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// Emscripten is available under two separate licenses, the MIT license and the
// University of Illinois/NCSA Open Source License. Both these licenses can be
// found in the LICENSE file.
#include "libembind_shared.js"
var LibraryEmbind = {
$moduleDefinitions: [],
// Function signatures that have already been generated for JS generation.
$emittedFunctions: 'new Set()',
$PrimitiveType: class {
constructor(typeId, name, destructorType) {
this.typeId = typeId;
this.name = name;
this.destructorType = destructorType;
}
},
$IntegerType: class {
constructor(typeId) {
this.typeId = typeId;
this.destructorType = 'none';
}
},
$Argument: class {
constructor(name, type) {
this.name = name;
this.type = type;
}
},
$UserType: class {
constructor(typeId, name) {
this.typeId = typeId;
this.name = name;
this.destructorType = 'none'; // Same as emval.
}
},
$UserTypeDefinition: class {
constructor(typeId, name, definition) {
this.typeId = typeId;
this.name = name;
this.definition = definition;
this.destructorType = 'none'; // Same as emval.
}
print(nameMap, out) {
out.push(`export type ${this.name} = ${this.definition};\n\n`);
}
},
$OptionalType: class {
constructor(type) {
this.type = type;
this.destructorType = 'none'; // Same as emval.
}
},
$FunctionDefinition__deps: ['$createJsInvoker', '$createJsInvokerSignature', '$emittedFunctions'],
$FunctionDefinition: class {
hasPublicSymbol = true;
constructor(name, returnType, argumentTypes, functionIndex, thisType = null, isNonnullReturn = false, isAsync = false) {
this.name = name;
this.returnType = returnType;
this.argumentTypes = argumentTypes;
this.functionIndex = functionIndex;
this.thisType = thisType;
this.isNonnullReturn = isNonnullReturn;
this.isAsync = isAsync;
}
printSignature(nameMap, out) {
out.push('(');
const argOut = [];
// Work backwards on the arguments, so optional types can be replaced
// with TS optional params until we see the first non-optional argument.
let seenNonOptional = false;
for (let i = this.argumentTypes.length - 1; i >= 0; i--) {
const arg = this.argumentTypes[i];
let argType;
let argName;
if (arg.type instanceof OptionalType && !seenNonOptional) {
argType = nameMap(arg.type.type);
argName = arg.name + '?';
} else {
seenNonOptional = true;
argType = nameMap(arg.type);
argName = arg.name;
}
argOut.unshift(`${argName}: ${argType}`);
}
out.push(argOut.join(', '));
let returnType = this.returnType;
// Constructors can return a pointer, but it will be a non-null pointer.
// Change the return type to the class type so the TS output doesn't
// have `| null`.
if (this.isNonnullReturn && this.returnType instanceof PointerDefinition) {
returnType = this.returnType.classType;
}
returnType = nameMap(returnType, true);
if (this.isAsync) {
returnType = `Promise<${returnType}>`;
}
out.push(`): ${returnType}`);
}
printFunction(nameMap, out) {
out.push(`${this.name}`);
this.printSignature(nameMap, out);
}
printModuleEntry(nameMap, out) {
out.push(' ');
this.printFunction(nameMap, out);
out.push(';\n');
}
// Convert a type definition in this file to something that matches the type
// object in embind.js `registerType()`.
convertToEmbindType(type) {
const ret = {
name: type.name,
};
switch (type.destructorType) {
case 'none':
ret.destructorFunction = null;
break;
case 'function':
ret.destructorFunction = true;
break;
case 'stack':
// Intentionally empty since embind uses `undefined` for this type.
