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d2b974829d68138f2263f652c13a9513a9c9600a
libopenapi/datamodel/low/model_builder.go
Dave Shanley d2b974829d Swagger v2 high model at 100% coverage.
2022-09-11 21:09:16 -04:00

434 lines
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// Copyright 2022 Princess B33f Heavy Industries / Dave Shanley
// SPDX-License-Identifier: MIT
package low
import (
"fmt"
"github.com/pb33f/libopenapi/utils"
"gopkg.in/yaml.v3"
"reflect"
"strconv"
"sync"
)
func BuildModel(node *yaml.Node, model interface{}) error {
if node == nil {
return nil
}
if reflect.ValueOf(model).Type().Kind() != reflect.Pointer {
return fmt.Errorf("cannot build model on non-pointer: %v", reflect.ValueOf(model).Type().Kind())
}
v := reflect.ValueOf(model).Elem()
num := v.NumField()
for i := 0; i < num; i++ {
fName := v.Type().Field(i).Name
if fName == "Extensions" {
continue // internal construct
}
if fName == "PathItems" {
continue // internal construct
}
// we need to find a matching field in the YAML, the cases may be off, so take no chances.
cases := []utils.Case{utils.CamelCase, utils.PascalCase, utils.ScreamingSnakeCase,
utils.SnakeCase, utils.KebabCase, utils.RegularCase}
var vn, kn *yaml.Node
for _, tryCase := range cases {
kn, vn = utils.FindKeyNode(utils.ConvertCase(fName, tryCase), node.Content)
if vn != nil {
break
}
}
if vn == nil {
// no point in going on.
continue
}
field := v.FieldByName(fName)
kind := field.Kind()
switch kind {
case reflect.Struct, reflect.Slice, reflect.Map, reflect.Pointer:
err := SetField(field, vn, kn)
if err != nil {
return err
}
default:
return fmt.Errorf("unable to parse unsupported type: %v", kind)
}
}
return nil
}
func SetField(field reflect.Value, valueNode *yaml.Node, keyNode *yaml.Node) error {
switch field.Type() {
case reflect.TypeOf(map[string]NodeReference[any]{}):
if valueNode != nil {
if utils.IsNodeMap(valueNode) {
if field.CanSet() {
items := make(map[string]NodeReference[any])
var currentLabel string
for i, sliceItem := range valueNode.Content {
if i%2 == 0 {
currentLabel = sliceItem.Value
continue
}
var decoded map[string]interface{}
// I cannot think of a way to make this error out by this point.
_ = sliceItem.Decode(&decoded)
items[currentLabel] = NodeReference[any]{
Value: decoded,
ValueNode: sliceItem,
KeyNode: valueNode,
}
}
field.Set(reflect.ValueOf(items))
}
}
}
break
case reflect.TypeOf(map[string]NodeReference[string]{}):
if valueNode != nil {
if utils.IsNodeMap(valueNode) {
if field.CanSet() {
items := make(map[string]NodeReference[string])
var currentLabel string
for i, sliceItem := range valueNode.Content {
if i%2 == 0 {
currentLabel = sliceItem.Value
continue
}
items[currentLabel] = NodeReference[string]{
Value: fmt.Sprintf("%v", sliceItem.Value),
ValueNode: sliceItem,
KeyNode: valueNode,
}
}
field.Set(reflect.ValueOf(items))
}
}
}
break
case reflect.TypeOf(NodeReference[any]{}):
if valueNode != nil {
var decoded interface{}
_ = valueNode.Decode(&decoded)
if utils.IsNodeMap(valueNode) {
if field.CanSet() {
or := NodeReference[any]{Value: decoded, ValueNode: valueNode}
field.Set(reflect.ValueOf(or))
}
}
}
break
case reflect.TypeOf([]NodeReference[any]{}):
if valueNode != nil {
