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chromium / chromium / src / out / refs/heads/main / . / win-Debug / gen / services / device / public / mojom / sensor.mojom.js
blob: ce53f9ef4969c939adf03b5a51bec2bdeaddce3d [file] [log] [blame]
// services/device/public/mojom/sensor.mojom.js is auto generated by mojom_bindings_generator.py, do not edit
// Copyright 2014 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
'use strict';
(function() {
var mojomId = 'services/device/public/mojom/sensor.mojom';
if (mojo.internal.isMojomLoaded(mojomId)) {
console.warn('The following mojom is loaded multiple times: ' + mojomId);
return;
}
mojo.internal.markMojomLoaded(mojomId);
var bindings = mojo;
var associatedBindings = mojo;
var codec = mojo.internal;
var validator = mojo.internal;
var exports = mojo.internal.exposeNamespace('device.mojom');
var SensorType = {};
SensorType.AMBIENT_LIGHT = 0;
SensorType.PROXIMITY = 1;
SensorType.ACCELEROMETER = 2;
SensorType.LINEAR_ACCELERATION = 3;
SensorType.GRAVITY = 4;
SensorType.GYROSCOPE = 5;
SensorType.MAGNETOMETER = 6;
SensorType.PRESSURE = 7;
SensorType.ABSOLUTE_ORIENTATION_EULER_ANGLES = 8;
SensorType.ABSOLUTE_ORIENTATION_QUATERNION = 9;
SensorType.RELATIVE_ORIENTATION_EULER_ANGLES = 10;
SensorType.RELATIVE_ORIENTATION_QUATERNION = 11;
SensorType.MIN_VALUE = 0;
SensorType.MAX_VALUE = 11;
SensorType.isKnownEnumValue = function(value) {
switch (value) {
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
case 8:
case 9:
case 10:
case 11:
return true;
}
return false;
};
SensorType.toKnownEnumValue = function(value) {
return value;
};
SensorType.validate = function(enumValue) {
const isExtensible = false;
if (isExtensible || this.isKnownEnumValue(enumValue))
return validator.validationError.NONE;
return validator.validationError.UNKNOWN_ENUM_VALUE;
};
var ReportingMode = {};
ReportingMode.ON_CHANGE = 0;
ReportingMode.CONTINUOUS = 1;
ReportingMode.MIN_VALUE = 0;
ReportingMode.MAX_VALUE = 1;
ReportingMode.isKnownEnumValue = function(value) {
switch (value) {
case 0:
case 1:
return true;
}
return false;
};
ReportingMode.toKnownEnumValue = function(value) {
return value;
};
ReportingMode.validate = function(enumValue) {
const isExtensible = false;
if (isExtensible || this.isKnownEnumValue(enumValue))
return validator.validationError.NONE;
return validator.validationError.UNKNOWN_ENUM_VALUE;
};
function SensorReadingRaw(values) {
this.initDefaults_();
this.initFields_(values);
}
SensorReadingRaw.prototype.initDefaults_ = function() {
this.timestamp = 0;
this.values = null;
};
SensorReadingRaw.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
SensorReadingRaw.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 24}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
// validate SensorReadingRaw.values
err = messageValidator.validateArrayPointer(offset + codec.kStructHeaderSize + 8, 8, codec.Double, false, [4], 0);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
SensorReadingRaw.encodedSize = codec.kStructHeaderSize + 16;
SensorReadingRaw.decode = function(decoder) {
var packed;
var val = new SensorReadingRaw();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
val.timestamp =
decoder.decodeStruct(codec.Double);
val.values =
decoder.decodeArrayPointer(codec.Double);
return val;
};
SensorReadingRaw.encode = function(encoder, val) {
var packed;
encoder.writeUint32(SensorReadingRaw.encodedSize);
encoder.writeUint32(0);
encoder.encodeStruct(codec.Double, val.timestamp);
encoder.encodeArrayPointer(codec.Double, val.values);
};
function SensorConfiguration(values) {
this.initDefaults_();
this.initFields_(values);
}
SensorConfiguration.prototype.initDefaults_ = function() {
this.frequency = 0;
};
