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reflect.go
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reflect.go
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// Package jsonschema uses reflection to generate JSON Schemas from Go types [1].
//
// If json tags are present on struct fields, they will be used to infer
// property names and if a property is required (omitempty is present).
//
// [1] http://json-schema.org/latest/json-schema-validation.html
package jsonschema
import (
"bytes"
"encoding/json"
"net"
"net/url"
"reflect"
"strconv"
"strings"
"time"
)
// customSchemaImpl is used to detect if the type provides it's own
// custom Schema Type definition to use instead. Very useful for situations
// where there are custom JSON Marshal and Unmarshal methods.
type customSchemaImpl interface {
JSONSchema() *Schema
}
// Function to be run after the schema has been generated.
// this will let you modify a schema afterwards
type extendSchemaImpl interface {
JSONSchemaExtend(*Schema)
}
// If the object to be reflected defines a `JSONSchemaAlias` method, its type will
// be used instead of the original type.
type aliasSchemaImpl interface {
JSONSchemaAlias() any
}
// If an object to be reflected defines a `JSONSchemaPropertyAlias` method,
// it will be called for each property to determine if another object
// should be used for the contents.
type propertyAliasSchemaImpl interface {
JSONSchemaProperty(prop string) any
}
var customAliasSchema = reflect.TypeOf((*aliasSchemaImpl)(nil)).Elem()
var customPropertyAliasSchema = reflect.TypeOf((*propertyAliasSchemaImpl)(nil)).Elem()
var customType = reflect.TypeOf((*customSchemaImpl)(nil)).Elem()
var extendType = reflect.TypeOf((*extendSchemaImpl)(nil)).Elem()
// customSchemaGetFieldDocString
type customSchemaGetFieldDocString interface {
GetFieldDocString(fieldName string) string
}
type customGetFieldDocString func(fieldName string) string
var customStructGetFieldDocString = reflect.TypeOf((*customSchemaGetFieldDocString)(nil)).Elem()
// Reflect reflects to Schema from a value using the default Reflector
func Reflect(v any) *Schema {
return ReflectFromType(reflect.TypeOf(v))
}
// ReflectFromType generates root schema using the default Reflector
func ReflectFromType(t reflect.Type) *Schema {
r := &Reflector{}
return r.ReflectFromType(t)
}
// A Reflector reflects values into a Schema.
type Reflector struct {
// BaseSchemaID defines the URI that will be used as a base to determine Schema
// IDs for models. For example, a base Schema ID of `https://invopop.com/schemas`
// when defined with a struct called `User{}`, will result in a schema with an
// ID set to `https://invopop.com/schemas/user`.
//
// If no `BaseSchemaID` is provided, we'll take the type's complete package path
// and use that as a base instead. Set `Anonymous` to try if you do not want to
// include a schema ID.
BaseSchemaID ID
// Anonymous when true will hide the auto-generated Schema ID and provide what is
// known as an "anonymous schema". As a rule, this is not recommended.
Anonymous bool
// AssignAnchor when true will use the original struct's name as an anchor inside
// every definition, including the root schema. These can be useful for having a
// reference to the original struct's name in CamelCase instead of the snake-case used
// by default for URI compatibility.
//
// Anchors do not appear to be widely used out in the wild, so at this time the
// anchors themselves will not be used inside generated schema.
AssignAnchor bool
// AllowAdditionalProperties will cause the Reflector to generate a schema
// without additionalProperties set to 'false' for all struct types. This means
// the presence of additional keys in JSON objects will not cause validation
// to fail. Note said additional keys will simply be dropped when the
// validated JSON is unmarshaled.
AllowAdditionalProperties bool
// RequiredFromJSONSchemaTags will cause the Reflector to generate a schema
// that requires any key tagged with `jsonschema:required`, overriding the
// default of requiring any key *not* tagged with `json:,omitempty`.
