glu
Module
Module Summary
Description
Standard OpenGL API
This documents the functions as a brief version of the complete OpenGL reference pages.
Types
glu:build1DMipmapLevels/9 builds a subset of prefiltered one-dimensional texture maps of decreasing resolutions called a mipmap. This is used for the antialiasing of texture mapped primitives.
glu:build1DMipmaps/6 builds a series of prefiltered one-dimensional texture maps of decreasing resolutions called a mipmap. This is used for the antialiasing of texture mapped primitives.
build2DMipmapLevels(Target, InternalFormat, Width, Height, Format, Type, Level, Base, Max, Data) -> i() |
Types
glu:build2DMipmapLevels/10 builds a subset of prefiltered two-dimensional texture maps of decreasing resolutions called a mipmap. This is used for the antialiasing of texture mapped primitives.
glu:build2DMipmaps/7 builds a series of prefiltered two-dimensional texture maps of decreasing resolutions called a mipmap. This is used for the antialiasing of texture-mapped primitives.
build3DMipmapLevels(Target, InternalFormat, Width, Height, Depth, Format, Type, Level, Base, Max, Data) -> i() |
Types
glu:build3DMipmapLevels/11 builds a subset of prefiltered three-dimensional texture maps of decreasing resolutions called a mipmap. This is used for the antialiasing of texture mapped primitives.
Types
glu:build3DMipmaps/8 builds a series of prefiltered three-dimensional texture maps of decreasing resolutions called a mipmap. This is used for the antialiasing of texture-mapped primitives.
glu:checkExtension/2 returns ?GLU_TRUE if ExtName is supported otherwise ?GLU_FALSE is returned.
glu:cylinder/6 draws a cylinder oriented along the z axis. The base of the cylinder is placed at z = 0 and the top at z=height. Like a sphere, a cylinder is subdivided around the z axis into slices and along the z axis into stacks.
deleteQuadric(Quad :: i()) -> ok |
glu:deleteQuadric/1 destroys the quadrics object (created with glu:newQuadric/0) and frees any memory it uses. Once glu:deleteQuadric/1 has been called, Quad cannot be used again.
glu:disk/5 renders a disk on the z = 0 plane. The disk has a radius of Outer and contains a concentric circular hole with a radius of Inner. If Inner is 0, then no hole is generated. The disk is subdivided around the z axis into slices (like pizza slices) and also about the z axis into rings (as specified by Slices and Loops, respectively).
errorString(Error :: enum()) -> string() |
glu:errorString/1 produces an error string from a GL or GLU error code. The string is in ISO Latin 1 format. For example, glu:errorString/1(?GLU_OUT_OF_MEMORY) returns the string out of memory.
getString(Name :: enum()) -> string() |
glu:getString/1 returns a pointer to a static string describing the GLU version or the GLU extensions that are supported.
glu:lookAt/9 creates a viewing matrix derived from an eye point, a reference point indicating the center of the scene, and an UP vector.
newQuadric() -> i()
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glu:newQuadric/0 creates and returns a pointer to a new quadrics object. This object must be referred to when calling quadrics rendering and control functions. A return value of 0 means that there is not enough memory to allocate the object.
glu:ortho2D/4 sets up a two-dimensional orthographic viewing region. This is equivalent to calling gl:ortho/6 with near=-1 and far=1.
glu:partialDisk/7 renders a partial disk on the z=0 plane. A partial disk is similar to a full disk, except that only the subset of the disk from Start through Start + Sweep is included (where 0 degrees is along the +f2yf axis, 90 degrees along the +x axis, 180 degrees along the -y axis, and 270 degrees along the -x axis).
glu:perspective/4 specifies a viewing frustum into the world coordinate system. In general, the aspect ratio in glu:perspective/4 should match the aspect ratio of the associated viewport. For example, aspect=2.0 means the viewer's angle of view is twice as wide in x as it is in y. If the viewport is twice as wide as it is tall, it displays the image without distortion.
glu:pickMatrix/5 creates a projection matrix that can be used to restrict drawing to a small region of the viewport. This is typically useful to determine what objects are being drawn near the cursor. Use glu:pickMatrix/5 to restrict drawing to a small region around the cursor. Then, enter selection mode (with gl:renderMode/1) and rerender the scene. All primitives that would have been drawn near the cursor are identified and stored in the selection buffer.
glu:project/6 transforms the specified object coordinates into window coordinates using Model, Proj, and View. The result is stored in WinX, WinY, and WinZ. A return value of ?GLU_TRUE indicates success, a return value of ?GLU_FALSE indicates failure.
glu:quadricDrawStyle/2 specifies the draw style for quadrics rendered with Quad. The legal values are as follows:
glu:quadricNormals/2 specifies what kind of normals are desired for quadrics rendered with Quad. The legal values are as follows:
glu:quadricOrientation/2 specifies what kind of orientation is desired for quadrics rendered with Quad. The Orientation values are as follows:
quadricTexture(Quad :: i(), Texture :: 0 | 1) -> ok |
glu:quadricTexture/2 specifies if texture coordinates should be generated for quadrics rendered with Quad. If the value of Texture is ?GLU_TRUE, then texture coordinates are generated, and if Texture is ?GLU_FALSE, they are not. The initial value is ?GLU_FALSE.
Types
glu:scaleImage/9 scales a pixel image using the appropriate pixel store modes to unpack data from the source image and pack data into the destination image.
glu:sphere/4 draws a sphere of the given radius centered around the origin. The sphere is subdivided around the z axis into slices and along the z axis into stacks (similar to lines of longitude and latitude).
Triangulates a polygon, the polygon is specified by a Normal and Vs a list of vertex positions.
The function returns a list of indices of the vertices and a binary (64bit native float) containing an array of vertex positions, it starts with the vertices in Vs and may contain newly created vertices in the end.
glu:unProject/6 maps the specified window coordinates into object coordinates using Model, Proj, and View. The result is stored in ObjX, ObjY, and ObjZ. A return value of ?GLU_TRUE indicates success; a return value of ?GLU_FALSE indicates failure.