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package goja
import (
"fmt"
"reflect"
"gitee.com/quant1x/pkg/goja/unistring"
)
// Proxy is a Go wrapper around ECMAScript Proxy. Calling Runtime.ToValue() on it
// returns the underlying Proxy. Calling Export() on an ECMAScript Proxy returns a wrapper.
// Use Runtime.NewProxy() to create one.
type Proxy struct {
proxy *proxyObject
}
var (
proxyType = reflect.TypeOf(Proxy{})
)
type proxyPropIter struct {
p *proxyObject
names []Value
idx int
}
func (i *proxyPropIter) next() (propIterItem, iterNextFunc) {
for i.idx < len(i.names) {
name := i.names[i.idx]
i.idx++
return propIterItem{name: name}, i.next
}
return propIterItem{}, nil
}
func (r *Runtime) newProxyObject(target, handler, proto *Object) *proxyObject {
return r._newProxyObject(target, &jsProxyHandler{handler: handler}, proto)
}
func (r *Runtime) _newProxyObject(target *Object, handler proxyHandler, proto *Object) *proxyObject {
v := &Object{runtime: r}
p := &proxyObject{}
v.self = p
p.val = v
p.class = classObject
if proto == nil {
p.prototype = r.global.ObjectPrototype
} else {
p.prototype = proto
}
p.extensible = false
p.init()
p.target = target
p.handler = handler
if call, ok := target.self.assertCallable(); ok {
p.call = call
}
if ctor := target.self.assertConstructor(); ctor != nil {
p.ctor = ctor
}
return p
}
func (p Proxy) Revoke() {
p.proxy.revoke()
}
func (p Proxy) Handler() *Object {
if handler := p.proxy.handler; handler != nil {
return handler.toObject(p.proxy.val.runtime)
}
return nil
}
func (p Proxy) Target() *Object {
return p.proxy.target
}
func (p Proxy) toValue(r *Runtime) Value {
if p.proxy == nil {
return _null
}
proxy := p.proxy.val
if proxy.runtime != r {
panic(r.NewTypeError("Illegal runtime transition of a Proxy"))
}
return proxy
}
type proxyTrap string
const (
proxy_trap_getPrototypeOf = "getPrototypeOf"
proxy_trap_setPrototypeOf = "setPrototypeOf"
proxy_trap_isExtensible = "isExtensible"
proxy_trap_preventExtensions = "preventExtensions"
proxy_trap_getOwnPropertyDescriptor = "getOwnPropertyDescriptor"
proxy_trap_defineProperty = "defineProperty"
proxy_trap_has = "has"
proxy_trap_get = "get"
proxy_trap_set = "set"
proxy_trap_deleteProperty = "deleteProperty"
proxy_trap_ownKeys = "ownKeys"
proxy_trap_apply = "apply"
proxy_trap_construct = "construct"
)
func (p proxyTrap) String() (name string) {
return string(p)
}
type proxyHandler interface {
getPrototypeOf(target *Object) (Value, bool)
setPrototypeOf(target *Object, proto *Object) (bool, bool)
isExtensible(target *Object) (bool, bool)
preventExtensions(target *Object) (bool, bool)
getOwnPropertyDescriptorStr(target *Object, prop unistring.String) (Value, bool)
getOwnPropertyDescriptorIdx(target *Object, prop valueInt) (Value, bool)
getOwnPropertyDescriptorSym(target *Object, prop *Symbol) (Value, bool)
definePropertyStr(target *Object, prop unistring.String, desc PropertyDescriptor) (bool, bool)
definePropertyIdx(target *Object, prop valueInt, desc PropertyDescriptor) (bool, bool)
definePropertySym(target *Object, prop *Symbol, desc PropertyDescriptor) (bool, bool)
hasStr(target *Object, prop unistring.String) (bool, bool)
hasIdx(target *Object, prop valueInt) (bool, bool)
hasSym(target *Object, prop *Symbol) (bool, bool)
getStr(target *Object, prop unistring.String, receiver Value) (Value, bool)
getIdx(target *Object, prop valueInt, receiver Value) (Value, bool)
getSym(target *Object, prop *Symbol, receiver Value) (Value, bool)
setStr(target *Object, prop unistring.String, value Value, receiver Value) (bool, bool)
setIdx(target *Object, prop valueInt, value Value, receiver Value) (bool, bool)
setSym(target *Object, prop *Symbol, value Value, receiver Value) (bool, bool)
deleteStr(target *Object, prop unistring.String) (bool, bool)
deleteIdx(target *Object, prop valueInt) (bool, bool)
deleteSym(target *Object, prop *Symbol) (bool, bool)
