704 lines
28 KiB
Markdown
704 lines
28 KiB
Markdown
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# Expression syntax
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This page describes the syntax of expression parser of math.js. It describes
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how to work with the available data types, functions, operators, variables,
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and more.
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## Differences from JavaScript
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The expression parser of math.js is aimed at a mathematical audience,
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not a programming audience. The syntax is similar to most calculators and
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mathematical applications. This is close to JavaScript as well, though there
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are a few important differences between the syntax of the expression parser and
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the lower level syntax of math.js. Differences are:
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- No need to prefix functions and constants with the `math.*` namespace,
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you can just enter `sin(pi / 4)`.
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- Matrix indexes are one-based instead of zero-based.
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- There are index and range operators which allow more conveniently getting
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and setting matrix indexes, like `A[2:4, 1]`.
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- Both indexes and ranges and have the upper-bound included.
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- There is a differing syntax for defining functions. Example: `f(x) = x^2`.
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- There are custom operators like `x + y` instead of `add(x, y)`.
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- Some operators are different. For example `^` is used for exponentiation,
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not bitwise xor.
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- Implicit multiplication, like `2 pi`, is supported and has special rules.
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- Relational operators (`<`, `>`, `<=`, `>=`, `==`, and `!=`) are chained, so the expression `5 < x < 10` is equivalent to `5 < x and x < 10`.
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- Multi-expression constructs like `a = 1; b = 2; a + b` or
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`"a = 1;\n cos(a)\n sin(a)"` (where `\n` denotes newline)
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produce a collection ("ResultSet") of values. Those expressions
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terminated by `;` are evaluated for side effect only and their values
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are suppressed from the result.
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## Operators
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The expression parser has operators for all common arithmetic operations such
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as addition and multiplication. The expression parser uses conventional infix
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notation for operators: an operator is placed between its arguments.
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Round parentheses can be used to override the default precedence of operators.
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```js
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// use operators
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math.evaluate('2 + 3') // 5
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math.evaluate('2 * 3') // 6
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// use parentheses to override the default precedence
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math.evaluate('2 + 3 * 4') // 14
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math.evaluate('(2 + 3) * 4') // 20
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```
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The following operators are available:
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Operator | Name | Syntax | Associativity | Example | Result
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----------- | -------------------------- | ---------- | ------------- | --------------------- | ---------------
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`(`, `)` | Grouping | `(x)` | None | `2 * (3 + 4)` | `14`
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`[`, `]` | Matrix, Index | `[...]` | None | `[[1,2],[3,4]]` | `[[1,2],[3,4]]`
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`{`, `}` | Object | `{...}` | None | `{a: 1, b: 2}` | `{a: 1, b: 2}`
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`,` | Parameter separator | `x, y` | Left to right | `max(2, 1, 5)` | `5`
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`.` | Property accessor | `obj.prop` | Left to right | `obj={a: 12}; obj.a` | `12`
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`;` | Statement separator | `x; y` | Left to right | `a=2; b=3; a*b` | `[6]`
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`;` | Row separator | `[x; y]` | Left to right | `[1,2;3,4]` | `[[1,2],[3,4]]`
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`\n` | Statement separator | `x \n y` | Left to right | `a=2 \n b=3 \n a*b` | `[2,3,6]`
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`+` | Add | `x + y` | Left to right | `4 + 5` | `9`
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`+` | Unary plus | `+y` | Right to left | `+4` | `4`
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`-` | Subtract | `x - y` | Left to right | `7 - 3` | `4`
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`-` | Unary minus | `-y` | Right to left | `-4` | `-4`
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`*` | Multiply | `x * y` | Left to right | `2 * 3` | `6`
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`.*` | Element-wise multiply | `x .* y` | Left to right | `[1,2,3] .* [1,2,3]` | `[1,4,9]`
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`/` | Divide | `x / y` | Left to right | `6 / 2` | `3`
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`./` | Element-wise divide | `x ./ y` | Left to right | `[9,6,4] ./ [3,2,2]` | `[3,3,2]`
