#![allow(non_camel_case_types,non_upper_case_globals,unused_imports,unused_variables,unused_assignments,unused_mut,clippy::approx_constant,clippy::let_unit_value,clippy::needless_return,clippy::too_many_arguments,clippy::unnecessary_cast,clippy::upper_case_acronyms)]
use crate::dom::bindings::codegen::Bindings::AudioNodeBinding::ChannelCountMode;
use crate::dom::bindings::codegen::Bindings::AudioNodeBinding::ChannelCountModeValues;
use crate::dom::bindings::codegen::Bindings::AudioNodeBinding::ChannelInterpretation;
use crate::dom::bindings::codegen::Bindings::AudioNodeBinding::ChannelInterpretationValues;
use crate::dom::bindings::import::base::*;
#[derive(JSTraceable)]
pub struct AnalyserOptions {
pub parent: crate::dom::bindings::codegen::Bindings::AudioNodeBinding::AudioNodeOptions,
pub fftSize: u32,
pub maxDecibels: Finite<f64>,
pub minDecibels: Finite<f64>,
pub smoothingTimeConstant: Finite<f64>,
}
impl AnalyserOptions {
pub fn empty() -> Self {
Self {
parent: crate::dom::bindings::codegen::Bindings::AudioNodeBinding::AudioNodeOptions::empty(),
fftSize: 2048,
maxDecibels: Finite::wrap(-30.0),
minDecibels: Finite::wrap(-100.0),
smoothingTimeConstant: Finite::wrap(0.8),
}
}
pub fn new(cx: SafeJSContext, val: HandleValue)
-> Result<ConversionResult<AnalyserOptions>, ()> {
unsafe {
let object = if val.get().is_null_or_undefined() {
ptr::null_mut()
} else if val.get().is_object() {
val.get().to_object()
} else {
return Ok(ConversionResult::Failure("Value is not an object.".into()));
};
rooted!(in(*cx) let object = object);
let dictionary = AnalyserOptions {
parent: {
match crate::dom::bindings::codegen::Bindings::AudioNodeBinding::AudioNodeOptions::new(cx, val)? {
ConversionResult::Success(v) => v,
ConversionResult::Failure(error) => {
throw_type_error(*cx, &error);
return Err(());
}
}
},
fftSize: {
rooted!(in(*cx) let mut rval = UndefinedValue());
if get_dictionary_property(*cx, object.handle(), "fftSize", rval.handle_mut())? && !rval.is_undefined() {
match FromJSValConvertible::from_jsval(*cx, rval.handle(), ConversionBehavior::Default) {
Ok(ConversionResult::Success(v)) => v,
Ok(ConversionResult::Failure(error)) => {
throw_type_error(*cx, &error);
return Err(());
}
_ => { return Err(());
}
}
} else {
2048
}
},
maxDecibels: {
rooted!(in(*cx) let mut rval = UndefinedValue());
if get_dictionary_property(*cx, object.handle(), "maxDecibels", rval.handle_mut())? && !rval.is_undefined() {
match FromJSValConvertible::from_jsval(*cx, rval.handle(), ()) {
Ok(ConversionResult::Success(v)) => v,
Ok(ConversionResult::Failure(error)) => {
throw_type_error(*cx, &error);
return Err(());
}
_ => { return Err(());
}
}
} else {
Finite::wrap(-30.0)
}
},
minDecibels: {
rooted!(in(*cx) let mut rval = UndefinedValue());
if get_dictionary_property(*cx, object.handle(), "minDecibels", rval.handle_mut())? && !rval.is_undefined() {
match FromJSValConvertible::from_jsval(*cx, rval.handle(), ()) {
Ok(ConversionResult::Success(v)) => v,
Ok(ConversionResult::Failure(error)) => {
throw_type_error(*cx, &error);
return Err(());
}
_ => { return Err(());
}
}
} else {
Finite::wrap(-100.0)
}
},
smoothingTimeConstant: {
rooted!(in(*cx) let mut rval = UndefinedValue());
if get_dictionary_property(*cx, object.handle(), "smoothingTimeConstant", rval.handle_mut())? && !rval.is_undefined() {
match FromJSValConvertible::from_jsval(*cx, rval.handle(), ()) {
Ok(ConversionResult::Success(v)) => v,
Ok(ConversionResult::Failure(error)) => {
throw_type_error(*cx, &error);
return Err(());
}
_ => { return Err(());
}
}
} else {
Finite::wrap(0.8)
}
},
};
Ok(ConversionResult::Success(dictionary))
}
}
}
impl FromJSValConvertible for AnalyserOptions {
type Config = ();
unsafe fn from_jsval(cx: *mut JSContext, value: HandleValue, _option: ())
-> Result<ConversionResult<AnalyserOptions>, ()> {
AnalyserOptions::new(SafeJSContext::from_ptr(cx), value)
}
}
impl AnalyserOptions {
pub(crate) unsafe fn to_jsobject(&self, cx: *mut JSContext, mut obj: MutableHandleObject) {
