgs() string {
if m.CtorFunc == nil {
return ""
}
var ret []string
sig := m.CtorFunc.Type().(*types.Signature)
paramsLen := sig.Params().Len()
for i := 0; i < paramsLen; i++ {
param := sig.Params().At(i)
// TODO: refactor findableTypeName so this is not needed
// or split into two functions
typeName, ok := findableTypeName(param.Type(), m.Package)
if !ok {
typeName = typeString(param.Type(), m.Package)
}
if paramsLen == i+1 && sig.Variadic() {
typeName = "..." + typeName
}
paramName := param.Name()
if paramName == "s" {
paramName = fmt.Sprintf("arg%v", i)
}
ret = append(ret, fmt.Sprintf("%v %v", paramName, typeName))
}
return strings.Join(ret, ", ")
}
// CtorArgVars returns the string representation of the variables to call the
// scanned constructor in the generated constructor.
func (m *Model) CtorArgVars() string {
if m.CtorFunc == nil {
return ""
}
var ret []string
sig := m.CtorFunc.Type().(*types.Signature)
paramsLen := sig.Params().Len()
for i := 0; i < sig.Params().Len(); i++ {
arg := sig.Params().At(i).Name()
if paramsLen == i+1 && sig.Variadic() {
arg += "..."
}
ret = append(ret, arg)
}
return strings.Join(ret, ", ")
}
// CtorReturns returns the string representation of the return values of the
// generated constructor based on the ones in the scanned constructor.
func (m *Model) CtorReturns() string {
if m.CtorFunc == nil {
return "(record *" + m.Name + ")"
}
var ret []string
hasError := false
sig := m.CtorFunc.Type().(*types.Signature)
for i := 0; i < sig.Results().Len(); i++ {
res := sig.Results().At(i)
// TODO: refactor findableTypeName so this is not needed
// or split into two functions
typeName, ok := findableTypeName(res.Type(), m.Package)
if !ok {
typeName = typeString(res.Type(), m.Package)
}
if isTypeOrPtrTo(res.Type(), m.Node) {
ret = append(ret, "record "+typeName)
} else if isBuiltinError(res.Type()) && !hasError {
ret = append(ret, "err "+typeName)
hasError = true
} else if res.Name() != "" {
ret = append(ret, fmt.Sprintf("r%d %v", i, res.Name()))
} else {
ret = append(ret, fmt.Sprintf("r%d %v", i, typeName))
}
}
return "(" + strings.Join(ret, ", ") + ")"
}
// CtorRetVars returns the string representation of the return variables to
// receive in the generated constructor based on the ones in the scanned
// constructor.
func (m *Model) CtorRetVars() string {
if m.CtorFunc == nil {
return "record"
}
var ret []string
hasError := false
sig := m.CtorFunc.Type().(*types.Signature)
for i := 0; i < sig.Results().Len(); i++ {
res := sig.Results().At(i)
if isTypeOrPtrTo(res.Type(), m.Node) {
ret = append(ret, "record")
} else if isBuiltinError(res.Type()) && !hasError {
ret = append(ret, "err")
hasError = true
} else {
ret = append(ret, fmt.Sprintf("r%d", i))
}
}
return strings.Join(ret, ", ")
}
// SetFields sets all the children fields and their model to the current model.
// It also finds the primary key and sets it in the model.
// It will return an error if more than one primary key is found.
func (m *Model) SetFields(fields []*Field) error {
var fs []*Field
var id *Field
for _, f := range fields {
f.Model = m
if f.IsPrimaryKey() {
if id != nil {
return fmt.Errorf(
"kallax: found more than one primary key in model %s: %s and %s",
m.Name,
id.Name,
f.Name,
)
}
id = f
m.ID = f
} else {
fs = append(fs, f)
}
}
if id != nil {
m.Fields = []*Field{id}
}
m.Fields = append(m.Fields, fs...)
return nil
}
// Relationships returns the fields of a model that are relationships.
func (m *Model) Relationships() []*Field {
return relationshipsOnFields(m.Fields)
}
// Inverses returns the inverse relationships of the model.
func (m *Model) Inverses() []*Field {
var inverses []*Field
for _, f := range relationshipsOnFields(m.Fields) {
if f.IsInverse() {
inverses = append(inverses, f)
}
}
return inverses
}
// NonInverses returns the relationships of the model that are not inverses.
