#region --- License --- /* Copyright (c) 2006-2008 the OpenTK team. * See license.txt for license info * * Contributions by Andy Gill. */ #endregion #region --- Using Directives --- using System; using System.Collections.Generic; using System.Text; using System.Runtime.InteropServices; using System.Reflection; using System.Diagnostics; using System.Reflection.Emit; #endregion namespace OpenTK.Graphics.OpenGL { /// /// OpenGL bindings for .NET, implementing the full OpenGL API, including extensions. /// /// /// /// This class contains all OpenGL enums and functions defined in the latest OpenGL specification. /// The official .spec files can be found at: http://opengl.org/registry/. /// /// A valid OpenGL context must be created before calling any OpenGL function. /// /// Use the GL.Load and GL.LoadAll methods to prepare function entry points prior to use. To maintain /// cross-platform compatibility, this must be done for both core and extension functions. The GameWindow /// and the GLControl class will take care of this automatically. /// /// /// You can use the GL.SupportsExtension method to check whether any given category of extension functions /// exists in the current OpenGL context. Keep in mind that different OpenGL contexts may support different /// extensions, and under different entry points. Always check if all required extensions are still supported /// when changing visuals or pixel formats. /// /// /// You may retrieve the entry point for an OpenGL function using the GL.GetDelegate method. /// /// /// public sealed partial class GL : GraphicsBindingsBase { #region --- Fields --- internal const string Library = "opengl32.dll"; static SortedList AvailableExtensions = new SortedList(); static readonly object sync_root = new object(); #endregion #region --- Constructor --- static GL() { } #endregion #region --- Public Members --- /// /// Loads all OpenGL entry points (core and extension). /// This method is provided for compatibility purposes with older OpenTK versions. /// [Obsolete("If you are using a context constructed outside of OpenTK, create a new GraphicsContext and pass your context handle to it. Otherwise, there is no need to call this method.")] public static void LoadAll() { new GL().LoadEntryPoints(); } #endregion #region --- Protected Members --- /// /// Returns a synchronization token unique for the GL class. /// protected override object SyncRoot { get { return sync_root; } } #endregion #region --- GL Overloads --- #pragma warning disable 3019 #pragma warning disable 1591 #pragma warning disable 1572 #pragma warning disable 1573 // Note: Mono 1.9.1 truncates StringBuilder results (for 'out string' parameters). // We work around this issue by doubling the StringBuilder capacity. #region public static void Color[34]() overloads public static void Color3(System.Drawing.Color color) { GL.Color3(color.R, color.G, color.B); } public static void Color4(System.Drawing.Color color) { GL.Color4(color.R, color.G, color.B, color.A); } public static void Color3(Vector3 color) { GL.Color3(color.X, color.Y, color.Z); } public static void Color4(Vector4 color) { GL.Color4(color.X, color.Y, color.Z, color.W); } public static void Color4(Color4 color) { GL.Color4(color.R, color.G, color.B, color.A); } #endregion #region public static void ClearColor() overloads public static void ClearColor(System.Drawing.Color color) { GL.ClearColor(color.R / 255.0f, color.G / 255.0f, color.B / 255.0f, color.A / 255.0f); } public static void ClearColor(Color4 