SensorConfiguration.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
SensorConfiguration.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 16}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
SensorConfiguration.encodedSize = codec.kStructHeaderSize + 8;
SensorConfiguration.decode = function(decoder) {
var packed;
var val = new SensorConfiguration();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
val.frequency =
decoder.decodeStruct(codec.Double);
return val;
};
SensorConfiguration.encode = function(encoder, val) {
var packed;
encoder.writeUint32(SensorConfiguration.encodedSize);
encoder.writeUint32(0);
encoder.encodeStruct(codec.Double, val.frequency);
};
function Sensor_GetDefaultConfiguration_Params(values) {
this.initDefaults_();
this.initFields_(values);
}
Sensor_GetDefaultConfiguration_Params.prototype.initDefaults_ = function() {
};
Sensor_GetDefaultConfiguration_Params.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
Sensor_GetDefaultConfiguration_Params.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 8}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
Sensor_GetDefaultConfiguration_Params.encodedSize = codec.kStructHeaderSize + 0;
Sensor_GetDefaultConfiguration_Params.decode = function(decoder) {
var packed;
var val = new Sensor_GetDefaultConfiguration_Params();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
return val;
};
Sensor_GetDefaultConfiguration_Params.encode = function(encoder, val) {
var packed;
encoder.writeUint32(Sensor_GetDefaultConfiguration_Params.encodedSize);
encoder.writeUint32(0);
};
function Sensor_GetDefaultConfiguration_ResponseParams(values) {
this.initDefaults_();
this.initFields_(values);
}
Sensor_GetDefaultConfiguration_ResponseParams.prototype.initDefaults_ = function() {
this.configuration = null;
};
Sensor_GetDefaultConfiguration_ResponseParams.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
Sensor_GetDefaultConfiguration_ResponseParams.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 16}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
// validate Sensor_GetDefaultConfiguration_ResponseParams.configuration
err = messageValidator.validateStructPointer(offset + codec.kStructHeaderSize + 0, SensorConfiguration, false);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
Sensor_GetDefaultConfiguration_ResponseParams.encodedSize = codec.kStructHeaderSize + 8;
Sensor_GetDefaultConfiguration_ResponseParams.decode = function(decoder) {
var packed;
var val = new Sensor_GetDefaultConfiguration_ResponseParams();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
val.configuration =
decoder.decodeStructPointer(SensorConfiguration);
return val;
};
Sensor_GetDefaultConfiguration_ResponseParams.encode = function(encoder, val) {
var packed;
encoder.writeUint32(Sensor_GetDefaultConfiguration_ResponseParams.encodedSize);
encoder.writeUint32(0);
encoder.encodeStructPointer(SensorConfiguration, val.configuration);
};
function Sensor_AddConfiguration_Params(values) {
this.initDefaults_();
this.initFields_(values);
}
Sensor_AddConfiguration_Params.prototype.initDefaults_ = function() {
this.configuration = null;
};
Sensor_AddConfiguration_Params.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
Sensor_AddConfiguration_Params.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 16}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
// validate Sensor_AddConfiguration_Params.configuration
err = messageValidator.validateStructPointer(offset + codec.kStructHeaderSize + 0, SensorConfiguration, false);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
Sensor_AddConfiguration_Params.encodedSize = codec.kStructHeaderSize + 8;
Sensor_AddConfiguration_Params.decode = function(decoder) {
