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RandomE.cs
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RandomE.cs
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using System;
using UnityEngine;
using System.Collections.Generic;
using System.Text;
using URandom = UnityEngine.Random;
using MRandom = Unity.Mathematics.Random;
namespace ProceduralToolkit
{
/// <summary>
/// Class for generating random data. Contains extensions for arrays and other collections.
/// </summary>
public static class RandomE
{
/// <summary>
/// Returns a random 2D rotation
/// </summary>
public static float rotation2 => URandom.Range(0, 360f);
/// <summary>
/// Returns a random rotation around X axis
/// </summary>
public static Quaternion xRotation => Quaternion.Euler(rotation2, 0, 0);
/// <summary>
/// Returns a random rotation around Y axis
/// </summary>
public static Quaternion yRotation => Quaternion.Euler(0, rotation2, 0);
/// <summary>
/// Returns a random rotation around Z axis
/// </summary>
public static Quaternion zRotation => Quaternion.Euler(0, 0, rotation2);
#region Geometry
/// <summary>
/// Returns a random point on a circle with radius 1
/// </summary>
public static Vector2 onUnitCircle2 => Geometry.PointOnCircle2(1, rotation2);
/// <summary>
/// Returns a random point inside a circle with radius 1
/// </summary>
public static Vector3 insideUnitCircle3XY => Geometry.PointOnCircle3XY(URandom.value, rotation2);
/// <summary>
/// Returns a random point inside a circle with radius 1
/// </summary>
public static Vector3 insideUnitCircle3XZ => Geometry.PointOnCircle3XZ(URandom.value, rotation2);
/// <summary>
/// Returns a random point inside a circle with radius 1
/// </summary>
public static Vector3 insideUnitCircle3YZ => Geometry.PointOnCircle3YZ(URandom.value, rotation2);
/// <summary>
/// Returns a random point on a circle with radius 1
/// </summary>
public static Vector3 onUnitCircle3XY => Geometry.PointOnCircle3XY(1, rotation2);
/// <summary>
/// Returns a random point on a circle with radius 1
/// </summary>
public static Vector3 onUnitCircle3XZ => Geometry.PointOnCircle3XZ(1, rotation2);
/// <summary>
/// Returns a random point on a circle with radius 1
/// </summary>
public static Vector3 onUnitCircle3YZ => Geometry.PointOnCircle3YZ(1, rotation2);
/// <summary>
/// Returns a random point inside a unit square
/// </summary>
public static Vector2 insideUnitSquare => Range(new Vector2(-0.5f, -0.5f), new Vector2(0.5f, 0.5f));
/// <summary>
/// Returns a random point on the perimeter of a unit square
/// </summary>
public static Vector2 onUnitSquare => PointOnRect(new Rect(-0.5f, -0.5f, 1, 1));
/// <summary>
/// Returns a random point inside a unit cube
/// </summary>
public static Vector3 insideUnitCube => Range(new Vector3(-0.5f, -0.5f, -0.5f), new Vector3(0.5f, 0.5f, 0.5f));
/// <summary>
/// Returns a random point on a segment
/// </summary>
public static Vector2 PointOnSegment2(Segment2 segment)
{
return PointOnSegment2(segment.a, segment.b);
}
/// <summary>
/// Returns a random point on a segment
/// </summary>
public static Vector2 PointOnSegment2(Vector2 segmentA, Vector2 segmentB)
{
return Geometry.PointOnSegment2(segmentA, segmentB, URandom.value);
}
/// <summary>
/// Returns a random point on a segment
/// </summary>
public static Vector3 PointOnSegment3(Segment3 segment)
{
return PointOnSegment3(segment.a, segment.b);
}
/// <summary>
/// Returns a random point on a segment
/// </summary>
public static Vector3 PointOnSegment3(Vector3 segmentA, Vector3 segmentB)
{
return Geometry.PointOnSegment3(segmentA, segmentB, URandom.value);
}
/// <summary>
/// Returns a random point on a circle
/// </summary>
public static Vector2 PointOnCircle2(Circle2 circle)
{
return PointOnCircle2(circle.center, circle.radius);