color) { GL.ClearColor(color.R, color.G, color.B, color.A); } #endregion #region public static void BlendColor() overloads public static void BlendColor(System.Drawing.Color color) { GL.BlendColor(color.R / 255.0f, color.G / 255.0f, color.B / 255.0f, color.A / 255.0f); } public static void BlendColor(Color4 color) { GL.BlendColor(color.R, color.G, color.B, color.A); } #endregion #region public static void Material() overloads public static void Material(MaterialFace face, MaterialParameter pname, Vector4 @params) { unsafe { Material(face, pname, (float*)&@params.X); } } public static void Material(MaterialFace face, MaterialParameter pname, Color4 @params) { unsafe { GL.Material(face, pname, (float*)&@params); } } #endregion #region public static void Light() overloads public static void Light(LightName name, LightParameter pname, Vector4 @params) { unsafe { GL.Light(name, pname, (float*)&@params.X); } } public static void Light(LightName name, LightParameter pname, Color4 @params) { unsafe { GL.Light(name, pname, (float*)&@params); } } #endregion #region Normal|RasterPos|Vertex|TexCoord|Rotate|Scale|Translate|*Matrix public static void Normal3(Vector3 normal) { GL.Normal3(normal.X, normal.Y, normal.Z); } public static void RasterPos2(Vector2 pos) { GL.RasterPos2(pos.X, pos.Y); } public static void RasterPos3(Vector3 pos) { GL.RasterPos3(pos.X, pos.Y, pos.Z); } public static void RasterPos4(Vector4 pos) { GL.RasterPos4(pos.X, pos.Y, pos.Z, pos.W); } public static void Vertex2(Vector2 v) { GL.Vertex2(v.X, v.Y); } public static void Vertex3(Vector3 v) { GL.Vertex3(v.X, v.Y, v.Z); } public static void Vertex4(Vector4 v) { GL.Vertex4(v.X, v.Y, v.Z, v.W); } public static void TexCoord2(Vector2 v) { GL.TexCoord2(v.X, v.Y); } public static void TexCoord3(Vector3 v) { GL.TexCoord3(v.X, v.Y, v.Z); } public static void TexCoord4(Vector4 v) { GL.TexCoord4(v.X, v.Y, v.Z, v.W); } public static void Rotate(Single angle, Vector3 axis) { GL.Rotate((Single)angle, axis.X, axis.Y, axis.Z); } public static void Scale(Vector3 scale) { GL.Scale(scale.X, scale.Y, scale.Z); } public static void Translate(Vector3 trans) { GL.Translate(trans.X, trans.Y, trans.Z); } public static void MultMatrix(ref Matrix4 mat) { unsafe { fixed (Single* m_ptr = &mat.Row0.X) { GL.MultMatrix((Single*)m_ptr); } } } public static void LoadMatrix(ref Matrix4 mat) { unsafe { fixed (Single* m_ptr = &mat.Row0.X) { GL.LoadMatrix((Single*)m_ptr); } } } public static void LoadTransposeMatrix(ref Matrix4 mat) { unsafe { fixed (Single* m_ptr = &mat.Row0.X) { GL.LoadTransposeMatrix((Single*)m_ptr); } } } public static void MultTransposeMatrix(ref Matrix4 mat) { unsafe { fixed (Single* m_ptr = &mat.Row0.X) { GL.MultTransposeMatrix((Single*)m_ptr); } } } public static void UniformMatrix4(int location, bool transpose, ref Matrix4 matrix) { unsafe { fixed (float* matrix_ptr = &matrix.Row0.X) { GL.UniformMatrix4(location, 1, transpose, matrix_ptr); } } } public static void Normal3(Vector3d normal) { GL.Normal3(normal.X, normal.Y, normal.Z); } public static void RasterPos2(Vector2d pos) { GL.RasterPos2(pos.X, pos.Y); } public static void RasterPos3(Vector3d pos) { GL.RasterPos3(pos.X, pos.Y, pos.Z); } public static void RasterPos4(Vector4d pos) { GL.RasterPos4(pos.X, pos.Y, pos.Z, pos.W); } public static void Vertex2(Vector2d v) { GL.Vertex2(v.X, v.Y); } public static void Vertex3(Vector3d v) { GL.Vertex3(v.X, v.Y, v.Z); } public static void Vertex4(Vector4d v) { GL.Vertex4(v.X, v.Y, v.Z, v.W); } public static void