494 lines
13 KiB
Go
494 lines
13 KiB
Go
package gophercloud
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import (
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"encoding/json"
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"fmt"
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"net/url"
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"reflect"
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"strconv"
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"strings"
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"time"
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)
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/*
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BuildRequestBody builds a map[string]interface from the given `struct`. If
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parent is not an empty string, the final map[string]interface returned will
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encapsulate the built one. For example:
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disk := 1
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createOpts := flavors.CreateOpts{
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ID: "1",
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Name: "m1.tiny",
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Disk: &disk,
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RAM: 512,
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VCPUs: 1,
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RxTxFactor: 1.0,
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}
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body, err := gophercloud.BuildRequestBody(createOpts, "flavor")
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The above example can be run as-is, however it is recommended to look at how
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BuildRequestBody is used within Gophercloud to more fully understand how it
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fits within the request process as a whole rather than use it directly as shown
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above.
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*/
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func BuildRequestBody(opts interface{}, parent string) (map[string]interface{}, error) {
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optsValue := reflect.ValueOf(opts)
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if optsValue.Kind() == reflect.Ptr {
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optsValue = optsValue.Elem()
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}
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optsType := reflect.TypeOf(opts)
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if optsType.Kind() == reflect.Ptr {
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optsType = optsType.Elem()
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}
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optsMap := make(map[string]interface{})
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if optsValue.Kind() == reflect.Struct {
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//fmt.Printf("optsValue.Kind() is a reflect.Struct: %+v\n", optsValue.Kind())
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for i := 0; i < optsValue.NumField(); i++ {
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v := optsValue.Field(i)
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f := optsType.Field(i)
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if f.Name != strings.Title(f.Name) {
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//fmt.Printf("Skipping field: %s...\n", f.Name)
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continue
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}
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//fmt.Printf("Starting on field: %s...\n", f.Name)
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zero := isZero(v)
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//fmt.Printf("v is zero?: %v\n", zero)
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// if the field has a required tag that's set to "true"
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if requiredTag := f.Tag.Get("required"); requiredTag == "true" {
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//fmt.Printf("Checking required field [%s]:\n\tv: %+v\n\tisZero:%v\n", f.Name, v.Interface(), zero)
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// if the field's value is zero, return a missing-argument error
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if zero {
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// if the field has a 'required' tag, it can't have a zero-value
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err := ErrMissingInput{}
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err.Argument = f.Name
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return nil, err
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}
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}
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if xorTag := f.Tag.Get("xor"); xorTag != "" {
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//fmt.Printf("Checking `xor` tag for field [%s] with value %+v:\n\txorTag: %s\n", f.Name, v, xorTag)
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xorField := optsValue.FieldByName(xorTag)
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var xorFieldIsZero bool
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if reflect.ValueOf(xorField.Interface()) == reflect.Zero(xorField.Type()) {
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xorFieldIsZero = true
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} else {
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if xorField.Kind() == reflect.Ptr {
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xorField = xorField.Elem()
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}
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xorFieldIsZero = isZero(xorField)
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}
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if !(zero != xorFieldIsZero) {
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err := ErrMissingInput{}
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err.Argument = fmt.Sprintf("%s/%s", f.Name, xorTag)
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err.Info = fmt.Sprintf("Exactly one of %s and %s must be provided", f.Name, xorTag)
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return nil, err
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}
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}
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if orTag := f.Tag.Get("or"); orTag != "" {
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//fmt.Printf("Checking `or` tag for field with:\n\tname: %+v\n\torTag:%s\n", f.Name, orTag)
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//fmt.Printf("field is zero?: %v\n", zero)
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if zero {
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orField := optsValue.FieldByName(orTag)
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var orFieldIsZero bool
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if reflect.ValueOf(orField.Interface()) == reflect.Zero(orField.Type()) {
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orFieldIsZero = true
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} else {
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if orField.Kind() == reflect.Ptr {
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orField = orField.Elem()
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}
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orFieldIsZero = isZero(orField)
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}
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if orFieldIsZero {
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err := ErrMissingInput{}
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err.Argument = fmt.Sprintf("%s/%s", f.Name, orTag)
