gotosocial/vendor/github.com/go-openapi/analysis/flatten_options.go

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package analysis
import (
"log"
"github.com/go-openapi/spec"
)
// FlattenOpts configuration for flattening a swagger specification.
//
// The BasePath parameter is used to locate remote relative $ref found in the specification.
// This path is a file: it points to the location of the root document and may be either a local
// file path or a URL.
//
// If none specified, relative references (e.g. "$ref": "folder/schema.yaml#/definitions/...")
// found in the spec are searched from the current working directory.
type FlattenOpts struct {
Spec *Spec // The analyzed spec to work with
flattenContext *context // Internal context to track flattening activity
BasePath string // The location of the root document for this spec to resolve relative $ref
// Flattening options
Expand bool // When true, skip flattening the spec and expand it instead (if Minimal is false)
Minimal bool // When true, do not decompose complex structures such as allOf
Verbose bool // enable some reporting on possible name conflicts detected
RemoveUnused bool // When true, remove unused parameters, responses and definitions after expansion/flattening
ContinueOnError bool // Continue when spec expansion issues are found
KeepNames bool // Do not attempt to jsonify names from references when flattening
/* Extra keys */
_ struct{} // require keys
}
// ExpandOpts creates a spec.ExpandOptions to configure expanding a specification document.
func (f *FlattenOpts) ExpandOpts(skipSchemas bool) *spec.ExpandOptions {
return &spec.ExpandOptions{
RelativeBase: f.BasePath,
SkipSchemas: skipSchemas,
ContinueOnError: f.ContinueOnError,
}
}
// Swagger gets the swagger specification for this flatten operation
func (f *FlattenOpts) Swagger() *spec.Swagger {
return f.Spec.spec
}
// croak logs notifications and warnings about valid, but possibly unwanted constructs resulting
// from flattening a spec
func (f *FlattenOpts) croak() {
if !f.Verbose {
return
}
reported := make(map[string]bool, len(f.flattenContext.newRefs))
for _, v := range f.Spec.references.allRefs {
// warns about duplicate handling
for _, r := range f.flattenContext.newRefs {
if r.isOAIGen && r.path == v.String() {
reported[r.newName] = true
}
}
}
for k := range reported {
log.Printf("warning: duplicate flattened definition name resolved as %s", k)
}
// warns about possible type mismatches
uniqueMsg := make(map[string]bool)
for _, msg := range f.flattenContext.warnings {
if _, ok := uniqueMsg[msg]; ok {
continue
}
log.Printf("warning: %s", msg)
uniqueMsg[msg] = true
}
}