}
/// <summary>
/// Returns a random point on a circle
/// </summary>
public static Vector2 PointOnCircle2(Vector2 center, float radius)
{
return Geometry.PointOnCircle2(center, radius, rotation2);
}
/// <summary>
/// Returns a random point inside a circle
/// </summary>
public static Vector2 PointInCircle2(Circle2 circle)
{
return PointInCircle2(circle.center, circle.radius);
}
/// <summary>
/// Returns a random point inside a circle
/// </summary>
public static Vector2 PointInCircle2(Vector2 center, float radius)
{
return center + URandom.insideUnitCircle*radius;
}
/// <summary>
/// Returns a random point on a sphere
/// </summary>
public static Vector3 PointOnSphere(Sphere sphere)
{
return PointOnSphere(sphere.center, sphere.radius);
}
/// <summary>
/// Returns a random point on a sphere
/// </summary>
public static Vector3 PointOnSphere(Vector3 center, float radius)
{
return center + URandom.onUnitSphere*radius;
}
/// <summary>
/// Returns a random point inside a sphere
/// </summary>
public static Vector3 PointInSphere(Sphere sphere)
{
return PointInSphere(sphere.center, sphere.radius);
}
/// <summary>
/// Returns a random point inside a sphere
/// </summary>
public static Vector3 PointInSphere(Vector3 center, float radius)
{
return center + URandom.insideUnitSphere*radius;
}
/// <summary>
/// Returns a random point inside a <paramref name="rect"/>
/// </summary>
public static Vector2 PointInRect(Rect rect)
{
return Range(rect.min, rect.max);
}
/// <summary>
/// Returns a random point on the perimeter of a <paramref name="rect"/>
/// </summary>
public static Vector2 PointOnRect(Rect rect)
{
float perimeter = 2*rect.width + 2*rect.height;
float value = URandom.value*perimeter;
if (value < rect.width)
{
return rect.min + new Vector2(value, 0);
}
value -= rect.width;
if (value < rect.height)
{
return rect.min + new Vector2(rect.width, value);
}
value -= rect.height;
if (value < rect.width)
{
return rect.min + new Vector2(value, rect.height);
}
return rect.min + new Vector2(0, value - rect.width);
}
/// <summary>
/// Returns a random point inside <paramref name="bounds"/>
/// </summary>
public static Vector3 PointInBounds(Bounds bounds)
{
return Range(bounds.min, bounds.max);
}
#endregion Geometry
#region Colors
/// <summary>
/// Returns a random color between black [inclusive] and white [inclusive]
/// </summary>
public static Color color => new Color(URandom.value, URandom.value, URandom.value);
/// <summary>
/// Returns a color with a random hue and a maximum saturation and value in HSV model
/// </summary>
public static ColorHSV colorHSV => new ColorHSV(URandom.value, 1, 1);
/// <summary>
/// Returns a gradient between two random colors
/// </summary>
public static Gradient gradient => ColorE.Gradient(color, color);
/// <summary>
/// Returns a gradient between two random HSV colors
/// </summary>
public static Gradient gradientHSV => ColorE.Gradient(colorHSV, colorHSV);
/// <summary>
/// Returns a color with a random hue and a given <paramref name="saturation"/> and <paramref name="value"/>
/// </summary>
public static ColorHSV ColorHue(float saturation, float value, float alpha = 1)
{
return new ColorHSV(URandom.value, saturation, value, alpha);
}
/// <summary>
/// Returns a color with a random saturation and given <paramref name="hue"/> and <paramref name="value"/>
/// </summary>
public static ColorHSV ColorSaturation(float hue, float value, float alpha = 1)
{
return new ColorHSV(hue, URandom.value, value, alpha);
}
/// <summary>
/// Returns a color with a random value and given <paramref name="hue"/> and <paramref name="saturation"/>
/// </summary>
public static ColorHSV ColorValue(float hue, float saturation, float alpha = 1)
{
return new ColorHSV(hue, saturation, URandom.value, alpha);
