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a3458871db
* feat(generators): Pass this CodeGenerator to generator functions This implements option 1A of proposal 1 of #7086. This commit is not by itself a breaking change, except in the unlikely event that developers' custom generator functions take an (optional) second argument of a dfferent type. * feat(generators): Accept generator argument in block functions Accept a CodeGenerator instance as parameter two of every per-block-type generator function. * fix(generators): Pass generator when calling other generator functions Make sure to pass generator to any other block functions that are called recursively. * refactor(generators)!: Use generator argument in generator functions Refactor per-block-type generator functions to use the provided generator argument to make recursive calls, rather than depending on the closed-over <lang>Generator instance. This allows generator functions to be moved between CodeGenerator instances (of the same language, at least). This commit was created by search-and-replace and addresses most but not all recursive references; remaining uses will require manual attention and will be dealt with in a following commit. BREAKING CHANGE: This commit makes the generator functions we provide dependent on the new generator parameter. Although CodeGenerator.prototype.blockToCode has been modified to supply this, so this change will not affect most developers, this change will be a breaking change where developers make direct calls to these generator functions without supplying the generator parameter. See previous commit for an example of the update required. * refactor(generators): Manual fix for remaining uses of langGenerator Manually replace remaining uses of <lang>Generator in block generator functions. * fix(generators): Delete duplicate procedures_callnoreturn generator For some reason the generator function for procedures_callnoreturn appears twice in generators/javascript/procedures.js. Delete the first copy (since the second one overwrote it anyway). * chore(generators): Format
407 lines
13 KiB
JavaScript
407 lines
13 KiB
JavaScript
/**
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* @license
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* Copyright 2012 Google LLC
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* SPDX-License-Identifier: Apache-2.0
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*/
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/**
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* @fileoverview Generating JavaScript for math blocks.
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* @suppress {missingRequire}
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*/
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import * as goog from '../../closure/goog/goog.js';
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goog.declareModuleId('Blockly.JavaScript.math');
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import {NameType} from '../../core/names.js';
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import {Order, javascriptGenerator} from '../javascript.js';
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javascriptGenerator.forBlock['math_number'] = function(block, generator) {
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// Numeric value.
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const code = Number(block.getFieldValue('NUM'));
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const order = code >= 0 ? Order.ATOMIC :
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Order.UNARY_NEGATION;
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return [code, order];
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};
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javascriptGenerator.forBlock['math_arithmetic'] = function(block, generator) {
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// Basic arithmetic operators, and power.
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const OPERATORS = {
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'ADD': [' + ', Order.ADDITION],
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'MINUS': [' - ', Order.SUBTRACTION],
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'MULTIPLY': [' * ', Order.MULTIPLICATION],
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'DIVIDE': [' / ', Order.DIVISION],
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'POWER': [null, Order.NONE], // Handle power separately.
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};
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const tuple = OPERATORS[block.getFieldValue('OP')];
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const operator = tuple[0];
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const order = tuple[1];
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const argument0 = generator.valueToCode(block, 'A', order) || '0';
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const argument1 = generator.valueToCode(block, 'B', order) || '0';
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let code;
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// Power in JavaScript requires a special case since it has no operator.
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if (!operator) {
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code = 'Math.pow(' + argument0 + ', ' + argument1 + ')';
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return [code, Order.FUNCTION_CALL];
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}
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code = argument0 + operator + argument1;
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return [code, order];
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};
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javascriptGenerator.forBlock['math_single'] = function(block, generator) {
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// Math operators with single operand.
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const operator = block.getFieldValue('OP');
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let code;
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let arg;
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if (operator === 'NEG') {
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// Negation is a special case given its different operator precedence.
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arg = generator.valueToCode(block, 'NUM',
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Order.UNARY_NEGATION) || '0';
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if (arg[0] === '-') {
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// --3 is not legal in JS.
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arg = ' ' + arg;
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}
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code = '-' + arg;
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return [code, Order.UNARY_NEGATION];
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}
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if (operator === 'SIN' || operator === 'COS' || operator === 'TAN') {
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arg = generator.valueToCode(block, 'NUM',
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Order.DIVISION) || '0';
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} else {
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arg = generator.valueToCode(block, 'NUM',
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Order.NONE) || '0';
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}
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// First, handle cases which generate values that don't need parentheses
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// wrapping the code.