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`%` | Percentage | `x%` | None | `8%` | `0.08`
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`%` | Addition with Percentage | `x + y%` | Left to right | `100 + 3%` | `103`
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`%` | Subtraction with Percentage| `x - y%` | Left to right | `100 - 3%` | `97`
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`%` `mod` | Modulus | `x % y` | Left to right | `8 % 3` | `2`
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`^` | Power | `x ^ y` | Right to left | `2 ^ 3` | `8`
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`.^` | Element-wise power | `x .^ y` | Right to left | `[2,3] .^ [3,3]` | `[8,27]`
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`'` | Transpose | `y'` | Left to right | `[[1,2],[3,4]]'` | `[[1,3],[2,4]]`
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`!` | Factorial | `y!` | Left to right | `5!` | `120`
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`&` | Bitwise and | `x & y` | Left to right | `5 & 3` | `1`
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`~` | Bitwise not | `~x` | Right to left | `~2` | `-3`
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<code>|</code> | Bitwise or | <code>x | y</code> | Left to right | <code>5 | 3</code> | `7`
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<code>^|</code> | Bitwise xor | <code>x ^| y</code> | Left to right | <code>5 ^| 2</code> | `7`
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`<<` | Left shift | `x << y` | Left to right | `4 << 1` | `8`
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`>>` | Right arithmetic shift | `x >> y` | Left to right | `8 >> 1` | `4`
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`>>>` | Right logical shift | `x >>> y` | Left to right | `-8 >>> 1` | `2147483644`
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`and` | Logical and | `x and y` | Left to right | `true and false` | `false`
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`not` | Logical not | `not y` | Right to left | `not true` | `false`
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`or` | Logical or | `x or y` | Left to right | `true or false` | `true`
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`xor` | Logical xor | `x xor y` | Left to right | `true xor true` | `false`
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`=` | Assignment | `x = y` | Right to left | `a = 5` | `5`
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`?` `:` | Conditional expression | `x ? y : z` | Right to left | `15 > 100 ? 1 : -1` | `-1`
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`:` | Range | `x : y` | Right to left | `1:4` | `[1,2,3,4]`
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`to`, `in` | Unit conversion | `x to y` | Left to right | `2 inch to cm` | `5.08 cm`
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`==` | Equal | `x == y` | Left to right | `2 == 4 - 2` | `true`
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`!=` | Unequal | `x != y` | Left to right | `2 != 3` | `true`
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`<` | Smaller | `x < y` | Left to right | `2 < 3` | `true`
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`>` | Larger | `x > y` | Left to right | `2 > 3` | `false`
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`<=` | Smallereq | `x <= y` | Left to right | `4 <= 3` | `false`
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`>=` | Largereq | `x >= y` | Left to right | `2 + 4 >= 6` | `true`
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## Precedence
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The operators have the following precedence, from highest to lowest:
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Operators | Description
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--------------------------------- | --------------------
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`(...)`<br>`[...]`<br>`{...}` | Grouping<br>Matrix<br>Object
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`x(...)`<br>`x[...]`<br>`obj.prop`<br>`:`| Function call<br>Matrix index<br>Property accessor<br>Key/value separator
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`'` | Matrix transpose
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`!` | Factorial
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`^`, `.^` | Exponentiation
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`+`, `-`, `~`, `not` | Unary plus, unary minus, bitwise not, logical not
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See section below | Implicit multiplication
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`*`, `/`, `.*`, `./`, `%`, `mod` | Multiply, divide, percentage, modulus
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`+`, `-` | Add, subtract
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`:` | Range
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`to`, `in` | Unit conversion
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`<<`, `>>`, `>>>` | Bitwise left shift, bitwise right arithmetic shift, bitwise right logical shift
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`==`, `!=`, `<`, `>`, `<=`, `>=` | Relational
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`&` | Bitwise and
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<code>^|</code> | Bitwise xor
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<code>|</code> | Bitwise or
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`and` | Logical and
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`xor` | Logical xor
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`or` | Logical or
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`?`, `:` | Conditional expression
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`=` | Assignment
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`,` | Parameter and column separator
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`;` | Row separator
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`\n`, `;` | Statement separators
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## Functions
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Functions are called by entering their name, followed by zero or more
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arguments enclosed by parentheses. All available functions are listed on the
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page [Functions](../reference/functions.md).