self.parent.to_jsobject(cx, obj);
let fftSize = &self.fftSize;
rooted!(in(cx) let mut fftSize_js = UndefinedValue());
fftSize.to_jsval(cx, fftSize_js.handle_mut());
set_dictionary_property(cx, obj.handle(), "fftSize", fftSize_js.handle()).unwrap();
let maxDecibels = &self.maxDecibels;
rooted!(in(cx) let mut maxDecibels_js = UndefinedValue());
maxDecibels.to_jsval(cx, maxDecibels_js.handle_mut());
set_dictionary_property(cx, obj.handle(), "maxDecibels", maxDecibels_js.handle()).unwrap();
let minDecibels = &self.minDecibels;
rooted!(in(cx) let mut minDecibels_js = UndefinedValue());
minDecibels.to_jsval(cx, minDecibels_js.handle_mut());
set_dictionary_property(cx, obj.handle(), "minDecibels", minDecibels_js.handle()).unwrap();
let smoothingTimeConstant = &self.smoothingTimeConstant;
rooted!(in(cx) let mut smoothingTimeConstant_js = UndefinedValue());
smoothingTimeConstant.to_jsval(cx, smoothingTimeConstant_js.handle_mut());
set_dictionary_property(cx, obj.handle(), "smoothingTimeConstant", smoothingTimeConstant_js.handle()).unwrap();
}
}
impl ToJSValConvertible for AnalyserOptions {
unsafe fn to_jsval(&self, cx: *mut JSContext, mut rval: MutableHandleValue) {
rooted!(in(cx) let mut obj = JS_NewObject(cx, ptr::null()));
self.to_jsobject(cx, obj.handle_mut());
rval.set(ObjectOrNullValue(obj.get()))
}
}
pub use self::AnalyserNode_Binding::{Wrap, AnalyserNodeMethods, GetProtoObject, DefineDOMInterface};
pub mod AnalyserNode_Binding {
use crate::dom;
use crate::dom::bindings::codegen::Bindings::AnalyserNodeBinding::AnalyserOptions;
use crate::dom::bindings::codegen::Bindings::AudioNodeBinding::AudioNode_Binding;
use crate::dom::bindings::codegen::Bindings::AudioNodeBinding::ChannelCountMode;
use crate::dom::bindings::codegen::Bindings::AudioNodeBinding::ChannelCountModeValues;
use crate::dom::bindings::codegen::Bindings::AudioNodeBinding::ChannelInterpretation;
use crate::dom::bindings::codegen::Bindings::AudioNodeBinding::ChannelInterpretationValues;
use crate::dom::bindings::codegen::Bindings::EventTargetBinding::EventTarget_Binding;
use crate::dom::bindings::import::module::*;
use crate::dom::types::AnalyserNode;
use crate::dom::types::AudioNode;
use crate::dom::types::BaseAudioContext;
use crate::dom::types::EventTarget;
unsafe extern fn getFloatFrequencyData(cx: *mut JSContext, _obj: RawHandleObject, this: *mut libc::c_void, args: *const JSJitMethodCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let args = &*args;
let argc = args.argc_;
if argc < 1 {
throw_type_error(*cx, "Not enough arguments to \"AnalyserNode.getFloatFrequencyData\".");
return false;
}
let arg0: typedarray::Float32Array = if HandleValue::from_raw(args.get(0)).get().is_object() {
match typedarray::Float32Array::from(HandleValue::from_raw(args.get(0)).get().to_object()) {
Ok(val) => val,
Err(()) => {
throw_type_error(*cx, "value is not a typed array.");
return false;
}
}
} else {
throw_type_error(*cx, "Value is not an object.");
return false;
};
auto_root!(in(*cx) let arg0 = arg0);
let result: () = this.GetFloatFrequencyData(arg0);
(result).to_jsval(*cx, MutableHandleValue::from_raw(args.rval()));
return true;
})());
result
}
const getFloatFrequencyData_methodinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
method: Some(getFloatFrequencyData)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Method as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_UNDEFINED as u8,
false,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
unsafe extern fn getByteFrequencyData(cx: *mut JSContext, _obj: RawHandleObject, this: *mut libc::c_void, args: *const JSJitMethodCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let args = &*args;
let argc = args.argc_;
if argc < 1 {
throw_type_error(*cx, "Not enough arguments to \"AnalyserNode.getByteFrequencyData\".");
return false;
}
let arg0: typedarray::Uint8Array = if HandleValue::from_raw(args.get(0)).get().is_object() {
match typedarray::Uint8Array::from(HandleValue::from_raw(args.get(0)).get().to_object()) {