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switch (operator) {
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case 'ABS':
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code = 'Math.abs(' + arg + ')';
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break;
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case 'ROOT':
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code = 'Math.sqrt(' + arg + ')';
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break;
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case 'LN':
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code = 'Math.log(' + arg + ')';
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break;
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case 'EXP':
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code = 'Math.exp(' + arg + ')';
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break;
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case 'POW10':
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code = 'Math.pow(10,' + arg + ')';
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break;
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case 'ROUND':
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code = 'Math.round(' + arg + ')';
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break;
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case 'ROUNDUP':
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code = 'Math.ceil(' + arg + ')';
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break;
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case 'ROUNDDOWN':
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code = 'Math.floor(' + arg + ')';
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break;
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case 'SIN':
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code = 'Math.sin(' + arg + ' / 180 * Math.PI)';
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break;
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case 'COS':
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code = 'Math.cos(' + arg + ' / 180 * Math.PI)';
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break;
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case 'TAN':
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code = 'Math.tan(' + arg + ' / 180 * Math.PI)';
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break;
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}
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if (code) {
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return [code, Order.FUNCTION_CALL];
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}
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// Second, handle cases which generate values that may need parentheses
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// wrapping the code.
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switch (operator) {
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case 'LOG10':
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code = 'Math.log(' + arg + ') / Math.log(10)';
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break;
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case 'ASIN':
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code = 'Math.asin(' + arg + ') / Math.PI * 180';
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break;
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case 'ACOS':
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code = 'Math.acos(' + arg + ') / Math.PI * 180';
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break;
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case 'ATAN':
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code = 'Math.atan(' + arg + ') / Math.PI * 180';
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break;
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default:
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throw Error('Unknown math operator: ' + operator);
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}
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return [code, Order.DIVISION];
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};
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javascriptGenerator.forBlock['math_constant'] = function(block, generator) {
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// Constants: PI, E, the Golden Ratio, sqrt(2), 1/sqrt(2), INFINITY.
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const CONSTANTS = {
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'PI': ['Math.PI', Order.MEMBER],
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'E': ['Math.E', Order.MEMBER],
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'GOLDEN_RATIO': ['(1 + Math.sqrt(5)) / 2', Order.DIVISION],
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'SQRT2': ['Math.SQRT2', Order.MEMBER],
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'SQRT1_2': ['Math.SQRT1_2', Order.MEMBER],
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'INFINITY': ['Infinity', Order.ATOMIC],
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};
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return CONSTANTS[block.getFieldValue('CONSTANT')];
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};
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javascriptGenerator.forBlock['math_number_property'] = function(block, generator) {
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// Check if a number is even, odd, prime, whole, positive, or negative
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// or if it is divisible by certain number. Returns true or false.
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const PROPERTIES = {
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'EVEN': [' % 2 === 0', Order.MODULUS, Order.EQUALITY],
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'ODD': [' % 2 === 1', Order.MODULUS, Order.EQUALITY],
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'WHOLE': [' % 1 === 0', Order.MODULUS,
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Order.EQUALITY],
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'POSITIVE': [' > 0', Order.RELATIONAL,
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Order.RELATIONAL],
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'NEGATIVE': [' < 0', Order.RELATIONAL,
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Order.RELATIONAL],
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'DIVISIBLE_BY': [null, Order.MODULUS, Order.EQUALITY],
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'PRIME': [null, Order.NONE, Order.FUNCTION_CALL],
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};
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const dropdownProperty = block.getFieldValue('PROPERTY');
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const [suffix, inputOrder, outputOrder] = PROPERTIES[dropdownProperty];
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const numberToCheck =
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generator.valueToCode(block, 'NUMBER_TO_CHECK', inputOrder) ||
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'0';
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let code;
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if (dropdownProperty === 'PRIME') {
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// Prime is a special case as it is not a one-liner test.
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const functionName = generator.provideFunction_('mathIsPrime', `
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function ${generator.FUNCTION_NAME_PLACEHOLDER_}(n) {
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// https://en.wikipedia.org/wiki/Primality_test#Naive_methods
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if (n == 2 || n == 3) {
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return true;
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}
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// False if n is NaN, negative, is 1, or not whole.
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// And false if n is divisible by 2 or 3.