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```js
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math.evaluate('sqrt(25)') // 5
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math.evaluate('log(10000, 3 + 7)') // 4
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math.evaluate('sin(pi / 4)') // 0.7071067811865475
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```
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New functions can be defined by "assigning" an expression to a function call
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with one or more variables. Such function assignments are limited: they can
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only be defined on a single line.
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```js
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const parser = math.parser()
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parser.evaluate('f(x) = x ^ 2 - 5')
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parser.evaluate('f(2)') // -1
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parser.evaluate('f(3)') // 4
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parser.evaluate('g(x, y) = x ^ y')
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parser.evaluate('g(2, 3)') // 8
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```
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Note that these function assignments do _not_ create closures; put another way,
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all free variables in mathjs are dynamic:
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```js
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const parser = math.parser()
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parser.evaluate('x = 7')
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parser.evaluate('h(y) = x + y')
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parser.evaluate('h(3)') // 10
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parser.evaluate('x = 3')
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parser.evaluate('h(3)') // 6, *not* 10
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```
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It is however possible to pass functions as parameters:
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```js
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const parser = math.parser()
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parser.evaluate('twice(func, x) = func(func(x))')
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parser.evaluate('twice(square, 2)') // 16
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parser.evaluate('f(x) = 3*x')
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parser.evaluate('twice(f, 2)') // 18
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// a simplistic "numerical derivative":
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parser.evaluate('eps = 1e-10')
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parser.evaluate('nd(f, x) = (f(x+eps) - func(x-eps))/(2*eps)')
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parser.evaluate('nd(square,2)') // 4.000000330961484
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```
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Math.js itself heavily uses typed functions, which ensure correct inputs and
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throws meaningful errors when the input arguments are invalid. One can create
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a [typed-function](https://github.com/josdejong/typed-function) in the
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expression parser like:
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```js
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const parser = math.parser()
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parser.evaluate('f = typed({"number": f(x) = x ^ 2 - 5})')
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```
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## Constants and variables
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Math.js has a number of built-in constants such as `pi` and `e`.
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All available constants are listed on he page
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[Constants](../reference/constants.md).
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```js
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// use constants
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math.evaluate('pi') // 3.141592653589793
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math.evaluate('e ^ 2') // 7.3890560989306495
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math.evaluate('log(e)') // 1
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math.evaluate('e ^ (pi * i) + 1') // ~0 (Euler)
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```
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Variables can be defined using the assignment operator `=`, and can be used
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like constants.
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```js
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const parser = math.parser()
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// define variables
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parser.evaluate('a = 3.4') // 3.4
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parser.evaluate('b = 5 / 2') // 2.5
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// use variables
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parser.evaluate('a * b') // 8.5
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```
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Variable names must:
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- Begin with an "alpha character", which is:
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- A latin letter (upper or lower case). Ascii: `a-z`, `A-Z`
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- An underscore. Ascii: `_`
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- A dollar sign. Ascii: `$`
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- A latin letter with accents. Unicode: `\u00C0` - `\u02AF`
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- A greek letter. Unicode: `\u0370` - `\u03FF`
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- A letter-like character. Unicode: `\u2100` - `\u214F`
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- A mathematical alphanumeric symbol. Unicode: `\u{1D400}` - `\u{1D7FF}` excluding invalid code points
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- Contain only alpha characters (above) and digits `0-9`
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- Not be any of the following: `mod`, `to`, `in`, `and`, `xor`, `or`, `not`, `end`. It is possible to assign to some of these, but that's not recommended.
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It is possible to customize the allowed alpha characters, see [Customize supported characters](customization.md#customize-supported-characters) for more information.
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## Data types
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The expression parser supports booleans, numbers, complex numbers, units,
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strings, matrices, and objects.
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### Booleans
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Booleans `true` and `false` can be used in expressions.
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```js
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// use booleans
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math.evaluate('true') // true
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math.evaluate('false') // false
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math.evaluate('(2 == 3) == false') // true
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```
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Booleans can be converted to numbers and strings and vice versa using the
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functions `number` and `boolean`, and `string`.
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```js
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// convert booleans
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math.evaluate('number(true)') // 1
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math.evaluate('string(false)') // "false"
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math.evaluate('boolean(1)') // true
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math.evaluate('boolean("false")') // false
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```
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### Numbers
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The most important and basic data type in math.js are numbers. Numbers use a
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point as decimal mark. Numbers can be entered with exponential notation.
