/** * @license * Visual Blocks Language * * Copyright 2016 Google Inc. * https://developers.google.com/blockly/ * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * @fileoverview Generating Lua for math blocks. * @author rodrigoq@google.com (Rodrigo Queiro) */ 'use strict'; goog.provide('Blockly.Lua.math'); goog.require('Blockly.Lua'); Blockly.Lua['math_number'] = function(block) { // Numeric value. var code = parseFloat(block.getFieldValue('NUM')); var order = code < 0 ? Blockly.Lua.ORDER_UNARY : Blockly.Lua.ORDER_ATOMIC; return [code, order]; }; Blockly.Lua['math_arithmetic'] = function(block) { // Basic arithmetic operators, and power. var OPERATORS = { ADD: [' + ', Blockly.Lua.ORDER_ADDITIVE], MINUS: [' - ', Blockly.Lua.ORDER_ADDITIVE], MULTIPLY: [' * ', Blockly.Lua.ORDER_MULTIPLICATIVE], DIVIDE: [' / ', Blockly.Lua.ORDER_MULTIPLICATIVE], POWER: [' ^ ', Blockly.Lua.ORDER_EXPONENTIATION] }; var tuple = OPERATORS[block.getFieldValue('OP')]; var operator = tuple[0]; var order = tuple[1]; var argument0 = Blockly.Lua.valueToCode(block, 'A', order) || '0'; var argument1 = Blockly.Lua.valueToCode(block, 'B', order) || '0'; var code = argument0 + operator + argument1; return [code, order]; }; Blockly.Lua['math_single'] = function(block) { // Math operators with single operand. var operator = block.getFieldValue('OP'); var code; var arg; if (operator == 'NEG') { // Negation is a special case given its different operator precedence. arg = Blockly.Lua.valueToCode(block, 'NUM', Blockly.Lua.ORDER_UNARY) || '0'; return ['-' + arg, Blockly.Lua.ORDER_UNARY]; } if (operator == 'SIN' || operator == 'COS' || operator == 'TAN') { arg = Blockly.Lua.valueToCode(block, 'NUM', Blockly.Lua.ORDER_MULTIPLICATIVE) || '0'; } else { arg = Blockly.Lua.valueToCode(block, 'NUM', Blockly.Lua.ORDER_NONE) || '0'; } switch (operator) { case 'ABS': code = 'math.abs(' + arg + ')'; break; case 'ROOT': code = 'math.sqrt(' + arg + ')'; break; case 'LN': code = 'math.log(' + arg + ')'; break; case 'LOG10': code = 'math.log10(' + arg + ')'; break; case 'EXP': code = 'math.exp(' + arg + ')'; break; case 'POW10': code = 'math.pow(10,' + arg + ')'; break; case 'ROUND': // This rounds up. Blockly does not specify rounding direction. code = 'math.floor(' + arg + ' + .5)'; break; case 'ROUNDUP': code = 'math.ceil(' + arg + ')'; break; case 'ROUNDDOWN': code = 'math.floor(' + arg + ')'; break; case 'SIN': code = 'math.sin(math.rad(' + arg + '))'; break; case 'COS': code = 'math.cos(math.rad(' + arg + '))'; break; case 'TAN': code = 'math.tan(math.rad(' + arg + '))'; break; case 'ASIN': code = 'math.deg(math.asin(' + arg + '))'; break; case 'ACOS': code = 'math.deg(math.acos(' + arg + '))'; break; case 'ATAN': code = 'math.deg(math.atan(' + arg + '))'; break; default: throw 'Unknown math operator: ' + operator; } return [code, Blockly.Lua.ORDER_HIGH]; }; Blockly.Lua['math_constant'] = function(block) { // Constants: PI, E, the Golden Ratio, sqrt(2), 1/sqrt(2), INFINITY. var CONSTANTS = { PI: ['math.pi', Blockly.Lua.ORDER_HIGH], E: ['math.exp(1)', Blockly.Lua.ORDER_HIGH], GOLDEN_RATIO: ['(1 + math.sqrt(5)) / 2', Blockly.Lua.ORDER_MULTIPLICATIVE], SQRT2: ['math.sqrt(2)', Blockly.Lua.ORDER_HIGH], SQRT1_2: ['math.sqrt(1 / 2)', Blockly.Lua.ORDER_HIGH], INFINITY: ['math.huge', Blockly.Lua.ORDER_HIGH] }; return CONSTANTS[block.getFieldValue('CONSTANT')]; }; Blockly.Lua['math_number_property'] = function(block) { // Check if a number is even, odd, prime, whole, positive, or negative // or if it is divisible by certain number. Returns true or false. var number_to_check = Blockly.Lua.valueToCode(block, 'NUMBER_TO_CHECK', Blockly.Lua.ORDER_MULTIPLICATIVE) || '0'; var dropdown_property = block.getFieldValue('PROPERTY'); var