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object.go
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object.go
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package httpexpect
import (
"reflect"
)
// Object provides methods to inspect attached map[string]interface{} object
// (Go representation of JSON object).
type Object struct {
chain chain
value map[string]interface{}
}
// NewObject returns a new Object given a reporter used to report failures
// and value to be inspected.
//
// Both reporter and value should not be nil. If value is nil, failure is
// reported.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123})
func NewObject(reporter Reporter, value map[string]interface{}) *Object {
chain := makeChain(reporter)
if value == nil {
chain.fail("expected non-nil map value")
} else {
value, _ = canonMap(&chain, value)
}
return &Object{chain, value}
}
// Raw returns underlying value attached to Object.
// This is the value originally passed to NewObject, converted to canonical form.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123})
// assert.Equal(t, map[string]interface{}{"foo": 123.0}, object.Raw())
func (o *Object) Raw() map[string]interface{} {
return o.value
}
// Path is similar to Value.Path.
func (o *Object) Path(path string) *Value {
return getPath(&o.chain, o.value, path)
}
// Schema is similar to Value.Schema.
func (o *Object) Schema(schema interface{}) *Object {
checkSchema(&o.chain, o.value, schema)
return o
}
// Keys returns a new Array object that may be used to inspect objects keys.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123, "bar": 456})
// object.Keys().ContainsOnly("foo", "bar")
func (o *Object) Keys() *Array {
keys := []interface{}{}
for k := range o.value {
keys = append(keys, k)
}
return &Array{o.chain, keys}
}
// Values returns a new Array object that may be used to inspect objects values.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123, "bar": 456})
// object.Values().ContainsOnly(123, 456)
func (o *Object) Values() *Array {
values := []interface{}{}
for _, v := range o.value {
values = append(values, v)
}
return &Array{o.chain, values}
}
// Value returns a new Value object that may be used to inspect single value
// for given key.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123})
// object.Value("foo").Number().Equal(123)
func (o *Object) Value(key string) *Value {
value, ok := o.value[key]
if !ok {
o.chain.fail("\nexpected object containing key '%s', but got:\n%s",
key, dumpValue(o.value))
return &Value{o.chain, nil}
}
return &Value{o.chain, value}
}
// Empty succeeds if object is empty.
//
// Example:
// object := NewObject(t, map[string]interface{}{})
// object.Empty()
func (o *Object) Empty() *Object {
return o.Equal(map[string]interface{}{})
}
// NotEmpty succeeds if object is non-empty.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123})
// object.NotEmpty()
func (o *Object) NotEmpty() *Object {
return o.NotEqual(map[string]interface{}{})
}
// Equal succeeds if object is equal to another object.
// Before comparison, both objects are converted to canonical form.
//
// value should map[string]interface{} or struct.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123})
// object.Equal(map[string]interface{}{"foo": 123})
func (o *Object) Equal(value interface{}) *Object {
expected, ok := canonMap(&o.chain, value)
if !ok {
return o
}
if !reflect.DeepEqual(expected, o.value) {
o.chain.fail("\nexpected object equal to:\n%s\n\nbut got:\n%s\n\ndiff:\n%s",
dumpValue(expected),
dumpValue(o.value),
diffValues(expected, o.value))
}
return o
}
// NotEqual succeeds if object is not equal to another object.
// Before comparison, both objects are converted to canonical form.
//
// value should map[string]interface{} or struct.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123})
// object.Equal(map[string]interface{}{"bar": 123})
func (o *Object) NotEqual(v interface{}) *Object {
expected, ok := canonMap(&o.chain, v)
if !ok {
return o
}
if reflect.DeepEqual(expected, o.value) {
o.chain.fail("\nexpected object not equal to:\n%s",
dumpValue(expected))
}
return o
}
// ContainsKey succeeds if object contains given key.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123})
// object.ContainsKey("foo")
func (o *Object) ContainsKey(key string) *Object {
if !o.containsKey(key) {
o.chain.fail("\nexpected object containing key '%s', but got:\n%s",
key, dumpValue(o.value))
}
return o
}
// NotContainsKey succeeds if object doesn't contain given key.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123})
// object.NotContainsKey("bar")
func (o *Object) NotContainsKey(key string) *Object {
if o.containsKey(key) {
o.chain.fail(
"\nexpected object not containing key '%s', but got:\n%s", key,
dumpValue(o.value))
}
return o
}
// ContainsMap succeeds if object contains given sub-object.