Ok(val) => val,
Err(()) => {
throw_type_error(*cx, "value is not a typed array.");
return false;
}
}
} else {
throw_type_error(*cx, "Value is not an object.");
return false;
};
auto_root!(in(*cx) let arg0 = arg0);
let result: () = this.GetByteFrequencyData(arg0);
(result).to_jsval(*cx, MutableHandleValue::from_raw(args.rval()));
return true;
})());
result
}
const getByteFrequencyData_methodinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
method: Some(getByteFrequencyData)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Method as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_UNDEFINED as u8,
false,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
unsafe extern fn getFloatTimeDomainData(cx: *mut JSContext, _obj: RawHandleObject, this: *mut libc::c_void, args: *const JSJitMethodCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let args = &*args;
let argc = args.argc_;
if argc < 1 {
throw_type_error(*cx, "Not enough arguments to \"AnalyserNode.getFloatTimeDomainData\".");
return false;
}
let arg0: typedarray::Float32Array = if HandleValue::from_raw(args.get(0)).get().is_object() {
match typedarray::Float32Array::from(HandleValue::from_raw(args.get(0)).get().to_object()) {
Ok(val) => val,
Err(()) => {
throw_type_error(*cx, "value is not a typed array.");
return false;
}
}
} else {
throw_type_error(*cx, "Value is not an object.");
return false;
};
auto_root!(in(*cx) let arg0 = arg0);
let result: () = this.GetFloatTimeDomainData(arg0);
(result).to_jsval(*cx, MutableHandleValue::from_raw(args.rval()));
return true;
})());
result
}
const getFloatTimeDomainData_methodinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
method: Some(getFloatTimeDomainData)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Method as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_UNDEFINED as u8,
false,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
unsafe extern fn getByteTimeDomainData(cx: *mut JSContext, _obj: RawHandleObject, this: *mut libc::c_void, args: *const JSJitMethodCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let args = &*args;
let argc = args.argc_;
if argc < 1 {
throw_type_error(*cx, "Not enough arguments to \"AnalyserNode.getByteTimeDomainData\".");
return false;
}
let arg0: typedarray::Uint8Array = if HandleValue::from_raw(args.get(0)).get().is_object() {
match typedarray::Uint8Array::from(HandleValue::from_raw(args.get(0)).get().to_object()) {
Ok(val) => val,
Err(()) => {
throw_type_error(*cx, "value is not a typed array.");
return false;
}
}
} else {
throw_type_error(*cx, "Value is not an object.");
return false;
};
auto_root!(in(*cx) let arg0 = arg0);
let result: () = this.GetByteTimeDomainData(arg0);
(result).to_jsval(*cx, MutableHandleValue::from_raw(args.rval()));
return true;
})());
result
}
const getByteTimeDomainData_methodinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
method: Some(getByteTimeDomainData)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Method as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_UNDEFINED as u8,
false,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
unsafe extern fn get_fftSize(cx: *mut JSContext, _obj: RawHandleObject, this: *mut libc::c_void, args: JSJitGetterCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let result: u32 = this.FftSize();
(result).to_jsval(*cx, MutableHandleValue::from_raw(args.rval()));
return true;
})());
result
}
unsafe extern fn set_fftSize(cx: *mut JSContext, obj: RawHandleObject, this: *mut libc::c_void, args: JSJitSetterCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let arg0: u32 = match FromJSValConvertible::from_jsval(*cx, HandleValue::from_raw(args.get(0)), ConversionBehavior::Default) {
Ok(ConversionResult::Success(v)) => v,
Ok(ConversionResult::Failure(error)) => {
throw_type_error(*cx, &error);
return false;
}
_ => { return false;
}
};
let result: Result<(), Error> = this.SetFftSize(arg0);
let result = match result {
Ok(result) => result,
Err(e) => {
throw_dom_exception(cx, &this.global(), e);