code; if (dropdown_property == 'PRIME') { // Prime is a special case as it is not a one-liner test. var functionName = Blockly.Lua.provideFunction_( 'math_isPrime', ['function ' + Blockly.Lua.FUNCTION_NAME_PLACEHOLDER_ + '(n)', ' -- https://en.wikipedia.org/wiki/Primality_test#Naive_methods', ' if n == 2 or n == 3 then', ' return true', ' end', ' -- False if n is NaN, negative, is 1, or not whole.', ' -- And false if n is divisible by 2 or 3.', ' if not(n > 1) or n % 1 ~= 0 or n % 2 == 0 or n % 3 == 0 then', ' return false', ' end', ' -- Check all the numbers of form 6k +/- 1, up to sqrt(n).', ' for x = 6, math.sqrt(n) + 1.5, 6 do', ' if n % (x - 1) == 0 or n % (x + 1) == 0 then', ' return false', ' end', ' end', ' return true', 'end']); code = functionName + '(' + number_to_check + ')'; return [code, Blockly.Lua.ORDER_HIGH]; } switch (dropdown_property) { case 'EVEN': code = number_to_check + ' % 2 == 0'; break; case 'ODD': code = number_to_check + ' % 2 == 1'; break; case 'WHOLE': code = number_to_check + ' % 1 == 0'; break; case 'POSITIVE': code = number_to_check + ' > 0'; break; case 'NEGATIVE': code = number_to_check + ' < 0'; break; case 'DIVISIBLE_BY': var divisor = Blockly.Lua.valueToCode(block, 'DIVISOR', Blockly.Lua.ORDER_MULTIPLICATIVE); // If 'divisor' is some code that evals to 0, Lua will produce a nan. // Let's produce nil if we can determine this at compile-time. if (!divisor || divisor == '0') { return ['nil', Blockly.Lua.ORDER_ATOMIC]; } // The normal trick to implement ?: with and/or doesn't work here: // divisor == 0 and nil or number_to_check % divisor == 0 // because nil is false, so allow a runtime failure. :-( code = number_to_check + ' % ' + divisor + ' == 0'; break; } return [code, Blockly.Lua.ORDER_RELATIONAL]; }; Blockly.Lua['math_change'] = function(block) { // Add to a variable in place. var argument0 = Blockly.Lua.valueToCode(block, 'DELTA', Blockly.Lua.ORDER_ADDITIVE) || '0'; var varName = Blockly.Lua.variableDB_.getName( block.getFieldValue('VAR'), Blockly.Variables.NAME_TYPE); return varName + ' = ' + varName + ' + ' + argument0 + '\n'; }; // Rounding functions have a single operand. Blockly.Lua['math_round'] = Blockly.Lua['math_single']; // Trigonometry functions have a single operand. Blockly.Lua['math_trig'] = Blockly.Lua['math_single']; Blockly.Lua['math_on_list'] = function(block) { // Math functions for lists. var func = block.getFieldValue('OP'); var list = Blockly.Lua.valueToCode(block, 'LIST', Blockly.Lua.ORDER_NONE) || '{}'; var functionName; // Functions needed in more than one case. function provideSum() { return Blockly.Lua.provideFunction_( 'math_sum', ['function ' + Blockly.Lua.FUNCTION_NAME_PLACEHOLDER_ + '(t)', ' local result = 0', ' for _, v in ipairs(t) do', ' result = result + v', ' end', ' return result', 'end']); } switch (func) { case 'SUM': functionName = provideSum(); break; case 'MIN': // Returns 0 for the empty list. functionName = Blockly.Lua.provideFunction_( 'math_min', ['function ' + Blockly.Lua.FUNCTION_NAME_PLACEHOLDER_ + '(t)', ' if #t == 0 then', ' return 0', ' end', ' local result = math.huge', ' for _, v in ipairs(t) do', ' if v < result then', ' result = v', ' end', ' end', ' return result', 'end']); break; case 'AVERAGE': // Returns 0 for the empty list. functionName = Blockly.Lua.provideFunction_( 'math_average', ['function ' + Blockly.Lua.FUNCTION_NAME_PLACEHOLDER_ + '(t)', ' if #t == 0 then', ' return 0', ' end', ' return ' + provideSum() + '(t) / #t', 'end']); break; case 'MAX': // Returns 0 for the empty list. functionName = Blockly.Lua.provideFunction_( 'math_max', ['function ' + Blockly.Lua.FUNCTION_NAME_PLACEHOLDER_ + '(t)', ' if #t == 0 then', ' return 