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Examples:
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```js
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// numbers in math.js
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math.evaluate('2') // 2
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math.evaluate('3.14') // 3.14
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math.evaluate('1.4e3') // 1400
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math.evaluate('22e-3') // 0.022
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```
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A number can be converted to a string and vice versa using the functions
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`number` and `string`.
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```js
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// convert a string into a number
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math.evaluate('number("2.3")') // 2.3
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math.evaluate('string(2.3)') // "2.3"
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```
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Math.js uses regular JavaScript numbers, which are floating points with a
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limited precision and limited range. The limitations are described in detail
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on the page [Numbers](../datatypes/numbers.md).
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```js
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math.evaluate('1e-325') // 0
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math.evaluate('1e309') // Infinity
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math.evaluate('-1e309') // -Infinity
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```
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When doing calculations with floats, one can very easily get round-off errors:
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```js
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// round-off error due to limited floating point precision
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math.evaluate('0.1 + 0.2') // 0.30000000000000004
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```
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When outputting results, the function `math.format` can be used to hide
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these round-off errors when outputting results for the user:
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```js
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const ans = math.evaluate('0.1 + 0.2') // 0.30000000000000004
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math.format(ans, {precision: 14}) // "0.3"
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```
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Numbers can be expressed as binary, octal, and hexadecimal literals:
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```js
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math.evaluate('0b11') // 3
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math.evaluate('0o77') // 63
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math.evaluate('0xff') // 255
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```
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A word size suffix can be used to change the behavior of non decimal literal evaluation:
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```js
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math.evaluate('0xffi8') // -1
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math.evaluate('0xffffffffi32') // -1
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math.evaluate('0xfffffffffi32') // SyntaxError: String "0xfffffffff" is out of range
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```
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Non decimal numbers can include a radix point:
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```js
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math.evaluate('0b1.1') // 1.5
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math.evaluate('0o1.4') // 1.5
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math.evaluate('0x1.8') // 1.5
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```
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Numbers can be formatted as binary, octal, and hex strings using the `notation` option of the `format` function:
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```js
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math.evaluate('format(3, {notation: "bin"})') // '0b11'
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math.evaluate('format(63, {notation: "oct"})') // '0o77'
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math.evaluate('format(255, {notation: "hex"})') // '0xff'
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math.evaluate('format(-1, {notation: "hex"})') // '-0x1'
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math.evaluate('format(2.3, {notation: "hex"})') // '0x2.4cccccccccccc'
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```
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The `format` function accepts a `wordSize` option to use in conjunction with the non binary notations:
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```js
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math.evaluate('format(-1, {notation: "hex", wordSize: 8})') // '0xffi8'
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```
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The functions `bin`, `oct`, and `hex` are shorthand for the `format` function with `notation` set accordingly:
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```js
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math.evaluate('bin(-1)') // '-0b1'
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math.evaluate('bin(-1, 8)') // '0b11111111i8'
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```
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### BigNumbers
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Math.js supports BigNumbers for calculations with an arbitrary precision.
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The pros and cons of Number and BigNumber are explained in detail on the page
|
||
|
[Numbers](../datatypes/numbers.md).
|
||
|
|
||
|
BigNumbers are slower but have a higher precision. Calculations with big
|
||
|
numbers are supported only by arithmetic functions.
|
||
|
|
||
|
BigNumbers can be created using the `bignumber` function:
|
||
|
|
||
|
```js
|
||
|
math.evaluate('bignumber(0.1) + bignumber(0.2)') // BigNumber, 0.3
|
||
|
```
|
||
|
|
||
|
The default number type of the expression parser can be changed at instantiation
|
||
|
of math.js. The expression parser parses numbers as BigNumber by default:
|
||
|
|
||
|
```js
|
||
|
// Configure the type of number: 'number' (default), 'BigNumber', or 'Fraction'
|
||
|
math.config({number: 'BigNumber'})
|
||
|
|
||
|
// all numbers are parsed as BigNumber
|
||
|
math.evaluate('0.1 + 0.2') // BigNumber, 0.3
|
||
|
```
|
||
|
|
||
|
BigNumbers can be converted to numbers and vice versa using the functions
|
||
|
`number` and `bignumber`. When converting a BigNumber to a Number, the high
|
||
|
precision of the BigNumber will be lost. When a BigNumber is too large to be represented
|
||
|
as Number, it will be initialized as `Infinity`.