if utils.IsNodeArray(valueNode) {
if field.CanSet() {
var items []NodeReference[any]
for _, sliceItem := range valueNode.Content {
var decoded map[string]interface{}
err := sliceItem.Decode(&decoded)
if err != nil {
return err
}
items = append(items, NodeReference[any]{
Value: decoded,
ValueNode: sliceItem,
KeyNode: valueNode,
})
}
field.Set(reflect.ValueOf(items))
}
}
}
break
case reflect.TypeOf(NodeReference[string]{}):
if valueNode != nil {
if field.CanSet() {
nr := NodeReference[string]{
Value: fmt.Sprintf("%v", valueNode.Value),
ValueNode: valueNode,
KeyNode: keyNode,
}
field.Set(reflect.ValueOf(nr))
}
}
break
case reflect.TypeOf(NodeReference[bool]{}):
if valueNode != nil {
if utils.IsNodeBoolValue(valueNode) {
if field.CanSet() {
bv, _ := strconv.ParseBool(valueNode.Value)
nr := NodeReference[bool]{
Value: bv,
ValueNode: valueNode,
KeyNode: keyNode,
}
field.Set(reflect.ValueOf(nr))
}
}
}
break
case reflect.TypeOf(NodeReference[int]{}):
if valueNode != nil {
if utils.IsNodeIntValue(valueNode) {
if field.CanSet() {
fv, _ := strconv.Atoi(valueNode.Value)
nr := NodeReference[int]{
Value: fv,
ValueNode: valueNode,
KeyNode: keyNode,
}
field.Set(reflect.ValueOf(nr))
}
}
}
break
case reflect.TypeOf(NodeReference[int64]{}):
if valueNode != nil {
if utils.IsNodeIntValue(valueNode) || utils.IsNodeFloatValue(valueNode) { //
if field.CanSet() {
fv, _ := strconv.ParseInt(valueNode.Value, 10, 64)
nr := NodeReference[int64]{
Value: fv,
ValueNode: valueNode,
KeyNode: keyNode,
}
field.Set(reflect.ValueOf(nr))
}
}
}
break
case reflect.TypeOf(NodeReference[float32]{}):
if valueNode != nil {
if utils.IsNodeFloatValue(valueNode) {
if field.CanSet() {
fv, _ := strconv.ParseFloat(valueNode.Value, 32)
nr := NodeReference[float32]{
Value: float32(fv),
ValueNode: valueNode,
KeyNode: keyNode,
}
field.Set(reflect.ValueOf(nr))
}
}
}
break
case reflect.TypeOf(NodeReference[float64]{}):
if valueNode != nil {
if utils.IsNodeFloatValue(valueNode) {
if field.CanSet() {
fv, _ := strconv.ParseFloat(valueNode.Value, 64)
nr := NodeReference[float64]{
Value: fv,
ValueNode: valueNode,
KeyNode: keyNode,
}
field.Set(reflect.ValueOf(nr))
}
}
}
break
case reflect.TypeOf([]NodeReference[string]{}):
if valueNode != nil {
if utils.IsNodeArray(valueNode) {
if field.CanSet() {
var items []NodeReference[string]
for _, sliceItem := range valueNode.Content {
items = append(items, NodeReference[string]{
Value: sliceItem.Value,
ValueNode: sliceItem,
KeyNode: valueNode,
})
}
field.Set(reflect.ValueOf(items))
}
}
}
break
case reflect.TypeOf([]NodeReference[float32]{}):
if valueNode != nil {
if utils.IsNodeArray(valueNode) {
if field.CanSet() {
var items []NodeReference[float32]
for _, sliceItem := range valueNode.Content {
fv, _ := strconv.ParseFloat(sliceItem.Value, 32)
items = append(items, NodeReference[float32]{
Value: float32(fv),
ValueNode: sliceItem,
KeyNode: valueNode,
})
}
field.Set(reflect.ValueOf(items))
}
}
}
break
case reflect.TypeOf([]NodeReference[float64]{}):
if valueNode != nil {
if utils.IsNodeArray(valueNode) {
if field.CanSet() {
var items []NodeReference[float64]
for _, sliceItem := range valueNode.Content {
fv, _ := strconv.ParseFloat(sliceItem.Value, 64)
