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array.go
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array.go
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package httpexpect
import (
"errors"
"fmt"
"reflect"
)
// Array provides methods to inspect attached []interface{} object
// (Go representation of JSON array).
type Array struct {
noCopy noCopy
chain *chain
value []interface{}
}
// NewArray returns a new Array instance.
//
// If reporter is nil, the function panics.
// If value is nil, failure is reported.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", 123})
func NewArray(reporter Reporter, value []interface{}) *Array {
return newArray(newChainWithDefaults("Array()", reporter), value)
}
// NewArrayC returns a new Array instance with config.
//
// Requirements for config are same as for WithConfig function.
// If value is nil, failure is reported.
//
// Example:
//
// array := NewArrayC(config, []interface{}{"foo", 123})
func NewArrayC(config Config, value []interface{}) *Array {
return newArray(newChainWithConfig("Array()", config.withDefaults()), value)
}
func newArray(parent *chain, val []interface{}) *Array {
a := &Array{chain: parent.clone(), value: nil}
opChain := a.chain.enter("")
defer opChain.leave()
if val == nil {
opChain.fail(AssertionFailure{
Type: AssertNotNil,
Actual: &AssertionValue{val},
Errors: []error{
errors.New("expected: non-nil array"),
},
})
} else {
a.value, _ = canonArray(opChain, val)
}
return a
}
// Raw returns underlying value attached to Array.
// This is the value originally passed to NewArray, converted to canonical form.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", 123})
// assert.Equal(t, []interface{}{"foo", 123.0}, array.Raw())
func (a *Array) Raw() []interface{} {
return a.value
}
// Decode unmarshals the underlying value attached to the Array to a target variable.
// target should be one of these:
//
// - pointer to an empty interface
// - pointer to a slice of any type
//
// Example:
//
// type S struct{
// Foo int `json:foo`
// }
// value := []interface{}{
// map[string]interface{}{
// "foo": 123,
// },
// map[string]interface{}{
// "foo": 456,
// },
// }
// array := NewArray(t, value)
//
// var target []S
// arr.Decode(&target)
//
// assert.Equal(t, []S{{123}, {456}}, target)
func (a *Array) Decode(target interface{}) *Array {
opChain := a.chain.enter("Decode()")
defer opChain.leave()
if opChain.failed() {
return a
}
canonDecode(opChain, a.value, target)
return a
}
// Alias is similar to Value.Alias.
func (a *Array) Alias(name string) *Array {
opChain := a.chain.enter("Alias(%q)", name)
defer opChain.leave()
a.chain.setAlias(name)
return a
}
// Path is similar to Value.Path.
func (a *Array) Path(path string) *Value {
opChain := a.chain.enter("Path(%q)", path)
defer opChain.leave()
return jsonPath(opChain, a.value, path)
}
// Schema is similar to Value.Schema.
func (a *Array) Schema(schema interface{}) *Array {
opChain := a.chain.enter("Schema()")
defer opChain.leave()
jsonSchema(opChain, a.value, schema)
return a
}
// Length returns a new Number instance with array length.
//
// Example:
//
// array := NewArray(t, []interface{}{1, 2, 3})
// array.Length().IsEqual(3)
func (a *Array) Length() *Number {
opChain := a.chain.enter("Length()")
defer opChain.leave()
if opChain.failed() {
return newNumber(opChain, 0)
}
return newNumber(opChain, float64(len(a.value)))
}
// Value returns a new Value instance with array element for given index.
//
// If index is out of array bounds, Value reports failure and returns empty
// (but non-nil) instance.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", 123})
// array.Value(0).String().IsEqual("foo")
// array.Value(1).Number().IsEqual(123)
func (a *Array) Value(index int) *Value {
opChain := a.chain.enter("Value(%d)", index)
defer opChain.leave()
if opChain.failed() {
return newValue(opChain, nil)
}
if index < 0 || index >= len(a.value) {
opChain.fail(AssertionFailure{
Type: AssertInRange,
Actual: &AssertionValue{index},
Expected: &AssertionValue{AssertionRange{
Min: 0,
Max: len(a.value) - 1,
}},
Errors: []error{
errors.New("expected: valid element index"),
},
})
return newValue(opChain, nil)
}
return newValue(opChain, a.value[index])
}
// Deprecated: use Value instead.
func (a *Array) Element(index int) *Value {
return a.Value(index)
}
// HasValue succeeds if array's value at the given index is equal to given value.