RequiredFromJSONSchemaTags bool
// Do not reference definitions. This will remove the top-level $defs map and
// instead cause the entire structure of types to be output in one tree. The
// list of type definitions (`$defs`) will not be included.
DoNotReference bool
// ExpandedStruct when true will include the reflected type's definition in the
// root as opposed to a definition with a reference.
ExpandedStruct bool
// FieldNameTag will change the tag used to get field names. json tags are used by default.
FieldNameTag string
// IgnoredTypes defines a slice of types that should be ignored in the schema,
// switching to just allowing additional properties instead.
IgnoredTypes []any
// Lookup allows a function to be defined that will provide a custom mapping of
// types to Schema IDs. This allows existing schema documents to be referenced
// by their ID instead of being embedded into the current schema definitions.
// Reflected types will never be pointers, only underlying elements.
Lookup func(reflect.Type) ID
// Mapper is a function that can be used to map custom Go types to jsonschema schemas.
Mapper func(reflect.Type) *Schema
// Namer allows customizing of type names. The default is to use the type's name
// provided by the reflect package.
Namer func(reflect.Type) string
// KeyNamer allows customizing of key names.
// The default is to use the key's name as is, or the json tag if present.
// If a json tag is present, KeyNamer will receive the tag's name as an argument, not the original key name.
KeyNamer func(string) string
// AdditionalFields allows adding structfields for a given type
AdditionalFields func(reflect.Type) []reflect.StructField
// CommentMap is a dictionary of fully qualified go types and fields to comment
// strings that will be used if a description has not already been provided in
// the tags. Types and fields are added to the package path using "." as a
// separator.
//
// Type descriptions should be defined like:
//
// map[string]string{"github.com/invopop/jsonschema.Reflector": "A Reflector reflects values into a Schema."}
//
// And Fields defined as:
//
// map[string]string{"github.com/invopop/jsonschema.Reflector.DoNotReference": "Do not reference definitions."}
//
// See also: AddGoComments
CommentMap map[string]string
}
// Reflect reflects to Schema from a value.
func (r *Reflector) Reflect(v any) *Schema {
return r.ReflectFromType(reflect.TypeOf(v))
}
// ReflectFromType generates root schema
func (r *Reflector) ReflectFromType(t reflect.Type) *Schema {
if t.Kind() == reflect.Ptr {
t = t.Elem() // re-assign from pointer
}
name := r.typeName(t)
s := new(Schema)
definitions := Definitions{}
s.Definitions = definitions
bs := r.reflectTypeToSchemaWithID(definitions, t)
if r.ExpandedStruct {
*s = *definitions[name]
delete(definitions, name)
} else {
*s = *bs
}
// Attempt to set the schema ID
if !r.Anonymous && s.ID == EmptyID {
baseSchemaID := r.BaseSchemaID
if baseSchemaID == EmptyID {
id := ID("https://" + t.PkgPath())
if err := id.Validate(); err == nil {
// it's okay to silently ignore URL errors
baseSchemaID = id
}
}
if baseSchemaID != EmptyID {
s.ID = baseSchemaID.Add(ToSnakeCase(name))
}
}
s.Version = Version
if !r.DoNotReference {
s.Definitions = definitions
}
return s
}
// Available Go defined types for JSON Schema Validation.
// RFC draft-wright-json-schema-validation-00, section 7.3
var (
timeType = reflect.TypeOf(time.Time{}) // date-time RFC section 7.3.1
ipType = reflect.TypeOf(net.IP{}) // ipv4 and ipv6 RFC section 7.3.4, 7.3.5
uriType = reflect.TypeOf(url.URL{}) // uri RFC section 7.3.6
)
// Byte slices will be encoded as base64
var byteSliceType = reflect.TypeOf([]byte(nil))
// Except for json.RawMessage
var rawMessageType = reflect.TypeOf(json.RawMessage{})
// Go code generated from protobuf enum types should fulfil this interface.