func (m *Model) NonInverses() []*Field {
var rels []*Field
for _, f := range relationshipsOnFields(m.Fields) {
if !f.IsInverse() {
rels = append(rels, f)
}
}
return rels
}
// HasRelationships returns whether the model has relationships or not.
func (m *Model) HasRelationships() bool {
return len(m.Relationships()) > 0
}
// HasInverses returns whether the model has inverse relationships or not.
func (m *Model) HasInverses() bool {
return len(m.Inverses()) > 0
}
// HasNonInverses returns whether the model has non inverse relationships or not.
func (m *Model) HasNonInverses() bool {
return len(m.NonInverses()) > 0
}
func relationshipsOnFields(fields []*Field) []*Field {
var result []*Field
for _, f := range fields {
if f.Kind == Relationship {
result = append(result, f)
} else if f.Inline() {
result = append(result, relationshipsOnFields(f.Fields)...)
}
}
return result
}
// Field is the representation of a model field.
type Field struct {
// Name is the field name.
Name string
// Type is the string representation of the field type.
Type string
// Kind is the kind of field.
Kind FieldKind
// Node is the reference to the field node.
Node *types.Var
// Tag is the strug tag of the field.
Tag reflect.StructTag
// Fields contains all the children fields of the field. A field has
// children only if it is a struct.
Fields []*Field
// Parent is a reference to the parent field.
Parent *Field
// Model is the reference to the model containing this field.
Model *Model
// IsPtr reports whether the field is a pointer type or not.
IsPtr bool
// IsJSON reports whether the field has to be converted to JSON.
IsJSON bool
// IsAlias reports whether the field is of a type that aliases some other type.
IsAlias bool
// IsEmbedded reports whether the field is an embedded struct or not.
// A struct is considered embedded if and only if the struct was embedded
// as defined in Go.
IsEmbedded bool
}
// FieldKind is the kind of a field.
type FieldKind int
const (
// Basic is a field with a basic type.
// On top of the Go basic types, we consider Basic as well the following
// types:
// - time.Time
// - time.Duration
// - url.URL
Basic FieldKind = iota
// Array is a field with an array type.
Array
// Slice is a field with a slice type.
Slice
// Map is a field with a map type.
Map
// Interface is a field with an interface type.
Interface
// Struct is a field with a struct type.
Struct
// Relationship is a field which is a relationship to other model/s.
Relationship
// Invalid is an invalid field type.
Invalid
)
// String returns the constant name of the FieldKind
func (t FieldKind) String() string {
switch t {
case Basic:
return "Basic"
case Array:
return "Array"
case Slice:
return "Slice"
case Map:
return "Map"
case Interface:
return "Interface"
case Struct:
return "Struct"
case Relationship:
return "Relationship"
case Invalid:
return "Invalid"
default:
return "UNKNOWN"
}
}
// NewField creates a new field with its name, type and struct tag.
func NewField(n, t string, tag reflect.StructTag) *Field {
return &Field{
Name: n,
Type: t,
Tag: tag,
}
}
// SetFields sets all the children fields and the current field as a parent of
// the children.
func (f *Field) SetFields(sf []*Field) {
for _, field := range sf {
field.Parent = f
field.Model = f.Model
f.Fields = append(f.Fields, field)
}
}
// ColumnName returns the SQL valid column name of the field.
// The struct tag `kallax` of the field can be use to set the name, otherwise
// is the field name converted to lower snake case.
// If the resultant name is a reserved keyword a _ will be prepended to the name.
func (f *Field) ColumnName() string {
name := strings.TrimSpace(strings.Split(f.Tag.Get("kallax"), ",")[0])
if name == "" {
name = toLowerSnakeCase(f.Name)
}
if _, ok := reservedKeywords[strings.ToLower(name)]; ok {
name = "_" + name
}
return name
}
// ForeignKey returns the name of the foreign keys as specified in the struct
// tag `fk` or the default foreign key, which is the name of the relationship
// type in lower snake case with "_id" appended.
func (f *Field) ForeignKey() string {
if f.Kind != Relationship {
return ""
}
fk := strings.Split(f.Tag.Get("fk"), ",")[0]
if fk == "" && !f.IsInverse() {
fk = foreignKeyForModel(f.Model.Name)
} else if fk == "" {
fk = foreignKeyForModel(f.TypeSchemaName())
}
return fk
}
// IsPrimaryKey reports whether the field is the primary key.
func (f *Field) IsPrimaryKey() bool {
_, ok := f.Tag.Lookup("pk")
return ok
}
// IsAutoIncrement reports whether the field is an autoincrementable primary key.
