This page has been translated automatically.
Видеоуроки
Interface
Essentials
Advanced
Подсказки и советы
Основы
Программирование на C#
Рендеринг
Принципы работы
Свойства (properties)
Компонентная Система
Рендер
Физика
Редактор UnigineEditor
Обзор интерфейса
Работа с ассетами
Настройки и предпочтения
Работа с проектами
Настройка параметров ноды
Setting Up Materials
Настройка свойств
Освещение
Landscape Tool
Sandworm
Использование инструментов редактора для конкретных задач
Extending Editor Functionality
Встроенные объекты
Ноды (Nodes)
Объекты (Objects)
Эффекты
Декали
Источники света
Geodetics
World Nodes
Звуковые объекты
Объекты поиска пути
Players
Программирование
Основы
Настройка среды разработки
Примеры использования
C++
C#
UnigineScript
Унифицированный язык шейдеров UUSL
Плагины
File Formats
Rebuilding the Engine Tools
GUI
Двойная точность координат
API
Containers
Common Functionality
Controls-Related Classes
Engine-Related Classes
Filesystem Functionality
GUI-Related Classes
Node-Related Classes
Objects-Related Classes
Networking Functionality
Pathfinding-Related Classes
Physics-Related Classes
Plugins-Related Classes
IG Plugin
CIGIConnector Plugin
Rendering-Related Classes
Работа с контентом
Оптимизация контента
Материалы
Material Nodes Library
Miscellaneous
Input
Math
Matrix
Textures
Art Samples
Tutorials
Внимание! Эта версия документация УСТАРЕЛА, поскольку относится к более ранней версии SDK! Пожалуйста, переключитесь на самую актуальную документацию для последней версии SDK.
Внимание! Эта версия документации описывает устаревшую версию SDK, которая больше не поддерживается! Пожалуйста, обновитесь до последней версии SDK.

Unigine.Math2d Struct

Notice
The functions listed below are the members of the Unigine.MathLib namespace.

Math2d Class

Members


bool SetPolygonToCCW ( List<vec2> points ) #

Sets the counter-clockwise orientation for the polygon.

Arguments

  • List<vec2> points - List containing all points of the polygon.

Return value

true if the counter-clockwise orientation for the polygon is set successfully; otherwise, false.

void TriangulatePolygon ( List<vec2> points, List<ushort> indices, bool append_to_result ) #

Performs triangulation by ear clipping algorithm (complexity: O(n^2)/O(n)).

Arguments

  • List<vec2> points - List containing all points of the polygon.
  • List<ushort> indices - List containing all points indices.
  • bool append_to_result - Flag indicating if resulting points should be appended to the points of initial polygon - false (the default value), or replace them - true.

void ResizePolygon ( List<vec2> points, float offset, List<vec2> result_points, bool append_to_result ) #

Returns a set of points representing a shrunk/enlarged polygon. Supports concave polygons, CCW and CW orientations.

Arguments

  • List<vec2> points - List containing all points of the polygon.
  • float offset
  • List<vec2> result_points - List containing all points of the shrunk/enlarged polygon.
  • bool append_to_result - Flag indicating if resulting points should be appended to the points of initial polygon - false (the default value), or replace them - true.

void FindIntersection ( vec2 p1, vec2 p2, vec2 p3, vec2 p4, bool lines_intersect, bool segments_intersect, vec2 intersection, vec2 close_p1, vec2 close_p2 ) #

Finds the point of intersection between the two lines specified by the pairs of points p1 - p2 and p3 - p4 and sets the values of the last 5 arguments.

Arguments

  • vec2 p1 - Start point coordinates of the first line segment.
  • vec2 p2 - End point coordinates of the first line segment.
  • vec2 p3 - Start point coordinates of the second line segment.
  • vec2 p4 - End point coordinates of the second line segment.
  • bool lines_intersect - true if the lines to which the segments belong intersect; otherwise, false.
  • bool segments_intersect - true if the lines to which the segments belong intersect; otherwise, false.
  • vec2 intersection - Coordinates of the point of intersection between the two line segments.
  • vec2 close_p1 - Coordinates of the first of the two closest points belonging to the first segment.
  • vec2 close_p2 - Coordinates of the second of the two closest points belonging to the second segment.

bool PolygonIsOrientedClockwise ( List<vec2> points ) #

Returns a value indicating if a given polygon is oriented clockwise.

Arguments

  • List<vec2> points - List containing all points of the polygon.

Return value

true if a given polygon is oriented clockwise; otherwise, false.

float GetPolygonAreaSigned ( List<vec2> points ) #

Returns the area of the given polygon in square units.

Arguments

  • List<vec2> points - List containing all points of the polygon.

Return value

Polygon's area, in square units.

Notice
The value will be negative if the polygon is oriented clockwise.

float GetPolygonArea ( List<vec2> points ) #

Returns the area of the given polygon in square units.

Arguments

  • List<vec2> points - List containing all points of the polygon.

Return value

Polygon's area, in square units.

float GetTriangleArea ( vec2 p1, vec2 p2, vec2 p3 ) #

Returns the area of the given triangle in square units.

Arguments

  • vec2 p1 - Coordinates of the first triangle vertex.
  • vec2 p2 - Coordinates of the second triangle vertex.
  • vec2 p3 - Coordinates of the third triangle vertex.

Return value

Triangle area, in square units.

Notice
The value will be negative if the polygon is oriented clockwise.

float Sign ( vec2 point, vec2 segment_p1, vec2 segment_p2 ) #

Returns an integral value indicating the sign of an argument.

Arguments

  • vec2 point - Coordinates of the point to be checked.
  • vec2 segment_p1 - Segment start point coordinates.
  • vec2 segment_p2 - Segment end point coordinates.

Return value

Resulting float value.

bool PointTriangleInside ( vec2 point, vec2 v0, vec2 v1, vec2 v2 ) #

Checks if a point is inside a triangle.

Arguments

  • vec2 point - Coordinates of the point to be checked.
  • vec2 v0 - Coordinates of the first triangle vertex.
  • vec2 v1 - Coordinates of the second triangle vertex.
  • vec2 v2 - Coordinates of the third triangle vertex.

Return value

true if a given point is inside the specified triangle; otherwise, false.
Last update: 13.12.2021
Build: ()