break;
default:
throw new Error(`Bad destructor type '${type.destructorType}'`);
}
return ret;
}
printJs(out) {
const argTypes = [this.convertToEmbindType(this.returnType)];
if (this.thisType) {
argTypes.push(this.convertToEmbindType(this.thisType));
} else {
argTypes.push(null);
}
for (const argType of this.argumentTypes) {
argTypes.push(this.convertToEmbindType(argType.type));
}
const signature = createJsInvokerSignature(argTypes, !!this.thisType, !this.returnType.isVoid, this.isAsync)
if (emittedFunctions.has(signature)) {
return;
}
emittedFunctions.add(signature);
let invokerFactory = createJsInvoker(argTypes, !!this.thisType, !this.returnType.isVoid, this.isAsync);
out.push(`'${signature}': ${invokerFactory},`);
}
},
$PointerDefinition: class {
constructor(classType, isConst, isSmartPointer) {
this.classType = classType;
this.isConst = isConst;
this.isSmartPointer = isSmartPointer;
this.destructorType = 'none';
if (isSmartPointer || classType.base) {
this.destructorType = 'stack';
}
}
},
$ClassDefinition: class {
hasPublicSymbol = true;
constructor(typeId, name, base = null) {
this.typeId = typeId;
this.name = name;
this.methods = [];
this.staticMethods = [];
this.staticProperties = [];
this.constructors = [];
this.base = base;
this.properties = [];
this.iterableElementType = null;
this.destructorType = 'none';
if (base) {
this.destructorType = 'stack';
}
}
print(nameMap, out) {
out.push(`export interface ${this.name}`);
const extendsParts = [];
if (this.base) {
extendsParts.push(this.base.name);
} else {
extendsParts.push('ClassHandle');
}
if (this.iterableElementType) {
extendsParts.push(`Iterable<${nameMap(this.iterableElementType, true)}>`);
}
out.push(` extends ${extendsParts.join(', ')}`);
out.push(' {\n');
for (const property of this.properties) {
const props = [];
property.print(nameMap, props);
for (const formattedProp of props) {
out.push(` ${formattedProp};\n`);
}
}
for (const method of this.methods) {
out.push(' ');
method.printFunction(nameMap, out);
out.push(';\n');
}
out.push('}\n\n');
}
printModuleEntry(nameMap, out) {
out.push(` ${this.name}: {`);
const entries = [];
for (const construct of this.constructors) {
const entry = [];
entry.push('new');
construct.printSignature(nameMap, entry);
entries.push(entry.join(''));
}
for (const method of this.staticMethods) {
const entry = [];
method.printFunction(nameMap, entry);
entries.push(entry.join(''));
}
for (const prop of this.staticProperties) {
const entry = [];
prop.print(nameMap, entry);
entries.push(...entry);
}
if (entries.length) {
out.push('\n');
for (const entry of entries) {
out.push(` ${entry};\n`);
}
out.push(' ');
}
out.push('};\n');
}
printJs(out) {
out.push(`// class ${this.name}\n`);
if (this.constructors.length) {
out.push(`// constructors\n`);
for (const construct of this.constructors) {
construct.printJs(out);
}
}
if (this.staticMethods.length) {
out.push(`// static methods\n`);
for (const method of this.staticMethods) {
method.printJs(out);
}
}
if (this.methods.length) {
out.push(`// methods\n`);
for (const method of this.methods) {
method.printJs(out);
}
}
out.push('\n');
}
},
$ClassProperty: class {
constructor(type, name, readonly) {
this.type = type;
this.name = name;
this.readonly = readonly;
}
print(nameMap, out) {
const setType = nameMap(this.type, false);
const getType = nameMap(this.type, true);
if (this.readonly || setType === getType) {
out.push(`${this.readonly ? 'readonly ' : ''}${this.name}: ${getType}`);
return;
}
// The getter/setter types don't match, so generate each get/set definition.