ownKeys(target *Object) (*Object, bool)
apply(target *Object, this Value, args []Value) (Value, bool)
construct(target *Object, args []Value, newTarget *Object) (Value, bool)
toObject(*Runtime) *Object
}
type jsProxyHandler struct {
handler *Object
}
func (h *jsProxyHandler) toObject(*Runtime) *Object {
return h.handler
}
func (h *jsProxyHandler) proxyCall(trap proxyTrap, args ...Value) (Value, bool) {
r := h.handler.runtime
if m := toMethod(r.getVStr(h.handler, unistring.String(trap.String()))); m != nil {
return m(FunctionCall{
This: h.handler,
Arguments: args,
}), true
}
return nil, false
}
func (h *jsProxyHandler) boolProxyCall(trap proxyTrap, args ...Value) (bool, bool) {
if v, ok := h.proxyCall(trap, args...); ok {
return v.ToBoolean(), true
}
return false, false
}
func (h *jsProxyHandler) getPrototypeOf(target *Object) (Value, bool) {
return h.proxyCall(proxy_trap_getPrototypeOf, target)
}
func (h *jsProxyHandler) setPrototypeOf(target *Object, proto *Object) (bool, bool) {
var protoVal Value
if proto != nil {
protoVal = proto
} else {
protoVal = _null
}
return h.boolProxyCall(proxy_trap_setPrototypeOf, target, protoVal)
}
func (h *jsProxyHandler) isExtensible(target *Object) (bool, bool) {
return h.boolProxyCall(proxy_trap_isExtensible, target)
}
func (h *jsProxyHandler) preventExtensions(target *Object) (bool, bool) {
return h.boolProxyCall(proxy_trap_preventExtensions, target)
}
func (h *jsProxyHandler) getOwnPropertyDescriptorStr(target *Object, prop unistring.String) (Value, bool) {
return h.proxyCall(proxy_trap_getOwnPropertyDescriptor, target, stringValueFromRaw(prop))
}
func (h *jsProxyHandler) getOwnPropertyDescriptorIdx(target *Object, prop valueInt) (Value, bool) {
return h.proxyCall(proxy_trap_getOwnPropertyDescriptor, target, prop.toString())
}
func (h *jsProxyHandler) getOwnPropertyDescriptorSym(target *Object, prop *Symbol) (Value, bool) {
return h.proxyCall(proxy_trap_getOwnPropertyDescriptor, target, prop)
}
func (h *jsProxyHandler) definePropertyStr(target *Object, prop unistring.String, desc PropertyDescriptor) (bool, bool) {
return h.boolProxyCall(proxy_trap_defineProperty, target, stringValueFromRaw(prop), desc.toValue(h.handler.runtime))
}
func (h *jsProxyHandler) definePropertyIdx(target *Object, prop valueInt, desc PropertyDescriptor) (bool, bool) {
return h.boolProxyCall(proxy_trap_defineProperty, target, prop.toString(), desc.toValue(h.handler.runtime))
}
func (h *jsProxyHandler) definePropertySym(target *Object, prop *Symbol, desc PropertyDescriptor) (bool, bool) {
return h.boolProxyCall(proxy_trap_defineProperty, target, prop, desc.toValue(h.handler.runtime))
}
func (h *jsProxyHandler) hasStr(target *Object, prop unistring.String) (bool, bool) {
return h.boolProxyCall(proxy_trap_has, target, stringValueFromRaw(prop))
}
func (h *jsProxyHandler) hasIdx(target *Object, prop valueInt) (bool, bool) {
return h.boolProxyCall(proxy_trap_has, target, prop.toString())
}
func (h *jsProxyHandler) hasSym(target *Object, prop *Symbol) (bool, bool) {
return h.boolProxyCall(proxy_trap_has, target, prop)
}
func (h *jsProxyHandler) getStr(target *Object, prop unistring.String, receiver Value) (Value, bool) {
return h.proxyCall(proxy_trap_get, target, stringValueFromRaw(prop), receiver)
}
func (h *jsProxyHandler) getIdx(target *Object, prop valueInt, receiver Value) (Value, bool) {
return h.proxyCall(proxy_trap_get, target, prop.toString(), receiver)
}
func (h *jsProxyHandler) getSym(target *Object, prop *Symbol, receiver Value) (Value, bool) {
return h.proxyCall(proxy_trap_get, target, prop, receiver)
}
func (h *jsProxyHandler) setStr(target *Object, prop unistring.String, value Value, receiver Value) (bool, bool) {
return h.boolProxyCall(proxy_trap_set, target, stringValueFromRaw(prop), value, receiver)
}
func (h *jsProxyHandler) setIdx(target *Object, prop valueInt, value Value, receiver Value) (bool, bool) {