}
/// <summary>
/// Returns an analogous palette based on a color with a random hue
/// </summary>
public static List<ColorHSV> AnalogousPalette(float saturation = 1, float value = 1, float alpha = 1, int count = 2,
bool withComplementary = false)
{
return ColorHue(saturation, value, alpha).GetAnalogousPalette(count, withComplementary);
}
/// <summary>
/// Returns a triadic palette based on a color with a random hue
/// </summary>
public static List<ColorHSV> TriadicPalette(float saturation = 1, float value = 1, float alpha = 1, bool withComplementary = false)
{
return ColorHue(saturation, value, alpha).GetTriadicPalette(withComplementary);
}
/// <summary>
/// Returns a tetradic palette based on a color with a random hue
/// </summary>
public static List<ColorHSV> TetradicPalette(float saturation = 1, float value = 1, float alpha = 1)
{
return ColorHue(saturation, value, alpha).GetTetradicPalette();
}
#endregion Colors
#region Strings
/// <summary>
/// Returns a random alphanumeric 8-character string
/// </summary>
public static string string8 => PTUtils.Alphanumerics.GetRandom(8);
/// <summary>
/// Returns a random alphanumeric 16-character string
/// </summary>
public static string string16 => PTUtils.Alphanumerics.GetRandom(16);
/// <summary>
/// Returns a random lowercase letter
/// </summary>
public static char lowercaseLetter => PTUtils.LowercaseLetters.GetRandom();
/// <summary>
/// Returns a random uppercase letter
/// </summary>
public static char uppercaseLetter => PTUtils.UppercaseLetters.GetRandom();
#endregion Strings
/// <summary>
/// Returns a random element
/// </summary>
public static T GetRandom<T>(this IReadOnlyList<T> list)
{
if (list == null)
{
throw new ArgumentNullException(nameof(list));
}
if (list.Count == 0)
{
throw new ArgumentException("Empty list");
}
return list[URandom.Range(0, list.Count)];
}
/// <summary>
/// Returns a random element
/// </summary>
public static T GetRandom<T>(this IReadOnlyList<T> list, ref MRandom random)
{
if (list == null)
{
throw new ArgumentNullException(nameof(list));
}
if (list.Count == 0)
{
throw new ArgumentException("Empty list");
}
return list[random.NextInt(0, list.Count)];
}
/// <summary>
/// Returns a random element
/// </summary>
public static T GetRandom<T>(T item1, T item2, params T[] items)
{
if (items == null)
{
throw new ArgumentNullException(nameof(items));
}
int index = URandom.Range(0, items.Length + 2);
if (index == 0)
{
return item1;
}
if (index == 1)
{
return item2;
}
return items[index - 2];
}
/// <summary>
/// Returns a random element with the chances of rolling based on <paramref name="weights"/>
/// </summary>
/// <param name="weights">Positive floats representing weights. Negative values may lead to unpredictable behaviour.</param>
public static T GetRandom<T>(this IReadOnlyList<T> list, IReadOnlyList<float> weights)
{
if (list == null)
{
throw new ArgumentNullException(nameof(list));
}
if (list.Count == 0)
{
throw new ArgumentException("Empty list");
}
if (weights == null)
{
throw new ArgumentNullException(nameof(weights));
}
if (weights.Count == 0)
{
throw new ArgumentException("Empty weights");
}
if (list.Count != weights.Count)
{
throw new ArgumentException("Array sizes must be equal");
}
if (list.Count == 1)
{
return list[0];
}
var cumulative = new List<float>(weights);
for (int i = 1; i < cumulative.Count; i++)
{
cumulative[i] += cumulative[i - 1];
}
float randomValue = URandom.Range(0, cumulative[cumulative.Count - 1]);
int index = cumulative.FindIndex(a => a >= randomValue);
if (index == -1)
{
throw new ArgumentException("Weights must be positive");
}
return list[index];
}
/// <summary>
/// Returns a random element with the chances of rolling based on <paramref name="weights"/>
/// </summary>
