'use strict'; var _createClass = function () { function defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } } return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps); if (staticProps) defineProperties(Constructor, staticProps); return Constructor; }; }(); function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _possibleConstructorReturn(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); } return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); } subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } }); if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : subClass.__proto__ = superClass; } var BaseFunctionNode = require('../function-node-base'); var utils = require('../../core/utils'); /** * @class CPUFunctionNode * * @extends BaseFunctionNode# * * @desc [INTERNAL] Represents a single function, inside JS * *

This handles all the raw state, converted state, etc. Of a single function.

* * @prop functionName - {String} Name of the function * @prop jsFunction - {Function} The JS Function the node represents * @prop jsFunctionString - {String} jsFunction.toString() * @prop paramNames - {String[]} Parameter names of the function * @prop paramTypes - {String[]} Shader land parameters type assumption * @prop isRootKernel - {Boolean} Special indicator, for kernel function * @prop webglFunctionString - {String} webgl converted function string * @prop openglFunctionString - {String} opengl converted function string * @prop calledFunctions - {String[]} List of all the functions called * @prop initVariables - {String[]} List of variables initialized in the function * @prop readVariables - {String[]} List of variables read operations occur * @prop writeVariables - {String[]} List of variables write operations occur * */ module.exports = function (_BaseFunctionNode) { _inherits(CPUFunctionNode, _BaseFunctionNode); function CPUFunctionNode(functionName, jsFunction, options) { _classCallCheck(this, CPUFunctionNode); var _this = _possibleConstructorReturn(this, (CPUFunctionNode.__proto__ || Object.getPrototypeOf(CPUFunctionNode)).call(this, functionName, jsFunction, options)); _this.paramSizes = options ? options.paramSizes : []; _this.memberStates = []; return _this; } _createClass(CPUFunctionNode, [{ key: 'pushMemberState', value: function pushMemberState(name) { this.memberStates.push(name); } }, { key: 'popMemberState', value: function popMemberState(name) { if (this.memberState === name) { this.memberStates.pop(); } else { throw new Error('Cannot popMemberState ' + name + ' when in ' + this.memberState); } } }, { key: 'generate', value: function generate() { if (this.debug) { console.log(this); } this.functionStringArray = this.astGeneric(this.getJsAST(), []); this.functionString = this.functionStringArray.join('').trim(); return this.functionString; } /** * @memberOf CPUFunctionNode# * @function * @name getFunctionPrototypeString * * @desc Returns the converted JS function * * @returns {String} function string, result is cached under this.getFunctionPrototypeString * */ }, { key: 'getFunctionPrototypeString', value: function getFunctionPrototypeString() { if (this.webGlFunctionPrototypeString) { return this.webGlFunctionPrototypeString; } return this.webGlFunctionPrototypeString = this.generate(); } /** * @memberOf CPUFunctionNode# * @function * @name astFunctionDeclaration * * @desc Parses the abstract syntax tree for to its *named function declaration* * * @param {Object} ast - the AST object to parse * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astFunctionDeclaration', value: function astFunctionDeclaration(ast, retArr) { if (this.addFunction) { this.addFunction(null, utils.getAstString(this.jsFunctionString, ast)); } return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astFunctionPrototype * * @desc Parses the abstract syntax tree for to its *named function prototype* * * @param {Object} ast - the AST object to parse * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astFunctionPrototype', value: function astFunctionPrototype(ast, retArr) { // Setup function return type and name if (this.isRootKernel || this.isSubKernel) { return retArr; } retArr.push(this.returnType); retArr.push(' '); retArr.push(this.functionName); retArr.push('('); // Arguments handling for (var i = 0; i < this.paramNames.length; ++i) { if (i > 0) { retArr.push(', '); } retArr.push(this.paramTypes[i]); retArr.push(' '); retArr.push('user_'); retArr.push(this.paramNames[i]); } retArr.push(');\n'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astFunctionExpression * * @desc Parses the abstract syntax tree for to its *named function* * * @param {Object} ast - the AST object to parse * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astFunctionExpression', value: function astFunctionExpression(ast, retArr) { // Setup function return