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value.go
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value.go
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package pongo2
import (
"fmt"
"reflect"
"sort"
"strconv"
"strings"
"time"
)
type Value struct {
val reflect.Value
safe bool // used to indicate whether a Value needs explicit escaping in the template
}
// AsValue converts any given value to a pongo2.Value
// Usually being used within own functions passed to a template
// through a Context or within filter functions.
//
// Example:
//
// AsValue("my string")
func AsValue(i any) *Value {
return &Value{
val: reflect.ValueOf(i),
}
}
// AsSafeValue works like AsValue, but does not apply the 'escape' filter.
func AsSafeValue(i any) *Value {
return &Value{
val: reflect.ValueOf(i),
safe: true,
}
}
func (v *Value) getResolvedValue() reflect.Value {
if v.val.IsValid() && v.val.Kind() == reflect.Ptr {
return v.val.Elem()
}
return v.val
}
// IsString checks whether the underlying value is a string
func (v *Value) IsString() bool {
return v.getResolvedValue().Kind() == reflect.String
}
// IsBool checks whether the underlying value is a bool
func (v *Value) IsBool() bool {
return v.getResolvedValue().Kind() == reflect.Bool
}
// IsFloat checks whether the underlying value is a float
func (v *Value) IsFloat() bool {
return v.getResolvedValue().Kind() == reflect.Float32 ||
v.getResolvedValue().Kind() == reflect.Float64
}
// IsInteger checks whether the underlying value is an integer
func (v *Value) IsInteger() bool {
return v.getResolvedValue().Kind() == reflect.Int ||
v.getResolvedValue().Kind() == reflect.Int8 ||
v.getResolvedValue().Kind() == reflect.Int16 ||
v.getResolvedValue().Kind() == reflect.Int32 ||
v.getResolvedValue().Kind() == reflect.Int64 ||
v.getResolvedValue().Kind() == reflect.Uint ||
v.getResolvedValue().Kind() == reflect.Uint8 ||
v.getResolvedValue().Kind() == reflect.Uint16 ||
v.getResolvedValue().Kind() == reflect.Uint32 ||
v.getResolvedValue().Kind() == reflect.Uint64
}
// IsNumber checks whether the underlying value is either an integer
// or a float.
func (v *Value) IsNumber() bool {
return v.IsInteger() || v.IsFloat()
}
// IsTime checks whether the underlying value is a time.Time.
func (v *Value) IsTime() bool {
_, ok := v.Interface().(time.Time)
return ok
}
// IsNil checks whether the underlying value is NIL
func (v *Value) IsNil() bool {
// fmt.Printf("%+v\n", v.getResolvedValue().Type().String())
return !v.getResolvedValue().IsValid()
}
// String returns a string for the underlying value. If this value is not
// of type string, pongo2 tries to convert it. Currently the following
// types for underlying values are supported:
//
// 1. string
// 2. int/uint (any size)
// 3. float (any precision)
// 4. bool
// 5. time.Time
// 6. String() will be called on the underlying value if provided
//
// NIL values will lead to an empty string. Unsupported types are leading
// to their respective type name.
func (v *Value) String() string {
if v.IsNil() {
return ""
}
if t, ok := v.Interface().(fmt.Stringer); ok {
return t.String()
}
switch v.getResolvedValue().Kind() {
case reflect.String:
return v.getResolvedValue().String()
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return strconv.FormatInt(v.getResolvedValue().Int(), 10)
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
return strconv.FormatUint(v.getResolvedValue().Uint(), 10)
case reflect.Float32, reflect.Float64:
return fmt.Sprintf("%f", v.getResolvedValue().Float())
case reflect.Bool:
if v.Bool() {
return "True"
}
return "False"
}
logf("Value.String() not implemented for type: %s\n", v.getResolvedValue().Kind().String())
return v.getResolvedValue().String()
}
// Integer returns the underlying value as an integer (converts the underlying
// value, if necessary). If it's not possible to convert the underlying value,
// it will return 0.