/// <param name="weights">Positive floats representing weights. Negative values may lead to unpredictable behaviour.</param>
public static T GetRandom<T>(this IReadOnlyList<T> list, IReadOnlyList<float> weights, ref MRandom random)
{
if (list == null)
{
throw new ArgumentNullException(nameof(list));
}
if (list.Count == 0)
{
throw new ArgumentException("Empty list");
}
if (weights == null)
{
throw new ArgumentNullException(nameof(weights));
}
if (weights.Count == 0)
{
throw new ArgumentException("Empty weights");
}
if (list.Count != weights.Count)
{
throw new ArgumentException("Array sizes must be equal");
}
if (list.Count == 1)
{
return list[0];
}
var cumulative = new List<float>(weights);
for (int i = 1; i < cumulative.Count; i++)
{
cumulative[i] += cumulative[i - 1];
}
float randomValue = random.NextFloat(0, cumulative[cumulative.Count - 1]);
int index = cumulative.FindIndex(a => a >= randomValue);
if (index == -1)
{
throw new ArgumentException("Weights must be positive");
}
return list[index];
}
/// <summary>
/// Returns a random value from the dictionary
/// </summary>
public static TValue GetRandom<TKey, TValue>(this IDictionary<TKey, TValue> dictionary)
{
if (dictionary == null)
{
throw new ArgumentNullException(nameof(dictionary));
}
var keys = dictionary.Keys;
if (keys.Count == 0)
{
throw new ArgumentException("Empty dictionary");
}
return dictionary[new List<TKey>(keys).GetRandom()];
}
/// <summary>
/// Returns a random value from the dictionary
/// </summary>
public static TValue GetRandom<TKey, TValue>(this IDictionary<TKey, TValue> dictionary, ref MRandom random)
{
if (dictionary == null)
{
throw new ArgumentNullException(nameof(dictionary));
}
var keys = dictionary.Keys;
if (keys.Count == 0)
{
throw new ArgumentException("Empty dictionary");
}
return dictionary[new List<TKey>(keys).GetRandom(ref random)];
}
/// <summary>
/// Returns a random character from the string
/// </summary>
public static char GetRandom(this string chars)
{
if (string.IsNullOrEmpty(chars))
{
throw new ArgumentException("Empty string");
}
return chars[URandom.Range(0, chars.Length)];
}
/// <summary>
/// Returns a string consisting of random characters from that string
/// </summary>
public static string GetRandom(this string chars, int length)
{
if (string.IsNullOrEmpty(chars))
{
throw new ArgumentException("Empty string");
}
var randomString = new StringBuilder(length);
for (int i = 0; i < length; i++)
{
randomString.Append(chars[URandom.Range(0, chars.Length)]);
}
return randomString.ToString();
}
/// <summary>
/// Returns a random element and removes it from the list
/// </summary>
public static T PopRandom<T>(this List<T> list)
{
if (list == null)
{
throw new ArgumentNullException(nameof(list));
}
if (list.Count == 0)
{
throw new ArgumentException("Empty list");
}
int index = URandom.Range(0, list.Count);
T item = list[index];
list.RemoveAt(index);
return item;
}
/// <summary>
/// Returns a random element and removes it from the list
/// </summary>
public static T PopRandom<T>(this List<T> list, ref MRandom random)
{
if (list == null)
{
throw new ArgumentNullException(nameof(list));
}
if (list.Count == 0)
{
throw new ArgumentException("Empty list");
}
int index = random.NextInt(0, list.Count);
T item = list[index];
list.RemoveAt(index);
return item;
}
/// <summary>
/// Fisher–Yates shuffle
/// </summary>
/// <remarks>
/// https://en.wikipedia.org/wiki/Fisher–Yates_shuffle
/// </remarks>
public static void Shuffle<T>(this IList<T> list)
{
if (list == null)
{
throw new ArgumentNullException(nameof(list));
}
for (int i = 0; i < list.Count; i++)
{
int j = URandom.Range(i, list.Count);
T tmp = list[j];
list[j] = list[i];
list[i] = tmp;
}
}
/// <summary>
/// Fisher–Yates shuffle
/// </summary>
/// <remarks>
/// https://en.wikipedia.org/wiki/Fisher–Yates_shuffle