type and name if (!this.isRootKernel) { retArr.push('function'); this.kernalAst = ast; retArr.push(' '); retArr.push(this.functionName); retArr.push('('); // Arguments handling for (var i = 0; i < this.paramNames.length; ++i) { var paramName = this.paramNames[i]; if (i > 0) { retArr.push(', '); } retArr.push(' '); retArr.push('user_'); retArr.push(paramName); } // Function opening retArr.push(') {\n'); } // Body statement iteration for (var _i = 0; _i < ast.body.body.length; ++_i) { this.astGeneric(ast.body.body[_i], retArr); retArr.push('\n'); } if (!this.isRootKernel) { // Function closing retArr.push('}\n'); } return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astReturnStatement * * @desc Parses the abstract syntax tree for to *return* statement * * @param {Object} ast - the AST object to parse * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astReturnStatement', value: function astReturnStatement(ast, retArr) { if (this.isRootKernel) { retArr.push('kernelResult = '); this.astGeneric(ast.argument, retArr); retArr.push(';'); } else if (this.isSubKernel) { retArr.push(this.functionName + 'Result = '); this.astGeneric(ast.argument, retArr); retArr.push(';'); retArr.push('return ' + this.functionName + 'Result;'); } else { retArr.push('return '); this.astGeneric(ast.argument, retArr); retArr.push(';'); } //throw this.astErrorOutput( // 'Non main function return, is not supported : '+this.currentFunctionNamespace, // ast //); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astLiteral * * @desc Parses the abstract syntax tree for *literal value* * * @param {Object} ast - the AST object to parse * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astLiteral', value: function astLiteral(ast, retArr) { // Reject non numeric literals if (isNaN(ast.value)) { throw this.astErrorOutput('Non-numeric literal not supported : ' + ast.value, ast); } retArr.push(ast.value); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astBinaryExpression * * @desc Parses the abstract syntax tree for *binary* expression * * @param {Object} ast - the AST object to parse * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astBinaryExpression', value: function astBinaryExpression(ast, retArr) { retArr.push('('); this.astGeneric(ast.left, retArr); retArr.push(ast.operator); this.astGeneric(ast.right, retArr); retArr.push(')'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astIdentifierExpression * * @desc Parses the abstract syntax tree for *identifier* expression * * @param {Object} idtNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astIdentifierExpression', value: function astIdentifierExpression(idtNode, retArr) { if (idtNode.type !== 'Identifier') { throw this.astErrorOutput('IdentifierExpression - not an Identifier', idtNode); } switch (this.state) { case 'input-index-y': case 'input-index-z': retArr.push('('); } switch (idtNode.name) { case 'gpu_threadX': retArr.push('threadId.x'); break; case 'gpu_threadY': retArr.push('threadId.y'); break; case 'gpu_threadZ': retArr.push('threadId.z'); break; case 'gpu_outputX': retArr.push('uOutputDim.x'); break; case 'gpu_outputY': retArr.push('uOutputDim.y'); break; case 'gpu_outputZ': retArr.push('uOutputDim.z'); break; case 'Infinity': retArr.push('Infinity'); break; default: if (this.constants && this.constants.hasOwnProperty(idtNode.name)) { retArr.push('constants_' + idtNode.name); } else { var userParamName = this.getUserParamName(idtNode.name); if (userParamName !== null) { retArr.push('user_' + userParamName); } else { retArr.push('user_' + idtNode.name); } } } switch (this.state) { case 'input-index-y': { var size = this.paramSizes[this.paramNames.indexOf(this.memberState)]; retArr.push(' * ' + size[0] + ')'); break; } case 'input-index-z': { var _size = this.paramSizes[this.paramNames.indexOf(this.memberState)]; retArr.push(' * ' + _size[0] * _size[1] + ')'); break; } } return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astForStatement * * @desc Parses the abstract syntax tree forfor *for-loop* expression * * @param {Object} forNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the parsed cpu string */ }, { key: 'astForStatement', value: function astForStatement(forNode, retArr) { if (forNode.type !== 'ForStatement') { throw this.astErrorOutput('Invalid for statement', forNode); } if (forNode.test && forNode.test.type === 'BinaryExpression') { if ((forNode.test.right.type === 'Identifier' || forNode.test.right.type === 'Literal') && forNode.test.operator === '<' && this.isIdentifierConstant(forNode.test.right.name) === false) { if (!this.loopMaxIterations) { console.warn('Warning: loopMaxIterations is not set! Using default of 1000 which may result in unintended behavior.'); console.warn('Set loopMaxIterations or use a for loop of fixed length to silence this message.'); } retArr.push('for ('); this.astGeneric(forNode.init, retArr); if (retArr[retArr.length - 1] !