var packed;
var val = new Sensor_AddConfiguration_Params();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
val.configuration =
decoder.decodeStructPointer(SensorConfiguration);
return val;
};
Sensor_AddConfiguration_Params.encode = function(encoder, val) {
var packed;
encoder.writeUint32(Sensor_AddConfiguration_Params.encodedSize);
encoder.writeUint32(0);
encoder.encodeStructPointer(SensorConfiguration, val.configuration);
};
function Sensor_AddConfiguration_ResponseParams(values) {
this.initDefaults_();
this.initFields_(values);
}
Sensor_AddConfiguration_ResponseParams.prototype.initDefaults_ = function() {
this.success = false;
};
Sensor_AddConfiguration_ResponseParams.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
Sensor_AddConfiguration_ResponseParams.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 16}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
Sensor_AddConfiguration_ResponseParams.encodedSize = codec.kStructHeaderSize + 8;
Sensor_AddConfiguration_ResponseParams.decode = function(decoder) {
var packed;
var val = new Sensor_AddConfiguration_ResponseParams();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
packed = decoder.readUint8();
val.success = (packed >> 0) & 1 ? true : false;
decoder.skip(1);
decoder.skip(1);
decoder.skip(1);
decoder.skip(1);
decoder.skip(1);
decoder.skip(1);
decoder.skip(1);
return val;
};
Sensor_AddConfiguration_ResponseParams.encode = function(encoder, val) {
var packed;
encoder.writeUint32(Sensor_AddConfiguration_ResponseParams.encodedSize);
encoder.writeUint32(0);
packed = 0;
packed |= (val.success & 1) << 0
encoder.writeUint8(packed);
encoder.skip(1);
encoder.skip(1);
encoder.skip(1);
encoder.skip(1);
encoder.skip(1);
encoder.skip(1);
encoder.skip(1);
};
function Sensor_RemoveConfiguration_Params(values) {
this.initDefaults_();
this.initFields_(values);
}
Sensor_RemoveConfiguration_Params.prototype.initDefaults_ = function() {
this.configuration = null;
};
Sensor_RemoveConfiguration_Params.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
Sensor_RemoveConfiguration_Params.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 16}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
// validate Sensor_RemoveConfiguration_Params.configuration
err = messageValidator.validateStructPointer(offset + codec.kStructHeaderSize + 0, SensorConfiguration, false);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
Sensor_RemoveConfiguration_Params.encodedSize = codec.kStructHeaderSize + 8;
Sensor_RemoveConfiguration_Params.decode = function(decoder) {
var packed;
var val = new Sensor_RemoveConfiguration_Params();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
val.configuration =
decoder.decodeStructPointer(SensorConfiguration);
return val;
};
Sensor_RemoveConfiguration_Params.encode = function(encoder, val) {
var packed;
encoder.writeUint32(Sensor_RemoveConfiguration_Params.encodedSize);
encoder.writeUint32(0);
encoder.encodeStructPointer(SensorConfiguration, val.configuration);
};
function Sensor_Suspend_Params(values) {
this.initDefaults_();
this.initFields_(values);
}
Sensor_Suspend_Params.prototype.initDefaults_ = function() {
};
Sensor_Suspend_Params.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
Sensor_Suspend_Params.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 8}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
Sensor_Suspend_Params.encodedSize = codec.kStructHeaderSize + 0;
Sensor_Suspend_Params.decode = function(decoder) {
var packed;
var val = new Sensor_Suspend_Params();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
return val;
};
Sensor_Suspend_Params.encode = function(encoder, val) {
var packed;
encoder.writeUint32(Sensor_Suspend_Params.encodedSize);