|
||
|
|
||
|
|
||
|
### Complex numbers
|
||
|
|
||
|
Complex numbers can be created using the imaginary unit `i`, which is defined
|
||
|
as `i^2 = -1`. Complex numbers have a real and complex part, which can be
|
||
|
retrieved using the functions `re` and `im`.
|
||
|
|
||
|
```js
|
||
|
const parser = math.parser()
|
||
|
|
||
|
// create complex numbers
|
||
|
parser.evaluate('a = 2 + 3i') // Complex, 2 + 3i
|
||
|
parser.evaluate('b = 4 - i') // Complex, 4 - i
|
||
|
|
||
|
// get real and imaginary part of a complex number
|
||
|
parser.evaluate('re(a)') // Number, 2
|
||
|
parser.evaluate('im(a)') // Number, 3
|
||
|
|
||
|
// calculations with complex numbers
|
||
|
parser.evaluate('a + b') // Complex, 6 + 2i
|
||
|
parser.evaluate('a * b') // Complex, 11 + 10i
|
||
|
parser.evaluate('i * i') // Number, -1
|
||
|
parser.evaluate('sqrt(-4)') // Complex, 2i
|
||
|
```
|
||
|
|
||
|
Math.js does not automatically convert complex numbers with an imaginary part
|
||
|
of zero to numbers. They can be converted to a number using the function
|
||
|
`number`.
|
||
|
|
||
|
```js
|
||
|
// convert a complex number to a number
|
||
|
const parser = math.parser()
|
||
|
parser.evaluate('a = 2 + 3i') // Complex, 2 + 3i
|
||
|
parser.evaluate('b = a - 3i') // Complex, 2 + 0i
|
||
|
parser.evaluate('number(b)') // Number, 2
|
||
|
parser.evaluate('number(a)') // Error: 2 + i is no valid number
|
||
|
```
|
||
|
|
||
|
|
||
|
### Units
|
||
|
|
||
|
math.js supports units. Units can be used in the arithmetic operations
|
||
|
add, subtract, multiply, divide, and exponentiation.
|
||
|
Units can also be converted from one to another.
|
||
|
An overview of all available units can be found on the page
|
||
|
[Units](../datatypes/units.md).
|
||
|
|
||
|
Units can be converted using the operator `to` or `in`.
|
||
|
|
||
|
```js
|
||
|
// create a unit
|
||
|
math.evaluate('5.4 kg') // Unit, 5.4 kg
|
||
|
|
||
|
// convert a unit
|
||
|
math.evaluate('2 inch to cm') // Unit, 5.08 cm
|
||
|
math.evaluate('20 celsius in fahrenheit') // Unit, ~68 fahrenheit
|
||
|
math.evaluate('90 km/h to m/s') // Unit, 25 m / s
|
||
|
|
||
|
// convert a unit to a number
|
||
|
// A second parameter with the unit for the exported number must be provided
|
||
|
math.evaluate('number(5 cm, mm)') // Number, 50
|
||
|
|
||
|
// calculations with units
|
||
|
math.evaluate('0.5kg + 33g') // Unit, 0.533 kg
|
||
|
math.evaluate('3 inch + 2 cm') // Unit, 3.7874 inch
|
||
|
math.evaluate('3 inch + 2 cm') // Unit, 3.7874 inch
|
||
|
math.evaluate('12 seconds * 2') // Unit, 24 seconds
|
||
|
math.evaluate('sin(45 deg)') // Number, 0.7071067811865475
|
||
|
math.evaluate('9.81 m/s^2 * 5 s to mi/h') // Unit, 109.72172512527 mi / h
|
||
|
```
|
||
|
|
||
|
|
||
|
### Strings
|
||
|
|
||
|
Strings are enclosed by double quotes " or single quotes '. Strings can be concatenated using the
|
||
|
function `concat` (not by adding them using `+` like in JavaScript). Parts of
|
||
|
a string can be retrieved or replaced by using indexes. Strings can be converted
|
||
|
to a number using function `number`, and numbers can be converted to a string
|
||
|
using function `string`.