TexCoord2(Vector2d v) { GL.TexCoord2(v.X, v.Y); } public static void TexCoord3(Vector3d v) { GL.TexCoord3(v.X, v.Y, v.Z); } public static void TexCoord4(Vector4d v) { GL.TexCoord4(v.X, v.Y, v.Z, v.W); } public static void Rotate(double angle, Vector3d axis) { GL.Rotate((double)angle, axis.X, axis.Y, axis.Z); } public static void Scale(Vector3d scale) { GL.Scale(scale.X, scale.Y, scale.Z); } public static void Translate(Vector3d trans) { GL.Translate(trans.X, trans.Y, trans.Z); } public static void MultMatrix(ref Matrix4d mat) { unsafe { fixed (Double* m_ptr = &mat.Row0.X) { GL.MultMatrix((Double*)m_ptr); } } } public static void LoadMatrix(ref Matrix4d mat) { unsafe { fixed (Double* m_ptr = &mat.Row0.X) { GL.LoadMatrix((Double*)m_ptr); } } } public static void LoadTransposeMatrix(ref Matrix4d mat) { unsafe { fixed (Double* m_ptr = &mat.Row0.X) { GL.LoadTransposeMatrix((Double*)m_ptr); } } } public static void MultTransposeMatrix(ref Matrix4d mat) { unsafe { fixed (Double* m_ptr = &mat.Row0.X) { GL.MultTransposeMatrix((Double*)m_ptr); } } } #region Uniform [CLSCompliant(false)] public static void Uniform2(int location, ref Vector2 vector) { GL.Uniform2(location, vector.X, vector.Y); } [CLSCompliant(false)] public static void Uniform3(int location, ref Vector3 vector) { GL.Uniform3(location, vector.X, vector.Y, vector.Z); } [CLSCompliant(false)] public static void Uniform4(int location, ref Vector4 vector) { GL.Uniform4(location, vector.X, vector.Y, vector.Z, vector.W); } public static void Uniform2(int location, Vector2 vector) { GL.Uniform2(location, vector.X, vector.Y); } public static void Uniform3(int location, Vector3 vector) { GL.Uniform3(location, vector.X, vector.Y, vector.Z); } public static void Uniform4(int location, Vector4 vector) { GL.Uniform4(location, vector.X, vector.Y, vector.Z, vector.W); } public static void Uniform4(int location, Color4 color) { GL.Uniform4(location, color.R, color.G, color.B, color.A); } public static void Uniform4(int location, Quaternion quaternion) { GL.Uniform4(location, quaternion.X, quaternion.Y, quaternion.Z, quaternion.W); } #endregion #endregion #region Shaders #region GetActiveAttrib public static string GetActiveAttrib(int program, int index, out int size, out ActiveAttribType type) { int length; GetProgram(program, OpenTK.Graphics.OpenGL.ProgramParameter.ActiveAttributeMaxLength, out length); StringBuilder sb = new StringBuilder(length == 0 ? 1 : length * 2); GetActiveAttrib(program, index, sb.Capacity, out length, out size, out type, sb); return sb.ToString(); } #endregion #region GetActiveUniform public static string GetActiveUniform(int program, int uniformIndex, out int size, out ActiveUniformType type) { int length; GetProgram(program, OpenTK.Graphics.OpenGL.ProgramParameter.ActiveUniformMaxLength, out length); StringBuilder sb = new StringBuilder(length == 0 ? 1 : length); GetActiveUniform(program, uniformIndex, sb.Capacity, out length, out size, out type, sb); return sb.ToString(); } #endregion #region GetActiveUniformName public static string GetActiveUniformName(int program, int uniformIndex) { int length; GetProgram(program, OpenTK.Graphics.OpenGL.ProgramParameter.ActiveUniformMaxLength, out length); StringBuilder sb = new StringBuilder(length == 0 ? 1 : length * 2); GetActiveUniformName(program, uniformIndex, sb.Capacity, out length, sb); return sb.ToString(); } #endregion #region GetActiveUniformBlockName public static string GetActiveUniformBlockName(int program, int uniformIndex) { int length; GetProgram(program, OpenTK.Graphics.OpenGL.ProgramParameter.ActiveUniformBlockMaxNameLength, out length); StringBuilder sb = new StringBuilder(length == 0 ? 