encoder.writeUint32(0);
};
function Sensor_Resume_Params(values) {
this.initDefaults_();
this.initFields_(values);
}
Sensor_Resume_Params.prototype.initDefaults_ = function() {
};
Sensor_Resume_Params.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
Sensor_Resume_Params.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 8}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
Sensor_Resume_Params.encodedSize = codec.kStructHeaderSize + 0;
Sensor_Resume_Params.decode = function(decoder) {
var packed;
var val = new Sensor_Resume_Params();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
return val;
};
Sensor_Resume_Params.encode = function(encoder, val) {
var packed;
encoder.writeUint32(Sensor_Resume_Params.encodedSize);
encoder.writeUint32(0);
};
function Sensor_ConfigureReadingChangeNotifications_Params(values) {
this.initDefaults_();
this.initFields_(values);
}
Sensor_ConfigureReadingChangeNotifications_Params.prototype.initDefaults_ = function() {
this.enabled = false;
};
Sensor_ConfigureReadingChangeNotifications_Params.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
Sensor_ConfigureReadingChangeNotifications_Params.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 16}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
Sensor_ConfigureReadingChangeNotifications_Params.encodedSize = codec.kStructHeaderSize + 8;
Sensor_ConfigureReadingChangeNotifications_Params.decode = function(decoder) {
var packed;
var val = new Sensor_ConfigureReadingChangeNotifications_Params();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
packed = decoder.readUint8();
val.enabled = (packed >> 0) & 1 ? true : false;
decoder.skip(1);
decoder.skip(1);
decoder.skip(1);
decoder.skip(1);
decoder.skip(1);
decoder.skip(1);
decoder.skip(1);
return val;
};
Sensor_ConfigureReadingChangeNotifications_Params.encode = function(encoder, val) {
var packed;
encoder.writeUint32(Sensor_ConfigureReadingChangeNotifications_Params.encodedSize);
encoder.writeUint32(0);
packed = 0;
packed |= (val.enabled & 1) << 0
encoder.writeUint8(packed);
encoder.skip(1);
encoder.skip(1);
encoder.skip(1);
encoder.skip(1);
encoder.skip(1);
encoder.skip(1);
encoder.skip(1);
};
function SensorClient_RaiseError_Params(values) {
this.initDefaults_();
this.initFields_(values);
}
SensorClient_RaiseError_Params.prototype.initDefaults_ = function() {
};
SensorClient_RaiseError_Params.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
SensorClient_RaiseError_Params.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 8}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
SensorClient_RaiseError_Params.encodedSize = codec.kStructHeaderSize + 0;
SensorClient_RaiseError_Params.decode = function(decoder) {
var packed;
var val = new SensorClient_RaiseError_Params();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
return val;
};
SensorClient_RaiseError_Params.encode = function(encoder, val) {
var packed;
encoder.writeUint32(SensorClient_RaiseError_Params.encodedSize);
encoder.writeUint32(0);
};
function SensorClient_SensorReadingChanged_Params(values) {
this.initDefaults_();
this.initFields_(values);
}
SensorClient_SensorReadingChanged_Params.prototype.initDefaults_ = function() {
};
SensorClient_SensorReadingChanged_Params.prototype.initFields_ = function(fields) {
for(var field in fields) {
if (this.hasOwnProperty(field))
this[field] = fields[field];
}
};
SensorClient_SensorReadingChanged_Params.validate = function(messageValidator, offset) {
var err;
err = messageValidator.validateStructHeader(offset, codec.kStructHeaderSize);
if (err !== validator.validationError.NONE)
return err;
var kVersionSizes = [
{version: 0, numBytes: 8}
];
err = messageValidator.validateStructVersion(offset, kVersionSizes);