|
||
|
|
||
|
When setting the value of a character in a string, the character that has been
|
||
|
set is returned. Likewise, when a range of characters is set, that range of
|
||
|
characters is returned.
|
||
|
|
||
|
|
||
|
```js
|
||
|
const parser = math.parser()
|
||
|
|
||
|
// create a string
|
||
|
parser.evaluate('"hello"') // String, "hello"
|
||
|
|
||
|
// string manipulation
|
||
|
parser.evaluate('a = concat("hello", " world")') // String, "hello world"
|
||
|
parser.evaluate('size(a)') // Matrix [11]
|
||
|
parser.evaluate('a[1:5]') // String, "hello"
|
||
|
parser.evaluate('a[1] = "H"') // String, "H"
|
||
|
parser.evaluate('a[7:12] = "there!"') // String, "there!"
|
||
|
parser.evaluate('a') // String, "Hello there!"
|
||
|
|
||
|
// string conversion
|
||
|
parser.evaluate('number("300")') // Number, 300
|
||
|
parser.evaluate('string(300)') // String, "300"
|
||
|
```
|
||
|
|
||
|
Strings can be used in the `evaluate` function, to parse expressions inside
|
||
|
the expression parser:
|
||
|
|
||
|
```js
|
||
|
math.evaluate('evaluate("2 + 3")') // 5
|
||
|
```
|
||
|
|
||
|
|
||
|
### Matrices
|
||
|
|
||
|
Matrices can be created by entering a series of values between square brackets,
|
||
|
elements are separated by a comma `,`.
|
||
|
A matrix like `[1, 2, 3]` will create a vector, a 1-dimensional matrix with
|
||
|
size `[3]`. To create a multi-dimensional matrix, matrices can be nested into
|
||
|
each other. For easier creation of two-dimensional matrices, a semicolon `;`
|
||
|
can be used to separate rows in a matrix.
|
||
|
|
||
|
```js
|
||
|
// create a matrix
|
||
|
math.evaluate('[1, 2, 3]') // Matrix, size [3]
|
||
|
math.evaluate('[[1, 2, 3], [4, 5, 6]]') // Matrix, size [2, 3]
|
||
|
math.evaluate('[[[1, 2], [3, 4]], [[5, 6], [7, 8]]]') // Matrix, size [2, 2, 2]
|
||
|
|
||
|
// create a two dimensional matrix
|
||
|
math.evaluate('[1, 2, 3; 4, 5, 6]') // Matrix, size [2, 3]
|
||
|
```
|
||
|
|
||
|
Another way to create filled matrices is using the functions `zeros`, `ones`,
|
||
|
`identity`, and `range`.
|
||
|
|
||
|
```js
|
||
|
// initialize a matrix with ones or zeros
|
||
|
math.evaluate('zeros(3, 2)') // Matrix, [[0, 0], [0, 0], [0, 0]], size [3, 2]
|
||
|
math.evaluate('ones(3)') // Matrix, [1, 1, 1], size [3]
|
||
|
math.evaluate('5 * ones(2, 2)') // Matrix, [[5, 5], [5, 5]], size [2, 2]
|
||
|
|
||
|
// create an identity matrix
|
||
|
math.evaluate('identity(2)') // Matrix, [[1, 0], [0, 1]], size [2, 2]
|
||
|
|
||
|
// create a range
|
||
|
math.evaluate('1:4') // Matrix, [1, 2, 3, 4], size [4]
|
||
|
math.evaluate('0:2:10') // Matrix, [0, 2, 4, 6, 8, 10], size [6]
|
||
|
```
|
||
|
|
||
|
A subset can be retrieved from a matrix using indexes and a subset of a matrix
|
||
|
can be replaced by using indexes. Indexes are enclosed in square brackets, and
|
||
|
contain a number or a range for each of the matrix dimensions. A range can have
|
||
|
its start and/or end undefined. When the start is undefined, the range will start
|
||
|
at 1, when the end is undefined, the range will end at the end of the matrix.
|
||
|
There is a context variable `end` available as well to denote the end of the
|
||
|
matrix.