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err.Info = fmt.Sprintf("At least one of %s and %s must be provided", f.Name, orTag)
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return nil, err
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}
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}
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}
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jsonTag := f.Tag.Get("json")
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if jsonTag == "-" {
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continue
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}
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if v.Kind() == reflect.Slice || (v.Kind() == reflect.Ptr && v.Elem().Kind() == reflect.Slice) {
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sliceValue := v
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if sliceValue.Kind() == reflect.Ptr {
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sliceValue = sliceValue.Elem()
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}
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for i := 0; i < sliceValue.Len(); i++ {
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element := sliceValue.Index(i)
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if element.Kind() == reflect.Struct || (element.Kind() == reflect.Ptr && element.Elem().Kind() == reflect.Struct) {
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_, err := BuildRequestBody(element.Interface(), "")
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if err != nil {
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return nil, err
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}
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}
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}
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}
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if v.Kind() == reflect.Struct || (v.Kind() == reflect.Ptr && v.Elem().Kind() == reflect.Struct) {
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if zero {
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//fmt.Printf("value before change: %+v\n", optsValue.Field(i))
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if jsonTag != "" {
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jsonTagPieces := strings.Split(jsonTag, ",")
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if len(jsonTagPieces) > 1 && jsonTagPieces[1] == "omitempty" {
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if v.CanSet() {
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if !v.IsNil() {
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if v.Kind() == reflect.Ptr {
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v.Set(reflect.Zero(v.Type()))
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}
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}
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//fmt.Printf("value after change: %+v\n", optsValue.Field(i))
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}
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}
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}
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continue
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}
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//fmt.Printf("Calling BuildRequestBody with:\n\tv: %+v\n\tf.Name:%s\n", v.Interface(), f.Name)
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_, err := BuildRequestBody(v.Interface(), f.Name)
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if err != nil {
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return nil, err
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}
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}
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}
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//fmt.Printf("opts: %+v \n", opts)
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b, err := json.Marshal(opts)
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if err != nil {
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return nil, err
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}
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//fmt.Printf("string(b): %s\n", string(b))
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err = json.Unmarshal(b, &optsMap)
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if err != nil {
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return nil, err
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}
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//fmt.Printf("optsMap: %+v\n", optsMap)
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if parent != "" {
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optsMap = map[string]interface{}{parent: optsMap}
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}
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//fmt.Printf("optsMap after parent added: %+v\n", optsMap)
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return optsMap, nil
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}
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// Return an error if the underlying type of 'opts' isn't a struct.
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return nil, fmt.Errorf("Options type is not a struct.")
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}
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// EnabledState is a convenience type, mostly used in Create and Update
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// operations. Because the zero value of a bool is FALSE, we need to use a
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// pointer instead to indicate zero-ness.
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type EnabledState *bool
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// Convenience vars for EnabledState values.
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var (
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iTrue = true
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iFalse = false
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Enabled EnabledState = &iTrue
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Disabled EnabledState = &iFalse
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)
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// IPVersion is a type for the possible IP address versions. Valid instances
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// are IPv4 and IPv6
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type IPVersion int
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const (
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// IPv4 is used for IP version 4 addresses
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IPv4 IPVersion = 4
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// IPv6 is used for IP version 6 addresses
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IPv6 IPVersion = 6
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)
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// IntToPointer is a function for converting integers into integer pointers.
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// This is useful when passing in options to operations.
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func IntToPointer(i int) *int {
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return &i
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}
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/*
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MaybeString is an internal function to be used by request methods in individual
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resource packages.
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It takes a string that might be a zero value and returns either a pointer to its
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address or nil. This is useful for allowing users to conveniently omit values
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from an options struct by leaving them zeroed, but still pass nil to the JSON
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serializer so they'll be omitted from the request body.