return h.boolProxyCall(proxy_trap_set, target, prop.toString(), value, receiver)
}
func (h *jsProxyHandler) setSym(target *Object, prop *Symbol, value Value, receiver Value) (bool, bool) {
return h.boolProxyCall(proxy_trap_set, target, prop, value, receiver)
}
func (h *jsProxyHandler) deleteStr(target *Object, prop unistring.String) (bool, bool) {
return h.boolProxyCall(proxy_trap_deleteProperty, target, stringValueFromRaw(prop))
}
func (h *jsProxyHandler) deleteIdx(target *Object, prop valueInt) (bool, bool) {
return h.boolProxyCall(proxy_trap_deleteProperty, target, prop.toString())
}
func (h *jsProxyHandler) deleteSym(target *Object, prop *Symbol) (bool, bool) {
return h.boolProxyCall(proxy_trap_deleteProperty, target, prop)
}
func (h *jsProxyHandler) ownKeys(target *Object) (*Object, bool) {
if v, ok := h.proxyCall(proxy_trap_ownKeys, target); ok {
return h.handler.runtime.toObject(v), true
}
return nil, false
}
func (h *jsProxyHandler) apply(target *Object, this Value, args []Value) (Value, bool) {
return h.proxyCall(proxy_trap_apply, target, this, h.handler.runtime.newArrayValues(args))
}
func (h *jsProxyHandler) construct(target *Object, args []Value, newTarget *Object) (Value, bool) {
return h.proxyCall(proxy_trap_construct, target, h.handler.runtime.newArrayValues(args), newTarget)
}
type proxyObject struct {
baseObject
target *Object
handler proxyHandler
call func(FunctionCall) Value
ctor func(args []Value, newTarget *Object) *Object
}
func (p *proxyObject) checkHandler() proxyHandler {
r := p.val.runtime
if handler := p.handler; handler != nil {
return handler
}
panic(r.NewTypeError("Proxy already revoked"))
}
func (p *proxyObject) proto() *Object {
target := p.target
if v, ok := p.checkHandler().getPrototypeOf(target); ok {
var handlerProto *Object
if v != _null {
handlerProto = p.val.runtime.toObject(v)
}
if !target.self.isExtensible() && !p.__sameValue(handlerProto, target.self.proto()) {
panic(p.val.runtime.NewTypeError("'getPrototypeOf' on proxy: proxy target is non-extensible but the trap did not return its actual prototype"))
}
return handlerProto
}
return target.self.proto()
}
func (p *proxyObject) setProto(proto *Object, throw bool) bool {
target := p.target
if v, ok := p.checkHandler().setPrototypeOf(target, proto); ok {
if v {
if !target.self.isExtensible() && !p.__sameValue(proto, target.self.proto()) {
panic(p.val.runtime.NewTypeError("'setPrototypeOf' on proxy: trap returned truish for setting a new prototype on the non-extensible proxy target"))
}
return true
} else {
p.val.runtime.typeErrorResult(throw, "'setPrototypeOf' on proxy: trap returned falsish")
return false
}
}
return target.self.setProto(proto, throw)
}
func (p *proxyObject) isExtensible() bool {
target := p.target
if booleanTrapResult, ok := p.checkHandler().isExtensible(p.target); ok {
if te := target.self.isExtensible(); booleanTrapResult != te {
panic(p.val.runtime.NewTypeError("'isExtensible' on proxy: trap result does not reflect extensibility of proxy target (which is '%v')", te))
}
return booleanTrapResult
}
return target.self.isExtensible()
}
func (p *proxyObject) preventExtensions(throw bool) bool {
target := p.target
if booleanTrapResult, ok := p.checkHandler().preventExtensions(target); ok {
if !booleanTrapResult {
p.val.runtime.typeErrorResult(throw, "'preventExtensions' on proxy: trap returned falsish")
return false
}
if te := target.self.isExtensible(); booleanTrapResult && te {
panic(p.val.runtime.NewTypeError("'preventExtensions' on proxy: trap returned truish but the proxy target is extensible"))
}
}
return target.self.preventExtensions(throw)
}
func propToValueProp(v Value) *valueProperty {
if v == nil {
return nil
}
if v, ok := v.(*valueProperty); ok {
return v
}
return &valueProperty{
value: v,
writable: true,
configurable: true,
enumerable: true,
}
}
func (p *proxyObject) proxyDefineOwnPropertyPreCheck(trapResult, throw bool) bool {