type protoEnum interface {
EnumDescriptor() ([]byte, []int)
}
var protoEnumType = reflect.TypeOf((*protoEnum)(nil)).Elem()
// SetBaseSchemaID is a helper use to be able to set the reflectors base
// schema ID from a string as opposed to then ID instance.
func (r *Reflector) SetBaseSchemaID(id string) {
r.BaseSchemaID = ID(id)
}
func (r *Reflector) refOrReflectTypeToSchema(definitions Definitions, t reflect.Type) *Schema {
id := r.lookupID(t)
if id != EmptyID {
return &Schema{
Ref: id.String(),
}
}
// Already added to definitions?
if def := r.refDefinition(definitions, t); def != nil {
return def
}
return r.reflectTypeToSchemaWithID(definitions, t)
}
func (r *Reflector) reflectTypeToSchemaWithID(defs Definitions, t reflect.Type) *Schema {
s := r.reflectTypeToSchema(defs, t)
if s != nil {
if r.Lookup != nil {
id := r.Lookup(t)
if id != EmptyID {
s.ID = id
}
}
}
return s
}
func (r *Reflector) reflectTypeToSchema(definitions Definitions, t reflect.Type) *Schema {
// only try to reflect non-pointers
if t.Kind() == reflect.Ptr {
return r.refOrReflectTypeToSchema(definitions, t.Elem())
}
// Check if the there is an alias method that provides an object
// that we should use instead of this one.
if t.Implements(customAliasSchema) {
v := reflect.New(t)
o := v.Interface().(aliasSchemaImpl)
t = reflect.TypeOf(o.JSONSchemaAlias())
return r.refOrReflectTypeToSchema(definitions, t)
}
// Do any pre-definitions exist?
if r.Mapper != nil {
if t := r.Mapper(t); t != nil {
return t
}
}
if rt := r.reflectCustomSchema(definitions, t); rt != nil {
return rt
}
// Prepare a base to which details can be added
st := new(Schema)
// jsonpb will marshal protobuf enum options as either strings or integers.
// It will unmarshal either.
if t.Implements(protoEnumType) {
st.OneOf = []*Schema{
{Type: "string"},
{Type: "integer"},
}
return st
}
// Defined format types for JSON Schema Validation
// RFC draft-wright-json-schema-validation-00, section 7.3
// TODO email RFC section 7.3.2, hostname RFC section 7.3.3, uriref RFC section 7.3.7
if t == ipType {
// TODO differentiate ipv4 and ipv6 RFC section 7.3.4, 7.3.5
st.Type = "string"
st.Format = "ipv4"
return st
}
switch t.Kind() {
case reflect.Struct:
r.reflectStruct(definitions, t, st)
case reflect.Slice, reflect.Array:
r.reflectSliceOrArray(definitions, t, st)
case reflect.Map:
r.reflectMap(definitions, t, st)
case reflect.Interface:
// empty
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64,
reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
st.Type = "integer"
case reflect.Float32, reflect.Float64:
st.Type = "number"
case reflect.Bool:
st.Type = "boolean"
case reflect.String:
st.Type = "string"
default:
panic("unsupported type " + t.String())
}
r.reflectSchemaExtend(definitions, t, st)
// Always try to reference the definition which may have just been created
if def := r.refDefinition(definitions, t); def != nil {
return def
}
return st
}
func (r *Reflector) reflectCustomSchema(definitions Definitions, t reflect.Type) *Schema {
if t.Kind() == reflect.Ptr {
return r.reflectCustomSchema(definitions, t.Elem())
}
if t.Implements(customType) {
v := reflect.New(t)
o := v.Interface().(customSchemaImpl)
st := o.JSONSchema()
r.addDefinition(definitions, t, st)
if ref := r.refDefinition(definitions, t); ref != nil {