out.push(`get ${this.name}(): ${getType}`);
out.push(`set ${this.name}(value: ${setType})`);
}
},
$ConstantDefinition: class {
hasPublicSymbol = true;
constructor(type, name) {
this.type = type;
this.name = name;
}
printModuleEntry(nameMap, out) {
out.push(` ${this.name}: ${nameMap(this.type)};\n`);
}
},
$EnumDefinition: class {
hasPublicSymbol = true;
constructor(typeId, name, valueType) {
this.typeId = typeId;
this.name = name;
this.items = [];
this.destructorType = 'none';
this.valueType = valueType;
}
print(nameMap, out) {
if (this.valueType === 'object') {
out.push(`export interface ${this.name}Value<T extends number> {\n`);
out.push(' value: T;\n}\n');
}
out.push(`export type ${this.name} = `);
if (this.items.length === 0) {
out.push('never/* Empty Enumerator */');
} else {
const outItems = [];
for (const [name, value] of this.items) {
switch (this.valueType) {
case 'object':
outItems.push(`${this.name}Value<${value}>`);
break;
case 'number':
outItems.push(`${value}`);
break;
case 'string':
outItems.push(`'${name}'`);
break;
}
}
out.push(outItems.join('|'));
}
out.push(';\n\n');
}
printModuleEntry(nameMap, out) {
out.push(` ${this.name}: {`);
const outItems = [];
for (const [name, value] of this.items) {
switch (this.valueType) {
case 'object':
outItems.push(`${name}: ${this.name}Value<${value}>`);
break;
case 'number':
outItems.push(`${name}: ${value}`);
break;
case 'string':
outItems.push(`${name}: '${name}'`);
break;
}
}
out.push(outItems.join(', '));
out.push('};\n');
}
},
$ValueArrayDefinition: class {
constructor(typeId, name) {
this.typeId = typeId;
this.name = name;
this.elementTypeIds = [];
this.elements = [];
this.destructorType = 'function';
}
print(nameMap, out) {
out.push(`export type ${this.name} = [ `);
const outElements = [];
for (const type of this.elements) {
outElements.push(nameMap(type));
}
out.push(outElements.join(', '))
out.push(' ];\n\n');
}
},
$ValueObjectDefinition: class {
constructor(typeId, name) {
this.typeId = typeId;
this.name = name;
this.fieldTypeIds = [];
this.fieldNames = [];
this.fields = [];
this.destructorType = 'function';
}
print(nameMap, out) {
out.push(`export type ${this.name} = {\n`);
const outFields = [];
for (const {name, type} of this.fields) {
outFields.push(` ${name}${type instanceof OptionalType ? '?' : ''}: ${nameMap(type)}`);
}
out.push(outFields.join(',\n'))
out.push('\n};\n\n');
}
},
$TsPrinter__deps: ['$OptionalType', '$ClassDefinition'],
$TsPrinter: class {
constructor(definitions) {
this.definitions = definitions;
const jsString = 'EmbindString'; // Type alias for multiple types.
// The mapping is in the format of '<c++ name>' => ['toWireType', 'fromWireType']
// or if the to/from wire types are the same use a single element.
this.builtInToJsName = new Map([
['bool', ['boolean']],
['float', ['number']],
['double', ['number']],
#if MEMORY64
['long', ['bigint']],
['unsigned long', ['bigint']],
#endif
#if WASM_BIGINT
['long long', ['bigint']],
['unsigned long long', ['bigint']],
#endif
['void', ['void']],
['std::string', [jsString, 'string']],
['std::basic_string<unsigned char>', [jsString, 'string']],
['std::wstring', ['string']],
['std::u16string', ['string']],
['std::u32string', ['string']],
['emscripten::val', ['any']],
]);
// Signal that the type alias for EmbindString is needed.
this.usedEmbindString = false;
}
typeToJsName(type, isFromWireType = false) {
if (type instanceof IntegerType) {
return 'number';
}
if (type instanceof PrimitiveType) {
if (!this.builtInToJsName.has(type.name)) {
throw new Error(`Missing primitive type to TS type for '${type.name}'`);
}
const [toWireType, fromWireType = toWireType] = this.builtInToJsName.get(type.name);
const tsName = isFromWireType ? fromWireType : toWireType;
if (tsName === 'EmbindString') {
this.usedEmbindString = true;
}
return tsName;