1 : length * 2); GetActiveUniformBlockName(program, uniformIndex, sb.Capacity, out length, sb); return sb.ToString(); } #endregion #region public static void ShaderSource(Int32 shader, System.String @string) public static void ShaderSource(Int32 shader, System.String @string) { unsafe { int length = @string.Length; GL.ShaderSource((UInt32)shader, 1, new string[] { @string }, &length); } } #endregion #region public static string GetShaderInfoLog(Int32 shader) public static string GetShaderInfoLog(Int32 shader) { string info; GetShaderInfoLog(shader, out info); return info; } #endregion #region public static void GetShaderInfoLog(Int32 shader, out string info) public static void GetShaderInfoLog(Int32 shader, out string info) { unsafe { int length; GL.GetShader(shader, ShaderParameter.InfoLogLength, out length); if (length == 0) { info = String.Empty; return; } StringBuilder sb = new StringBuilder(length * 2); GL.GetShaderInfoLog((UInt32)shader, sb.Capacity, &length, sb); info = sb.ToString(); } } #endregion #region public static string GetProgramInfoLog(Int32 program) public static string GetProgramInfoLog(Int32 program) { string info; GetProgramInfoLog(program, out info); return info; } #endregion #region public static void GetProgramInfoLog(Int32 program, out string info) public static void GetProgramInfoLog(Int32 program, out string info) { unsafe { int length; GL.GetProgram(program, OpenTK.Graphics.OpenGL.ProgramParameter.InfoLogLength, out length); if (length == 0) { info = String.Empty; return; } StringBuilder sb = new StringBuilder(length * 2); GL.GetProgramInfoLog((UInt32)program, sb.Capacity, &length, sb); info = sb.ToString(); } } #endregion #endregion #region public static void PointParameter(PointSpriteCoordOriginParameter param) /// /// Helper function that defines the coordinate origin of the Point Sprite. /// /// /// A OpenTK.Graphics.OpenGL.GL.PointSpriteCoordOriginParameter token, /// denoting the origin of the Point Sprite. /// public static void PointParameter(PointSpriteCoordOriginParameter param) { GL.PointParameter(PointParameterName.PointSpriteCoordOrigin, (int)param); } #endregion #region VertexAttrib|MultiTexCoord [CLSCompliant(false)] public static void VertexAttrib2(Int32 index, ref Vector2 v) { GL.VertexAttrib2(index, v.X, v.Y); } [CLSCompliant(false)] public static void VertexAttrib3(Int32 index, ref Vector3 v) { GL.VertexAttrib3(index, v.X, v.Y, v.Z); } [CLSCompliant(false)] public static void VertexAttrib4(Int32 index, ref Vector4 v) { GL.VertexAttrib4(index, v.X, v.Y, v.Z, v.W); } public static void VertexAttrib2(Int32 index, Vector2 v) { GL.VertexAttrib2(index, v.X, v.Y); } public static void VertexAttrib3(Int32 index, Vector3 v) { GL.VertexAttrib3(index, v.X, v.Y, v.Z); } public static void VertexAttrib4(Int32 index, Vector4 v) { GL.VertexAttrib4(index, v.X, v.Y, v.Z, v.W); } public static void MultiTexCoord2(TextureUnit target, ref Vector2 v) { GL.MultiTexCoord2(target, v.X, v.Y); } public static void MultiTexCoord3(TextureUnit target, ref Vector3 v) { GL.MultiTexCoord3(target, v.X, v.Y, v.Z); } public static void MultiTexCoord4(TextureUnit target, ref Vector4 v) { GL.MultiTexCoord4(target, v.X, v.Y, v.Z, v.W); } [CLSCompliant(false)] public static void VertexAttrib2(Int32 index, ref Vector2d v) { GL.VertexAttrib2(index, v.X, v.Y); } [CLSCompliant(false)] public static