return ref
}
return st
}
return nil
}
func (r *Reflector) reflectSchemaExtend(definitions Definitions, t reflect.Type, s *Schema) *Schema {
if t.Implements(extendType) {
v := reflect.New(t)
o := v.Interface().(extendSchemaImpl)
o.JSONSchemaExtend(s)
if ref := r.refDefinition(definitions, t); ref != nil {
return ref
}
}
return s
}
func (r *Reflector) reflectSliceOrArray(definitions Definitions, t reflect.Type, st *Schema) {
if t == rawMessageType {
return
}
r.addDefinition(definitions, t, st)
if st.Description == "" {
st.Description = r.lookupComment(t, "")
}
if t.Kind() == reflect.Array {
l := uint64(t.Len())
st.MinItems = &l
st.MaxItems = &l
}
if t.Kind() == reflect.Slice && t.Elem() == byteSliceType.Elem() {
st.Type = "string"
// NOTE: ContentMediaType is not set here
st.ContentEncoding = "base64"
} else {
st.Type = "array"
st.Items = r.refOrReflectTypeToSchema(definitions, t.Elem())
}
}
func (r *Reflector) reflectMap(definitions Definitions, t reflect.Type, st *Schema) {
r.addDefinition(definitions, t, st)
st.Type = "object"
if st.Description == "" {
st.Description = r.lookupComment(t, "")
}
switch t.Key().Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
st.PatternProperties = map[string]*Schema{
"^[0-9]+$": r.refOrReflectTypeToSchema(definitions, t.Elem()),
}
st.AdditionalProperties = FalseSchema
return
}
if t.Elem().Kind() != reflect.Interface {
st.AdditionalProperties = r.refOrReflectTypeToSchema(definitions, t.Elem())
}
}
// Reflects a struct to a JSON Schema type.
func (r *Reflector) reflectStruct(definitions Definitions, t reflect.Type, s *Schema) {
// Handle special types
switch t {
case timeType: // date-time RFC section 7.3.1
s.Type = "string"
s.Format = "date-time"
return
case uriType: // uri RFC section 7.3.6
s.Type = "string"
s.Format = "uri"
return
}
r.addDefinition(definitions, t, s)
s.Type = "object"
s.Properties = NewProperties()
s.Description = r.lookupComment(t, "")
if r.AssignAnchor {
s.Anchor = t.Name()
}
if !r.AllowAdditionalProperties && s.AdditionalProperties == nil {
s.AdditionalProperties = FalseSchema
}
ignored := false
for _, it := range r.IgnoredTypes {
if reflect.TypeOf(it) == t {
ignored = true
break
}
}
if !ignored {
r.reflectStructFields(s, definitions, t)
}
}
func (r *Reflector) reflectStructFields(st *Schema, definitions Definitions, t reflect.Type) {
if t.Kind() == reflect.Ptr {
t = t.Elem()
}
if t.Kind() != reflect.Struct {
return
}
var getFieldDocString customGetFieldDocString
if t.Implements(customStructGetFieldDocString) {
v := reflect.New(t)
o := v.Interface().(customSchemaGetFieldDocString)
getFieldDocString = o.GetFieldDocString
}
customPropertyMethod := func(string) any {
return nil
}
if t.Implements(customPropertyAliasSchema) {
v := reflect.New(t)
o := v.Interface().(propertyAliasSchemaImpl)
customPropertyMethod = o.JSONSchemaProperty
}
handleField := func(f reflect.StructField) {
name, shouldEmbed, required, nullable := r.reflectFieldName(f)
// if anonymous and exported type should be processed recursively
// current type should inherit properties of anonymous one
if name == "" {
if shouldEmbed {
r.reflectStructFields(st, definitions, f.Type)
}
return
}
// If a JSONSchemaAlias(prop string) method is defined, attempt to use
// the provided object's type instead of the field's type.