func (v *Value) Integer() int {
switch v.getResolvedValue().Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return int(v.getResolvedValue().Int())
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
return int(v.getResolvedValue().Uint())
case reflect.Float32, reflect.Float64:
return int(v.getResolvedValue().Float())
case reflect.String:
// Try to convert from string to int (base 10)
f, err := strconv.ParseFloat(v.getResolvedValue().String(), 64)
if err != nil {
return 0
}
return int(f)
default:
logf("Value.Integer() not available for type: %s\n", v.getResolvedValue().Kind().String())
return 0
}
}
// Float returns the underlying value as a float (converts the underlying
// value, if necessary). If it's not possible to convert the underlying value,
// it will return 0.0.
func (v *Value) Float() float64 {
switch v.getResolvedValue().Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return float64(v.getResolvedValue().Int())
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
return float64(v.getResolvedValue().Uint())
case reflect.Float32, reflect.Float64:
return v.getResolvedValue().Float()
case reflect.String:
// Try to convert from string to float64 (base 10)
f, err := strconv.ParseFloat(v.getResolvedValue().String(), 64)
if err != nil {
return 0.0
}
return f
default:
logf("Value.Float() not available for type: %s\n", v.getResolvedValue().Kind().String())
return 0.0
}
}
// Bool returns the underlying value as bool. If the value is not bool, false
// will always be returned. If you're looking for true/false-evaluation of the
// underlying value, have a look on the IsTrue()-function.
func (v *Value) Bool() bool {
switch v.getResolvedValue().Kind() {
case reflect.Bool:
return v.getResolvedValue().Bool()
default:
logf("Value.Bool() not available for type: %s\n", v.getResolvedValue().Kind().String())
return false
}
}
// Time returns the underlying value as time.Time.
// If the underlying value is not a time.Time, it returns the zero value of time.Time.
func (v *Value) Time() time.Time {
tm, ok := v.Interface().(time.Time)
if ok {
return tm
}
return time.Time{}
}
// IsTrue tries to evaluate the underlying value the Pythonic-way:
//
// Returns TRUE in one the following cases:
//
// - int != 0
// - uint != 0
// - float != 0.0
// - len(array/chan/map/slice/string) > 0
// - bool == true
// - underlying value is a struct
//
// Otherwise returns always FALSE.
func (v *Value) IsTrue() bool {
switch v.getResolvedValue().Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return v.getResolvedValue().Int() != 0
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
return v.getResolvedValue().Uint() != 0
case reflect.Float32, reflect.Float64:
return v.getResolvedValue().Float() != 0
case reflect.Array, reflect.Chan, reflect.Map, reflect.Slice, reflect.String:
return v.getResolvedValue().Len() > 0
case reflect.Bool:
return v.getResolvedValue().Bool()
case reflect.Struct:
return true // struct instance is always true
default:
logf("Value.IsTrue() not available for type: %s\n", v.getResolvedValue().Kind().String())
return false
}
}
// Negate tries to negate the underlying value. It's mainly used for
// the NOT-operator and in conjunction with a call to
// return_value.IsTrue() afterwards.
//
// Example:
//
// AsValue(1).Negate().IsTrue() == false
func (v *Value) Negate() *Value {
switch v.getResolvedValue().Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64,
reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
if v.Integer() != 0 {
return AsValue(0)
}
return AsValue(1)
case reflect.Float32, reflect.Float64:
if v.Float() != 0.0 {
return AsValue(float64(0.0))
}
return AsValue(float64(1.1))
case reflect.Array, reflect.Chan, reflect.Map, reflect.Slice, reflect.String:
return AsValue(v.getResolvedValue().Len() == 0)
case reflect.Bool:
return AsValue(!v.getResolvedValue().Bool())
case reflect.Struct:
return AsValue(false)
default:
logf("Value.IsTrue() not available for type: %s\n", v.getResolvedValue().Kind().String())
return AsValue(true)
}
}
// Len returns the length for an array, chan, map, slice or string.