if !trapResult {
p.val.runtime.typeErrorResult(throw, "'defineProperty' on proxy: trap returned falsish")
return false
}
return true
}
func (p *proxyObject) proxyDefineOwnPropertyPostCheck(prop Value, target *Object, descr PropertyDescriptor) {
targetDesc := propToValueProp(prop)
extensibleTarget := target.self.isExtensible()
settingConfigFalse := descr.Configurable == FLAG_FALSE
if targetDesc == nil {
if !extensibleTarget {
panic(p.val.runtime.NewTypeError())
}
if settingConfigFalse {
panic(p.val.runtime.NewTypeError())
}
} else {
if !p.__isCompatibleDescriptor(extensibleTarget, &descr, targetDesc) {
panic(p.val.runtime.NewTypeError())
}
if settingConfigFalse && targetDesc.configurable {
panic(p.val.runtime.NewTypeError())
}
if targetDesc.value != nil && !targetDesc.configurable && targetDesc.writable {
if descr.Writable == FLAG_FALSE {
panic(p.val.runtime.NewTypeError())
}
}
}
}
func (p *proxyObject) defineOwnPropertyStr(name unistring.String, descr PropertyDescriptor, throw bool) bool {
target := p.target
if booleanTrapResult, ok := p.checkHandler().definePropertyStr(target, name, descr); ok {
if !p.proxyDefineOwnPropertyPreCheck(booleanTrapResult, throw) {
return false
}
p.proxyDefineOwnPropertyPostCheck(target.self.getOwnPropStr(name), target, descr)
return true
}
return target.self.defineOwnPropertyStr(name, descr, throw)
}
func (p *proxyObject) defineOwnPropertyIdx(idx valueInt, descr PropertyDescriptor, throw bool) bool {
target := p.target
if booleanTrapResult, ok := p.checkHandler().definePropertyIdx(target, idx, descr); ok {
if !p.proxyDefineOwnPropertyPreCheck(booleanTrapResult, throw) {
return false
}
p.proxyDefineOwnPropertyPostCheck(target.self.getOwnPropIdx(idx), target, descr)
return true
}
return target.self.defineOwnPropertyIdx(idx, descr, throw)
}
func (p *proxyObject) defineOwnPropertySym(s *Symbol, descr PropertyDescriptor, throw bool) bool {
target := p.target
if booleanTrapResult, ok := p.checkHandler().definePropertySym(target, s, descr); ok {
if !p.proxyDefineOwnPropertyPreCheck(booleanTrapResult, throw) {
return false
}
p.proxyDefineOwnPropertyPostCheck(target.self.getOwnPropSym(s), target, descr)
return true
}
return target.self.defineOwnPropertySym(s, descr, throw)
}
func (p *proxyObject) proxyHasChecks(targetProp Value, target *Object, name fmt.Stringer) {
targetDesc := propToValueProp(targetProp)
if targetDesc != nil {
if !targetDesc.configurable {
panic(p.val.runtime.NewTypeError("'has' on proxy: trap returned falsish for property '%s' which exists in the proxy target as non-configurable", name.String()))
}
if !target.self.isExtensible() {
panic(p.val.runtime.NewTypeError("'has' on proxy: trap returned falsish for property '%s' but the proxy target is not extensible", name.String()))
}
}
}
func (p *proxyObject) hasPropertyStr(name unistring.String) bool {
target := p.target
if b, ok := p.checkHandler().hasStr(target, name); ok {
if !b {
p.proxyHasChecks(target.self.getOwnPropStr(name), target, name)
}
return b
}
return target.self.hasPropertyStr(name)
}
func (p *proxyObject) hasPropertyIdx(idx valueInt) bool {
target := p.target
if b, ok := p.checkHandler().hasIdx(target, idx); ok {
if !b {
p.proxyHasChecks(target.self.getOwnPropIdx(idx), target, idx)
}
return b
}
return target.self.hasPropertyIdx(idx)
}
func (p *proxyObject) hasPropertySym(s *Symbol) bool {
target := p.target
if b, ok := p.checkHandler().hasSym(target, s); ok {
if !b {
p.proxyHasChecks(target.self.getOwnPropSym(s), target, s)
}
return b
}
return target.self.hasPropertySym(s)
}
func (p *proxyObject) hasOwnPropertyStr(name unistring.String) bool {
return p.getOwnPropStr(name) != nil
}
func (p *proxyObject) hasOwnPropertyIdx(idx valueInt) bool {
return p.getOwnPropIdx(idx) != nil
}
func (p *proxyObject) hasOwnPropertySym(s *Symbol) bool {
return p.getOwnPropSym(s) != nil
}