return false;
},
};
true
})());
result
}
const fftSize_getterinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
getter: Some(get_fftSize)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Getter as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_DOUBLE as u8,
true,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
const fftSize_setterinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
setter: Some(set_fftSize)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Setter as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_UNDEFINED as u8,
false,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
unsafe extern fn get_frequencyBinCount(cx: *mut JSContext, _obj: RawHandleObject, this: *mut libc::c_void, args: JSJitGetterCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let result: u32 = this.FrequencyBinCount();
(result).to_jsval(*cx, MutableHandleValue::from_raw(args.rval()));
return true;
})());
result
}
const frequencyBinCount_getterinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
getter: Some(get_frequencyBinCount)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Getter as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_DOUBLE as u8,
true,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
unsafe extern fn get_minDecibels(cx: *mut JSContext, _obj: RawHandleObject, this: *mut libc::c_void, args: JSJitGetterCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let result: Finite<f64> = this.MinDecibels();
(result).to_jsval(*cx, MutableHandleValue::from_raw(args.rval()));
return true;
})());
result
}
unsafe extern fn set_minDecibels(cx: *mut JSContext, obj: RawHandleObject, this: *mut libc::c_void, args: JSJitSetterCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let arg0: Finite<f64> = match FromJSValConvertible::from_jsval(*cx, HandleValue::from_raw(args.get(0)), ()) {
Ok(ConversionResult::Success(v)) => v,
Ok(ConversionResult::Failure(error)) => {
throw_type_error(*cx, &error);
return false;
}
_ => { return false;
}
};
let result: Result<(), Error> = this.SetMinDecibels(arg0);
let result = match result {
Ok(result) => result,
Err(e) => {
throw_dom_exception(cx, &this.global(), e);
return false;
},
};
true
})());
result
}
const minDecibels_getterinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
getter: Some(get_minDecibels)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Getter as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_DOUBLE as u8,
true,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
const minDecibels_setterinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
setter: Some(set_minDecibels)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Setter as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_UNDEFINED as u8,
false,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
unsafe extern fn get_maxDecibels(cx: *mut JSContext, _obj: RawHandleObject, this: *mut libc::c_void, args: JSJitGetterCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let result: Finite<f64> = this.MaxDecibels();
(result).to_jsval(*cx, MutableHandleValue::from_raw(args.rval()));
return true;
})());
result
}
unsafe extern fn set_maxDecibels(cx: *mut JSContext, obj: RawHandleObject, this: *mut libc::c_void, args: JSJitSetterCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let arg0: Finite<f64> = match FromJSValConvertible::from_jsval(*cx, HandleValue::from_raw(args.get(0)), ()) {
Ok(ConversionResult::Success(v)) => v,
Ok(ConversionResult::Failure(error)) => {
throw_type_error(*cx, &error);
return false;
}
_ => { return false;
}
};
let result: Result<(), Error> = this.SetMaxDecibels(arg0);
let result = match result {
Ok(result) => result,
Err(e) => {
throw_dom_exception(cx, &this.global(), e);
return false;
},
};
true
})());
result
}
const maxDecibels_getterinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
getter: Some(get_maxDecibels)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Getter as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_DOUBLE as u8,