var property *Schema
if alias := customPropertyMethod(name); alias != nil {
property = r.refOrReflectTypeToSchema(definitions, reflect.TypeOf(alias))
} else {
property = r.refOrReflectTypeToSchema(definitions, f.Type)
}
property.structKeywordsFromTags(f, st, name)
if property.Description == "" {
property.Description = r.lookupComment(t, f.Name)
}
if getFieldDocString != nil {
property.Description = getFieldDocString(f.Name)
}
if nullable {
property = &Schema{
OneOf: []*Schema{
property,
{
Type: "null",
},
},
}
}
st.Properties.Set(name, property)
if required {
st.Required = appendUniqueString(st.Required, name)
}
}
for i := 0; i < t.NumField(); i++ {
f := t.Field(i)
handleField(f)
}
if r.AdditionalFields != nil {
if af := r.AdditionalFields(t); af != nil {
for _, sf := range af {
handleField(sf)
}
}
}
}
func appendUniqueString(base []string, value string) []string {
for _, v := range base {
if v == value {
return base
}
}
return append(base, value)
}
func (r *Reflector) lookupComment(t reflect.Type, name string) string {
if r.CommentMap == nil {
return ""
}
n := fullyQualifiedTypeName(t)
if name != "" {
n = n + "." + name
}
return r.CommentMap[n]
}
// addDefinition will append the provided schema. If needed, an ID and anchor will also be added.
func (r *Reflector) addDefinition(definitions Definitions, t reflect.Type, s *Schema) {
name := r.typeName(t)
if name == "" {
return
}
definitions[name] = s
}
// refDefinition will provide a schema with a reference to an existing definition.
func (r *Reflector) refDefinition(definitions Definitions, t reflect.Type) *Schema {
if r.DoNotReference {
return nil
}
name := r.typeName(t)
if name == "" {
return nil
}
if _, ok := definitions[name]; !ok {
return nil
}
return &Schema{
Ref: "#/$defs/" + name,
}
}
func (r *Reflector) lookupID(t reflect.Type) ID {
if r.Lookup != nil {
if t.Kind() == reflect.Ptr {
t = t.Elem()
}
return r.Lookup(t)
}
return EmptyID
}
func (t *Schema) structKeywordsFromTags(f reflect.StructField, parent *Schema, propertyName string) {
t.Description = f.Tag.Get("jsonschema_description")
tags := splitOnUnescapedCommas(f.Tag.Get("jsonschema"))
tags = t.genericKeywords(tags, parent, propertyName)
switch t.Type {
case "string":
t.stringKeywords(tags)
case "number":
t.numericalKeywords(tags)
case "integer":
t.numericalKeywords(tags)
case "array":
t.arrayKeywords(tags)
case "boolean":
t.booleanKeywords(tags)
}
extras := strings.Split(f.Tag.Get("jsonschema_extras"), ",")
t.extraKeywords(extras)
}
// read struct tags for generic keywords
func (t *Schema) genericKeywords(tags []string, parent *Schema, propertyName string) []string { //nolint:gocyclo
unprocessed := make([]string, 0, len(tags))
for _, tag := range tags {
nameValue := strings.SplitN(tag, "=", 2)
if len(nameValue) == 2 {
name, val := nameValue[0], nameValue[1]
switch name {
case "title":
t.Title = val
case "description":
t.Description = val
case "type":
t.Type = val
case "anchor":
t.Anchor = val
case "oneof_required":
var typeFound *Schema
for i := range parent.OneOf {
if parent.OneOf[i].Title == nameValue[1] {
typeFound = parent.OneOf[i]
}
}
if typeFound == nil {
typeFound = &Schema{
Title: nameValue[1],
Required: []string{},
}
parent.OneOf = append(parent.OneOf, typeFound)
}
typeFound.Required = append(typeFound.Required, propertyName)
case "anyof_required":
var typeFound *Schema