func (p *proxyObject) proxyGetOwnPropertyDescriptor(targetProp Value, target *Object, trapResult Value, name fmt.Stringer) Value {
r := p.val.runtime
targetDesc := propToValueProp(targetProp)
var trapResultObj *Object
if trapResult != nil && trapResult != _undefined {
if obj, ok := trapResult.(*Object); ok {
trapResultObj = obj
} else {
panic(r.NewTypeError("'getOwnPropertyDescriptor' on proxy: trap returned neither object nor undefined for property '%s'", name.String()))
}
}
if trapResultObj == nil {
if targetDesc == nil {
return nil
}
if !targetDesc.configurable {
panic(r.NewTypeError())
}
if !target.self.isExtensible() {
panic(r.NewTypeError())
}
return nil
}
extensibleTarget := target.self.isExtensible()
resultDesc := r.toPropertyDescriptor(trapResultObj)
resultDesc.complete()
if !p.__isCompatibleDescriptor(extensibleTarget, &resultDesc, targetDesc) {
panic(r.NewTypeError("'getOwnPropertyDescriptor' on proxy: trap returned descriptor for property '%s' that is incompatible with the existing property in the proxy target", name.String()))
}
if resultDesc.Configurable == FLAG_FALSE {
if targetDesc == nil {
panic(r.NewTypeError("'getOwnPropertyDescriptor' on proxy: trap reported non-configurability for property '%s' which is non-existent in the proxy target", name.String()))
}
if targetDesc.configurable {
panic(r.NewTypeError("'getOwnPropertyDescriptor' on proxy: trap reported non-configurability for property '%s' which is configurable in the proxy target", name.String()))
}
if resultDesc.Writable == FLAG_FALSE && targetDesc.writable {
panic(r.NewTypeError("'getOwnPropertyDescriptor' on proxy: trap reported non-configurable and writable for property '%s' which is non-configurable, non-writable in the proxy target", name.String()))
}
}
if resultDesc.Writable == FLAG_TRUE && resultDesc.Configurable == FLAG_TRUE &&
resultDesc.Enumerable == FLAG_TRUE {
return resultDesc.Value
}
return r.toValueProp(trapResultObj)
}
func (p *proxyObject) getOwnPropStr(name unistring.String) Value {
target := p.target
if v, ok := p.checkHandler().getOwnPropertyDescriptorStr(target, name); ok {
return p.proxyGetOwnPropertyDescriptor(target.self.getOwnPropStr(name), target, v, name)
}
return target.self.getOwnPropStr(name)
}
func (p *proxyObject) getOwnPropIdx(idx valueInt) Value {
target := p.target
if v, ok := p.checkHandler().getOwnPropertyDescriptorIdx(target, idx); ok {
return p.proxyGetOwnPropertyDescriptor(target.self.getOwnPropIdx(idx), target, v, idx)
}
return target.self.getOwnPropIdx(idx)
}
func (p *proxyObject) getOwnPropSym(s *Symbol) Value {
target := p.target
if v, ok := p.checkHandler().getOwnPropertyDescriptorSym(target, s); ok {
return p.proxyGetOwnPropertyDescriptor(target.self.getOwnPropSym(s), target, v, s)
}
return target.self.getOwnPropSym(s)
}
func (p *proxyObject) proxyGetChecks(targetProp, trapResult Value, name fmt.Stringer) {
if targetDesc, ok := targetProp.(*valueProperty); ok {
if !targetDesc.accessor {
if !targetDesc.writable && !targetDesc.configurable && !trapResult.SameAs(targetDesc.value) {
panic(p.val.runtime.NewTypeError("'get' on proxy: property '%s' is a read-only and non-configurable data property on the proxy target but the proxy did not return its actual value (expected '%s' but got '%s')", name.String(), nilSafe(targetDesc.value), ret))
}
} else {
if !targetDesc.configurable && targetDesc.getterFunc == nil && trapResult != _undefined {
panic(p.val.runtime.NewTypeError("'get' on proxy: property '%s' is a non-configurable accessor property on the proxy target and does not have a getter function, but the trap did not return 'undefined' (got '%s')", name.String(), ret))
}
}
}
}
func (p *proxyObject) getStr(name unistring.String, receiver Value) Value {
target := p.target
if receiver == nil {
receiver = p.val
}
if v, ok := p.checkHandler().getStr(target, name, receiver); ok {
p.proxyGetChecks(target.self.getOwnPropStr(name), v, name)
return v
}
return target.self.getStr(name, receiver)