//
// Before comparison, both values are converted to canonical form. value should be
// map[string]interface{} or struct.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", "123"})
// array.HasValue(1, 123)
func (a *Array) HasValue(index int, value interface{}) *Array {
opChain := a.chain.enter("HasValue(%d)", index)
defer opChain.leave()
if opChain.failed() {
return a
}
if index < 0 || index >= len(a.value) {
opChain.fail(AssertionFailure{
Type: AssertInRange,
Actual: &AssertionValue{index},
Expected: &AssertionValue{AssertionRange{
Min: 0,
Max: len(a.value) - 1,
}},
Errors: []error{
errors.New("expected: valid element index"),
},
})
return a
}
expected, ok := canonValue(opChain, value)
if !ok {
return a
}
if !reflect.DeepEqual(expected, a.value[index]) {
opChain.fail(AssertionFailure{
Type: AssertEqual,
Actual: &AssertionValue{a.value[index]},
Expected: &AssertionValue{value},
Errors: []error{
fmt.Errorf(
"expected: array value at index %d is equal to given value",
index),
},
})
return a
}
return a
}
// NotHasValue succeeds if array's value at the given index is not equal to given value.
//
// Before comparison, both values are converted to canonical form. value should be
// map[string]interface{} or struct.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", "123"})
// array.NotHasValue(1, 234)
func (a *Array) NotHasValue(index int, value interface{}) *Array {
opChain := a.chain.enter("NotHasValue(%d)", index)
defer opChain.leave()
if opChain.failed() {
return a
}
if index < 0 || index >= len(a.value) {
opChain.fail(AssertionFailure{
Type: AssertInRange,
Actual: &AssertionValue{index},
Expected: &AssertionValue{AssertionRange{
Min: 0,
Max: len(a.value) - 1,
}},
Errors: []error{
errors.New("expected: valid element index"),
},
})
return a
}
expected, ok := canonValue(opChain, value)
if !ok {
return a
}
if reflect.DeepEqual(expected, a.value[index]) {
opChain.fail(AssertionFailure{
Type: AssertNotEqual,
Actual: &AssertionValue{a.value[index]},
Expected: &AssertionValue{value},
Errors: []error{
fmt.Errorf(
"expected: array value at index %d is not equal to given value",
index),
},
})
return a
}
return a
}
// Deprecated: use Value or HasValue instead.
func (a *Array) First() *Value {
opChain := a.chain.enter("First()")
defer opChain.leave()
if opChain.failed() {
return newValue(opChain, nil)
}
if len(a.value) == 0 {
opChain.fail(AssertionFailure{
Type: AssertNotEmpty,
Actual: &AssertionValue{a.value},
Errors: []error{
errors.New("expected: non-empty array"),
},
})
return newValue(opChain, nil)
}
return newValue(opChain, a.value[0])
}
// Deprecated: use Value or HasValue instead.
func (a *Array) Last() *Value {
opChain := a.chain.enter("Last()")
defer opChain.leave()
if opChain.failed() {
return newValue(opChain, nil)
}
if len(a.value) == 0 {
opChain.fail(AssertionFailure{
Type: AssertNotEmpty,
Actual: &AssertionValue{a.value},
Errors: []error{
errors.New("expected: non-empty array"),
},
})
return newValue(opChain, nil)
}
return newValue(opChain, a.value[len(a.value)-1])
}
// Iter returns a new slice of Values attached to array elements.
//
// Example:
//
// strings := []interface{}{"foo", "bar"}
// array := NewArray(t, strings)
//
// for index, value := range array.Iter() {
// value.String().IsEqual(strings[index])
// }
func (a *Array) Iter() []Value {
opChain := a.chain.enter("Iter()")
defer opChain.leave()
if opChain.failed() {
return []Value{}
}
ret := []Value{}
for index, element := range a.value {
func() {
valueChain := opChain.replace("Iter[%d]", index)
defer valueChain.leave()
ret = append(ret, *newValue(valueChain, element))
}()
}
return ret
}
// Every runs the passed function on all the elements in the array.
//
// If assertion inside function fails, the original Array is marked failed.
//
// Every will execute the function for all values in the array irrespective
// of assertion failures for some values in the array.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", "bar"})
//
// array.Every(func(index int, value *httpexpect.Value) {
// value.String().NotEmpty()
// })
func (a *Array) Every(fn func(index int, value *Value)) *Array {
opChain := a.chain.enter("Every()")
defer opChain.leave()
if opChain.failed() {
return a
}
if fn == nil {
opChain.fail(AssertionFailure{
Type: AssertUsage,
Errors: []error{
errors.New("unexpected nil function argument"),
},
})
return a
}
for index, element := range a.value {
func() {
valueChain := opChain.replace("Every[%d]", index)
defer valueChain.leave()
fn(index, newValue(valueChain, element))
}()
}
return a
}
// Filter accepts a function that returns a boolean. The function is ran
// over the array elements. If the function returns true, the element passes
// the filter and is added to the new array of filtered elements. If false,
// the element is skipped (or in other words filtered out). After iterating
// through all the elements of the original array, the new filtered array
// is returned.