for i := range parent.AnyOf {
if parent.AnyOf[i].Title == nameValue[1] {
typeFound = parent.AnyOf[i]
}
}
if typeFound == nil {
typeFound = &Schema{
Title: nameValue[1],
Required: []string{},
}
parent.AnyOf = append(parent.AnyOf, typeFound)
}
typeFound.Required = append(typeFound.Required, propertyName)
case "oneof_ref":
subSchema := t
if t.Items != nil {
subSchema = t.Items
}
if subSchema.OneOf == nil {
subSchema.OneOf = make([]*Schema, 0, 1)
}
subSchema.Ref = ""
refs := strings.Split(nameValue[1], ";")
for _, r := range refs {
subSchema.OneOf = append(subSchema.OneOf, &Schema{
Ref: r,
})
}
case "oneof_type":
if t.OneOf == nil {
t.OneOf = make([]*Schema, 0, 1)
}
t.Type = ""
types := strings.Split(nameValue[1], ";")
for _, ty := range types {
t.OneOf = append(t.OneOf, &Schema{
Type: ty,
})
}
case "anyof_ref":
subSchema := t
if t.Items != nil {
subSchema = t.Items
}
if subSchema.AnyOf == nil {
subSchema.AnyOf = make([]*Schema, 0, 1)
}
subSchema.Ref = ""
refs := strings.Split(nameValue[1], ";")
for _, r := range refs {
subSchema.AnyOf = append(subSchema.AnyOf, &Schema{
Ref: r,
})
}
case "anyof_type":
if t.AnyOf == nil {
t.AnyOf = make([]*Schema, 0, 1)
}
t.Type = ""
types := strings.Split(nameValue[1], ";")
for _, ty := range types {
t.AnyOf = append(t.AnyOf, &Schema{
Type: ty,
})
}
default:
unprocessed = append(unprocessed, tag)
}
}
}
return unprocessed
}
// read struct tags for boolean type keywords
func (t *Schema) booleanKeywords(tags []string) {
for _, tag := range tags {
nameValue := strings.Split(tag, "=")
if len(nameValue) != 2 {
continue
}
name, val := nameValue[0], nameValue[1]
if name == "default" {
if val == "true" {
t.Default = true
} else if val == "false" {
t.Default = false
}
}
}
}
// read struct tags for string type keywords
func (t *Schema) stringKeywords(tags []string) {
for _, tag := range tags {
nameValue := strings.SplitN(tag, "=", 2)
if len(nameValue) == 2 {
name, val := nameValue[0], nameValue[1]
switch name {
case "minLength":
t.MinLength = parseUint(val)
case "maxLength":
t.MaxLength = parseUint(val)
case "pattern":
t.Pattern = val
case "format":
t.Format = val
case "readOnly":
i, _ := strconv.ParseBool(val)
t.ReadOnly = i
case "writeOnly":
i, _ := strconv.ParseBool(val)
t.WriteOnly = i
case "default":
t.Default = val
case "example":
t.Examples = append(t.Examples, val)
case "enum":
t.Enum = append(t.Enum, val)
}
}
}
}
// read struct tags for numerical type keywords
func (t *Schema) numericalKeywords(tags []string) {
for _, tag := range tags {
nameValue := strings.Split(tag, "=")
if len(nameValue) == 2 {
name, val := nameValue[0], nameValue[1]
switch name {
case "multipleOf":
t.MultipleOf, _ = toJSONNumber(val)
case "minimum":
t.Minimum, _ = toJSONNumber(val)
case "maximum":
t.Maximum, _ = toJSONNumber(val)
case "exclusiveMaximum":
t.ExclusiveMaximum, _ = toJSONNumber(val)
case "exclusiveMinimum":
t.ExclusiveMinimum, _ = toJSONNumber(val)
case "default":
if num, ok := toJSONNumber(val); ok {
t.Default = num
}
case "example":
if num, ok := toJSONNumber(val); ok {
t.Examples = append(t.Examples, num)
}
case "enum":
if num, ok := toJSONNumber(val); ok {
t.Enum = append(t.Enum, num)
}
}
}
}
}
// read struct tags for object type keywords
// func (t *Type) objectKeywords(tags []string) {
// for _, tag := range tags{
// nameValue := strings.Split(tag, "=")