}
func (p *proxyObject) getIdx(idx valueInt, receiver Value) Value {
target := p.target
if receiver == nil {
receiver = p.val
}
if v, ok := p.checkHandler().getIdx(target, idx, receiver); ok {
p.proxyGetChecks(target.self.getOwnPropIdx(idx), v, idx)
return v
}
return target.self.getIdx(idx, receiver)
}
func (p *proxyObject) getSym(s *Symbol, receiver Value) Value {
target := p.target
if receiver == nil {
receiver = p.val
}
if v, ok := p.checkHandler().getSym(target, s, receiver); ok {
p.proxyGetChecks(target.self.getOwnPropSym(s), v, s)
return v
}
return target.self.getSym(s, receiver)
}
func (p *proxyObject) proxySetPreCheck(trapResult, throw bool, name fmt.Stringer) bool {
if !trapResult {
p.val.runtime.typeErrorResult(throw, "'set' on proxy: trap returned falsish for property '%s'", name.String())
}
return trapResult
}
func (p *proxyObject) proxySetPostCheck(targetProp, value Value, name fmt.Stringer) {
if prop, ok := targetProp.(*valueProperty); ok {
if prop.accessor {
if !prop.configurable && prop.setterFunc == nil {
panic(p.val.runtime.NewTypeError("'set' on proxy: trap returned truish for property '%s' which exists in the proxy target as a non-configurable and non-writable accessor property without a setter", name.String()))
}
} else if !prop.configurable && !prop.writable && !p.__sameValue(prop.value, value) {
panic(p.val.runtime.NewTypeError("'set' on proxy: trap returned truish for property '%s' which exists in the proxy target as a non-configurable and non-writable data property with a different value", name.String()))
}
}
}
func (p *proxyObject) proxySetStr(name unistring.String, value, receiver Value, throw bool) bool {
target := p.target
if v, ok := p.checkHandler().setStr(target, name, value, receiver); ok {
if p.proxySetPreCheck(v, throw, name) {
p.proxySetPostCheck(target.self.getOwnPropStr(name), value, name)
return true
}
return false
}
return target.setStr(name, value, receiver, throw)
}
func (p *proxyObject) proxySetIdx(idx valueInt, value, receiver Value, throw bool) bool {
target := p.target
if v, ok := p.checkHandler().setIdx(target, idx, value, receiver); ok {
if p.proxySetPreCheck(v, throw, idx) {
p.proxySetPostCheck(target.self.getOwnPropIdx(idx), value, idx)
return true
}
return false
}
return target.setIdx(idx, value, receiver, throw)
}
func (p *proxyObject) proxySetSym(s *Symbol, value, receiver Value, throw bool) bool {
target := p.target
if v, ok := p.checkHandler().setSym(target, s, value, receiver); ok {
if p.proxySetPreCheck(v, throw, s) {
p.proxySetPostCheck(target.self.getOwnPropSym(s), value, s)
return true
}
return false
}
return target.setSym(s, value, receiver, throw)
}
func (p *proxyObject) setOwnStr(name unistring.String, v Value, throw bool) bool {
return p.proxySetStr(name, v, p.val, throw)
}
func (p *proxyObject) setOwnIdx(idx valueInt, v Value, throw bool) bool {
return p.proxySetIdx(idx, v, p.val, throw)
}
func (p *proxyObject) setOwnSym(s *Symbol, v Value, throw bool) bool {
return p.proxySetSym(s, v, p.val, throw)
}
func (p *proxyObject) setForeignStr(name unistring.String, v, receiver Value, throw bool) (bool, bool) {
return p.proxySetStr(name, v, receiver, throw), true
}
func (p *proxyObject) setForeignIdx(idx valueInt, v, receiver Value, throw bool) (bool, bool) {
return p.proxySetIdx(idx, v, receiver, throw), true
}
func (p *proxyObject) setForeignSym(s *Symbol, v, receiver Value, throw bool) (bool, bool) {
return p.proxySetSym(s, v, receiver, throw), true
}
func (p *proxyObject) proxyDeleteCheck(trapResult bool, targetProp Value, name fmt.Stringer, target *Object, throw bool) {
if trapResult {
if targetProp == nil {
return
}
if targetDesc, ok := targetProp.(*valueProperty); ok {
if !targetDesc.configurable {
panic(p.val.runtime.NewTypeError("'deleteProperty' on proxy: property '%s' is a non-configurable property but the trap returned truish", name.String()))
}
}