//
// If there are any failed assertions in the filtering function, the
// element is omitted without causing test failure.
//
// Example:
//
// array := NewArray(t, []interface{}{1, 2, "foo", "bar"})
// filteredArray := array.Filter(func(index int, value *httpexpect.Value) bool {
// value.String().NotEmpty() //fails on 1 and 2
// return value.Raw() != "bar" //fails on "bar"
// })
// filteredArray.IsEqual([]interface{}{"foo"}) //succeeds
func (a *Array) Filter(fn func(index int, value *Value) bool) *Array {
opChain := a.chain.enter("Filter()")
defer opChain.leave()
if opChain.failed() {
return newArray(opChain, nil)
}
if fn == nil {
opChain.fail(AssertionFailure{
Type: AssertUsage,
Errors: []error{
errors.New("unexpected nil function argument"),
},
})
return newArray(opChain, nil)
}
filteredArray := []interface{}{}
for index, element := range a.value {
func() {
valueChain := opChain.replace("Filter[%d]", index)
defer valueChain.leave()
valueChain.setRoot()
valueChain.setSeverity(SeverityLog)
if fn(index, newValue(valueChain, element)) && !valueChain.treeFailed() {
filteredArray = append(filteredArray, element)
}
}()
}
return newArray(opChain, filteredArray)
}
// Transform runs the passed function on all the elements in the array
// and returns a new array without effeecting original array.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", "bar"})
// transformedArray := array.Transform(
// func(index int, value interface{}) interface{} {
// return strings.ToUpper(value.(string))
// })
// transformedArray.IsEqual([]interface{}{"FOO", "BAR"})
func (a *Array) Transform(fn func(index int, value interface{}) interface{}) *Array {
opChain := a.chain.enter("Transform()")
defer opChain.leave()
if opChain.failed() {
return newArray(opChain, nil)
}
if fn == nil {
opChain.fail(AssertionFailure{
Type: AssertUsage,
Errors: []error{
errors.New("unexpected nil function argument"),
},
})
return newArray(opChain, nil)
}
transformedArray := []interface{}{}
for index, element := range a.value {
transformedArray = append(transformedArray, fn(index, element))
}
return newArray(opChain, transformedArray)
}
// Find accepts a function that returns a boolean, runs it over the array
// elements, and returns the first element on which it returned true.
//
// If there are any failed assertions in the predicate function, the
// element is skipped without causing test failure.
//
// If no elements were found, a failure is reported.
//
// Example:
//
// array := NewArray(t, []interface{}{1, "foo", 101, "bar", 201})
// foundValue := array.Find(func(index int, value *httpexpect.Value) bool {
// num := value.Number() // skip if element is not a number
// return num.Raw() > 100 // check element value
// })
// foundValue.IsEqual(101) // succeeds
func (a *Array) Find(fn func(index int, value *Value) bool) *Value {
opChain := a.chain.enter("Find()")
defer opChain.leave()
if opChain.failed() {
return newValue(opChain, nil)
}
if fn == nil {
opChain.fail(AssertionFailure{
Type: AssertUsage,
Errors: []error{
errors.New("unexpected nil function argument"),
},
})
return newValue(opChain, nil)
}
for index, element := range a.value {
found := false
func() {
valueChain := opChain.replace("Find[%d]", index)
defer valueChain.leave()
valueChain.setRoot()
valueChain.setSeverity(SeverityLog)
if fn(index, newValue(valueChain, element)) && !valueChain.treeFailed() {
found = true
}
}()
if found {
return newValue(opChain, element)
}
}
opChain.fail(AssertionFailure{
Type: AssertValid,
Actual: &AssertionValue{a.value},
Errors: []error{
errors.New("expected: at least one array element matches predicate"),
},
})
return newValue(opChain, nil)
}
// FindAll accepts a function that returns a boolean, runs it over the array
// elements, and returns all the elements on which it returned true.
//
// If there are any failed assertions in the predicate function, the
// element is skipped without causing test failure.
//
// If no elements were found, empty slice is returned without reporting error.