true,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
const maxDecibels_setterinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
setter: Some(set_maxDecibels)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Setter as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_UNDEFINED as u8,
false,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
unsafe extern fn get_smoothingTimeConstant(cx: *mut JSContext, _obj: RawHandleObject, this: *mut libc::c_void, args: JSJitGetterCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let result: Finite<f64> = this.SmoothingTimeConstant();
(result).to_jsval(*cx, MutableHandleValue::from_raw(args.rval()));
return true;
})());
result
}
unsafe extern fn set_smoothingTimeConstant(cx: *mut JSContext, obj: RawHandleObject, this: *mut libc::c_void, args: JSJitSetterCallArgs) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let this = &*(this as *const AnalyserNode);
let arg0: Finite<f64> = match FromJSValConvertible::from_jsval(*cx, HandleValue::from_raw(args.get(0)), ()) {
Ok(ConversionResult::Success(v)) => v,
Ok(ConversionResult::Failure(error)) => {
throw_type_error(*cx, &error);
return false;
}
_ => { return false;
}
};
let result: Result<(), Error> = this.SetSmoothingTimeConstant(arg0);
let result = match result {
Ok(result) => result,
Err(e) => {
throw_dom_exception(cx, &this.global(), e);
return false;
},
};
true
})());
result
}
const smoothingTimeConstant_getterinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
getter: Some(get_smoothingTimeConstant)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Getter as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_DOUBLE as u8,
true,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
const smoothingTimeConstant_setterinfo: JSJitInfo = JSJitInfo {
__bindgen_anon_1: JSJitInfo__bindgen_ty_1 {
setter: Some(set_smoothingTimeConstant)
},
__bindgen_anon_2: JSJitInfo__bindgen_ty_2 {
protoID: PrototypeList::ID::AnalyserNode as u16,
},
__bindgen_anon_3: JSJitInfo__bindgen_ty_3 { depth: 2 },
_bitfield_align_1: [],
_bitfield_1: __BindgenBitfieldUnit::new(
new_jsjitinfo_bitfield_1!(
JSJitInfo_OpType::Setter as u8,
JSJitInfo_AliasSet::AliasEverything as u8,
JSValueType::JSVAL_TYPE_UNDEFINED as u8,
false,
false,
false,
false,
false,
false,
0,
).to_ne_bytes()
),
};
unsafe extern fn _finalize(_cx: *mut GCContext, obj: *mut JSObject) {
wrap_panic(&mut || {
let this = native_from_object_static::<AnalyserNode>(obj).unwrap();
finalize_common(this);
})
}
unsafe extern fn _trace(trc: *mut JSTracer, obj: *mut JSObject) {
wrap_panic(&mut || {
let this = native_from_object_static::<AnalyserNode>(obj).unwrap();
if this.is_null() { return; } (*this).trace(trc);
})
}
static CLASS_OPS: JSClassOps = JSClassOps {
addProperty: None,
delProperty: None,
enumerate: None,
newEnumerate: None,
resolve: None,
mayResolve: None,
finalize: Some(_finalize),
call: None,
construct: None,
trace: Some(_trace),
};
static Class: DOMJSClass = DOMJSClass {
base: JSClass {
name: b"AnalyserNode\0" as *const u8 as *const libc::c_char,
flags: JSCLASS_IS_DOMJSCLASS | JSCLASS_FOREGROUND_FINALIZE |
(((1) & JSCLASS_RESERVED_SLOTS_MASK) << JSCLASS_RESERVED_SLOTS_SHIFT)
,
cOps: &CLASS_OPS,
spec: ptr::null(),
ext: ptr::null(),
oOps: ptr::null(),
},
dom_class: DOMClass {
interface_chain: [ PrototypeList::ID::EventTarget, PrototypeList::ID::AudioNode, PrototypeList::ID::AnalyserNode, PrototypeList::ID::Last, PrototypeList::ID::Last, PrototypeList::ID::Last ],
depth: 2,
type_id: crate::dom::bindings::codegen::InheritTypes::TopTypeId { eventtarget: (crate::dom::bindings::codegen::InheritTypes::EventTargetTypeId::AudioNode(crate::dom::bindings::codegen::InheritTypes::AudioNodeTypeId::AnalyserNode)) },
malloc_size_of: malloc_size_of_including_raw_self::<AnalyserNode> as unsafe fn(&mut _, _) -> _,
global: InterfaceObjectMap::Globals::EMPTY,
}
};
impl AnalyserNode {
fn __assert_parent_type(&self) {
use crate::dom::bindings::inheritance::HasParent;