if !target.self.isExtensible() {
panic(p.val.runtime.NewTypeError("'deleteProperty' on proxy: trap returned truish for property '%s' but the proxy target is non-extensible", name.String()))
}
} else {
p.val.runtime.typeErrorResult(throw, "'deleteProperty' on proxy: trap returned falsish for property '%s'", name.String())
}
}
func (p *proxyObject) deleteStr(name unistring.String, throw bool) bool {
target := p.target
if v, ok := p.checkHandler().deleteStr(target, name); ok {
p.proxyDeleteCheck(v, target.self.getOwnPropStr(name), name, target, throw)
return v
}
return target.self.deleteStr(name, throw)
}
func (p *proxyObject) deleteIdx(idx valueInt, throw bool) bool {
target := p.target
if v, ok := p.checkHandler().deleteIdx(target, idx); ok {
p.proxyDeleteCheck(v, target.self.getOwnPropIdx(idx), idx, target, throw)
return v
}
return target.self.deleteIdx(idx, throw)
}
func (p *proxyObject) deleteSym(s *Symbol, throw bool) bool {
target := p.target
if v, ok := p.checkHandler().deleteSym(target, s); ok {
p.proxyDeleteCheck(v, target.self.getOwnPropSym(s), s, target, throw)
return v
}
return target.self.deleteSym(s, throw)
}
func (p *proxyObject) keys(all bool, _ []Value) []Value {
if v, ok := p.proxyOwnKeys(); ok {
if !all {
k := 0
for i, key := range v {
prop := p.val.getOwnProp(key)
if prop == nil || prop == _undefined {
continue
}
if prop, ok := prop.(*valueProperty); ok && !prop.enumerable {
continue
}
if k != i {
v[k] = v[i]
}
k++
}
v = v[:k]
}
return v
}
return p.target.self.keys(all, nil)
}
func (p *proxyObject) proxyOwnKeys() ([]Value, bool) {
target := p.target
if v, ok := p.checkHandler().ownKeys(target); ok {
keys := p.val.runtime.toObject(v)
var keyList []Value
keySet := make(map[Value]struct{})
l := toLength(keys.self.getStr("length", nil))
for k := int64(0); k < l; k++ {
item := keys.self.getIdx(valueInt(k), nil)
if _, ok := item.(String); !ok {
if _, ok := item.(*Symbol); !ok {
panic(p.val.runtime.NewTypeError("%s is not a valid property name", item.String()))
}
}
if _, exists := keySet[item]; exists {
panic(p.val.runtime.NewTypeError("'ownKeys' on proxy: trap returned duplicate entries"))
}
keyList = append(keyList, item)
keySet[item] = struct{}{}
}
ext := target.self.isExtensible()
for item, next := target.self.iterateKeys()(); next != nil; item, next = next() {
if _, exists := keySet[item.name]; exists {
delete(keySet, item.name)
} else {
if !ext {
panic(p.val.runtime.NewTypeError("'ownKeys' on proxy: trap result did not include '%s'", item.name.String()))
}
var prop Value
if item.value == nil {
prop = target.getOwnProp(item.name)
} else {
prop = item.value
}
if prop, ok := prop.(*valueProperty); ok && !prop.configurable {
panic(p.val.runtime.NewTypeError("'ownKeys' on proxy: trap result did not include non-configurable '%s'", item.name.String()))
}
}
}
if !ext && len(keyList) > 0 && len(keySet) > 0 {
panic(p.val.runtime.NewTypeError("'ownKeys' on proxy: trap returned extra keys but proxy target is non-extensible"))
}
return keyList, true
}
return nil, false
}
func (p *proxyObject) iterateStringKeys() iterNextFunc {
return (&proxyPropIter{
p: p,
names: p.stringKeys(true, nil),
}).next
}
func (p *proxyObject) iterateSymbols() iterNextFunc {
return (&proxyPropIter{
p: p,
names: p.symbols(true, nil),
}).next
}
func (p *proxyObject) iterateKeys() iterNextFunc {
return (&proxyPropIter{
p: p,
names: p.keys(true, nil),
}).next
}
func (p *proxyObject) assertCallable() (call func(FunctionCall) Value, ok bool) {
if p.call != nil {
return func(call FunctionCall) Value {
return p.apply(call)
}, true
}
return nil, false
}
func (p *proxyObject) vmCall(vm *vm, n int) {
vm.pushCtx()
vm.prg = nil
vm.sb = vm.sp - n // so that [sb-1] points to the callee
ret := p.apply(FunctionCall{This: vm.stack[vm.sp-n-2], Arguments: vm.stack[vm.sp-n : vm.sp]})
if ret == nil {
ret = _undefined
}
vm.stack[vm.sp-n-2] = ret
vm.popCtx()
vm.sp -= n + 1
vm.pc++
}
