// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file | |

// for details. All rights reserved. Use of this source code is governed by a | |

// BSD-style license that can be found in the LICENSE file. | |

/// Mathematical constants and functions, plus a random number generator. | |

/// | |

/// To use this library in your code: | |

/// ```dart | |

/// import 'dart:math'; | |

/// ``` | |

/// {@category Core} | |

library dart.math; | |

import "dart:_internal" show SystemHash; | |

part "point.dart"; | |

part "random.dart"; | |

part "rectangle.dart"; | |

/// Base of the natural logarithms. | |

/// | |

/// Typically written as "e". | |

const double e = 2.718281828459045; | |

/// Natural logarithm of 10. | |

/// | |

/// The natural logarithm of 10 is the number such that `pow(E, LN10) == 10`. | |

/// This value is not exact, but it is the closest representable double to the | |

/// exact mathematical value. | |

const double ln10 = 2.302585092994046; | |

/// Natural logarithm of 2. | |

/// | |

/// The natural logarithm of 2 is the number such that `pow(E, LN2) == 2`. | |

/// This value is not exact, but it is the closest representable double to the | |

/// exact mathematical value. | |

const double ln2 = 0.6931471805599453; | |

/// Base-2 logarithm of [e]. | |

const double log2e = 1.4426950408889634; | |

/// Base-10 logarithm of [e]. | |

const double log10e = 0.4342944819032518; | |

/// The PI constant. | |

const double pi = 3.1415926535897932; | |

/// Square root of 1/2. | |

const double sqrt1_2 = 0.7071067811865476; | |

/// Square root of 2. | |

const double sqrt2 = 1.4142135623730951; | |

/// Returns the lesser of two numbers. | |

/// | |

/// Returns NaN if either argument is NaN. | |

/// The lesser of `-0.0` and `0.0` is `-0.0`. | |

/// If the arguments are otherwise equal (including int and doubles with the | |

/// same mathematical value) then it is unspecified which of the two arguments | |

/// is returned. | |

external T min<T extends num>(T a, T b); | |

/// Returns the larger of two numbers. | |

/// | |

/// Returns NaN if either argument is NaN. | |

/// The larger of `-0.0` and `0.0` is `0.0`. If the arguments are | |

/// otherwise equal (including int and doubles with the same mathematical value) | |

/// then it is unspecified which of the two arguments is returned. | |

external T max<T extends num>(T a, T b); | |

/// A variant of [atan]. | |

/// | |

/// Converts both arguments to [double]s. | |

/// | |

/// Returns the angle in radians between the positive x-axis | |

/// and the vector ([b],[a]). | |

/// The result is in the range -PI..PI. | |

/// | |

/// If [b] is positive, this is the same as `atan(a/b)`. | |

/// | |

/// The result is negative when [a] is negative (including when [a] is the | |

/// double -0.0). | |

/// | |

/// If [a] is equal to zero, the vector ([b],[a]) is considered parallel to | |

/// the x-axis, even if [b] is also equal to zero. The sign of [b] determines | |

/// the direction of the vector along the x-axis. | |

/// | |

/// Returns NaN if either argument is NaN. | |

external double atan2(num a, num b); | |

/// Returns [x] to the power of [exponent]. | |

/// | |

/// If [x] is an [int] and [exponent] is a non-negative [int], the result is | |

/// an [int], otherwise both arguments are converted to doubles first, and the | |

/// result is a [double]. | |

/// | |

/// For integers, the power is always equal to the mathematical result of `x` to | |

/// the power `exponent`, only limited by the available memory. | |

/// | |

/// For doubles, `pow(x, y)` handles edge cases as follows: | |

/// | |

/// - if `y` is zero (0.0 or -0.0), the result is always 1.0. | |

/// - if `x` is 1.0, the result is always 1.0. | |

/// - otherwise, if either `x` or `y` is NaN then the result is NaN. | |

/// - if `x` is negative (but not -0.0) and `y` is a finite non-integer, the | |

/// result is NaN. | |

/// - if `x` is Infinity and `y` is negative, the result is 0.0. | |

/// - if `x` is Infinity and `y` is positive, the result is Infinity. | |

/// - if `x` is 0.0 and `y` is negative, the result is Infinity. | |

/// - if `x` is 0.0 and `y` is positive, the result is 0.0. | |

/// - if `x` is -Infinity or -0.0 and `y` is an odd integer, then the result is | |

/// `-pow(-x ,y)`. | |

/// - if `x` is -Infinity or -0.0 and `y` is not an odd integer, then the result | |

/// is the same as `pow(-x , y)`. | |

/// - if `y` is Infinity and the absolute value of `x` is less than 1, the | |

/// result is 0.0. | |

/// - if `y` is Infinity and `x` is -1, the result is 1.0. | |

/// - if `y` is Infinity and the absolute value of `x` is greater than 1, | |

/// the result is Infinity. | |

/// - if `y` is -Infinity, the result is `1/pow(x, Infinity)`. | |

/// | |

/// This corresponds to the `pow` function defined in the IEEE Standard | |

/// 754-2008. | |

/// | |

/// Notice that the result may overflow. If integers are represented as 64-bit | |

/// numbers, an integer result may be truncated, and a double result may | |

/// overflow to positive or negative [double.infinity]. | |

external num pow(num x, num exponent); | |

/// Converts [radians] to a [double] and returns the sine of the value. | |

/// | |

/// If [radians] is not a finite number, the result is NaN. | |

external double sin(num radians); | |

/// Converts [radians] to a [double] and returns the cosine of the value. | |

/// | |

/// If [radians] is not a finite number, the result is NaN. | |

external double cos(num radians); | |

/// Converts [radians] to a [double] and returns the tangent of the value. | |

/// | |

/// The tangent function is equivalent to `sin(radians)/cos(radians)` and may be | |

/// infinite (positive or negative) when `cos(radians)` is equal to zero. | |

/// If [radians] is not a finite number, the result is NaN. | |

external double tan(num radians); | |

/// Converts [x] to a [double] and returns its arc cosine in radians. | |

/// | |

/// Returns a value in the range 0..PI, or NaN if [x] is outside | |

/// the range -1..1. | |

external double acos(num x); | |

/// Converts [x] to a [double] and returns its arc sine in radians. | |

/// | |

/// Returns a value in the range -PI/2..PI/2, or NaN if [x] is outside | |

/// the range -1..1. | |

external double asin(num x); | |

/// Converts [x] to a [double] and returns its arc tangent in radians. | |

/// | |

/// Returns a value in the range -PI/2..PI/2, or NaN if [x] is NaN. | |

external double atan(num x); | |

/// Converts [x] to a [double] and returns the positive square root of the | |

/// value. | |

/// | |

/// Returns -0.0 if [x] is -0.0, and NaN if [x] is otherwise negative or NaN. | |

external double sqrt(num x); | |

/// Converts [x] to a [double] and returns the natural exponent, [e], | |

/// to the power [x]. | |

/// | |

/// Returns NaN if [x] is NaN. | |

external double exp(num x); | |

/// Converts [x] to a [double] and returns the natural logarithm of the value. | |

/// | |

/// Returns negative infinity if [x] is equal to zero. | |

/// Returns NaN if [x] is NaN or less than zero. | |

external double log(num x); |