0', ' end', ' local result = -math.huge', ' for _, v in ipairs(t) do', ' if v > result then', ' result = v', ' end', ' end', ' return result', 'end']); break; case 'MEDIAN': functionName = Blockly.Lua.provideFunction_( 'math_median', // This operation excludes non-numbers. ['function ' + Blockly.Lua.FUNCTION_NAME_PLACEHOLDER_ + '(t)', ' -- Source: http://lua-users.org/wiki/SimpleStats', ' if #t == 0 then', ' return 0', ' end', ' local temp={}', ' for _, v in ipairs(t) do', ' if type(v) == "number" then', ' table.insert(temp, v)', ' end', ' end', ' table.sort(temp)', ' if #temp % 2 == 0 then', ' return (temp[#temp/2] + temp[(#temp/2)+1]) / 2', ' else', ' return temp[math.ceil(#temp/2)]', ' end', 'end']); break; case 'MODE': functionName = Blockly.Lua.provideFunction_( 'math_modes', // As a list of numbers can contain more than one mode, // the returned result is provided as an array. // The Lua version includes non-numbers. ['function ' + Blockly.Lua.FUNCTION_NAME_PLACEHOLDER_ + '(t)', ' -- Source: http://lua-users.org/wiki/SimpleStats', ' local counts={}', ' for _, v in ipairs(t) do', ' if counts[v] == nil then', ' counts[v] = 1', ' else', ' counts[v] = counts[v] + 1', ' end', ' end', ' local biggestCount = 0', ' for _, v in pairs(counts) do', ' if v > biggestCount then', ' biggestCount = v', ' end', ' end', ' local temp={}', ' for k, v in pairs(counts) do', ' if v == biggestCount then', ' table.insert(temp, k)', ' end', ' end', ' return temp', 'end']); break; case 'STD_DEV': functionName = Blockly.Lua.provideFunction_( 'math_standard_deviation', ['function ' + Blockly.Lua.FUNCTION_NAME_PLACEHOLDER_ + '(t)', ' local m', ' local vm', ' local total = 0', ' local count = 0', ' local result', ' m = #t == 0 and 0 or ' + provideSum() + '(t) / #t', ' for _, v in ipairs(t) do', " if type(v) == 'number' then", ' vm = v - m', ' total = total + (vm * vm)', ' count = count + 1', ' end', ' end', ' result = math.sqrt(total / (count-1))', ' return result', 'end']); break; case 'RANDOM': functionName = Blockly.Lua.provideFunction_( 'math_random_list', ['function ' + Blockly.Lua.FUNCTION_NAME_PLACEHOLDER_ + '(t)', ' if #t == 0 then', ' return nil', ' end', ' return t[math.random(#t)]', 'end']); break; default: throw 'Unknown operator: ' + func; } return [functionName + '(' + list + ')', Blockly.Lua.ORDER_HIGH]; }; Blockly.Lua['math_modulo'] = function(block) { // Remainder computation. var argument0 = Blockly.Lua.valueToCode(block, 'DIVIDEND', Blockly.Lua.ORDER_MULTIPLICATIVE) || '0'; var argument1 = Blockly.Lua.valueToCode(block, 'DIVISOR', Blockly.Lua.ORDER_MULTIPLICATIVE) || '0'; var code = argument0 + ' % ' + argument1; return [code, Blockly.Lua.ORDER_MULTIPLICATIVE]; }; Blockly.Lua['math_constrain'] = function(block) { // Constrain a number between two limits. var argument0 = Blockly.Lua.valueToCode(block, 'VALUE', Blockly.Lua.ORDER_NONE) || '0'; var argument1 = Blockly.Lua.valueToCode(block, 'LOW', Blockly.Lua.ORDER_NONE) || '-math.huge'; var argument2 = Blockly.Lua.valueToCode(block, 'HIGH', Blockly.Lua.ORDER_NONE) || 'math.huge'; var code = 'math.min(math.max(' + argument0 + ', ' + argument1 + '), ' + argument2 + ')'; return [code, Blockly.Lua.ORDER_HIGH]; }; Blockly.Lua['math_random_int'] = function(block) { // Random integer between [X] and [Y]. var argument0 = Blockly.Lua.valueToCode(block, 'FROM', Blockly.Lua.ORDER_NONE) || '0'; var argument1 = Blockly.Lua.valueToCode(block, 'TO', Blockly.Lua.ORDER_NONE) || '0'; var code = 'math.random(' + argument0 + ', ' + argument1 + ')'; return [code, Blockly.Lua.ORDER_HIGH]; }; Blockly.Lua['math_random_float'] = function(block) { // Random fraction between 0 and 1. return ['math.random()', Blockly.Lua.ORDER_HIGH]; };