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5e9725983d
First of all this removes the need for a network connection, second renovate can update the version as it is tracked in go.mod. However the real important part is that the binary downloads are broken[1]. For some reason the swagger created with them does not include all the type information for the examples. However when building from source the same thing works fine. [1] https://github.com/go-swagger/go-swagger/issues/2842 Signed-off-by: Paul Holzinger <pholzing@redhat.com>
257 lines
6.5 KiB
Go
257 lines
6.5 KiB
Go
package analysis
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import (
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"fmt"
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"github.com/go-openapi/spec"
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"github.com/go-openapi/strfmt"
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)
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// SchemaOpts configures the schema analyzer
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type SchemaOpts struct {
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Schema *spec.Schema
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Root interface{}
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BasePath string
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_ struct{}
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}
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// Schema analysis, will classify the schema according to known
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// patterns.
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func Schema(opts SchemaOpts) (*AnalyzedSchema, error) {
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if opts.Schema == nil {
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return nil, fmt.Errorf("no schema to analyze")
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}
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a := &AnalyzedSchema{
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schema: opts.Schema,
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root: opts.Root,
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basePath: opts.BasePath,
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}
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a.initializeFlags()
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a.inferKnownType()
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a.inferEnum()
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a.inferBaseType()
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if err := a.inferMap(); err != nil {
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return nil, err
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}
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if err := a.inferArray(); err != nil {
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return nil, err
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}
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a.inferTuple()
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if err := a.inferFromRef(); err != nil {
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return nil, err
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}
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a.inferSimpleSchema()
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return a, nil
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}
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// AnalyzedSchema indicates what the schema represents
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type AnalyzedSchema struct {
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schema *spec.Schema
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root interface{}
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basePath string
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hasProps bool
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hasAllOf bool
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hasItems bool
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hasAdditionalProps bool
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hasAdditionalItems bool
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hasRef bool
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IsKnownType bool
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IsSimpleSchema bool
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IsArray bool
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IsSimpleArray bool
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IsMap bool
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IsSimpleMap bool
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IsExtendedObject bool
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IsTuple bool
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IsTupleWithExtra bool
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IsBaseType bool
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IsEnum bool
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}
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// Inherits copies value fields from other onto this schema
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func (a *AnalyzedSchema) inherits(other *AnalyzedSchema) {
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if other == nil {
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return
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}
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a.hasProps = other.hasProps
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a.hasAllOf = other.hasAllOf
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a.hasItems = other.hasItems
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a.hasAdditionalItems = other.hasAdditionalItems
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a.hasAdditionalProps = other.hasAdditionalProps
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a.hasRef = other.hasRef
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a.IsKnownType = other.IsKnownType
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a.IsSimpleSchema = other.IsSimpleSchema
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a.IsArray = other.IsArray
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a.IsSimpleArray = other.IsSimpleArray
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a.IsMap = other.IsMap
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a.IsSimpleMap = other.IsSimpleMap
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a.IsExtendedObject = other.IsExtendedObject
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a.IsTuple = other.IsTuple
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a.IsTupleWithExtra = other.IsTupleWithExtra
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a.IsBaseType = other.IsBaseType
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a.IsEnum = other.IsEnum
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}
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func (a *AnalyzedSchema) inferFromRef() error {
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if a.hasRef {
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sch := new(spec.Schema)
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sch.Ref = a.schema.Ref
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err := spec.ExpandSchema(sch, a.root, nil)
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if err != nil {
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return err
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}
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rsch, err := Schema(SchemaOpts{
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Schema: sch,
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Root: a.root,
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BasePath: a.basePath,
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})
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if err != nil {
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// NOTE(fredbi): currently the only cause for errors is
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// unresolved ref. Since spec.ExpandSchema() expands the
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// schema recursively, there is no chance to get there,
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// until we add more causes for error in this schema analysis.