void VertexAttrib3(Int32 index, ref Vector3d v) { GL.VertexAttrib3(index, v.X, v.Y, v.Z); } [CLSCompliant(false)] public static void VertexAttrib4(Int32 index, ref Vector4d v) { GL.VertexAttrib4(index, v.X, v.Y, v.Z, v.W); } public static void VertexAttrib2(Int32 index, Vector2d v) { GL.VertexAttrib2(index, v.X, v.Y); } public static void VertexAttrib3(Int32 index, Vector3d v) { GL.VertexAttrib3(index, v.X, v.Y, v.Z); } public static void VertexAttrib4(Int32 index, Vector4d v) { GL.VertexAttrib4(index, v.X, v.Y, v.Z, v.W); } public static void MultiTexCoord2(TextureUnit target, ref Vector2d v) { GL.MultiTexCoord2(target, v.X, v.Y); } public static void MultiTexCoord3(TextureUnit target, ref Vector3d v) { GL.MultiTexCoord3(target, v.X, v.Y, v.Z); } public static void MultiTexCoord4(TextureUnit target, ref Vector4d v) { GL.MultiTexCoord4(target, v.X, v.Y, v.Z, v.W); } #endregion #region Rect public static void Rect(System.Drawing.RectangleF rect) { GL.Rect(rect.Left, rect.Top, rect.Right, rect.Bottom); } public static void Rect(System.Drawing.Rectangle rect) { GL.Rect(rect.Left, rect.Top, rect.Right, rect.Bottom); } [CLSCompliant(false)] public static void Rect(ref System.Drawing.RectangleF rect) { GL.Rect(rect.Left, rect.Top, rect.Right, rect.Bottom); } [CLSCompliant(false)] public static void Rect(ref System.Drawing.Rectangle rect) { GL.Rect(rect.Left, rect.Top, rect.Right, rect.Bottom); } #endregion #region public static int GenTexture() public static int GenTexture() { int id; GenTextures(1, out id); return id; } #endregion #region DeleteTexture public static void DeleteTexture(int id) { DeleteTextures(1, ref id); } [CLSCompliant(false)] public static void DeleteTexture(uint id) { DeleteTextures(1, ref id); } #endregion #region [Vertex|Normal|Index|Color|FogCoord|VertexAttrib]Pointer public static void VertexPointer(int size, VertexPointerType type, int stride, int offset) { VertexPointer(size, type, stride, (IntPtr)offset); } public static void NormalPointer(NormalPointerType type, int stride, int offset) { NormalPointer(type, stride, (IntPtr)offset); } public static void IndexPointer(IndexPointerType type, int stride, int offset) { IndexPointer(type, stride, (IntPtr)offset); } public static void ColorPointer(int size, ColorPointerType type, int stride, int offset) { ColorPointer(size, type, stride, (IntPtr)offset); } public static void FogCoordPointer(FogPointerType type, int stride, int offset) { FogCoordPointer(type, stride, (IntPtr)offset); } public static void EdgeFlagPointer(int stride, int offset) { EdgeFlagPointer(stride, (IntPtr)offset); } public static void TexCoordPointer(int size, TexCoordPointerType type, int stride, int offset) { TexCoordPointer(size, type, stride, (IntPtr)offset); } public static void VertexAttribPointer(int index, int size, VertexAttribPointerType type, bool normalized, int stride, int offset) { VertexAttribPointer(index, size, type, normalized, stride, (IntPtr)offset); } #endregion #region DrawElements public static void DrawElements(BeginMode mode, int count, DrawElementsType type, int offset) { DrawElements(mode, count, type, new IntPtr(offset)); } #endregion #region Get[Float|Double] public static void GetFloat(GetPName pname, out Vector2 vector) { unsafe { fixed (Vector2* ptr = &vector) GetFloat(pname, (float*)ptr); } } public static void GetFloat(GetPName pname, out Vector3 vector) { unsafe { fixed (Vector3* ptr = &vector) GetFloat(pname, (float*)ptr); } } public static void GetFloat(GetPName pname, out Vector4 