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if (isNaN(n) || n <= 1 || n % 1 !== 0 || n % 2 === 0 || n % 3 === 0) {
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return false;
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}
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// Check all the numbers of form 6k +/- 1, up to sqrt(n).
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for (var x = 6; x <= Math.sqrt(n) + 1; x += 6) {
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if (n % (x - 1) === 0 || n % (x + 1) === 0) {
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return false;
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}
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}
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return true;
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}
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`);
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code = functionName + '(' + numberToCheck + ')';
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} else if (dropdownProperty === 'DIVISIBLE_BY') {
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const divisor = generator.valueToCode(block, 'DIVISOR',
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Order.MODULUS) || '0';
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code = numberToCheck + ' % ' + divisor + ' === 0';
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} else {
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code = numberToCheck + suffix;
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}
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return [code, outputOrder];
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};
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javascriptGenerator.forBlock['math_change'] = function(block, generator) {
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// Add to a variable in place.
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const argument0 = generator.valueToCode(block, 'DELTA',
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Order.ADDITION) || '0';
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const varName = generator.nameDB_.getName(
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block.getFieldValue('VAR'), NameType.VARIABLE);
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return varName + ' = (typeof ' + varName + ' === \'number\' ? ' + varName +
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' : 0) + ' + argument0 + ';\n';
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};
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// Rounding functions have a single operand.
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javascriptGenerator.forBlock['math_round'] =
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javascriptGenerator.forBlock['math_single'];
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// Trigonometry functions have a single operand.
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javascriptGenerator.forBlock['math_trig'] =
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javascriptGenerator.forBlock['math_single'];
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javascriptGenerator.forBlock['math_on_list'] = function(block, generator) {
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// Math functions for lists.
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const func = block.getFieldValue('OP');
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let list;
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let code;
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switch (func) {
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case 'SUM':
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list = generator.valueToCode(block, 'LIST',
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Order.MEMBER) || '[]';
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code = list + '.reduce(function(x, y) {return x + y;}, 0)';
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break;
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case 'MIN':
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list = generator.valueToCode(block, 'LIST',
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Order.NONE) || '[]';
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code = 'Math.min.apply(null, ' + list + ')';
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break;
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case 'MAX':
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list = generator.valueToCode(block, 'LIST',
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Order.NONE) || '[]';
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code = 'Math.max.apply(null, ' + list + ')';
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break;
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case 'AVERAGE': {
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// mathMean([null,null,1,3]) === 2.0.
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const functionName = generator.provideFunction_('mathMean', `
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function ${generator.FUNCTION_NAME_PLACEHOLDER_}(myList) {
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return myList.reduce(function(x, y) {return x + y;}, 0) / myList.length;
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}
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`);
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list = generator.valueToCode(block, 'LIST',
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Order.NONE) || '[]';
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code = functionName + '(' + list + ')';
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break;
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}
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case 'MEDIAN': {
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// mathMedian([null,null,1,3]) === 2.0.
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const functionName = generator.provideFunction_('mathMedian', `
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function ${generator.FUNCTION_NAME_PLACEHOLDER_}(myList) {
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var localList = myList.filter(function (x) {return typeof x === 'number';});
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if (!localList.length) return null;
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localList.sort(function(a, b) {return b - a;});
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if (localList.length % 2 === 0) {
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return (localList[localList.length / 2 - 1] + localList[localList.length / 2]) / 2;
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} else {
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return localList[(localList.length - 1) / 2];
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}
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}
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`);
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list = generator.valueToCode(block, 'LIST',
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Order.NONE) || '[]';
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code = functionName + '(' + list + ')';
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break;
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}
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case 'MODE': {
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// As a list of numbers can contain more than one mode,
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// the returned result is provided as an array.
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// Mode of [3, 'x', 'x', 1, 1, 2, '3'] -> ['x', 1].