func (p *proxyObject) assertConstructor() func(args []Value, newTarget *Object) *Object {
if p.ctor != nil {
return p.construct
}
return nil
}
func (p *proxyObject) apply(call FunctionCall) Value {
if p.call == nil {
panic(p.val.runtime.NewTypeError("proxy target is not a function"))
}
if v, ok := p.checkHandler().apply(p.target, nilSafe(call.This), call.Arguments); ok {
return v
}
return p.call(call)
}
func (p *proxyObject) construct(args []Value, newTarget *Object) *Object {
if p.ctor == nil {
panic(p.val.runtime.NewTypeError("proxy target is not a constructor"))
}
if newTarget == nil {
newTarget = p.val
}
if v, ok := p.checkHandler().construct(p.target, args, newTarget); ok {
return p.val.runtime.toObject(v)
}
return p.ctor(args, newTarget)
}
func (p *proxyObject) __isCompatibleDescriptor(extensible bool, desc *PropertyDescriptor, current *valueProperty) bool {
if current == nil {
return extensible
}
if !current.configurable {
if desc.Configurable == FLAG_TRUE {
return false
}
if desc.Enumerable != FLAG_NOT_SET && desc.Enumerable.Bool() != current.enumerable {
return false
}
if desc.IsGeneric() {
return true
}
if desc.IsData() != !current.accessor {
return desc.Configurable != FLAG_FALSE
}
if desc.IsData() && !current.accessor {
if !current.configurable {
if desc.Writable == FLAG_TRUE && !current.writable {
return false
}
if !current.writable {
if desc.Value != nil && !desc.Value.SameAs(current.value) {
return false
}
}
}
return true
}
if desc.IsAccessor() && current.accessor {
if !current.configurable {
if desc.Setter != nil && desc.Setter.SameAs(current.setterFunc) {
return false
}
if desc.Getter != nil && desc.Getter.SameAs(current.getterFunc) {
return false
}
}
}
}
return true
}
func (p *proxyObject) __sameValue(val1, val2 Value) bool {
if val1 == nil && val2 == nil {
return true
}
if val1 != nil {
return val1.SameAs(val2)
}
return false
}
func (p *proxyObject) filterKeys(vals []Value, all, symbols bool) []Value {
if !all {
k := 0
for i, val := range vals {
var prop Value
if symbols {
if s, ok := val.(*Symbol); ok {
prop = p.getOwnPropSym(s)
} else {
continue
}
} else {
if _, ok := val.(*Symbol); !ok {
prop = p.getOwnPropStr(val.string())
} else {
continue
}
}
if prop == nil {
continue
}
if prop, ok := prop.(*valueProperty); ok && !prop.enumerable {
continue
}
if k != i {
vals[k] = vals[i]
}
k++
}
vals = vals[:k]
} else {
k := 0
for i, val := range vals {
if _, ok := val.(*Symbol); ok != symbols {
continue
}
if k != i {
vals[k] = vals[i]
}
k++
}
vals = vals[:k]
}
return vals
}
func (p *proxyObject) stringKeys(all bool, _ []Value) []Value { // we can assume accum is empty
var keys []Value
if vals, ok := p.proxyOwnKeys(); ok {
keys = vals
} else {
keys = p.target.self.stringKeys(true, nil)
}
return p.filterKeys(keys, all, false)
}
func (p *proxyObject) symbols(all bool, accum []Value) []Value {
var symbols []Value
if vals, ok := p.proxyOwnKeys(); ok {
symbols = vals
} else {
symbols = p.target.self.symbols(true, nil)
}
symbols = p.filterKeys(symbols, all, true)
if accum == nil {
return symbols
}
accum = append(accum, symbols...)
return accum
}
func (p *proxyObject) className() string {
if p.target == nil {
panic(p.val.runtime.NewTypeError("proxy has been revoked"))
}
if p.call != nil || p.ctor != nil {
return classFunction
}
return classObject
}
func (p *proxyObject) typeOf() String {
if p.call == nil {
return stringObjectC
}
return stringFunction
}
func (p *proxyObject) exportType() reflect.Type {
return proxyType
}
func (p *proxyObject) export(*objectExportCtx) interface{} {
return Proxy{
proxy: p,
}
}
func (p *proxyObject) revoke() {
p.handler = nil
p.target = nil
}
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https://gitee.com/quant1x/pkg.git
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quant1x
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v0.3.1

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