}
if (type instanceof PointerDefinition) {
return `${this.typeToJsName(type.classType, isFromWireType)} | null`;
}
if (type instanceof OptionalType) {
return `${this.typeToJsName(type.type, isFromWireType)} | undefined`;
}
return type.name;
}
print() {
const out = [];
let hadClass = false;
for (const def of this.definitions) {
if (def instanceof ClassDefinition) {
hadClass = true;
break;
}
}
if (hadClass) {
out.push(
'export interface ClassHandle {\n',
' isAliasOf(other: ClassHandle): boolean;\n',
' delete(): void;\n',
' deleteLater(): this;\n',
' isDeleted(): boolean;\n',
' // @ts-ignore - If targeting lower than ESNext, this symbol might not exist.\n',
' [Symbol.dispose](): void;\n',
' clone(): this;\n',
'}\n',
);
}
for (const def of this.definitions) {
if (!def.print) {
continue;
}
def.print(this.typeToJsName.bind(this), out);
}
// Print module definitions
out.push('interface EmbindModule {\n');
for (const def of this.definitions) {
if (!def.printModuleEntry) {
continue;
}
def.printModuleEntry(this.typeToJsName.bind(this), out);
}
out.push('}\n');
if (this.usedEmbindString) {
out.unshift('type EmbindString = ArrayBuffer|Uint8Array|Uint8ClampedArray|Int8Array|string;\n');
}
return out.join('');
}
},
$JsPrinter: class {
constructor(definitions) {
this.definitions = definitions;
}
print() {
const out = ['{\n'];
const publicSymbols = [];
for (const def of this.definitions) {
if (def.hasPublicSymbol) {
publicSymbols.push(def.name);
}
if (!def.printJs) {
continue;
}
def.printJs(out);
}
out.push('}\n');
return JSON.stringify({
'invokers': out.join(''),
publicSymbols,
});
}
},
$registerType__deps: ['$sharedRegisterType'],
$registerType: function(rawType, registeredInstance, options = {}) {
return sharedRegisterType(rawType, registeredInstance, options);
},
$registerPrimitiveType__deps: ['$registerType', '$PrimitiveType'],
$registerPrimitiveType: (id, name, destructorType) => {
name = AsciiToString(name);
registerType(id, new PrimitiveType(id, name, destructorType));
},
$registerIntegerType__deps: ['$registerType', '$IntegerType'],
$registerIntegerType: (id) => {
registerType(id, new IntegerType(id));
},
$createFunctionDefinition__deps: ['$FunctionDefinition', '$heap32VectorToArray', '$AsciiToString', '$Argument', '$whenDependentTypesAreResolved', '$getFunctionName', '$getFunctionArgsName', '$PointerDefinition', '$ClassDefinition'],
$createFunctionDefinition: (name, argCount, rawArgTypesAddr, functionIndex, hasThis, isNonnullReturn, isAsync, cb) => {
const argTypes = heap32VectorToArray(argCount, rawArgTypesAddr);
name = typeof name === 'string' ? name : AsciiToString(name);
whenDependentTypesAreResolved([], argTypes, function (argTypes) {
const argsName = getFunctionArgsName(name);
name = getFunctionName(name);
const returnType = argTypes[0];
let thisType = null;
let argStart = 1;
if (hasThis) {
thisType = argTypes[1];
if (thisType instanceof PointerDefinition) {
thisType = argTypes[1].classType;
}
if (!(thisType instanceof ClassDefinition)) {
throw new Error('This type must be class definition for: ' + name);
}
argStart = 2;
}
if (argsName && argsName.length != (argTypes.length - hasThis - 1)) {
throw new Error('Argument names should match number of parameters.');
}
const args = [];
for (let i = argStart, x = 0; i < argTypes.length; i++) {
if (argsName) {
args.push(new Argument(argsName[x++], argTypes[i]));
} else {
args.push(new Argument(`_${i - argStart}`, argTypes[i]));
}
}
const funcDef = new FunctionDefinition(name, returnType, args, functionIndex, thisType, isNonnullReturn, isAsync);
cb(funcDef);
return [];
});
},
_embind_register_void__deps: ['$registerPrimitiveType'],
_embind_register_void: (rawType, name) => {
const voidType = new PrimitiveType(rawType, 'void', 'none');
voidType.isVoid = true; // Match the marker property from the non-AOT mode.