let _: &AudioNode = self.as_parent();
}
}
pub unsafe fn Wrap(cx: SafeJSContext, scope: &GlobalScope, given_proto: Option<HandleObject>, object: Box<AnalyserNode>) -> DomRoot<AnalyserNode> {
let raw = Root::new(MaybeUnreflectedDom::from_box(object));
let scope = scope.reflector().get_jsobject();
assert!(!scope.get().is_null());
assert!(((*get_object_class(scope.get())).flags & JSCLASS_IS_GLOBAL) != 0);
let _ac = JSAutoRealm::new(*cx, scope.get());
rooted!(in(*cx) let mut canonical_proto = ptr::null_mut::<JSObject>());
GetProtoObject(cx, scope, canonical_proto.handle_mut());
assert!(!canonical_proto.is_null());
rooted!(in(*cx) let mut proto = ptr::null_mut::<JSObject>());
if let Some(given) = given_proto {
*proto = *given;
if get_context_realm(*cx) != get_object_realm(*given) {
assert!(JS_WrapObject(*cx, proto.handle_mut()));
}
} else {
*proto = *canonical_proto;
}
rooted!(in(*cx) let obj = JS_NewObjectWithGivenProto(
*cx,
&Class.base,
proto.handle(),
));
assert!(!obj.is_null());
JS_SetReservedSlot(
obj.get(),
DOM_OBJECT_SLOT,
&PrivateValue(raw.as_ptr() as *const libc::c_void),
);
let root = raw.reflect_with(obj.get());
DomRoot::from_ref(&*root)
}
impl DomObjectWrap for dom::analysernode::AnalyserNode {
const WRAP: unsafe fn(
SafeJSContext,
&GlobalScope,
Option<HandleObject>,
Box<Self>,
) -> Root<Dom<Self>> = Wrap;
}
impl IDLInterface for AnalyserNode {
#[inline]
fn derives(class: &'static DOMClass) -> bool {
ptr::eq(class, &Class.dom_class)
}
}
impl PartialEq for AnalyserNode {
fn eq(&self, other: &AnalyserNode) -> bool {
self as *const AnalyserNode == other
}
}
pub trait AnalyserNodeMethods {
fn GetFloatFrequencyData(&self, array: CustomAutoRooterGuard<typedarray::Float32Array>);
fn GetByteFrequencyData(&self, array: CustomAutoRooterGuard<typedarray::Uint8Array>);
fn GetFloatTimeDomainData(&self, array: CustomAutoRooterGuard<typedarray::Float32Array>);
fn GetByteTimeDomainData(&self, array: CustomAutoRooterGuard<typedarray::Uint8Array>);
fn FftSize(&self) -> u32;
fn SetFftSize(&self, value: u32) -> ErrorResult;
fn FrequencyBinCount(&self) -> u32;
fn MinDecibels(&self) -> Finite<f64>;
fn SetMinDecibels(&self, value: Finite<f64>) -> ErrorResult;
fn MaxDecibels(&self) -> Finite<f64>;
fn SetMaxDecibels(&self, value: Finite<f64>) -> ErrorResult;
fn SmoothingTimeConstant(&self) -> Finite<f64>;
fn SetSmoothingTimeConstant(&self, value: Finite<f64>) -> ErrorResult;
}
const sMethods_specs: &[&[JSFunctionSpec]] = &[
&[
JSFunctionSpec {
name: JSPropertySpec_Name { string_: b"getFloatFrequencyData\0" as *const u8 as *const libc::c_char },
call: JSNativeWrapper { op: Some(generic_method), info: &getFloatFrequencyData_methodinfo as *const _ as *const JSJitInfo },
nargs: 1,
flags: (JSPROP_ENUMERATE) as u16,
selfHostedName: 0 as *const libc::c_char
},
JSFunctionSpec {
name: JSPropertySpec_Name { string_: b"getByteFrequencyData\0" as *const u8 as *const libc::c_char },
call: JSNativeWrapper { op: Some(generic_method), info: &getByteFrequencyData_methodinfo as *const _ as *const JSJitInfo },
nargs: 1,
flags: (JSPROP_ENUMERATE) as u16,
selfHostedName: 0 as *const libc::c_char
},
JSFunctionSpec {
name: JSPropertySpec_Name { string_: b"getFloatTimeDomainData\0" as *const u8 as *const libc::c_char },
call: JSNativeWrapper { op: Some(generic_method), info: &getFloatTimeDomainData_methodinfo as *const _ as *const JSJitInfo },
nargs: 1,
flags: (JSPROP_ENUMERATE) as u16,
selfHostedName: 0 as *const libc::c_char
},
JSFunctionSpec {
name: JSPropertySpec_Name { string_: b"getByteTimeDomainData\0" as *const u8 as *const libc::c_char },
call: JSNativeWrapper { op: Some(generic_method), info: &getByteTimeDomainData_methodinfo as *const _ as *const JSJitInfo },
nargs: 1,
flags: (JSPROP_ENUMERATE) as u16,
selfHostedName: 0 as *const libc::c_char
},
JSFunctionSpec {
name: JSPropertySpec_Name { string_: ptr::null() },
call: JSNativeWrapper { op: None, info: ptr::null() },
nargs: 0,
flags: 0,
selfHostedName: ptr::null()
}]
];
const sMethods: &[Guard<&[JSFunctionSpec]>] = &[