// Before comparison, both objects are converted to canonical form.
//
// value should map[string]interface{} or struct.
//
// Example:
// object := NewObject(t, map[string]interface{}{
// "foo": 123,
// "bar": []interface{}{"x", "y"},
// "bar": map[string]interface{}{
// "a": true,
// "b": false,
// },
// })
//
// object.ContainsMap(map[string]interface{}{ // success
// "foo": 123,
// "bar": map[string]interface{}{
// "a": true,
// },
// })
//
// object.ContainsMap(map[string]interface{}{ // failure
// "foo": 123,
// "qux": 456,
// })
//
// object.ContainsMap(map[string]interface{}{ // failure, slices should match exactly
// "bar": []interface{}{"x"},
// })
func (o *Object) ContainsMap(value interface{}) *Object {
if !o.containsMap(value) {
o.chain.fail("\nexpected object containing sub-object:\n%s\n\nbut got:\n%s",
dumpValue(value), dumpValue(o.value))
}
return o
}
// NotContainsMap succeeds if object doesn't contain given sub-object exactly.
// Before comparison, both objects are converted to canonical form.
//
// value should map[string]interface{} or struct.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123, "bar": 456})
// object.NotContainsMap(map[string]interface{}{"foo": 123, "bar": "no-no-no"})
func (o *Object) NotContainsMap(value interface{}) *Object {
if o.containsMap(value) {
o.chain.fail("\nexpected object not containing sub-object:\n%s\n\nbut got:\n%s",
dumpValue(value), dumpValue(o.value))
}
return o
}
// ValueEqual succeeds if object's value for given key is equal to given value.
// Before comparison, both values are converted to canonical form.
//
// value should map[string]interface{} or struct.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123})
// object.ValueEqual("foo", 123)
func (o *Object) ValueEqual(key string, value interface{}) *Object {
if !o.containsKey(key) {
o.chain.fail("\nexpected object containing key '%s', but got:\n%s",
key, dumpValue(o.value))
return o
}
expected, ok := canonValue(&o.chain, value)
if !ok {
return o
}
if !reflect.DeepEqual(expected, o.value[key]) {
o.chain.fail(
"\nexpected value for key '%s' equal to:\n%s\n\nbut got:\n%s\n\ndiff:\n%s",
key,
dumpValue(expected),
dumpValue(o.value[key]),
diffValues(expected, o.value[key]))
}
return o
}
// ValueNotEqual succeeds if object's value for given key is not equal to given value.
// Before comparison, both values are converted to canonical form.
//
// value should map[string]interface{} or struct.
//
// If object doesn't contain any value for given key, failure is reported.
//
// Example:
// object := NewObject(t, map[string]interface{}{"foo": 123})
// object.ValueNotEqual("foo", "bad value") // success
// object.ValueNotEqual("bar", "bad value") // failure! (key is missing)
func (o *Object) ValueNotEqual(key string, value interface{}) *Object {
if !o.containsKey(key) {
o.chain.fail("\nexpected object containing key '%s', but got:\n%s",
key, dumpValue(o.value))
return o
}
expected, ok := canonValue(&o.chain, value)
if !ok {
return o
}
if reflect.DeepEqual(expected, o.value[key]) {
o.chain.fail("\nexpected value for key '%s' not equal to:\n%s",
key, dumpValue(expected))
}
return o
}
func (o *Object) containsKey(key string) bool {
for k := range o.value {
if k == key {
return true
}
}
return false
}
func (o *Object) containsMap(sm interface{}) bool {
submap, ok := canonMap(&o.chain, sm)
if !ok {
return false
}
return checkContainsMap(o.value, submap)
}
func checkContainsMap(outer, inner map[string]interface{}) bool {
for k, iv := range inner {
ov, ok := outer[k]
if !ok {
return false
}
if ovm, ok := ov.(map[string]interface{}); ok {
if ivm, ok := iv.(map[string]interface{}); ok {
if !checkContainsMap(ovm, ivm) {
return false
}
continue
}
}
if !reflect.DeepEqual(ov, iv) {
return false
}
}
return true
}