vector) { unsafe { fixed (Vector4* ptr = &vector) GetFloat(pname, (float*)ptr); } } public static void GetFloat(GetPName pname, out Matrix4 matrix) { unsafe { fixed (Matrix4* ptr = &matrix) GetFloat(pname, (float*)ptr); } } public static void GetDouble(GetPName pname, out Vector2d vector) { unsafe { fixed (Vector2d* ptr = &vector) GetDouble(pname, (double*)ptr); } } public static void GetDouble(GetPName pname, out Vector3d vector) { unsafe { fixed (Vector3d* ptr = &vector) GetDouble(pname, (double*)ptr); } } public static void GetDouble(GetPName pname, out Vector4d vector) { unsafe { fixed (Vector4d* ptr = &vector) GetDouble(pname, (double*)ptr); } } public static void GetDouble(GetPName pname, out Matrix4d matrix) { unsafe { fixed (Matrix4d* ptr = &matrix) GetDouble(pname, (double*)ptr); } } #endregion #region Viewport public static void Viewport(System.Drawing.Size size) { GL.Viewport(0, 0, size.Width, size.Height); } public static void Viewport(System.Drawing.Point location, System.Drawing.Size size) { GL.Viewport(location.X, location.Y, size.Width, size.Height); } public static void Viewport(System.Drawing.Rectangle rectangle) { GL.Viewport(rectangle.X, rectangle.Y, rectangle.Width, rectangle.Height); } #if NO_SYSDRAWING public static void Viewport(OpenTK.Point location, OpenTK.Size size) { GL.Viewport(location.X, location.Y, size.Width, size.Height); } public static void Viewport(OpenTK.Rectangle rectangle) { GL.Viewport(rectangle.X, rectangle.Y, rectangle.Width, rectangle.Height); } #endif #endregion #region TexEnv public static void TexEnv(TextureEnvTarget target, TextureEnvParameter pname, System.Drawing.Color color) { Color4 c = new Color4(color.R, color.G, color.B, color.A); unsafe { TexEnv(target, pname, &c.R); } } public static void TexEnv(TextureEnvTarget target, TextureEnvParameter pname, Color4 color) { unsafe { TexEnv(target, pname, &color.R); } } #endregion #region Obsolete [AutoGenerated(Category = "Version11Deprecated", Version = "1.1", EntryPoint = "glDisableClientState")] [Obsolete("Use DisableClientState(ArrayCap) instead.")] public static void DisableClientState(OpenTK.Graphics.OpenGL.EnableCap array) { DisableClientState((ArrayCap)array); } [AutoGenerated(Category = "Version11Deprecated", Version = "1.1", EntryPoint = "glEnableClientState")] [Obsolete("Use EnableClientState(ArrayCap) instead.")] public static void EnableClientState(OpenTK.Graphics.OpenGL.EnableCap array) { EnableClientState((ArrayCap)array); } [AutoGenerated(Category = "ArbUniformBufferObject", Version = "2.0", EntryPoint = "glGetActiveUniformsiv")] [Obsolete("Use GetActiveUniforms(..., ActiveUniformParameter, ...) instead.")] public static void GetActiveUniforms(Int32 program, Int32 uniformCount, Int32[] uniformIndices, ArbUniformBufferObject pname, [OutAttribute] Int32[] @params) { GetActiveUniforms(program, uniformCount, uniformIndices, (ActiveUniformParameter)pname, @params); } [AutoGenerated(Category = "ArbUniformBufferObject", Version = "2.0", EntryPoint = "glGetActiveUniformsiv")] [Obsolete("Use GetActiveUniforms(..., ActiveUniformParameter, ...) instead.")] public static void GetActiveUniforms(Int32 program, Int32 uniformCount, ref Int32 uniformIndices, ArbUniformBufferObject pname, [OutAttribute] out Int32 @params) { GetActiveUniforms(program, uniformCount, ref uniformIndices, (ActiveUniformParameter)pname, out @params); } [System.CLSCompliant(false)] [AutoGenerated(Category = "ArbUniformBufferObject", Version = "2.0", EntryPoint = "glGetActiveUniformsiv")] [Obsolete("Use