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return err
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}
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a.inherits(rsch)
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}
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return nil
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}
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func (a *AnalyzedSchema) inferSimpleSchema() {
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a.IsSimpleSchema = a.IsKnownType || a.IsSimpleArray || a.IsSimpleMap
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}
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func (a *AnalyzedSchema) inferKnownType() {
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tpe := a.schema.Type
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format := a.schema.Format
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a.IsKnownType = tpe.Contains("boolean") ||
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tpe.Contains("integer") ||
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tpe.Contains("number") ||
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tpe.Contains("string") ||
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(format != "" && strfmt.Default.ContainsName(format)) ||
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(a.isObjectType() && !a.hasProps && !a.hasAllOf && !a.hasAdditionalProps && !a.hasAdditionalItems)
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}
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func (a *AnalyzedSchema) inferMap() error {
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if !a.isObjectType() {
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return nil
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}
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hasExtra := a.hasProps || a.hasAllOf
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a.IsMap = a.hasAdditionalProps && !hasExtra
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a.IsExtendedObject = a.hasAdditionalProps && hasExtra
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if !a.IsMap {
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return nil
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}
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// maps
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if a.schema.AdditionalProperties.Schema != nil {
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msch, err := Schema(SchemaOpts{
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Schema: a.schema.AdditionalProperties.Schema,
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Root: a.root,
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BasePath: a.basePath,
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})
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if err != nil {
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return err
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}
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a.IsSimpleMap = msch.IsSimpleSchema
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} else if a.schema.AdditionalProperties.Allows {
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a.IsSimpleMap = true
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}
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return nil
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}
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func (a *AnalyzedSchema) inferArray() error {
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// an array has Items defined as an object schema, otherwise we qualify this JSON array as a tuple
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// (yes, even if the Items array contains only one element).
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// arrays in JSON schema may be unrestricted (i.e no Items specified).
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// Note that arrays in Swagger MUST have Items. Nonetheless, we analyze unrestricted arrays.
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//
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// NOTE: the spec package misses the distinction between:
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// items: [] and items: {}, so we consider both arrays here.
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a.IsArray = a.isArrayType() && (a.schema.Items == nil || a.schema.Items.Schemas == nil)
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if a.IsArray && a.hasItems {
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if a.schema.Items.Schema != nil {
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itsch, err := Schema(SchemaOpts{
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Schema: a.schema.Items.Schema,
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Root: a.root,
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BasePath: a.basePath,
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})
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if err != nil {
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return err
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}
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a.IsSimpleArray = itsch.IsSimpleSchema
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}
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}
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if a.IsArray && !a.hasItems {
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a.IsSimpleArray = true
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}
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return nil
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}
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func (a *AnalyzedSchema) inferTuple() {
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tuple := a.hasItems && a.schema.Items.Schemas != nil
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a.IsTuple = tuple && !a.hasAdditionalItems
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a.IsTupleWithExtra = tuple && a.hasAdditionalItems
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}
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func (a *AnalyzedSchema) inferBaseType() {
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if a.isObjectType() {
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a.IsBaseType = a.schema.Discriminator != ""
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}
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}
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func (a *AnalyzedSchema) inferEnum() {
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a.IsEnum = len(a.schema.Enum) > 0
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}
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func (a *AnalyzedSchema) initializeFlags() {
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a.hasProps = len(a.schema.Properties) > 0
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a.hasAllOf = len(a.schema.AllOf) > 0
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a.hasRef = a.schema.Ref.String() != ""
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a.hasItems = a.schema.Items != nil &&
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(a.schema.Items.Schema != nil || len(a.schema.Items.Schemas) > 0)
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a.hasAdditionalProps = a.schema.AdditionalProperties != nil &&
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(a.schema.AdditionalProperties.Schema != nil || a.schema.AdditionalProperties.Allows)
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a.hasAdditionalItems = a.schema.AdditionalItems != nil &&
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(a.schema.AdditionalItems.Schema != nil || a.schema.AdditionalItems.Allows)
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}
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func (a *AnalyzedSchema) isObjectType() bool {
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return !a.hasRef && (a.schema.Type == nil || a.schema.Type.Contains("") || a.schema.Type.Contains("object"))
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}
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func (a *AnalyzedSchema) isArrayType() bool {
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return !a.hasRef && (a.schema.Type != nil && a.schema.Type.Contains("array"))
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}
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// isAnalyzedAsComplex determines if an analyzed schema is eligible to flattening (i.e. it is "complex").
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//
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// Complex means the schema is any of:
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// - a simple type (primitive)
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// - an array of something (items are possibly complex ; if this is the case, items will generate a definition)
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// - a map of something (additionalProperties are possibly complex ; if this is the case, additionalProperties will
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// generate a definition)
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func (a *AnalyzedSchema) isAnalyzedAsComplex() bool {
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return !a.IsSimpleSchema && !a.IsArray && !a.IsMap
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}
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