192 lines
6.6 KiB
JavaScript
192 lines
6.6 KiB
JavaScript
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/**
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* Expressions can be evaluated in various ways:
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*
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* 1. using the function math.eval
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* 2. using the function math.parse
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* 3. using a parser. A parser contains functions eval and parse,
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* and keeps a scope with assigned variables in memory
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*/
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// load math.js (using node.js)
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var math = require('../index');
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// 1. using the function math.eval
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//
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// Function `eval` accepts a single expression or an array with
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// expressions as first argument, and has an optional second argument
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// containing a scope with variables and functions. The scope is a regular
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// JavaScript Object. The scope will be used to resolve symbols, and to write
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// assigned variables or function.
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console.log('1. USING FUNCTION MATH.EVAL');
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// evaluate expressions
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console.log('\nevaluate expressions');
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print(math.eval('sqrt(3^2 + 4^2)')); // 5
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print(math.eval('sqrt(-4)')); // 2i
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print(math.eval('2 inch to cm')); // 5.08 cm
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print(math.eval('cos(45 deg)')); // 0.70711
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// evaluate multiple expressions at once
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console.log('\nevaluate multiple expressions at once');
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print(math.eval([
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'f = 3',
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'g = 4',
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'f * g'
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])); // [3, 4, 12]
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// provide a scope (just a regular JavaScript Object)
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console.log('\nevaluate expressions providing a scope with variables and functions');
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var scope = {
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a: 3,
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b: 4
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};
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// variables can be read from the scope
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print(math.eval('a * b', scope)); // 12
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// variable assignments are written to the scope
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print(math.eval('c = 2.3 + 4.5', scope)); // 6.8
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print(scope.c); // 6.8
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// scope can contain both variables and functions
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scope.hello = function (name) {
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return 'hello, ' + name + '!';
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};
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print(math.eval('hello("hero")', scope)); // "hello, hero!"
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// define a function as an expression
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var f = math.eval('f(x) = x ^ a', scope);
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print(f(2)); // 8
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print(scope.f(2)); // 8
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// 2. using function math.parse
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//
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// Function `math.parse` parses expressions into a node tree. The syntax is
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// similar to function `math.eval`.
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// Function `parse` accepts a single expression or an array with
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// expressions as first argument. The function returns a node tree, which
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// then can be compiled against math, and then evaluated against an (optional
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// scope. This scope is a regular JavaScript Object. The scope will be used
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// to resolve symbols, and to write assigned variables or function.
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console.log('\n2. USING FUNCTION MATH.PARSE');
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// parse an expression
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console.log('\nparse an expression into a node tree');
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var node1 = math.parse('sqrt(3^2 + 4^2)');
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print(node1.toString()); // "sqrt((3 ^ 2) + (4 ^ 2))"
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// compile and evaluate the compiled code
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// you could also do this in two steps: node1.compile().eval()
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print(node1.eval()); // 5
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// provide a scope
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console.log('\nprovide a scope');
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var node2 = math.parse('x^a');
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var code2 = node2.compile();
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print(node2.toString()); // "x ^ a"
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var scope = {
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x: 3,
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a: 2
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};
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print(code2.eval(scope)); // 9
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// change a value in the scope and re-evaluate the node
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scope.a = 3;
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print(code2.eval(scope)); // 27
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// 3. using function math.compile
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//
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// Function `math.compile` compiles expressions into a node tree. The syntax is
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// similar to function `math.eval`.
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// Function `compile` accepts a single expression or an array with
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// expressions as first argument, and returns an object with a function eval
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// to evaluate the compiled expression. On evaluation, an optional scope can
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// be provided. This scope will be used to resolve symbols, and to write
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// assigned variables or function.
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console.log('\n3. USING FUNCTION MATH.COMPILE');
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// parse an expression
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console.log('\ncompile an expression');
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var code3 = math.compile('sqrt(3^2 + 4^2)');
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// evaluate the compiled code
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print(code3.eval()); // 5
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// provide a scope for the variable assignment
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console.log('\nprovide a scope');
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var code2 = math.compile('a = a + 3');
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var scope = {
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a: 7
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};
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code2.eval(scope);
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print(scope.a); // 10
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// 4. using a parser
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//
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// In addition to the static functions `math.eval` and `math.parse`, math.js
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// contains a parser with functions `eval` and `parse`, which automatically
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// keeps a scope with assigned variables in memory. The parser also contains
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// some convenience methods to get, set, and remove variables from memory.
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console.log('\n4. USING A PARSER');
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var parser = math.parser();
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// evaluate with parser
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console.log('\nevaluate expressions');
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print(parser.eval('sqrt(3^2 + 4^2)')); // 5
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print(parser.eval('sqrt(-4)')); // 2i
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print(parser.eval('2 inch to cm')); // 5.08 cm
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print(parser.eval('cos(45 deg)')); // 0.70711
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// define variables and functions
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console.log('\ndefine variables and functions');
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print(parser.eval('x = 7 / 2')); // 3.5
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print(parser.eval('x + 3')); // 6.5
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print(parser.eval('f(x, y) = x^y')); // f(x, y)
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print(parser.eval('f(2, 3)')); // 8
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// manipulate matrices
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// Note that matrix indexes in the expression parser are one-based with the
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// upper-bound included. On a JavaScript level however, math.js uses zero-based
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// indexes with an excluded upper-bound.
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console.log('\nmanipulate matrices');
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print(parser.eval('k = [1, 2; 3, 4]')); // [[1, 2], [3, 4]]
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print(parser.eval('l = zeros(2, 2)')); // [[0, 0], [0, 0]]
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print(parser.eval('l[1, 1:2] = [5, 6]')); // [[5, 6], [0, 0]]
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print(parser.eval('l[2, :] = [7, 8]')); // [[5, 6], [7, 8]]
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print(parser.eval('m = k * l')); // [[19, 22], [43, 50]]
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print(parser.eval('n = m[2, 1]')); // 43
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print(parser.eval('n = m[:, 1]')); // [[19], [43]]
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// get and set variables and functions
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console.log('\nget and set variables and function in the scope of the parser');
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var x = parser.get('x');
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console.log('x =', x); // x = 7
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var f = parser.get('f');
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console.log('f =', math.format(f)); // f = f(x, y)
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var g = f(3, 3);
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console.log('g =', g); // g = 27
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parser.set('h', 500);
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print(parser.eval('h / 2')); // 250
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parser.set('hello', function (name) {
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return 'hello, ' + name + '!';
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});
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print(parser.eval('hello("hero")')); // "hello, hero!"
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// clear defined functions and variables
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parser.clear();
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/**
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* Helper function to output a value in the console. Value will be formatted.
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* @param {*} value
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*/
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function print (value) {
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var precision = 14;
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console.log(math.format(value, precision));
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}
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