Guard::new(Condition::Exposed(InterfaceObjectMap::Globals::WINDOW), sMethods_specs[0])
];
const sAttributes_specs: &[&[JSPropertySpec]] = &[
&[
JSPropertySpec {
name: JSPropertySpec_Name { string_: b"fftSize\0" as *const u8 as *const libc::c_char },
attributes_: (JSPROP_ENUMERATE),
kind_: (JSPropertySpec_Kind::NativeAccessor),
u: JSPropertySpec_AccessorsOrValue {
accessors: JSPropertySpec_AccessorsOrValue_Accessors {
getter: JSPropertySpec_Accessor {
native: JSNativeWrapper { op: Some(generic_getter), info: &fftSize_getterinfo },
},
setter: JSPropertySpec_Accessor {
native: JSNativeWrapper { op: Some(generic_setter), info: &fftSize_setterinfo },
}
}
}
}
,
JSPropertySpec {
name: JSPropertySpec_Name { string_: b"frequencyBinCount\0" as *const u8 as *const libc::c_char },
attributes_: (JSPROP_ENUMERATE),
kind_: (JSPropertySpec_Kind::NativeAccessor),
u: JSPropertySpec_AccessorsOrValue {
accessors: JSPropertySpec_AccessorsOrValue_Accessors {
getter: JSPropertySpec_Accessor {
native: JSNativeWrapper { op: Some(generic_getter), info: &frequencyBinCount_getterinfo },
},
setter: JSPropertySpec_Accessor {
native: JSNativeWrapper { op: None, info: 0 as *const JSJitInfo },
}
}
}
}
,
JSPropertySpec {
name: JSPropertySpec_Name { string_: b"minDecibels\0" as *const u8 as *const libc::c_char },
attributes_: (JSPROP_ENUMERATE),
kind_: (JSPropertySpec_Kind::NativeAccessor),
u: JSPropertySpec_AccessorsOrValue {
accessors: JSPropertySpec_AccessorsOrValue_Accessors {
getter: JSPropertySpec_Accessor {
native: JSNativeWrapper { op: Some(generic_getter), info: &minDecibels_getterinfo },
},
setter: JSPropertySpec_Accessor {
native: JSNativeWrapper { op: Some(generic_setter), info: &minDecibels_setterinfo },
}
}
}
}
,
JSPropertySpec {
name: JSPropertySpec_Name { string_: b"maxDecibels\0" as *const u8 as *const libc::c_char },
attributes_: (JSPROP_ENUMERATE),
kind_: (JSPropertySpec_Kind::NativeAccessor),
u: JSPropertySpec_AccessorsOrValue {
accessors: JSPropertySpec_AccessorsOrValue_Accessors {
getter: JSPropertySpec_Accessor {
native: JSNativeWrapper { op: Some(generic_getter), info: &maxDecibels_getterinfo },
},
setter: JSPropertySpec_Accessor {
native: JSNativeWrapper { op: Some(generic_setter), info: &maxDecibels_setterinfo },
}
}
}
}
,
JSPropertySpec {
name: JSPropertySpec_Name { string_: b"smoothingTimeConstant\0" as *const u8 as *const libc::c_char },
attributes_: (JSPROP_ENUMERATE),
kind_: (JSPropertySpec_Kind::NativeAccessor),
u: JSPropertySpec_AccessorsOrValue {
accessors: JSPropertySpec_AccessorsOrValue_Accessors {
getter: JSPropertySpec_Accessor {
native: JSNativeWrapper { op: Some(generic_getter), info: &smoothingTimeConstant_getterinfo },
},
setter: JSPropertySpec_Accessor {
native: JSNativeWrapper { op: Some(generic_setter), info: &smoothingTimeConstant_setterinfo },
}
}
}
}
,
JSPropertySpec::ZERO]
,
&[
JSPropertySpec {
name: JSPropertySpec_Name { symbol_: SymbolCode::toStringTag as usize + 1 },
attributes_: (JSPROP_READONLY),
kind_: (JSPropertySpec_Kind::Value),
u: JSPropertySpec_AccessorsOrValue {
value: JSPropertySpec_ValueWrapper {
type_: JSPropertySpec_ValueWrapper_Type::String,
__bindgen_anon_1: JSPropertySpec_ValueWrapper__bindgen_ty_1 {
string: b"AnalyserNode\0" as *const u8 as *const libc::c_char,
}
}
}
}
,
JSPropertySpec::ZERO]
];
const sAttributes: &[Guard<&[JSPropertySpec]>] = &[
Guard::new(Condition::Exposed(InterfaceObjectMap::Globals::WINDOW), sAttributes_specs[0]),
Guard::new(Condition::Satisfied, sAttributes_specs[1])
];
pub fn GetProtoObject(cx: SafeJSContext, global: HandleObject, mut rval: MutableHandleObject) {
get_per_interface_object_handle(cx, global, ProtoOrIfaceIndex::ID(PrototypeList::ID::AnalyserNode), CreateInterfaceObjects, rval)
}
static PrototypeClass: JSClass = JSClass {
name: b"AnalyserNodePrototype\0" as *const u8 as *const libc::c_char,
flags:
(0 ) << JSCLASS_RESERVED_SLOTS_SHIFT,
cOps: 0 as *const _,
spec: ptr::null(),
ext: ptr::null(),
oOps: ptr::null(),
};