// Otherwise it will return 0.
func (v *Value) Len() int {
switch v.getResolvedValue().Kind() {
case reflect.Array, reflect.Chan, reflect.Map, reflect.Slice:
return v.getResolvedValue().Len()
case reflect.String:
runes := []rune(v.getResolvedValue().String())
return len(runes)
default:
logf("Value.Len() not available for type: %s\n", v.getResolvedValue().Kind().String())
return 0
}
}
// Slice slices an array, slice or string. Otherwise it will
// return an empty []int.
func (v *Value) Slice(i, j int) *Value {
switch v.getResolvedValue().Kind() {
case reflect.Array, reflect.Slice:
return AsValue(v.getResolvedValue().Slice(i, j).Interface())
case reflect.String:
runes := []rune(v.getResolvedValue().String())
return AsValue(string(runes[i:j]))
default:
logf("Value.Slice() not available for type: %s\n", v.getResolvedValue().Kind().String())
return AsValue([]int{})
}
}
// Index gets the i-th item of an array, slice or string. Otherwise
// it will return NIL.
func (v *Value) Index(i int) *Value {
switch v.getResolvedValue().Kind() {
case reflect.Array, reflect.Slice:
if i >= v.Len() {
return AsValue(nil)
}
return AsValue(v.getResolvedValue().Index(i).Interface())
case reflect.String:
s := v.getResolvedValue().String()
runes := []rune(s)
if i < len(runes) {
return AsValue(string(runes[i]))
}
return AsValue("")
default:
logf("Value.Slice() not available for type: %s\n", v.getResolvedValue().Kind().String())
return AsValue([]int{})
}
}
// Contains checks whether the underlying value (which must be of type struct, map,
// string, array or slice) contains of another Value (e. g. used to check
// whether a struct contains of a specific field or a map contains a specific key).
//
// Example:
//
// AsValue("Hello, World!").Contains(AsValue("World")) == true
func (v *Value) Contains(other *Value) bool {
baseValue := v.getResolvedValue()
switch baseValue.Kind() {
case reflect.Struct:
fieldValue := baseValue.FieldByName(other.String())
return fieldValue.IsValid()
case reflect.Map:
// We can't check against invalid types
if !other.val.IsValid() {
return false
}
// Ensure that map key type is equal to other's type.
if baseValue.Type().Key() != other.val.Type() {
return false
}
var mapValue reflect.Value
switch other.Interface().(type) {
case int:
mapValue = baseValue.MapIndex(other.getResolvedValue())
case string:
mapValue = baseValue.MapIndex(other.getResolvedValue())
default:
logf("Value.Contains() does not support lookup type '%s'\n", other.getResolvedValue().Kind().String())
return false
}
return mapValue.IsValid()
case reflect.String:
return strings.Contains(v.getResolvedValue().String(), other.String())
case reflect.Slice, reflect.Array:
for i := 0; i < baseValue.Len(); i++ {
item := baseValue.Index(i)
if other.EqualValueTo(AsValue(item.Interface())) {
return true
}
}
return false
default:
logf("Value.Contains() not available for type: %s\n", baseValue.Kind().String())
return false
}
}
// CanSlice checks whether the underlying value is of type array, slice or string.
// You normally would use CanSlice() before using the Slice() operation.
func (v *Value) CanSlice() bool {
switch v.getResolvedValue().Kind() {
case reflect.Array, reflect.Slice, reflect.String:
return true
}
return false
}
// Iterate iterates over a map, array, slice or a string. It calls the
// function's first argument for every value with the following arguments:
//
// idx current 0-index
// count total amount of items
// key *Value for the key or item
// value *Value (only for maps, the respective value for a specific key)
//
// If the underlying value has no items or is not one of the types above,
// the empty function (function's second argument) will be called.
func (v *Value) Iterate(fn func(idx, count int, key, value *Value) bool, empty func()) {
v.IterateOrder(fn, empty, false, false)
}
// IterateOrder behaves like Value.Iterate, but can iterate through an array/slice/string in reverse. Does
// not affect the iteration through a map because maps don't have any particular order.