func (f *Field) IsAutoIncrement() bool {
return f.Tag.Get("pk") == "autoincr"
}
// IsInverse returns whether the field is an inverse relationship.
func (f *Field) IsInverse() bool {
if f.Kind != Relationship {
return false
}
for _, part := range strings.Split(f.Tag.Get("fk"), ",") {
if part == "inverse" {
return true
}
}
return false
}
// IsOneToManyRelationship returns whether the field is a one to many
// relationship.
func (f *Field) IsOneToManyRelationship() bool {
return f.Kind == Relationship && strings.HasPrefix(f.Type, "[]")
}
func foreignKeyForModel(model string) string {
return toLowerSnakeCase(model) + "_id"
}
// Inline reports whether the field is inline and its children will be in the
// root of the model.
// An inline field is the one having the type kallax.Model, one that has a
// struct tag `kallax` containing `,inline` or an embedded struct field.
func (f *Field) Inline() bool {
if f.Type == BaseModel || f.IsEmbedded {
return true
}
tag := f.Tag.Get("kallax")
for _, p := range strings.Split(tag, ",") {
if p == "inline" {
return true
}
}
return false
}
// JSONName returns the name of the field or its JSON name specified in the
// JSON struct tag.
func (f *Field) JSONName() string {
tag := strings.Split(f.Tag.Get("json"), ",")[0]
if tag == "" {
tag = f.Name
}
return tag
}
func (f *Field) String() string {
return f.Name
}
func (f *Field) fieldName() string {
if f.Parent != nil {
return fmt.Sprintf("%s.%s", f.Parent.fieldName(), f.Name)
}
return f.Name
}
func (f *Field) fieldVarName() string {
return fmt.Sprintf("r.%s", f.fieldName())
}
func (f *Field) fieldVarAddress() string {
name := f.fieldVarName()
if !f.IsPtr {
name = "&" + name
}
return name
}
// Address returns the string representation of the code used to get the
// pointer to the field.
func (f *Field) Address() string {
name := f.fieldVarAddress()
var casted bool
if mapped, ok := mappings[f.Type]; ok {
name = fmt.Sprintf("(*%s)(%s)", mapped, name)
casted = true
}
return f.wrapAddress(name, casted)
}
func (f *Field) typeName() (string, bool) {
return findableTypeName(f.Node.Type(), f.Node.Pkg())
}
func (f *Field) wrapAddress(ptr string, casted bool) string {
if f.IsJSON {
return fmt.Sprintf("types.JSON(%s)", ptr)
}
if f.Kind == Slice {
if typ, ok := castSlice(f); ok {
return fmt.Sprintf("types.Slice((*%s)(%s))", typ, ptr)
}
return fmt.Sprintf("types.Slice(%s)", ptr)
}
if f.Kind == Array {
return fmt.Sprintf("types.Array(%s, %d)", ptr, arrayLen(f))
}
if f.IsPtr && !casted {
if f.Kind == Interface {
return fmt.Sprintf("types.Nullable(%s)", ptr)
}
return fmt.Sprintf("types.Nullable(&%s)", ptr)
}
return ptr
}
// Value is the string representation of the code needed to get the value of
// the field in a way that SQL drivers can process.
func (f *Field) Value() string {
name := f.fieldVarName()
if f.IsJSON {
return fmt.Sprintf("types.JSON(%s), nil", name)
}
switch f.Kind {
case Basic:
if mapped, ok := mappings[f.Type]; ok {
name = fmt.Sprintf("(*%s)(%s)", mapped, f.fieldVarAddress())
}
if f.IsAlias {
typ := f.Type
if f.IsPtr {
typ = "*" + typ
}
return fmt.Sprintf("(%s)(%s), nil", typ, name)
}
return name + ", nil"
case Slice:
return fmt.Sprintf("types.Slice(%s), nil", name)
case Array:
return fmt.Sprintf("types.Array(%s, %d), nil", f.fieldVarAddress(), arrayLen(f))
}
return name + ", nil"
}
// TypeSchemaName returns the name of the Schema for the field type.
func (f *Field) TypeSchemaName() string {
parts := strings.Split(f.Type, ".")