unsafe extern fn _constructor(cx: *mut JSContext, argc: u32, vp: *mut JSVal) -> bool {
let mut result = false;
wrap_panic(&mut || result = (|| {
let cx = SafeJSContext::from_ptr(cx);
let args = CallArgs::from_vp(vp, argc);
let global = GlobalScope::from_object(JS_CALLEE(*cx, vp).to_object());
let global = DomRoot::downcast::<dom::types::Window>(global).unwrap();
if !callargs_is_constructing(&args) {
throw_constructor_without_new(*cx, "AnalyserNode");
return false;
}
rooted!(in(*cx) let mut desired_proto = ptr::null_mut::<JSObject>());
let proto_result = get_desired_proto(
cx,
&args,
PrototypeList::ID::AnalyserNode,
CreateInterfaceObjects,
desired_proto.handle_mut(),
);
assert!(proto_result.is_ok());
if proto_result.is_err() {
return false;
}
if argc < 1 {
throw_type_error(*cx, "Not enough arguments to \"AnalyserNode.constructor\".");
return false;
}
let arg0: DomRoot<BaseAudioContext> = if HandleValue::from_raw(args.get(0)).get().is_object() {
match root_from_handlevalue(HandleValue::from_raw(args.get(0)), *cx) {
Ok(val) => val,
Err(()) => {
throw_type_error(*cx, "value does not implement interface BaseAudioContext.");
return false;
}
}
} else {
throw_type_error(*cx, "Value is not an object.");
return false;
};
let arg1: crate::dom::bindings::codegen::Bindings::AnalyserNodeBinding::AnalyserOptions = if args.get(1).is_undefined() {
crate::dom::bindings::codegen::Bindings::AnalyserNodeBinding::AnalyserOptions::empty()
} else {
match FromJSValConvertible::from_jsval(*cx, HandleValue::from_raw(args.get(1)), ()) {
Ok(ConversionResult::Success(dictionary)) => dictionary,
Ok(ConversionResult::Failure(error)) => {
throw_type_error(*cx, &error);
return false;
}
_ => { return false;
},
}
};
let result: Result<DomRoot<AnalyserNode>, Error> = AnalyserNode::Constructor(&global, Some(desired_proto.handle()), &arg0, &arg1);
let result = match result {
Ok(result) => result,
Err(e) => {
throw_dom_exception(cx, global.upcast::<GlobalScope>(), e);
return false;
},
};
(result).to_jsval(*cx, MutableHandleValue::from_raw(args.rval()));
return true;
})());
result
}
static INTERFACE_OBJECT_CLASS: NonCallbackInterfaceObjectClass =
NonCallbackInterfaceObjectClass::new(
{
const BEHAVIOR: InterfaceConstructorBehavior = InterfaceConstructorBehavior::call(_constructor);
&BEHAVIOR
},
b"function AnalyserNode() {\n [native code]\n}",
PrototypeList::ID::AnalyserNode,
2);
pub fn DefineDOMInterface(cx: SafeJSContext, global: HandleObject) {
define_dom_interface(cx, global, ProtoOrIfaceIndex::ID(PrototypeList::ID::AnalyserNode), CreateInterfaceObjects, ConstructorEnabled)
}
fn ConstructorEnabled(aCx: SafeJSContext, aObj: HandleObject) -> bool {
is_exposed_in(aObj, InterfaceObjectMap::Globals::WINDOW)
}
unsafe fn CreateInterfaceObjects(cx: SafeJSContext, global: HandleObject, cache: *mut ProtoOrIfaceArray) {
rooted!(in(*cx) let mut prototype_proto = ptr::null_mut::<JSObject>());
AudioNode_Binding::GetProtoObject(cx, global, prototype_proto.handle_mut());
assert!(!prototype_proto.is_null());
rooted!(in(*cx) let mut prototype = ptr::null_mut::<JSObject>());
create_interface_prototype_object(cx,
global,
prototype_proto.handle(),
&PrototypeClass,
sMethods,
sAttributes,
&[],
&[],
prototype.handle_mut());
assert!(!prototype.is_null());
assert!((*cache)[PrototypeList::ID::AnalyserNode as usize].is_null());
(*cache)[PrototypeList::ID::AnalyserNode as usize] = prototype.get();
<*mut JSObject>::post_barrier((*cache).as_mut_ptr().offset(PrototypeList::ID::AnalyserNode as isize),
ptr::null_mut(),
prototype.get());
rooted!(in(*cx) let mut interface_proto = ptr::null_mut::<JSObject>());
AudioNode_Binding::GetConstructorObject(cx, global, interface_proto.handle_mut());
assert!(!interface_proto.is_null());
rooted!(in(*cx) let mut interface = ptr::null_mut::<JSObject>());
create_noncallback_interface_object(cx,
global,
interface_proto.handle(),
&INTERFACE_OBJECT_CLASS,
&[],
&[],
&[],
prototype.handle(),
b"AnalyserNode\0",
1,
&[],
interface.handle_mut());
assert!(!interface.is_null());
}
}