if (err !== validator.validationError.NONE)
return err;
return validator.validationError.NONE;
};
SensorClient_SensorReadingChanged_Params.encodedSize = codec.kStructHeaderSize + 0;
SensorClient_SensorReadingChanged_Params.decode = function(decoder) {
var packed;
var val = new SensorClient_SensorReadingChanged_Params();
var numberOfBytes = decoder.readUint32();
var version = decoder.readUint32();
return val;
};
SensorClient_SensorReadingChanged_Params.encode = function(encoder, val) {
var packed;
encoder.writeUint32(SensorClient_SensorReadingChanged_Params.encodedSize);
encoder.writeUint32(0);
};
var kSensor_GetDefaultConfiguration_Name = 0;
var kSensor_AddConfiguration_Name = 1;
var kSensor_RemoveConfiguration_Name = 2;
var kSensor_Suspend_Name = 3;
var kSensor_Resume_Name = 4;
var kSensor_ConfigureReadingChangeNotifications_Name = 5;
function SensorPtr(handleOrPtrInfo) {
this.ptr = new bindings.InterfacePtrController(Sensor,
handleOrPtrInfo);
}
function SensorAssociatedPtr(associatedInterfacePtrInfo) {
this.ptr = new associatedBindings.AssociatedInterfacePtrController(
Sensor, associatedInterfacePtrInfo);
}
SensorAssociatedPtr.prototype =
Object.create(SensorPtr.prototype);
SensorAssociatedPtr.prototype.constructor =
SensorAssociatedPtr;
function SensorProxy(receiver) {
this.receiver_ = receiver;
}
SensorPtr.prototype.getDefaultConfiguration = function() {
return SensorProxy.prototype.getDefaultConfiguration
.apply(this.ptr.getProxy(), arguments);
};
SensorProxy.prototype.getDefaultConfiguration = function() {
var params_ = new Sensor_GetDefaultConfiguration_Params();
return new Promise(function(resolve, reject) {
var builder = new codec.MessageV1Builder(
kSensor_GetDefaultConfiguration_Name,
codec.align(Sensor_GetDefaultConfiguration_Params.encodedSize),
codec.kMessageExpectsResponse, 0);
builder.encodeStruct(Sensor_GetDefaultConfiguration_Params, params_);
var message = builder.finish();
this.receiver_.acceptAndExpectResponse(message).then(function(message) {
var reader = new codec.MessageReader(message);
var responseParams =
reader.decodeStruct(Sensor_GetDefaultConfiguration_ResponseParams);
resolve(responseParams);
}).catch(function(result) {
reject(Error("Connection error: " + result));
});
}.bind(this));
};
SensorPtr.prototype.addConfiguration = function() {
return SensorProxy.prototype.addConfiguration
.apply(this.ptr.getProxy(), arguments);
};
SensorProxy.prototype.addConfiguration = function(configuration) {
var params_ = new Sensor_AddConfiguration_Params();
params_.configuration = configuration;
return new Promise(function(resolve, reject) {
var builder = new codec.MessageV1Builder(
kSensor_AddConfiguration_Name,
codec.align(Sensor_AddConfiguration_Params.encodedSize),
codec.kMessageExpectsResponse, 0);
builder.encodeStruct(Sensor_AddConfiguration_Params, params_);
var message = builder.finish();
this.receiver_.acceptAndExpectResponse(message).then(function(message) {
var reader = new codec.MessageReader(message);
var responseParams =
reader.decodeStruct(Sensor_AddConfiguration_ResponseParams);
resolve(responseParams);
}).catch(function(result) {
reject(Error("Connection error: " + result));
});
}.bind(this));
};
SensorPtr.prototype.removeConfiguration = function() {
return SensorProxy.prototype.removeConfiguration
.apply(this.ptr.getProxy(), arguments);
};
SensorProxy.prototype.removeConfiguration = function(configuration) {
var params_ = new Sensor_RemoveConfiguration_Params();
params_.configuration = configuration;
var builder = new codec.MessageV0Builder(
kSensor_RemoveConfiguration_Name,
codec.align(Sensor_RemoveConfiguration_Params.encodedSize));
builder.encodeStruct(Sensor_RemoveConfiguration_Params, params_);