/// </remarks>
public static void Shuffle<T>(this IList<T> list, ref MRandom random)
{
if (list == null)
{
throw new ArgumentNullException(nameof(list));
}
for (int i = 0; i < list.Count; i++)
{
int j = random.NextInt(i, list.Count);
T tmp = list[j];
list[j] = list[i];
list[i] = tmp;
}
}
/// <summary>
/// Returns true with <paramref name="percent"/> probability
/// </summary>
/// <param name="percent">between 0.0 [inclusive] and 1.0 [inclusive]</param>
public static bool Chance(float percent)
{
if (percent == 0) return false;
if (percent == 1) return true;
return URandom.value < percent;
}
#region Range
/// <summary>
/// Returns a random vector between <paramref name="min"/> [inclusive] and <paramref name="max"/> [inclusive]
/// </summary>
public static Vector2 Range(Vector2 min, Vector2 max)
{
return new Vector2(URandom.Range(min.x, max.x), URandom.Range(min.y, max.y));
}
/// <summary>
/// Returns a random vector between <paramref name="min"/> [inclusive] and <paramref name="max"/> [inclusive]
/// </summary>
public static Vector3 Range(Vector3 min, Vector3 max)
{
return new Vector3(URandom.Range(min.x, max.x), URandom.Range(min.y, max.y), URandom.Range(min.z, max.z));
}
/// <summary>
/// Returns a random vector between <paramref name="min"/> [inclusive] and <paramref name="max"/> [inclusive]
/// </summary>
public static Vector4 Range(Vector4 min, Vector4 max)
{
return new Vector4(URandom.Range(min.x, max.x), URandom.Range(min.y, max.y), URandom.Range(min.z, max.z), URandom.Range(min.w, max.w));
}
/// <summary>
/// Returns a random vector between <paramref name="min"/> [inclusive] and <paramref name="max"/> [exclusive]
/// </summary>
public static Vector2Int Range(Vector2Int min, Vector2Int max)
{
return new Vector2Int(URandom.Range(min.x, max.x), URandom.Range(min.y, max.y));
}
/// <summary>
/// Returns a random vector between <paramref name="min"/> [inclusive] and <paramref name="max"/> [exclusive]
/// </summary>
public static Vector3Int Range(Vector3Int min, Vector3Int max)
{
return new Vector3Int(URandom.Range(min.x, max.x), URandom.Range(min.y, max.y), URandom.Range(min.z, max.z));
}
/// <summary>
/// Returns a random float number between and <paramref name="min"/> [inclusive] and <paramref name="max"/> [inclusive].
/// Ensures that there will be only specified amount of variants.
/// </summary>
public static float Range(float min, float max, int variants)
{
if (variants < 2)
{
throw new ArgumentException("Variants must be greater than one");
}
return Mathf.Lerp(min, max, URandom.Range(0, variants)/(variants - 1f));
}
/// <summary>
/// Returns a random vector between and <paramref name="min"/> [inclusive] and <paramref name="max"/> [inclusive].
/// Ensures that there will be only specified amount of variants.
/// </summary>
public static Vector2 Range(Vector2 min, Vector2 max, int variants)
{
return new Vector2(Range(min.x, max.x, variants), Range(min.y, max.y, variants));
}
/// <summary>
/// Returns a random vector between and <paramref name="min"/> [inclusive] and <paramref name="max"/> [inclusive].
/// Ensures that there will be only specified amount of variants.
/// </summary>
public static Vector3 Range(Vector3 min, Vector3 max, int variants)
{
return new Vector3(Range(min.x, max.x, variants), Range(min.y, max.y, variants), Range(min.z, max.z, variants));
}
/// <summary>
/// Returns a random vector between and <paramref name="min"/> [inclusive] and <paramref name="max"/> [inclusive].
/// Ensures that there will be only specified amount of variants.
/// </summary>
public static Vector4 Range(Vector4 min, Vector4 max, int variants)
{
return new Vector4(Range(min.x, max.x, variants), Range(min.y, max.y, variants), Range(min.z, max.z, variants),
Range(min.w, max.w, variants));
}
#endregion Range
}
}