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const functionName = generator.provideFunction_('mathModes', `
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function ${generator.FUNCTION_NAME_PLACEHOLDER_}(values) {
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var modes = [];
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var counts = [];
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var maxCount = 0;
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for (var i = 0; i < values.length; i++) {
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var value = values[i];
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var found = false;
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var thisCount;
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for (var j = 0; j < counts.length; j++) {
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if (counts[j][0] === value) {
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thisCount = ++counts[j][1];
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found = true;
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break;
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}
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}
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if (!found) {
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counts.push([value, 1]);
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thisCount = 1;
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}
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maxCount = Math.max(thisCount, maxCount);
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}
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for (var j = 0; j < counts.length; j++) {
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if (counts[j][1] === maxCount) {
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modes.push(counts[j][0]);
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}
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}
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return modes;
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}
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`);
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list = generator.valueToCode(block, 'LIST',
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Order.NONE) || '[]';
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code = functionName + '(' + list + ')';
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break;
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}
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case 'STD_DEV': {
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const functionName =
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generator.provideFunction_('mathStandardDeviation', `
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function ${generator.FUNCTION_NAME_PLACEHOLDER_}(numbers) {
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var n = numbers.length;
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if (!n) return null;
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var mean = numbers.reduce(function(x, y) {return x + y;}) / n;
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var variance = 0;
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for (var j = 0; j < n; j++) {
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variance += Math.pow(numbers[j] - mean, 2);
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}
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variance = variance / n;
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return Math.sqrt(variance);
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}
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`);
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list = generator.valueToCode(block, 'LIST',
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Order.NONE) || '[]';
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code = functionName + '(' + list + ')';
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break;
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}
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case 'RANDOM': {
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const functionName =
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generator.provideFunction_('mathRandomList', `
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function ${generator.FUNCTION_NAME_PLACEHOLDER_}(list) {
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var x = Math.floor(Math.random() * list.length);
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return list[x];
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}
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`);
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list = generator.valueToCode(block, 'LIST',
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Order.NONE) || '[]';
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code = functionName + '(' + list + ')';
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break;
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}
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default:
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throw Error('Unknown operator: ' + func);
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}
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return [code, Order.FUNCTION_CALL];
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};
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javascriptGenerator.forBlock['math_modulo'] = function(block, generator) {
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// Remainder computation.
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const argument0 = generator.valueToCode(block, 'DIVIDEND',
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Order.MODULUS) || '0';
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const argument1 = generator.valueToCode(block, 'DIVISOR',
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Order.MODULUS) || '0';
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const code = argument0 + ' % ' + argument1;
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return [code, Order.MODULUS];
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};
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javascriptGenerator.forBlock['math_constrain'] = function(block, generator) {
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// Constrain a number between two limits.
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const argument0 = generator.valueToCode(block, 'VALUE',
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Order.NONE) || '0';
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const argument1 = generator.valueToCode(block, 'LOW',
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Order.NONE) || '0';
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const argument2 = generator.valueToCode(block, 'HIGH',
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Order.NONE) || 'Infinity';
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const code = 'Math.min(Math.max(' + argument0 + ', ' + argument1 + '), ' +
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argument2 + ')';
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return [code, Order.FUNCTION_CALL];
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};
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javascriptGenerator.forBlock['math_random_int'] = function(block, generator) {
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// Random integer between [X] and [Y].
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const argument0 = generator.valueToCode(block, 'FROM',
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Order.NONE) || '0';
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const argument1 = generator.valueToCode(block, 'TO',
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Order.NONE) || '0';
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const functionName = generator.provideFunction_('mathRandomInt', `
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function ${generator.FUNCTION_NAME_PLACEHOLDER_}(a, b) {
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if (a > b) {
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// Swap a and b to ensure a is smaller.
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var c = a;
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a = b;
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b = c;
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}
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return Math.floor(Math.random() * (b - a + 1) + a);
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}
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`);
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const code = functionName + '(' + argument0 + ', ' + argument1 + ')';
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return [code, Order.FUNCTION_CALL];
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};
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javascriptGenerator.forBlock['math_random_float'] = function(block, generator) {
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// Random fraction between 0 and 1.
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return ['Math.random()', Order.FUNCTION_CALL];
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};
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javascriptGenerator.forBlock['math_atan2'] = function(block, generator) {
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// Arctangent of point (X, Y) in degrees from -180 to 180.
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const argument0 = generator.valueToCode(block, 'X',
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Order.NONE) || '0';
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const argument1 = generator.valueToCode(block, 'Y',
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Order.NONE) || '0';
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return ['Math.atan2(' + argument1 + ', ' + argument0 + ') / Math.PI * 180',
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Order.DIVISION];
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};
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