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*/
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func MaybeString(original string) *string {
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if original != "" {
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return &original
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}
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return nil
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}
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/*
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MaybeInt is an internal function to be used by request methods in individual
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resource packages.
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Like MaybeString, it accepts an int that may or may not be a zero value, and
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returns either a pointer to its address or nil. It's intended to hint that the
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JSON serializer should omit its field.
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*/
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func MaybeInt(original int) *int {
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if original != 0 {
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return &original
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}
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return nil
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}
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/*
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func isUnderlyingStructZero(v reflect.Value) bool {
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switch v.Kind() {
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case reflect.Ptr:
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return isUnderlyingStructZero(v.Elem())
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default:
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return isZero(v)
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}
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}
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*/
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var t time.Time
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func isZero(v reflect.Value) bool {
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//fmt.Printf("\n\nchecking isZero for value: %+v\n", v)
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switch v.Kind() {
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case reflect.Ptr:
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if v.IsNil() {
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return true
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}
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return false
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case reflect.Func, reflect.Map, reflect.Slice:
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return v.IsNil()
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case reflect.Array:
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z := true
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for i := 0; i < v.Len(); i++ {
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z = z && isZero(v.Index(i))
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}
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return z
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case reflect.Struct:
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if v.Type() == reflect.TypeOf(t) {
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if v.Interface().(time.Time).IsZero() {
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return true
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}
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return false
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}
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z := true
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for i := 0; i < v.NumField(); i++ {
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z = z && isZero(v.Field(i))
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}
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return z
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}
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// Compare other types directly:
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z := reflect.Zero(v.Type())
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//fmt.Printf("zero type for value: %+v\n\n\n", z)
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return v.Interface() == z.Interface()
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}
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/*
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BuildQueryString is an internal function to be used by request methods in
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individual resource packages.
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It accepts a tagged structure and expands it into a URL struct. Field names are
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converted into query parameters based on a "q" tag. For example:
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type struct Something {
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Bar string `q:"x_bar"`
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Baz int `q:"lorem_ipsum"`
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}
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instance := Something{
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Bar: "AAA",
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Baz: "BBB",
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}
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will be converted into "?x_bar=AAA&lorem_ipsum=BBB".
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The struct's fields may be strings, integers, or boolean values. Fields left at
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their type's zero value will be omitted from the query.
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*/
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func BuildQueryString(opts interface{}) (*url.URL, error) {
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optsValue := reflect.ValueOf(opts)
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if optsValue.Kind() == reflect.Ptr {
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optsValue = optsValue.Elem()
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}
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optsType := reflect.TypeOf(opts)
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if optsType.Kind() == reflect.Ptr {
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optsType = optsType.Elem()
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}
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params := url.Values{}
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if optsValue.Kind() == reflect.Struct {
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for i := 0; i < optsValue.NumField(); i++ {
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v := optsValue.Field(i)
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f := optsType.Field(i)
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qTag := f.Tag.Get("q")
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// if the field has a 'q' tag, it goes in the query string
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if qTag != "" {
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tags := strings.Split(qTag, ",")
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// if the field is set, add it to the slice of query pieces
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if !isZero(v) {
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loop:
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switch v.Kind() {
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case reflect.Ptr:
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v = v.Elem()
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goto loop
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case reflect.String:
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params.Add(tags[0], v.String())
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case reflect.Int:
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params.Add(tags[0], strconv.FormatInt(v.Int(), 10))
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case reflect.Bool:
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params.Add(tags[0], strconv.FormatBool(v.Bool()))
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case reflect.Slice:
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switch v.Type().Elem() {
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case reflect.TypeOf(0):
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for i := 0; i < v.Len(); i++ {
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params.Add(tags[0], strconv.FormatInt(v.Index(i).Int(), 10))
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}
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default:
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for i := 0; i < v.Len(); i++ {
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params.Add(tags[0], v.Index(i).String())
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}
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}
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case reflect.Map:
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if v.Type().Key().Kind() == reflect.String && v.Type().Elem().Kind() == reflect.String {
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var s []string
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for _, k := range v.MapKeys() {
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value := v.MapIndex(k).String()
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s = append(s, fmt.Sprintf("'%s':'%s'", k.String(), value))
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}
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params.Add(tags[0], fmt.Sprintf("{%s}", strings.Join(s, ", ")))
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}
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}
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} else {
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// if the field has a 'required' tag, it can't have a zero-value
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if requiredTag := f.Tag.Get("required"); requiredTag == "true" {
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return &url.URL{}, fmt.Errorf("Required query parameter [%s] not set.", f.Name)
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}
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}
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}
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}
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return &url.URL{RawQuery: params.Encode()}, nil
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}
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// Return an error if the underlying type of 'opts' isn't a struct.