//
// Example:
//
// array := NewArray(t, []interface{}{1, "foo", 101, "bar", 201})
// foundValues := array.FindAll(func(index int, value *httpexpect.Value) bool {
// num := value.Number() // skip if element is not a number
// return num.Raw() > 100 // check element value
// })
//
// assert.Equal(t, len(foundValues), 2)
// foundValues[0].IsEqual(101)
// foundValues[1].IsEqual(201)
func (a *Array) FindAll(fn func(index int, value *Value) bool) []*Value {
opChain := a.chain.enter("FindAll()")
defer opChain.leave()
if opChain.failed() {
return []*Value{}
}
if fn == nil {
opChain.fail(AssertionFailure{
Type: AssertUsage,
Errors: []error{
errors.New("unexpected nil function argument"),
},
})
return []*Value{}
}
foundValues := make([]*Value, 0, len(a.value))
for index, element := range a.value {
func() {
valueChain := opChain.replace("FindAll[%d]", index)
defer valueChain.leave()
valueChain.setRoot()
valueChain.setSeverity(SeverityLog)
if fn(index, newValue(valueChain, element)) && !valueChain.treeFailed() {
foundValues = append(foundValues, newValue(opChain, element))
}
}()
}
return foundValues
}
// NotFind accepts a function that returns a boolean, runs it over the array
// elelements, and checks that it does not return true for any of the elements.
//
// If there are any failed assertions in the predicate function, the
// element is skipped without causing test failure.
//
// If the predicate function did not fail and returned true for at least
// one element, a failure is reported.
//
// Example:
//
// array := NewArray(t, []interface{}{1, "foo", 2, "bar"})
// array.NotFind(func(index int, value *httpexpect.Value) bool {
// num := value.Number() // skip if element is not a number
// return num.Raw() > 100 // check element value
// }) // succeeds
func (a *Array) NotFind(fn func(index int, value *Value) bool) *Array {
opChain := a.chain.enter("NotFind()")
defer opChain.leave()
if opChain.failed() {
return a
}
if fn == nil {
opChain.fail(AssertionFailure{
Type: AssertUsage,
Errors: []error{
errors.New("unexpected nil function argument"),
},
})
return a
}
for index, element := range a.value {
found := false
func() {
valueChain := opChain.replace("NotFind[%d]", index)
defer valueChain.leave()
valueChain.setRoot()
valueChain.setSeverity(SeverityLog)
if fn(index, newValue(valueChain, element)) && !valueChain.treeFailed() {
found = true
}
}()
if found {
opChain.fail(AssertionFailure{
Type: AssertNotContainsElement,
Expected: &AssertionValue{element},
Actual: &AssertionValue{a.value},
Errors: []error{
errors.New("expected: none of the array elements match predicate"),
fmt.Errorf("element with index %d matches predicate", index),
},
})
return a
}
}
return a
}
// IsEmpty succeeds if array is empty.
//
// Example:
//
// array := NewArray(t, []interface{}{})
// array.IsEmpty()
func (a *Array) IsEmpty() *Array {
opChain := a.chain.enter("IsEmpty()")
defer opChain.leave()
if opChain.failed() {
return a
}
if !(len(a.value) == 0) {
opChain.fail(AssertionFailure{
Type: AssertEmpty,
Actual: &AssertionValue{a.value},
Errors: []error{
errors.New("expected: empty array"),
},
})
}
return a
}
// NotEmpty succeeds if array is non-empty.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", 123})
// array.NotEmpty()
func (a *Array) NotEmpty() *Array {
opChain := a.chain.enter("NotEmpty()")
defer opChain.leave()
if opChain.failed() {
return a
}
if len(a.value) == 0 {
opChain.fail(AssertionFailure{
Type: AssertNotEmpty,
Actual: &AssertionValue{a.value},
Errors: []error{
errors.New("expected: non-empty array"),
},
})
}
return a
}
// Deprecated: use IsEmpty instead.
func (a *Array) Empty() *Array {
return a.IsEmpty()
}
// IsEqual succeeds if array is equal to given value.
// Before comparison, both array and value are converted to canonical form.
//
// value should be a slice of any type.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", 123})
// array.IsEqual([]interface{}{"foo", 123})
//
// array := NewArray(t, []interface{}{"foo", "bar"})
// array.IsEqual([]string{}{"foo", "bar"})
//
// array := NewArray(t, []interface{}{123, 456})
// array.IsEqual([]int{}{123, 456})
func (a *Array) IsEqual(value interface{}) *Array {
opChain := a.chain.enter("IsEqual()")
defer opChain.leave()
if opChain.failed() {
return a
}
expected, ok := canonArray(opChain, value)
if !ok {
return a
}
if !reflect.DeepEqual(expected, a.value) {
opChain.fail(AssertionFailure{
Type: AssertEqual,
Actual: &AssertionValue{a.value},
Expected: &AssertionValue{expected},
Errors: []error{
errors.New("expected: arrays are equal"),
},
})
}
return a
}
// NotEqual succeeds if array is not equal to given value.