== ';') { retArr.push(';'); } this.astGeneric(forNode.test.left, retArr); retArr.push(forNode.test.operator); retArr.push('LOOP_MAX'); retArr.push(';'); this.astGeneric(forNode.update, retArr); retArr.push(')'); retArr.push('{\n'); retArr.push('if ('); this.astGeneric(forNode.test.left, retArr); retArr.push(forNode.test.operator); this.astGeneric(forNode.test.right, retArr); retArr.push(') {\n'); if (forNode.body.type === 'BlockStatement') { for (var i = 0; i < forNode.body.body.length; i++) { this.astGeneric(forNode.body.body[i], retArr); } } else { this.astGeneric(forNode.body, retArr); } retArr.push('} else {\n'); retArr.push('break;\n'); retArr.push('}\n'); retArr.push('}\n'); return retArr; } else if (forNode.init.declarations) { var declarations = JSON.parse(JSON.stringify(forNode.init.declarations)); var updateArgument = forNode.update.argument; if (!Array.isArray(declarations) || declarations.length < 1) { console.log(this.jsFunctionString); throw new Error('Error: Incompatible for loop declaration'); } if (declarations.length > 1) { var initArgument = null; for (var _i2 = 0; _i2 < declarations.length; _i2++) { var declaration = declarations[_i2]; if (declaration.id.name === updateArgument.name) { initArgument = declaration; declarations.splice(_i2, 1); } else { retArr.push('var '); this.astGeneric(declaration, retArr); retArr.push(';'); } } retArr.push('for (let '); this.astGeneric(initArgument, retArr); retArr.push(';'); } else { retArr.push('for ('); this.astGeneric(forNode.init, retArr); } this.astGeneric(forNode.test, retArr); retArr.push(';'); this.astGeneric(forNode.update, retArr); retArr.push(')'); this.astGeneric(forNode.body, retArr); return retArr; } } throw this.astErrorOutput('Invalid for statement', forNode); } /** * @memberOf CPUFunctionNode# * @function * @name astWhileStatement * * @desc Parses the abstract syntax tree for *while* loop * * * @param {Object} whileNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the parsed openclgl string */ }, { key: 'astWhileStatement', value: function astWhileStatement(whileNode, retArr) { if (whileNode.type !== 'WhileStatement') { throw this.astErrorOutput('Invalid while statement', whileNode); } retArr.push('for (let i = 0; i < LOOP_MAX; i++) {'); retArr.push('if ('); this.astGeneric(whileNode.test, retArr); retArr.push(') {\n'); this.astGeneric(whileNode.body, retArr); retArr.push('} else {\n'); retArr.push('break;\n'); retArr.push('}\n'); retArr.push('}\n'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astWhileStatement * * @desc Parses the abstract syntax tree for *do while* loop * * * @param {Object} doWhileNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the parsed webgl string */ }, { key: 'astDoWhileStatement', value: function astDoWhileStatement(doWhileNode, retArr) { if (doWhileNode.type !== 'DoWhileStatement') { throw this.astErrorOutput('Invalid while statement', doWhileNode); } retArr.push('for (let i = 0; i < LOOP_MAX; i++) {'); this.astGeneric(doWhileNode.body, retArr); retArr.push('if (!'); this.astGeneric(doWhileNode.test, retArr); retArr.push(') {\n'); retArr.push('break;\n'); retArr.push('}\n'); retArr.push('}\n'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astAssignmentExpression * * @desc Parses the abstract syntax tree for *Assignment* Expression * * @param {Object} assNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astAssignmentExpression', value: function astAssignmentExpression(assNode, retArr) { this.astGeneric(assNode.left, retArr); retArr.push(assNode.operator); this.astGeneric(assNode.right, retArr); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astEmptyStatement * * @desc Parses the abstract syntax tree for an *Empty* Statement * * @param {Object} eNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astEmptyStatement', value: function astEmptyStatement(eNode, retArr) { //retArr.push(';\n'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astBlockStatement * * @desc Parses the abstract syntax tree for *Block* statement * * @param {Object} bNode - the AST object to parse * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astBlockStatement', value: function astBlockStatement(bNode, retArr) { retArr.push('{\n'); for (var i = 0; i < bNode.body.length; i++) { this.astGeneric(bNode.body[i], retArr); } retArr.push('}\n'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astExpressionStatement * * @desc Parses the abstract syntax tree for *generic expression* statement * * @param {Object} esNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astExpressionStatement', value: function astExpressionStatement(esNode, retArr) { this.astGeneric(esNode.expression, retArr); retArr.push(';\n'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astVariableDeclaration * * @desc Parses the abstract syntax tree for *Variable Declaration* * * @param {Object} vardecNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astVariableDeclaration', value: function astVariableDeclaration(vardecNode, retArr) { retArr.push('var '); for (var i = 0; i < vardecNode.declarations.length; i++) { if (i > 0) { retArr.push(','); } this.astGeneric(vardecNode.declarations[i], retArr); } retArr.push(';'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astVariableDeclarator * * @desc Parses the abstract syntax tree for *Variable Declarator* * * @param {Object} ivardecNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astVariableDeclarator', value: function astVariableDeclarator(ivardecNode, retArr) { this.astGeneric(ivardecNode.id, retArr); if (ivardecNode.init !== null) { retArr.push('='); this.astGeneric(ivardecNode.init, retArr); } return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astIfStatement * * @desc Parses the abstract syntax tree for *If* Statement * * @param {Object} ifNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astIfStatement', value: function astIfStatement(ifNode, retArr) { retArr.push('if ('); this.astGeneric(ifNode.test, retArr); retArr.push(')'); if (ifNode.consequent.type === 'BlockStatement') { this.astGeneric(ifNode.consequent, retArr); } else { retArr.push(' {\n'); this.astGeneric(ifNode.consequent, retArr); retArr.push('\n}\n'); } if (ifNode.alternate) { retArr.push('else '); if (ifNode.alternate.type === 'BlockStatement') { this.astGeneric(ifNode.alternate, retArr); } else { retArr.push(' {\n'); this.astGeneric(ifNode.alternate, retArr); retArr.push('\n}\n'); } } return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astBreakStatement * * @desc Parses the abstract syntax tree for *Break* Statement * * @param {Object} brNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astBreakStatement', value: function astBreakStatement(brNode, retArr) { retArr.push('break;\n'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astContinueStatement * * @desc Parses the abstract syntax tree for *Continue* Statement * * @param {Object} crNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astContinueStatement', value: function astContinueStatement(crNode, retArr) { retArr.push('continue;\n'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astLogicalExpression * * @desc Parses the abstract syntax tree for *Logical* Expression * * @param {Object} logNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astLogicalExpression', value: function astLogicalExpression(logNode, retArr) { retArr.push('('); this.astGeneric(logNode.left, retArr); retArr.push(logNode.operator); this.astGeneric(logNode.right, retArr); retArr.push(')'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astUpdateExpression * * @desc Parses the abstract syntax tree for *Update* Expression * * @param {Object} uNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astUpdateExpression', value: function astUpdateExpression(uNode, retArr) { if (uNode.prefix) { retArr.push(uNode.operator); this.astGeneric(uNode.argument, retArr); } else { this.astGeneric(uNode.argument, retArr); retArr.push(uNode.operator); } return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astUnaryExpression * * @desc Parses the abstract syntax tree for *Unary* Expression * * @param {Object} uNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astUnaryExpression', value: function astUnaryExpression(uNode, retArr) { if (uNode.prefix) { retArr.push(uNode.operator); this.astGeneric(uNode.argument, retArr); } else { this.astGeneric(uNode.argument, retArr); retArr.push(uNode.operator); } return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astThisExpression * * @desc Parses the abstract syntax tree for *This* expression * * @param {Object} tNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astThisExpression', value: function astThisExpression(tNode, retArr) { retArr.push('_this'); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astMemberExpression * * @desc Parses the abstract syntax tree for *Member* Expression * * @param {Object} mNode - An ast Node * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astMemberExpression', value: function astMemberExpression(mNode, retArr) { if (mNode.computed) { if (mNode.object.type === 'Identifier') { this.pushState('identifier'); this.astGeneric(mNode.object, retArr); this.popState('identifier'); retArr.push('['); if (this.isInput(mNode.object.name)) { this.astGeneric(mNode.property, retArr); } else { this.astGeneric(mNode.property, retArr); } retArr.push(']'); } else { if (mNode.object.object) { if (mNode.object.object.object && this.isInput(mNode.object.object.object.name)) { this.pushMemberState(mNode.object.object.object.name); this.pushState('input-index-z'); this.astGeneric(mNode.object, retArr); var last = retArr.pop(); retArr.push(' + '); this.popState('input-index-z'); this.pushState('input-index'); this.astGeneric(mNode.property, retArr); this.popState('input-index'); retArr.push(last); this.popMemberState(mNode.object.object.object.name); } else if (this.isInput(mNode.object.object.name)) { this.pushMemberState(mNode.object.object.name); if (!this.isState('input-index-z')) { this.pushState('input-index-y'); } this.astGeneric(mNode.object, retArr); var _last = retArr.pop(); retArr.push(' + '); if (!this.isState('input-index-z')) { this.popState('input-index-y'); } var isInputIndexZ = this.isState('input-index-z'); if (isInputIndexZ) { this.pushState('input-index-y'); } else { this.pushState('input-index'); } this.astGeneric(mNode.property, retArr); if (isInputIndexZ) { this.popState('input-index-y'); } else { this.popState('input-index'); } retArr.push(_last); this.popMemberState(mNode.object.object.name); } else { this.astGeneric(mNode.object, retArr); var _last2 = retArr.pop(); retArr.push(']['); this.astGeneric(mNode.property, retArr); retArr.push(_last2); } } else { this.astGeneric(mNode.object, retArr); var _last3 = retArr.pop(); retArr.push(']['); this.astGeneric(mNode.property, retArr); retArr.push(_last3); } } } else { var unrolled = this.astMemberExpressionUnroll(mNode); if (mNode.property.type === 'Identifier' && mNode.computed) { unrolled = 'user_' + unrolled; } // Its a reference to `this`, add '_' before if (unrolled.indexOf('this') === 0) { unrolled = '_' + unrolled; } switch (this.state) { case 'input-index-y': case 'input-index-z': retArr.push('('); } switch (unrolled) { case '_this.output.x': retArr.push(this.output[0]); break; case '_this.output.y': retArr.push(this.output[1]); break; case '_this.output.z': retArr.push(this.output[2]); break; default: retArr.push(unrolled); } switch (this.state) { case 'input-index-y': { var size = this.paramSizes[this.paramNames.indexOf(this.memberState)]; retArr.push(' * ' + size[0] + ')'); break; } case 'input-index-z': { var _size2 = this.paramSizes[this.paramNames.indexOf(this.memberState)]; retArr.push(' * ' + _size2[0] * _size2[1] + ')'); break; } } } return retArr; } }, { key: 'astSequenceExpression', value: function astSequenceExpression(sNode, retArr) { for (var i = 0; i < sNode.expressions.length; i++) { if (i > 0) { retArr.push(','); } this.astGeneric(sNode.expressions, retArr); } return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astCallExpression * * @desc Parses the abstract syntax tree for *call* expression * * @param {Object} ast - the AST object to parse * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astCallExpression', value: function astCallExpression(ast, retArr) { if (ast.callee) { // Get the full function call, unrolled var funcName = this.astMemberExpressionUnroll(ast.callee); // Register the function into the called registry if (this.calledFunctions.indexOf(funcName) < 0) { this.calledFunctions.push(funcName); } if (!this.hasOwnProperty('funcName')) { this.calledFunctionsArguments[funcName] = []; } var functionArguments = []; this.calledFunctionsArguments[funcName].push(functionArguments); // Call the function retArr.push(funcName); // Open arguments space retArr.push('('); // Add the vars for (var i = 0; i < ast.arguments.length; ++i) { var argument = ast.arguments[i]; if (i > 0) { retArr.push(', '); } this.astGeneric(argument, retArr); if (argument.type === 'Identifier') { var paramIndex = this.paramNames.indexOf(argument.name); if (paramIndex === -1) { functionArguments.push(null); } else { functionArguments.push({ name: argument.name, type: this.paramTypes[paramIndex] }); } } else { functionArguments.push(null); } } // Close arguments space retArr.push(')'); return retArr; } // Failure, unknown expression throw this.astErrorOutput('Unknown CallExpression', ast); return retArr; } /** * @memberOf CPUFunctionNode# * @function * @name astArrayExpression * * @desc Parses the abstract syntax tree for *Array* Expression * * @param {Object} arrNode - the AST object to parse * @param {Array} retArr - return array string * * @returns {Array} the append retArr */ }, { key: 'astArrayExpression', value: function astArrayExpression(arrNode, retArr) { var arrLen = arrNode.elements.length; retArr.push('new Float32Array('); for (var i = 0; i < arrLen; ++i) { if (i > 0) { retArr.push(', '); } var subNode = arrNode.elements[i]; this.astGeneric(subNode, retArr); } retArr.push(')'); return retArr; // // Failure, unknown expression // throw this.astErrorOutput( // 'Unknown ArrayExpression', // arrNode //); } }, { key: 'astDebuggerStatement', value: function astDebuggerStatement(arrNode, retArr) { retArr.push('debugger;'); return retArr; } }, { key: 'memberState', get: function get() { return this.memberStates[this.memberStates.length - 1]; } }]); return CPUFunctionNode; }(BaseFunctionNode);