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return nil, fmt.Errorf("Options type is not a struct.")
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}
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/*
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BuildHeaders is an internal function to be used by request methods in
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individual resource packages.
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It accepts an arbitrary tagged structure and produces a string map that's
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suitable for use as the HTTP headers of an outgoing request. Field names are
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mapped to header names based in "h" tags.
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type struct Something {
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Bar string `h:"x_bar"`
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Baz int `h:"lorem_ipsum"`
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}
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instance := Something{
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Bar: "AAA",
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Baz: "BBB",
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}
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will be converted into:
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map[string]string{
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"x_bar": "AAA",
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"lorem_ipsum": "BBB",
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}
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Untagged fields and fields left at their zero values are skipped. Integers,
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booleans and string values are supported.
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*/
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func BuildHeaders(opts interface{}) (map[string]string, error) {
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optsValue := reflect.ValueOf(opts)
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if optsValue.Kind() == reflect.Ptr {
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optsValue = optsValue.Elem()
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}
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optsType := reflect.TypeOf(opts)
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if optsType.Kind() == reflect.Ptr {
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optsType = optsType.Elem()
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}
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optsMap := make(map[string]string)
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if optsValue.Kind() == reflect.Struct {
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for i := 0; i < optsValue.NumField(); i++ {
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v := optsValue.Field(i)
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f := optsType.Field(i)
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hTag := f.Tag.Get("h")
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// if the field has a 'h' tag, it goes in the header
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if hTag != "" {
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tags := strings.Split(hTag, ",")
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// if the field is set, add it to the slice of query pieces
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if !isZero(v) {
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switch v.Kind() {
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case reflect.String:
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optsMap[tags[0]] = v.String()
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case reflect.Int:
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optsMap[tags[0]] = strconv.FormatInt(v.Int(), 10)
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case reflect.Int64:
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optsMap[tags[0]] = strconv.FormatInt(v.Int(), 10)
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case reflect.Bool:
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optsMap[tags[0]] = strconv.FormatBool(v.Bool())
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}
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} else {
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// if the field has a 'required' tag, it can't have a zero-value
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if requiredTag := f.Tag.Get("required"); requiredTag == "true" {
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return optsMap, fmt.Errorf("Required header [%s] not set.", f.Name)
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}
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}
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}
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}
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return optsMap, nil
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}
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// Return an error if the underlying type of 'opts' isn't a struct.
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return optsMap, fmt.Errorf("Options type is not a struct.")
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}
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// IDSliceToQueryString takes a slice of elements and converts them into a query
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// string. For example, if name=foo and slice=[]int{20, 40, 60}, then the
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// result would be `?name=20&name=40&name=60'
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func IDSliceToQueryString(name string, ids []int) string {
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str := ""
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for k, v := range ids {
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if k == 0 {
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str += "?"
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} else {
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str += "&"
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}
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str += fmt.Sprintf("%s=%s", name, strconv.Itoa(v))
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}
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return str
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}
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// IntWithinRange returns TRUE if an integer falls within a defined range, and
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// FALSE if not.
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func IntWithinRange(val, min, max int) bool {
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return val > min && val < max
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}
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