return parts[len(parts)-1]
}
func (f *Field) SQLType() string {
return f.Tag.Get("sqltype")
}
var identifierTypes = map[string]string{
"gopkg.in/src-d/go-kallax.v1.UUID": "kallax.UUID",
"gopkg.in/src-d/go-kallax.v1.ULID": "kallax.ULID",
"gopkg.in/src-d/go-kallax.v1.NumericID": "kallax.NumericID",
"github.com/satori/go.uuid.UUID": "kallax.UUID",
"int64": "kallax.NumericID",
}
func identifierType(f *Field) string {
return identifierTypes[typeName(f.Node.Type())]
}
func isValidIdentifier(f *Field) bool {
_, ok := identifierTypes[typeName(f.Node.Type())]
return ok
}
func arrayLen(f *Field) int {
if f.Kind != Array {
return 0
}
idx := strings.Index(f.Type, "]")
len, _ := strconv.Atoi(f.Type[1:idx])
return len
}
func isTypeOrPtrTo(ptr types.Type, named *types.Named) bool {
switch ty := ptr.(type) {
case *types.Pointer:
if elem, ok := ty.Elem().(*types.Named); ok && elem == named {
return true
}
case *types.Named:
if ty == named {
return true
}
}
return false
}
var supportedSliceTypes = map[string]struct{}{
"int8": struct{}{},
"uint8": struct{}{},
"byte": struct{}{},
"int16": struct{}{},
"uint16": struct{}{},
"int32": struct{}{},
"uint32": struct{}{},
"int": struct{}{},
"uint": struct{}{},
"int64": struct{}{},
"uint64": struct{}{},
"float32": struct{}{},
"float64": struct{}{},
"bool": struct{}{},
"string": struct{}{},
"time.Time": struct{}{},
"time.Duration": struct{}{},
"net/url.URL": struct{}{},
}
// castSlice returns the type to which the slice has to be casted and a bool
// reporting whether the slice can have/needs a casting.
// A slice only needs a cast if the type is an alias and the slice underlying
// type is included in `supportedSliceTypes`.
func castSlice(f *Field) (cast string, ok bool) {
if !strings.HasPrefix(f.Type, "[]") {
return
}
if f.Node == nil {
return
}
if _, isNamed := f.Node.Type().(*types.Named); !isNamed {
return
}
prefix := "[]"
typ := f.Type[2:]
if strings.HasPrefix(typ, "*") {
prefix += "*"
typ = typ[1:]
}
cast = typ
if idx := strings.LastIndex(cast, "/"); idx >= 0 {
cast = cast[idx+1:]
}
_, ok = supportedSliceTypes[typ]
return prefix + cast, ok
}
func typeString(ty types.Type, pkg *types.Package) string {
ret := types.TypeString(ty, types.RelativeTo(pkg))
parts := strings.Split(ret, string(separator))
prefix := ""
if len(parts) > 1 {
for _, r := range parts[0] {
if r == '.' || unicode.IsLetter(r) {
break
}
prefix += string(r)
}
}
return prefix + parts[len(parts)-1]
}
func isBuiltinError(typ types.Type) bool {
named, ok := typ.(*types.Named)
if !ok {
return false
}
return named.Obj().Name() == "error" && named.Obj().Parent() == types.Universe
}
func toLowerSnakeCase(s string) string {
var buf bytes.Buffer
var lastWasUpper bool
for i, r := range s {
if unicode.IsUpper(r) && i != 0 && !lastWasUpper {
buf.WriteRune('_')
}
lastWasUpper = unicode.IsUpper(r)
buf.WriteRune(unicode.ToLower(r))
}
return buf.String()
}
// Event is the name of an event.
type Event string
// Events is a collection of events.
type Events []Event
// Has reports whether the event is in the collection.
func (s Events) Has(e Event) bool {
for _, event := range s {
if event == e {
return true
}
}
return false
}
const (
// BeforeInsert is an event that will happen before Insert operations.
BeforeInsert Event = "BeforeInsert"
// AfterInsert is an event that will happen after Insert operations.
AfterInsert Event = "AfterInsert"
// BeforeUpdate is an event that will happen before Update operations.
BeforeUpdate Event = "BeforeUpdate"
// AfterUpdate is an event that will happen after Update operations.
AfterUpdate Event = "AfterUpdate"
// BeforeSave is an event that will happen before Insert or Update
// operations.
BeforeSave Event = "BeforeSave"
// AfterSave is an event that will happen after Insert or Update
// operations.
AfterSave Event = "AfterSave"
// BeforeDelete is an event that will happen before Delete.
BeforeDelete Event = "BeforeDelete"
// AfterDelete is an event that will happen after Delete.
AfterDelete Event = "AfterDelete"
)