var message = builder.finish();
this.receiver_.accept(message);
};
SensorPtr.prototype.suspend = function() {
return SensorProxy.prototype.suspend
.apply(this.ptr.getProxy(), arguments);
};
SensorProxy.prototype.suspend = function() {
var params_ = new Sensor_Suspend_Params();
var builder = new codec.MessageV0Builder(
kSensor_Suspend_Name,
codec.align(Sensor_Suspend_Params.encodedSize));
builder.encodeStruct(Sensor_Suspend_Params, params_);
var message = builder.finish();
this.receiver_.accept(message);
};
SensorPtr.prototype.resume = function() {
return SensorProxy.prototype.resume
.apply(this.ptr.getProxy(), arguments);
};
SensorProxy.prototype.resume = function() {
var params_ = new Sensor_Resume_Params();
var builder = new codec.MessageV0Builder(
kSensor_Resume_Name,
codec.align(Sensor_Resume_Params.encodedSize));
builder.encodeStruct(Sensor_Resume_Params, params_);
var message = builder.finish();
this.receiver_.accept(message);
};
SensorPtr.prototype.configureReadingChangeNotifications = function() {
return SensorProxy.prototype.configureReadingChangeNotifications
.apply(this.ptr.getProxy(), arguments);
};
SensorProxy.prototype.configureReadingChangeNotifications = function(enabled) {
var params_ = new Sensor_ConfigureReadingChangeNotifications_Params();
params_.enabled = enabled;
var builder = new codec.MessageV0Builder(
kSensor_ConfigureReadingChangeNotifications_Name,
codec.align(Sensor_ConfigureReadingChangeNotifications_Params.encodedSize));
builder.encodeStruct(Sensor_ConfigureReadingChangeNotifications_Params, params_);
var message = builder.finish();
this.receiver_.accept(message);
};
function SensorStub(delegate) {
this.delegate_ = delegate;
}
SensorStub.prototype.getDefaultConfiguration = function() {
return this.delegate_ && this.delegate_.getDefaultConfiguration && this.delegate_.getDefaultConfiguration();
}
SensorStub.prototype.addConfiguration = function(configuration) {
return this.delegate_ && this.delegate_.addConfiguration && this.delegate_.addConfiguration(configuration);
}
SensorStub.prototype.removeConfiguration = function(configuration) {
return this.delegate_ && this.delegate_.removeConfiguration && this.delegate_.removeConfiguration(configuration);
}
SensorStub.prototype.suspend = function() {
return this.delegate_ && this.delegate_.suspend && this.delegate_.suspend();
}
SensorStub.prototype.resume = function() {
return this.delegate_ && this.delegate_.resume && this.delegate_.resume();
}
SensorStub.prototype.configureReadingChangeNotifications = function(enabled) {
return this.delegate_ && this.delegate_.configureReadingChangeNotifications && this.delegate_.configureReadingChangeNotifications(enabled);
}
SensorStub.prototype.accept = function(message) {
var reader = new codec.MessageReader(message);
switch (reader.messageName) {
case kSensor_RemoveConfiguration_Name:
var params = reader.decodeStruct(Sensor_RemoveConfiguration_Params);
this.removeConfiguration(params.configuration);
return true;
case kSensor_Suspend_Name:
var params = reader.decodeStruct(Sensor_Suspend_Params);
this.suspend();
return true;
case kSensor_Resume_Name:
var params = reader.decodeStruct(Sensor_Resume_Params);
this.resume();
return true;
case kSensor_ConfigureReadingChangeNotifications_Name:
var params = reader.decodeStruct(Sensor_ConfigureReadingChangeNotifications_Params);
this.configureReadingChangeNotifications(params.enabled);
return true;
default:
return false;
}
};
SensorStub.prototype.acceptWithResponder =
function(message, responder) {
var reader = new codec.MessageReader(message);
switch (reader.messageName) {
case kSensor_GetDefaultConfiguration_Name:
var params = reader.decodeStruct(Sensor_GetDefaultConfiguration_Params);