// name, val := nameValue[0], nameValue[1]
// switch name{
// case "dependencies":
// t.Dependencies = val
// break;
// case "patternProperties":
// t.PatternProperties = val
// break;
// }
// }
// }
// read struct tags for array type keywords
func (t *Schema) arrayKeywords(tags []string) {
var defaultValues []any
unprocessed := make([]string, 0, len(tags))
for _, tag := range tags {
nameValue := strings.Split(tag, "=")
if len(nameValue) == 2 {
name, val := nameValue[0], nameValue[1]
switch name {
case "minItems":
t.MinItems = parseUint(val)
case "maxItems":
t.MaxItems = parseUint(val)
case "uniqueItems":
t.UniqueItems = true
case "default":
defaultValues = append(defaultValues, val)
case "format":
t.Items.Format = val
case "pattern":
t.Items.Pattern = val
default:
unprocessed = append(unprocessed, tag) // left for further processing by underlying type
}
}
}
if len(defaultValues) > 0 {
t.Default = defaultValues
}
if len(unprocessed) == 0 {
// we don't have anything else to process
return
}
switch t.Items.Type {
case "string":
t.Items.stringKeywords(unprocessed)
case "number":
t.Items.numericalKeywords(unprocessed)
case "integer":
t.Items.numericalKeywords(unprocessed)
case "array":
// explicitly don't support traversal for the [][]..., as it's unclear where the array tags belong
case "boolean":
t.Items.booleanKeywords(unprocessed)
}
}
func (t *Schema) extraKeywords(tags []string) {
for _, tag := range tags {
nameValue := strings.SplitN(tag, "=", 2)
if len(nameValue) == 2 {
t.setExtra(nameValue[0], nameValue[1])
}
}
}
func (t *Schema) setExtra(key, val string) {
if t.Extras == nil {
t.Extras = map[string]any{}
}
if existingVal, ok := t.Extras[key]; ok {
switch existingVal := existingVal.(type) {
case string:
t.Extras[key] = []string{existingVal, val}
case []string:
t.Extras[key] = append(existingVal, val)
case int:
t.Extras[key], _ = strconv.Atoi(val)
case bool:
t.Extras[key] = (val == "true" || val == "t")
}
} else {
switch key {
case "minimum":
t.Extras[key], _ = strconv.Atoi(val)
default:
var x any
if val == "true" {
x = true
} else if val == "false" {
x = false
} else {
x = val
}
t.Extras[key] = x
}
}
}
func requiredFromJSONTags(tags []string, val *bool) {
if ignoredByJSONTags(tags) {
return
}
for _, tag := range tags[1:] {
if tag == "omitempty" {
*val = false
return
}
}
*val = true
}
func requiredFromJSONSchemaTags(tags []string, val *bool) {
if ignoredByJSONSchemaTags(tags) {
return
}
for _, tag := range tags {
if tag == "required" {
*val = true
}
}
}
func nullableFromJSONSchemaTags(tags []string) bool {
if ignoredByJSONSchemaTags(tags) {
return false
}
for _, tag := range tags {
if tag == "nullable" {
return true
}
}
return false
}
func ignoredByJSONTags(tags []string) bool {
return tags[0] == "-"
}
func ignoredByJSONSchemaTags(tags []string) bool {
return tags[0] == "-"
}
func inlinedByJSONTags(tags []string) bool {
for _, tag := range tags[1:] {
if tag == "inline" {
return true
}
}
return false
}
// toJSONNumber converts string to *json.Number.
// It'll aso return whether the number is valid.
func toJSONNumber(s string) (json.Number, bool) {
num := json.Number(s)
if _, err := num.Int64(); err == nil {
return num, true
}
if _, err := num.Float64(); err == nil {
return num, true
}
return json.Number(""), false
}
func parseUint(num string) *uint64 {
val, err := strconv.ParseUint(num, 10, 64)
if err != nil {