registerType(rawType, voidType);
},
_embind_register_bool__deps: ['$registerPrimitiveType'],
_embind_register_bool: (rawType, name, trueValue, falseValue) => {
registerPrimitiveType(rawType, name, 'none');
},
_embind_register_integer__deps: ['$registerIntegerType'],
_embind_register_integer: (primitiveType, name, size, minRange, maxRange) => {
registerIntegerType(primitiveType, name);
},
_embind_register_bigint: (primitiveType, name, size, minRange, maxRange) => {
registerPrimitiveType(primitiveType, name, 'none');
},
_embind_register_float__deps: ['$registerPrimitiveType'],
_embind_register_float: (rawType, name, size) => {
registerPrimitiveType(rawType, name, 'none');
},
_embind_register_std_string__deps: ['$registerPrimitiveType'],
_embind_register_std_string: (rawType, name) => {
registerPrimitiveType(rawType, name, 'function');
},
_embind_register_std_wstring: (rawType, charSize, name) => {
registerPrimitiveType(rawType, name, 'function');
},
_embind_register_emval__deps: ['$registerType', '$PrimitiveType'],
_embind_register_emval: (rawType) => {
registerType(rawType, new PrimitiveType(rawType, 'emscripten::val', 'none'));
},
_embind_register_user_type__deps: ['$registerType', '$AsciiToString', '$UserType'],
_embind_register_user_type: (rawType, name) => {
name = AsciiToString(name);
registerType(rawType, new UserType(rawType, name));
},
_embind_register_user_type_definition__deps: ['$registerType', '$AsciiToString', '$UserTypeDefinition'],
_embind_register_user_type_definition: (rawType, name, definition) => {
name = AsciiToString(name);
definition = AsciiToString(definition);
const userTypeDef = new UserTypeDefinition(rawType, name, definition);
registerType(rawType, userTypeDef);
moduleDefinitions.push(userTypeDef);
},
_embind_register_optional__deps: ['$OptionalType'],
_embind_register_optional: (rawOptionalType, rawType) => {
whenDependentTypesAreResolved([rawOptionalType], [rawType], function(type) {
type = type[0];
return [new OptionalType(type)];
});
},
_embind_register_memory_view: (rawType, dataTypeIndex, name) => {
// TODO
},
_embind_register_function__deps: ['$moduleDefinitions', '$createFunctionDefinition'],
_embind_register_function: (name, argCount, rawArgTypesAddr, signature, rawInvoker, fn, isAsync, isNonnullReturn) => {
createFunctionDefinition(name, argCount, rawArgTypesAddr, fn, false, isNonnullReturn, isAsync, (funcDef) => {
moduleDefinitions.push(funcDef);
});
},
_embind_register_class__deps: ['$AsciiToString', '$ClassDefinition', '$whenDependentTypesAreResolved', '$moduleDefinitions', '$PointerDefinition'],
_embind_register_class: function(rawType,
rawPointerType,
rawConstPointerType,
baseClassRawType,
getActualTypeSignature,
getActualType,
upcastSignature,
upcast,
downcastSignature,
downcast,
name,
destructorSignature,
rawDestructor) {
name = AsciiToString(name);
whenDependentTypesAreResolved(
[rawType, rawPointerType, rawConstPointerType],
baseClassRawType ? [baseClassRawType] : [],
function(base) {
const hasBase = base.length;
const classDef = new ClassDefinition(rawType, name, hasBase ? base[0] : null);
moduleDefinitions.push(classDef);
const pointer = new PointerDefinition(classDef, false, false);
const constPointer = new PointerDefinition(classDef, true, false);
return [classDef, pointer, constPointer];
}
);
},
_embind_register_iterable__deps: ['$whenDependentTypesAreResolved'],
_embind_register_iterable: (rawClassType, rawElementType, sizeMethodName, getMethodName) => {
whenDependentTypesAreResolved([], [rawClassType, rawElementType], (types) => {
const classType = types[0];
const elementType = types[1];
classType.iterableElementType = elementType;
return [];
});
},
_embind_register_class_constructor__deps: ['$whenDependentTypesAreResolved', '$createFunctionDefinition'],
_embind_register_class_constructor: function(
rawClassType,
argCount,
rawArgTypesAddr,
invokerSignature,
invoker,
rawConstructor
) {
whenDependentTypesAreResolved([], [rawClassType], function(classType) {
classType = classType[0];
createFunctionDefinition(`constructor ${classType.name}`, argCount, rawArgTypesAddr, rawConstructor, false, true, false, (funcDef) => {
classType.constructors.push(funcDef);
});
return [];
});
},
_embind_register_class_function__deps: ['$createFunctionDefinition'],
_embind_register_class_function: function(rawClassType,
methodName,
argCount,
rawArgTypesAddr, // [ReturnType, ThisType, Args...]