|
||
|
|
||
|
*IMPORTANT: matrix indexes and ranges work differently from the math.js indexes
|
||
|
in JavaScript: They are one-based with an included upper-bound, similar to most
|
||
|
math applications.*
|
||
|
|
||
|
```js
|
||
|
parser = math.parser()
|
||
|
|
||
|
// create matrices
|
||
|
parser.evaluate('a = [1, 2; 3, 4]') // Matrix, [[1, 2], [3, 4]]
|
||
|
parser.evaluate('b = zeros(2, 2)') // Matrix, [[0, 0], [0, 0]]
|
||
|
parser.evaluate('c = 5:9') // Matrix, [5, 6, 7, 8, 9]
|
||
|
|
||
|
// replace a subset in a matrix
|
||
|
parser.evaluate('b[1, 1:2] = [5, 6]') // Matrix, [[5, 6], [0, 0]]
|
||
|
parser.evaluate('b[2, :] = [7, 8]') // Matrix, [[5, 6], [7, 8]]
|
||
|
|
||
|
// perform a matrix calculation
|
||
|
parser.evaluate('d = a * b') // Matrix, [[19, 22], [43, 50]]
|
||
|
|
||
|
// retrieve a subset of a matrix
|
||
|
parser.evaluate('d[2, 1]') // 43
|
||
|
parser.evaluate('d[2, 1:end]') // Matrix, [[43, 50]]
|
||
|
parser.evaluate('c[end - 1 : -1 : 2]') // Matrix, [8, 7, 6]
|
||
|
```
|
||
|
|
||
|
## Objects
|
||
|
|
||
|
Objects in math.js work the same as in languages like JavaScript and Python.
|
||
|
An object is enclosed by curly brackets `{`, `}`, and contains a set of
|
||
|
comma separated key/value pairs. Keys and values are separated by a colon `:`.
|
||
|
Keys can be a symbol like `prop` or a string like `"prop"`.
|
||
|
|
||
|
```js
|
||
|
math.evaluate('{a: 2 + 1, b: 4}') // {a: 3, b: 4}
|
||
|
math.evaluate('{"a": 2 + 1, "b": 4}') // {a: 3, b: 4}
|
||
|
```
|
||
|
|
||
|
Objects can contain objects:
|
||
|
|
||
|
```js
|
||
|
math.evaluate('{a: 2, b: {c: 3, d: 4}}') // {a: 2, b: {c: 3, d: 4}}
|
||
|
```
|
||
|
|
||
|
Object properties can be retrieved or replaced using dot notation or bracket
|
||
|
notation. Unlike JavaScript, when setting a property value, the whole object
|
||
|
is returned, not the property value
|
||
|
|
||
|
```js
|
||
|
let scope = {
|
||
|
obj: {
|
||
|
prop: 42
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// retrieve properties
|
||
|
math.evaluate('obj.prop', scope) // 42
|
||
|
math.evaluate('obj["prop"]', scope) // 42
|
||
|
|
||
|
// set properties (returns the whole object, not the property value!)
|
||
|
math.evaluate('obj.prop = 43', scope) // {prop: 43}
|
||
|
math.evaluate('obj["prop"] = 43', scope) // {prop: 43}
|
||
|
scope.obj // {prop: 43}
|
||
|
```
|
||
|
|
||
|
|
||
|
## Multi-line expressions
|
||
|
|
||
|
An expression can contain multiple lines, and expressions can be spread over
|
||
|
multiple lines. Lines can be separated by a newline character `\n` or by a
|
||
|
semicolon `;`. Output of statements followed by a semicolon will be hidden from
|
||
|
the output, and empty lines are ignored. The output is returned as a `ResultSet`,
|
||
|
with an entry for every visible statement.
|
||
|
|
||
|
```js
|
||
|
// a multi-line expression
|
||
|
math.evaluate('1 * 3 \n 2 * 3 \n 3 * 3') // ResultSet, [3, 6, 9]
|
||
|
|
||
|
// semicolon statements are hidden from the output
|
||
|
math.evaluate('a=3; b=4; a + b \n a * b') // ResultSet, [7, 12]
|
||
|
|
||
|
// single expression spread over multiple lines
|
||
|
math.evaluate('a = 2 +\n 3') // 5
|
||
|
math.evaluate('[\n 1, 2;\n 3, 4\n]') // Matrix, [[1, 2], [3, 4]]
|
||
|
```
|
||
|
|
||
|
The results can be read from a `ResultSet` via the property `ResultSet.entries`
|
||
|
which is an `Array`, or by calling `ResultSet.valueOf()`, which returns the
|
||
|
array with results.