// Before comparison, both array and value are converted to canonical form.
//
// value should be a slice of any type.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", 123})
// array.NotEqual([]interface{}{123, "foo"})
func (a *Array) NotEqual(value interface{}) *Array {
opChain := a.chain.enter("NotEqual()")
defer opChain.leave()
if opChain.failed() {
return a
}
expected, ok := canonArray(opChain, value)
if !ok {
return a
}
if reflect.DeepEqual(expected, a.value) {
opChain.fail(AssertionFailure{
Type: AssertNotEqual,
Actual: &AssertionValue{a.value},
Expected: &AssertionValue{expected},
Errors: []error{
errors.New("expected: arrays are non-equal"),
},
})
}
return a
}
// Deprecated: use IsEqual instead.
func (a *Array) Equal(value interface{}) *Array {
return a.IsEqual(value)
}
// IsEqualUnordered succeeds if array is equal to another array, ignoring element
// order. Before comparison, both arrays are converted to canonical form.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", 123})
// array.IsEqualUnordered([]interface{}{123, "foo"})
func (a *Array) IsEqualUnordered(value interface{}) *Array {
opChain := a.chain.enter("IsEqualUnordered()")
defer opChain.leave()
if opChain.failed() {
return a
}
expected, ok := canonArray(opChain, value)
if !ok {
return a
}
for _, element := range expected {
expectedCount := countElement(expected, element)
actualCount := countElement(a.value, element)
if actualCount != expectedCount {
if expectedCount == 1 && actualCount == 0 {
opChain.fail(AssertionFailure{
Type: AssertContainsElement,
Actual: &AssertionValue{a.value},
Expected: &AssertionValue{element},
Reference: &AssertionValue{value},
Errors: []error{
errors.New("expected: array contains element from reference array"),
},
})
} else {
opChain.fail(AssertionFailure{
Type: AssertNotContainsElement,
Actual: &AssertionValue{a.value},
Expected: &AssertionValue{element},
Reference: &AssertionValue{value},
Errors: []error{
fmt.Errorf(
"expected: element occurs %d time(s), as in reference array,"+
" but it occurs %d time(s)",
expectedCount,
actualCount),
},
})
}
return a
}
}
for _, element := range a.value {
expectedCount := countElement(expected, element)
actualCount := countElement(a.value, element)
if actualCount != expectedCount {
if expectedCount == 0 && actualCount == 1 {
opChain.fail(AssertionFailure{
Type: AssertNotContainsElement,
Actual: &AssertionValue{a.value},
Expected: &AssertionValue{element},
Reference: &AssertionValue{value},
Errors: []error{
errors.New("expected: array does not contain elements" +
" that are not present in reference array"),
},
})
} else {
opChain.fail(AssertionFailure{
Type: AssertNotContainsElement,
Actual: &AssertionValue{a.value},
Expected: &AssertionValue{element},
Reference: &AssertionValue{value},
Errors: []error{
fmt.Errorf(
"expected: element occurs %d time(s), as in reference array,"+
" but it occurs %d time(s)",
expectedCount,
actualCount),
},
})
}
return a
}
}
return a
}
// NotEqualUnordered succeeds if array is not equal to another array, ignoring
// element order. Before comparison, both arrays are converted to canonical form.
//
// Example:
//
// array := NewArray(t, []interface{}{"foo", 123})
// array.NotEqualUnordered([]interface{}{123, "foo", "bar"})
func (a *Array) NotEqualUnordered(value interface{}) *Array {
opChain := a.chain.enter("NotEqualUnordered()")
defer opChain.leave()
if opChain.failed() {
return a
}
expected, ok := canonArray(opChain, value)
if !ok {
return a
}
different := false
for _, element := range expected {
expectedCount := countElement(expected, element)
actualCount := countElement(a.value, element)
if actualCount != expectedCount {
different = true
break
}
}
for _, element := range a.value {
expectedCount := countElement(expected, element)
actualCount := countElement(a.value, element)
if actualCount != expectedCount {
different = true
break
}
}
if !different {
opChain.fail(AssertionFailure{
Type: AssertNotEqual,
Actual: &AssertionValue{a.value},
Expected: &AssertionValue{value},
Reference: &AssertionValue{value},
Errors: []error{
errors.New("expected: arrays are non-equal (ignoring order)"),
},
})
}
return a
}
// Deprecated: use IsEqualUnordered instead.
func (a *Array) EqualUnordered(value interface{}) *Array {
return a.IsEqualUnordered(value)
}
// InList succeeds if the whole array is equal to one of the values from given