invokerSignature,
rawInvoker,
context,
isPureVirtual,
isAsync,
isNonnullReturn) {
createFunctionDefinition(methodName, argCount, rawArgTypesAddr, context, true, isNonnullReturn, isAsync, (funcDef) => {
const classDef = funcDef.thisType;
classDef.methods.push(funcDef);
});
},
_embind_register_class_property__deps: [
'$AsciiToString', '$whenDependentTypesAreResolved', '$ClassProperty'],
_embind_register_class_property: function(classType,
fieldName,
getterReturnType,
getterSignature,
getter,
getterContext,
setterArgumentType,
setterSignature,
setter,
setterContext) {
fieldName = AsciiToString(fieldName);
const readonly = setter === 0;
if (!(readonly || getterReturnType === setterArgumentType)) {
throw new error('Mismatched getter and setter types are not supported.');
}
whenDependentTypesAreResolved([], [classType], function(classType) {
classType = classType[0];
whenDependentTypesAreResolved([], [getterReturnType], function(types) {
const prop = new ClassProperty(types[0], fieldName, readonly);
classType.properties.push(prop);
return [];
});
return [];
});
},
_embind_register_class_class_function__deps: ['$createFunctionDefinition'],
_embind_register_class_class_function: function(rawClassType,
methodName,
argCount,
rawArgTypesAddr,
invokerSignature,
rawInvoker,
fn,
isAsync,
isNonnullReturn) {
whenDependentTypesAreResolved([], [rawClassType], function(classType) {
classType = classType[0];
createFunctionDefinition(methodName, argCount, rawArgTypesAddr, fn, false, isNonnullReturn, isAsync, (funcDef) => {
classType.staticMethods.push(funcDef);
});
return [];
});
},
_embind_register_class_class_property__deps: [
'$AsciiToString', '$whenDependentTypesAreResolved', '$ClassProperty'],
_embind_register_class_class_property: (rawClassType,
fieldName,
rawFieldType,
rawFieldPtr,
getterSignature,
getter,
setterSignature,
setter) => {
fieldName = AsciiToString(fieldName);
whenDependentTypesAreResolved([], [rawClassType], function(classType) {
classType = classType[0];
whenDependentTypesAreResolved([], [rawFieldType], function(types) {
const prop = new ClassProperty(types[0], fieldName);
classType.staticProperties.push(prop);
return [];
});
return [];
});
},
// Stub function. This is called when extending an object and not needed for TS generation.
_embind_create_inheriting_constructor: (constructorName, wrapperType, properties) => {},
_embind_register_enum__deps: ['$AsciiToString', '$EnumDefinition', '$moduleDefinitions', '$getEnumValueType'],
_embind_register_enum: function(rawType, name, size, isSigned, rawValueType) {
name = AsciiToString(name);
const valueType = getEnumValueType(rawValueType);
const enumDef = new EnumDefinition(rawType, name, valueType);
registerType(rawType, enumDef);
moduleDefinitions.push(enumDef);
},
_embind_register_enum_value__deps: ['$AsciiToString', '$requireRegisteredType'],
_embind_register_enum_value: function(rawEnumType, name, enumValue) {
name = AsciiToString(name);
const enumDef = requireRegisteredType(rawEnumType, name);
enumDef.items.push([name, enumValue]);
},
_embind_register_constant__deps: ['$AsciiToString', '$ConstantDefinition', '$whenDependentTypesAreResolved', '$moduleDefinitions'],
_embind_register_constant: function(name, typeId, value) {
name = AsciiToString(name);
whenDependentTypesAreResolved([], [typeId], function(types) {
const def = new ConstantDefinition(types[0], name);
moduleDefinitions.push(def);
return [];
});
},
_embind_register_value_array__deps: [
'$AsciiToString', '$ValueArrayDefinition', '$tupleRegistrations'],
_embind_register_value_array: function(
rawType,
name,
constructorSignature,
rawConstructor,
destructorSignature,
rawDestructor
) {
name = AsciiToString(name);
const valueArray = new ValueArrayDefinition(rawType, name);
tupleRegistrations[rawType] = valueArray;
},
_embind_register_value_array_element__deps: ['$tupleRegistrations'],
_embind_register_value_array_element: function(
rawTupleType,
getterReturnType,
getterSignature,
getter,