this.getDefaultConfiguration().then(function(response) {
var responseParams =
new Sensor_GetDefaultConfiguration_ResponseParams();
responseParams.configuration = response.configuration;
var builder = new codec.MessageV1Builder(
kSensor_GetDefaultConfiguration_Name,
codec.align(Sensor_GetDefaultConfiguration_ResponseParams.encodedSize),
codec.kMessageIsResponse, reader.requestID);
builder.encodeStruct(Sensor_GetDefaultConfiguration_ResponseParams,
responseParams);
var message = builder.finish();
responder.accept(message);
});
return true;
case kSensor_AddConfiguration_Name:
var params = reader.decodeStruct(Sensor_AddConfiguration_Params);
this.addConfiguration(params.configuration).then(function(response) {
var responseParams =
new Sensor_AddConfiguration_ResponseParams();
responseParams.success = response.success;
var builder = new codec.MessageV1Builder(
kSensor_AddConfiguration_Name,
codec.align(Sensor_AddConfiguration_ResponseParams.encodedSize),
codec.kMessageIsResponse, reader.requestID);
builder.encodeStruct(Sensor_AddConfiguration_ResponseParams,
responseParams);
var message = builder.finish();
responder.accept(message);
});
return true;
default:
return false;
}
};
function validateSensorRequest(messageValidator) {
var message = messageValidator.message;
var paramsClass = null;
switch (message.getName()) {
case kSensor_GetDefaultConfiguration_Name:
if (message.expectsResponse())
paramsClass = Sensor_GetDefaultConfiguration_Params;
break;
case kSensor_AddConfiguration_Name:
if (message.expectsResponse())
paramsClass = Sensor_AddConfiguration_Params;
break;
case kSensor_RemoveConfiguration_Name:
if (!message.expectsResponse() && !message.isResponse())
paramsClass = Sensor_RemoveConfiguration_Params;
break;
case kSensor_Suspend_Name:
if (!message.expectsResponse() && !message.isResponse())
paramsClass = Sensor_Suspend_Params;
break;
case kSensor_Resume_Name:
if (!message.expectsResponse() && !message.isResponse())
paramsClass = Sensor_Resume_Params;
break;
case kSensor_ConfigureReadingChangeNotifications_Name:
if (!message.expectsResponse() && !message.isResponse())
paramsClass = Sensor_ConfigureReadingChangeNotifications_Params;
break;
}
if (paramsClass === null)
return validator.validationError.NONE;
return paramsClass.validate(messageValidator, messageValidator.message.getHeaderNumBytes());
}
function validateSensorResponse(messageValidator) {
var message = messageValidator.message;
var paramsClass = null;
switch (message.getName()) {
case kSensor_GetDefaultConfiguration_Name:
if (message.isResponse())
paramsClass = Sensor_GetDefaultConfiguration_ResponseParams;
break;
case kSensor_AddConfiguration_Name:
if (message.isResponse())
paramsClass = Sensor_AddConfiguration_ResponseParams;
break;
}
if (paramsClass === null)
return validator.validationError.NONE;
return paramsClass.validate(messageValidator, messageValidator.message.getHeaderNumBytes());
}
var Sensor = {
name: 'device.mojom.Sensor',
kVersion: 0,
ptrClass: SensorPtr,
proxyClass: SensorProxy,
stubClass: SensorStub,
validateRequest: validateSensorRequest,
validateResponse: validateSensorResponse,
};
SensorStub.prototype.validator = validateSensorRequest;
SensorProxy.prototype.validator = validateSensorResponse;
var kSensorClient_RaiseError_Name = 0;
var kSensorClient_SensorReadingChanged_Name = 1;
function SensorClientPtr(handleOrPtrInfo) {
this.ptr = new bindings.InterfacePtrController(SensorClient,
handleOrPtrInfo);
}
function SensorClientAssociatedPtr(associatedInterfacePtrInfo) {
this.ptr = new associatedBindings.AssociatedInterfacePtrController(
SensorClient, associatedInterfacePtrInfo);
}
SensorClientAssociatedPtr.prototype =
Object.create(SensorClientPtr.prototype);