|
||
|
|
||
|
|
||
|
## Implicit multiplication
|
||
|
|
||
|
*Implicit multiplication* means the multiplication of two symbols, numbers, or a grouped expression inside parentheses without using the `*` operator. This type of syntax allows a more natural way to enter expressions. For example:
|
||
|
|
||
|
```js
|
||
|
math.evaluate('2 pi') // 6.283185307179586
|
||
|
math.evaluate('(1+2)(3+4)') // 21
|
||
|
```
|
||
|
|
||
|
Parentheses are parsed as a function call when there is a symbol or accessor on
|
||
|
the left hand side, like `sqrt(4)` or `obj.method(4)`. In other cases the
|
||
|
parentheses are interpreted as an implicit multiplication.
|
||
|
|
||
|
Math.js will always evaluate implicit multiplication before explicit multiplication `*`, so that the expression `x * y z` is parsed as `x * (y * z)`. Math.js also gives implicit multiplication higher precedence than division, *except* when the division matches the pattern `[unaryPrefixOp]?[number] / [number] [symbol]` or `[unaryPrefixOp]?[number] / [number] [left paren]`. In that special case, the division is evaluated first:
|
||
|
|
||
|
```js
|
||
|
math.evaluate('20 kg / 4 kg') // 5 Evaluated as (20 kg) / (4 kg)
|
||
|
math.evaluate('20 / 4 kg') // 5 kg Evaluated as (20 / 4) kg
|
||
|
```
|
||
|
|
||
|
The behavior of implicit multiplication can be summarized by these operator precedence rules, listed from highest to lowest precedence:
|
||
|
|
||
|
- Function calls: `[symbol] [left paren]`
|
||
|
- Explicit division `/` when the division matches this pattern: `[+-~]?[number] / [+-~]?[number] [symbol]` or `[number] / [number] [left paren]`
|
||
|
- Implicit multiplication
|
||
|
- All other division `/` and multiplication `*`
|
||
|
|
||
|
Implicit multiplication is tricky as there can appear to be ambiguity in how an expression will be evaluated. Experience has shown that the above rules most closely match user intent when entering expressions that could be interpreted different ways. It's also possible that these rules could be tweaked in future major releases. Use implicit multiplication carefully. If you don't like the uncertainty introduced by implicit multiplication, use explicit `*` operators and parentheses to ensure your expression is evaluated the way you intend.
|
||
|
|
||
|
Here are some more examples using implicit multiplication:
|
||
|
|
||
|
Expression | Evaluated as | Result
|
||
|
--------------- | ------------------- | ------------------
|
||
|
(1 + 3) pi | (1 + 3) * pi | 12.566370614359172
|
||
|
(4 - 1) 2 | (4 - 1) * 2 | 6
|
||
|
3 / 4 mm | (3 / 4) * mm | 0.75 mm
|
||
|
2 + 3 i | 2 + (3 * i) | 2 + 3i
|
||
|
(1 + 2) (4 - 2) | (1 + 2) * (4 - 2) | 6
|
||
|
sqrt(4) (1 + 2) | sqrt(4) * (1 + 2) | 6
|
||
|
8 pi / 2 pi | (8 * pi) / (2 * pi) | 4
|
||
|
pi / 2 pi | pi / (2 * pi) | 0.5
|
||
|
1 / 2i | (1 / 2) * i | 0.5 i
|
||
|
8.314 J / mol K | 8.314 J / (mol * K) | 8.314 J / (mol * K)
|
||
|
|
||
|
|
||
|
## Comments
|
||
|
|
||
|
Comments can be added to explain or describe calculations in the text. A comment
|
||
|
starts with a sharp sign character `#`, and ends at the end of the line. A line
|
||
|
can contain a comment only, or can contain an expression followed by a comment.
|
||
|
|
||
|
```js
|
||
|
const parser = math.parser()
|
||
|
|
||
|
parser.evaluate('# define some variables')
|
||
|
parser.evaluate('width = 3') // 3
|
||
|
parser.evaluate('height = 4') // 4
|
||
|
parser.evaluate('width * height # calculate the area') // 12
|
||
|
```
|