// However, you can force an order using the `sorted` keyword (and even use `reversed sorted`).
func (v *Value) IterateOrder(fn func(idx, count int, key, value *Value) bool, empty func(), reverse bool, sorted bool) {
switch v.getResolvedValue().Kind() {
case reflect.Map:
keys := sortedKeys(v.getResolvedValue().MapKeys())
if sorted {
if reverse {
sort.Sort(sort.Reverse(keys))
} else {
sort.Sort(keys)
}
}
keyLen := len(keys)
for idx, key := range keys {
value := v.getResolvedValue().MapIndex(key)
if !fn(idx, keyLen, &Value{val: key}, &Value{val: value}) {
return
}
}
if keyLen == 0 {
empty()
}
return // done
case reflect.Array, reflect.Slice:
var items valuesList
itemCount := v.getResolvedValue().Len()
for i := 0; i < itemCount; i++ {
items = append(items, &Value{val: v.getResolvedValue().Index(i)})
}
if sorted {
if reverse {
sort.Sort(sort.Reverse(items))
} else {
sort.Sort(items)
}
} else {
if reverse {
for i := 0; i < itemCount/2; i++ {
items[i], items[itemCount-1-i] = items[itemCount-1-i], items[i]
}
}
}
if len(items) > 0 {
for idx, item := range items {
if !fn(idx, itemCount, item, nil) {
return
}
}
} else {
empty()
}
return // done
case reflect.String:
s := v.getResolvedValue().String()
rs := []rune(s)
charCount := len(rs)
if charCount > 0 {
if sorted {
sort.SliceStable(rs, func(i, j int) bool {
return rs[i] < rs[j]
})
}
if reverse {
for i, j := 0, charCount-1; i < j; i, j = i+1, j-1 {
rs[i], rs[j] = rs[j], rs[i]
}
}
for i := 0; i < charCount; i++ {
if !fn(i, charCount, &Value{val: reflect.ValueOf(string(rs[i]))}, nil) {
return
}
}
} else {
empty()
}
return // done
default:
logf("Value.Iterate() not available for type: %s\n", v.getResolvedValue().Kind().String())
}
empty()
}
// Interface gives you access to the underlying value.
func (v *Value) Interface() any {
if v.val.IsValid() {
return v.val.Interface()
}
return nil
}
// EqualValueTo checks whether two values are containing the same value or object (if comparable).
func (v *Value) EqualValueTo(other *Value) bool {
// comparison of uint with int fails using .Interface()-comparison (see issue #64)
if v.IsInteger() && other.IsInteger() {
return v.Integer() == other.Integer()
}
if v.IsTime() && other.IsTime() {
return v.Time().Equal(other.Time())
}
if !v.val.IsValid() || !other.val.IsValid() {
return false
}
// TODO(flosch): As of Go 1.20, reflect supports Comparable() and Equal(). This should potentially
// be used here: https://pkg.go.dev/reflect#Value.Comparable
return v.val.CanInterface() && other.val.CanInterface() &&
v.val.Type().Comparable() && other.val.Type().Comparable() &&
v.Interface() == other.Interface()
}
type sortedKeys []reflect.Value
func (sk sortedKeys) Len() int {
return len(sk)
}
func (sk sortedKeys) Less(i, j int) bool {
vi := &Value{val: sk[i]}
vj := &Value{val: sk[j]}
switch {
case vi.IsInteger() && vj.IsInteger():
return vi.Integer() < vj.Integer()
case vi.IsFloat() && vj.IsFloat():
return vi.Float() < vj.Float()
default:
return vi.String() < vj.String()
}
}
func (sk sortedKeys) Swap(i, j int) {
sk[i], sk[j] = sk[j], sk[i]
}
type valuesList []*Value
func (vl valuesList) Len() int {
return len(vl)
}
func (vl valuesList) Less(i, j int) bool {
vi := vl[i]
vj := vl[j]
switch {
case vi.IsInteger() && vj.IsInteger():
return vi.Integer() < vj.Integer()
case vi.IsFloat() && vj.IsFloat():
return vi.Float() < vj.Float()
default:
return vi.String() < vj.String()
}
}
func (vl valuesList) Swap(i, j int) {
vl[i], vl[j] = vl[j], vl[i]
}