SensorClientAssociatedPtr.prototype.constructor =
SensorClientAssociatedPtr;
function SensorClientProxy(receiver) {
this.receiver_ = receiver;
}
SensorClientPtr.prototype.raiseError = function() {
return SensorClientProxy.prototype.raiseError
.apply(this.ptr.getProxy(), arguments);
};
SensorClientProxy.prototype.raiseError = function() {
var params_ = new SensorClient_RaiseError_Params();
var builder = new codec.MessageV0Builder(
kSensorClient_RaiseError_Name,
codec.align(SensorClient_RaiseError_Params.encodedSize));
builder.encodeStruct(SensorClient_RaiseError_Params, params_);
var message = builder.finish();
this.receiver_.accept(message);
};
SensorClientPtr.prototype.sensorReadingChanged = function() {
return SensorClientProxy.prototype.sensorReadingChanged
.apply(this.ptr.getProxy(), arguments);
};
SensorClientProxy.prototype.sensorReadingChanged = function() {
var params_ = new SensorClient_SensorReadingChanged_Params();
var builder = new codec.MessageV0Builder(
kSensorClient_SensorReadingChanged_Name,
codec.align(SensorClient_SensorReadingChanged_Params.encodedSize));
builder.encodeStruct(SensorClient_SensorReadingChanged_Params, params_);
var message = builder.finish();
this.receiver_.accept(message);
};
function SensorClientStub(delegate) {
this.delegate_ = delegate;
}
SensorClientStub.prototype.raiseError = function() {
return this.delegate_ && this.delegate_.raiseError && this.delegate_.raiseError();
}
SensorClientStub.prototype.sensorReadingChanged = function() {
return this.delegate_ && this.delegate_.sensorReadingChanged && this.delegate_.sensorReadingChanged();
}
SensorClientStub.prototype.accept = function(message) {
var reader = new codec.MessageReader(message);
switch (reader.messageName) {
case kSensorClient_RaiseError_Name:
var params = reader.decodeStruct(SensorClient_RaiseError_Params);
this.raiseError();
return true;
case kSensorClient_SensorReadingChanged_Name:
var params = reader.decodeStruct(SensorClient_SensorReadingChanged_Params);
this.sensorReadingChanged();
return true;
default:
return false;
}
};
SensorClientStub.prototype.acceptWithResponder =
function(message, responder) {
var reader = new codec.MessageReader(message);
switch (reader.messageName) {
default:
return false;
}
};
function validateSensorClientRequest(messageValidator) {
var message = messageValidator.message;
var paramsClass = null;
switch (message.getName()) {
case kSensorClient_RaiseError_Name:
if (!message.expectsResponse() && !message.isResponse())
paramsClass = SensorClient_RaiseError_Params;
break;
case kSensorClient_SensorReadingChanged_Name:
if (!message.expectsResponse() && !message.isResponse())
paramsClass = SensorClient_SensorReadingChanged_Params;
break;
}
if (paramsClass === null)
return validator.validationError.NONE;
return paramsClass.validate(messageValidator, messageValidator.message.getHeaderNumBytes());
}
function validateSensorClientResponse(messageValidator) {
return validator.validationError.NONE;
}
var SensorClient = {
name: 'device.mojom.SensorClient',
kVersion: 0,
ptrClass: SensorClientPtr,
proxyClass: SensorClientProxy,
stubClass: SensorClientStub,
validateRequest: validateSensorClientRequest,
validateResponse: null,
};
SensorClientStub.prototype.validator = validateSensorClientRequest;
SensorClientProxy.prototype.validator = null;
exports.SensorType = SensorType;
exports.ReportingMode = ReportingMode;
exports.SensorReadingRaw = SensorReadingRaw;
exports.SensorConfiguration = SensorConfiguration;
exports.Sensor = Sensor;
exports.SensorPtr = SensorPtr;
exports.SensorAssociatedPtr = SensorAssociatedPtr;
exports.SensorClient = SensorClient;
exports.SensorClientPtr = SensorClientPtr;
exports.SensorClientAssociatedPtr = SensorClientAssociatedPtr;
})();