getterContext,
setterArgumentType,
setterSignature,
setter,
setterContext
) {
const valueArray = tupleRegistrations[rawTupleType];
if (getterReturnType !== setterArgumentType) {
throw new Error('Mismatched getter and setter types are not supported.');
}
valueArray.elementTypeIds.push(getterReturnType);
},
_embind_finalize_value_array__deps: ['$whenDependentTypesAreResolved', '$moduleDefinitions', '$tupleRegistrations'],
_embind_finalize_value_array: function(rawTupleType) {
const valueArray = tupleRegistrations[rawTupleType];
delete tupleRegistrations[rawTupleType];
whenDependentTypesAreResolved([rawTupleType], valueArray.elementTypeIds, function(types) {
moduleDefinitions.push(valueArray);
valueArray.elements = types;
return [valueArray];
});
},
_embind_register_value_object__deps: ['$AsciiToString', '$ValueObjectDefinition', '$structRegistrations'],
_embind_register_value_object: function(
rawType,
name,
constructorSignature,
rawConstructor,
destructorSignature,
rawDestructor
) {
name = AsciiToString(name);
const valueObject = new ValueObjectDefinition(rawType, name);
structRegistrations[rawType] = valueObject;
},
_embind_register_value_object_field__deps: [
'$AsciiToString', '$structRegistrations'],
_embind_register_value_object_field: function(
structType,
fieldName,
getterReturnType,
getterSignature,
getter,
getterContext,
setterArgumentType,
setterSignature,
setter,
setterContext
) {
const valueObject = structRegistrations[structType];
if (getterReturnType !== setterArgumentType) {
throw new Error('Mismatched getter and setter types are not supported.');
}
valueObject.fieldTypeIds.push(getterReturnType);
valueObject.fieldNames.push(AsciiToString(fieldName));
},
_embind_finalize_value_object__deps: ['$moduleDefinitions', '$whenDependentTypesAreResolved', '$structRegistrations'],
_embind_finalize_value_object: function(structType) {
const valueObject = structRegistrations[structType];
delete structRegistrations[structType];
whenDependentTypesAreResolved([structType], valueObject.fieldTypeIds, function(types) {
moduleDefinitions.push(valueObject);
for (let i = 0; i < types.length; i++) {
valueObject.fields.push({
name: valueObject.fieldNames[i],
type: types[i],
});
}
return [valueObject];
});
},
_embind_register_smart_ptr__deps: ['$whenDependentTypesAreResolved'],
_embind_register_smart_ptr: function(rawType,
rawPointeeType,
name,
sharingPolicy,
getPointeeSignature,
rawGetPointee,
constructorSignature,
rawConstructor,
shareSignature,
rawShare,
destructorSignature,
rawDestructor) {
whenDependentTypesAreResolved([rawType], [rawPointeeType], function(pointeeType) {
const smartPointer = new PointerDefinition(pointeeType[0], false, true);
return [smartPointer];
});
},
$emitOutput__deps: ['$awaitingDependencies', '$throwBindingError', '$getTypeName', '$moduleDefinitions',
#if EMBIND_AOT
'$JsPrinter',
#else
'$TsPrinter',
#endif
],
$emitOutput__postset: () => { addAtPostCtor('emitOutput()'); },
$emitOutput: () => {
for (const typeId in awaitingDependencies) {
throwBindingError(`Missing binding for type: '${getTypeName(typeId)}' typeId: ${typeId}`);
}
#if EMBIND_AOT
const printer = new JsPrinter(moduleDefinitions);
#else
const printer = new TsPrinter(moduleDefinitions);
#endif
const output = printer.print();
var fs = require('node:fs');
fs.writeFileSync(process.argv[2], output + '\n');
},
// Stub functions used by eval, but not needed for TS generation:
$makeLegalFunctionName: () => { throw new Error('stub function should not be called'); },
$runDestructors: () => { throw new Error('stub function should not be called'); },
$flushPendingDeletes: () => { throw new Error('stub function should not be called'); },
$setDelayFunction: () => { throw new Error('stub function should not be called'); },
$PureVirtualError: () => { throw new Error('stub function should not be called'); },
};
extraLibraryFuncs.push('$emitOutput');
addToLibrary(LibraryEmbind);
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