items = append(items, NodeReference[float64]{Value: fv, ValueNode: sliceItem})
}
field.Set(reflect.ValueOf(items))
}
}
}
break
case reflect.TypeOf([]NodeReference[int]{}):
if valueNode != nil {
if utils.IsNodeArray(valueNode) {
if field.CanSet() {
var items []NodeReference[int]
for _, sliceItem := range valueNode.Content {
iv, _ := strconv.Atoi(sliceItem.Value)
items = append(items, NodeReference[int]{
Value: iv,
ValueNode: sliceItem,
KeyNode: valueNode,
})
}
field.Set(reflect.ValueOf(items))
}
}
}
break
case reflect.TypeOf([]NodeReference[int64]{}):
if valueNode != nil {
if utils.IsNodeArray(valueNode) {
if field.CanSet() {
var items []NodeReference[int64]
for _, sliceItem := range valueNode.Content {
iv, _ := strconv.ParseInt(sliceItem.Value, 10, 64)
items = append(items, NodeReference[int64]{
Value: iv,
ValueNode: sliceItem,
KeyNode: valueNode,
})
}
field.Set(reflect.ValueOf(items))
}
}
}
break
case reflect.TypeOf([]NodeReference[bool]{}):
if valueNode != nil {
if utils.IsNodeArray(valueNode) {
if field.CanSet() {
var items []NodeReference[bool]
for _, sliceItem := range valueNode.Content {
bv, _ := strconv.ParseBool(sliceItem.Value)
items = append(items, NodeReference[bool]{
Value: bv,
ValueNode: sliceItem,
KeyNode: valueNode,
})
}
field.Set(reflect.ValueOf(items))
}
}
}
break
// helper for unpacking string maps.
case reflect.TypeOf(map[KeyReference[string]]ValueReference[string]{}):
if valueNode != nil {
if utils.IsNodeMap(valueNode) {
if field.CanSet() {
items := make(map[KeyReference[string]]ValueReference[string])
var cf *yaml.Node
for i, sliceItem := range valueNode.Content {
if i%2 == 0 {
cf = sliceItem
continue
}
items[KeyReference[string]{
Value: cf.Value,
KeyNode: cf,
}] = ValueReference[string]{
Value: sliceItem.Value,
ValueNode: sliceItem,
}
}
field.Set(reflect.ValueOf(items))
}
}
}
case reflect.TypeOf(KeyReference[map[KeyReference[string]]ValueReference[string]]{}):
if valueNode != nil {
if utils.IsNodeMap(valueNode) {
if field.CanSet() {
items := make(map[KeyReference[string]]ValueReference[string])
var cf *yaml.Node
for i, sliceItem := range valueNode.Content {
if i%2 == 0 {
cf = sliceItem
continue
}
items[KeyReference[string]{
Value: cf.Value,
KeyNode: cf,
}] = ValueReference[string]{
Value: sliceItem.Value,
ValueNode: sliceItem,
}
}
ref := KeyReference[map[KeyReference[string]]ValueReference[string]]{
Value: items,
KeyNode: keyNode,
}
field.Set(reflect.ValueOf(ref))
}
}
}
case reflect.TypeOf(NodeReference[[]ValueReference[string]]{}):
if valueNode != nil {
if utils.IsNodeArray(valueNode) {
if field.CanSet() {
var items []ValueReference[string]
for _, sliceItem := range valueNode.Content {
items = append(items, ValueReference[string]{
Value: sliceItem.Value,
ValueNode: sliceItem,
})
}
n := NodeReference[[]ValueReference[string]]{
Value: items,
KeyNode: keyNode,
ValueNode: valueNode,
}
field.Set(reflect.ValueOf(n))
}
}
}
default:
// we want to ignore everything else, each model handles its own complex types.
break
}
return nil
}
func BuildModelAsync(n *yaml.Node, model interface{}, lwg *sync.WaitGroup, errors *[]error) {
if n != nil {
err := BuildModel(n, model)
if err != nil {
*errors = append(*errors, err)
}
}
lwg.Done()
}
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