GetActiveUniforms(..., ActiveUniformParameter, ...) instead.")] public static unsafe void GetActiveUniforms(Int32 program, Int32 uniformCount, Int32* uniformIndices, ArbUniformBufferObject pname, [OutAttribute] Int32* @params) { GetActiveUniforms(program, uniformCount, uniformIndices, (ActiveUniformParameter)pname, @params); } [System.CLSCompliant(false)] [AutoGenerated(Category = "ArbUniformBufferObject", Version = "2.0", EntryPoint = "glGetActiveUniformsiv")] [Obsolete("Use GetActiveUniforms(..., ActiveUniformParameter, ...) instead.")] public static void GetActiveUniforms(UInt32 program, Int32 uniformCount, UInt32[] uniformIndices, ArbUniformBufferObject pname, [OutAttribute] Int32[] @params) { GetActiveUniforms(program, uniformCount, uniformIndices, (ActiveUniformParameter)pname, @params); } [System.CLSCompliant(false)] [AutoGenerated(Category = "ArbUniformBufferObject", Version = "2.0", EntryPoint = "glGetActiveUniformsiv")] [Obsolete("Use GetActiveUniforms(..., ActiveUniformParameter, ...) instead.")] public static void GetActiveUniforms(UInt32 program, Int32 uniformCount, ref UInt32 uniformIndices, ArbUniformBufferObject pname, [OutAttribute] out Int32 @params) { GetActiveUniforms(program, uniformCount, ref uniformIndices, (ActiveUniformParameter)pname, out @params); } [System.CLSCompliant(false)] [AutoGenerated(Category = "ArbUniformBufferObject", Version = "2.0", EntryPoint = "glGetActiveUniformsiv")] [Obsolete("Use GetActiveUniforms(..., ActiveUniformParameter, ...) instead.")] public static unsafe void GetActiveUniforms(UInt32 program, Int32 uniformCount, UInt32* uniformIndices, ArbUniformBufferObject pname, [OutAttribute] Int32* @params) { GetActiveUniforms(program, uniformCount, uniformIndices, (ActiveUniformParameter)pname, @params); } public static partial class Arb { [AutoGenerated(Category = "ArbGeometryShader4", Version = "3.0", EntryPoint = "glProgramParameteriARB")] [Obsolete("Use ProgramParameter(..., AssemblyProgramParameterArb, ...) instead.")] public static void ProgramParameter(Int32 program, ArbGeometryShader4 pname, Int32 value) { ProgramParameter(program, (AssemblyProgramParameterArb)pname, value); } [AutoGenerated(Category = "ArbGeometryShader4", Version = "3.0", EntryPoint = "glProgramParameteriARB")] [Obsolete("Use ProgramParameter(..., AssemblyProgramParameterArb, ...) instead.")] [CLSCompliant(false)] public static void ProgramParameter(UInt32 program, ArbGeometryShader4 pname, Int32 value) { ProgramParameter(program, (AssemblyProgramParameterArb)pname, value); } } public static partial class Ext { [AutoGenerated(Category = "EXT_geometry_shader4", Version = "2.0", EntryPoint = "glProgramParameteriEXT")] [Obsolete("Use ProgramParameter(..., AssemblyProgramParameterArb, ...) instead.")] public static void ProgramParameter(Int32 program, ExtGeometryShader4 pname, Int32 value) { ProgramParameter(program, (AssemblyProgramParameterArb)pname, value); } [AutoGenerated(Category = "ArbGeometryShader4", Version = "3.0", EntryPoint = "glProgramParameteriARB")] [Obsolete("Use ProgramParameter(..., AssemblyProgramParameterArb, ...) instead.")] [CLSCompliant(false)] public static void ProgramParameter(UInt32 program, ExtGeometryShader4 pname, Int32 value) { ProgramParameter(program, (AssemblyProgramParameterArb)pname, value); } } #endregion #pragma warning restore 3019 #pragma warning restore 1591 #pragma warning restore 1572 #pragma warning restore 1573 #endregion } public delegate void DebugProcAmd(int id, AmdDebugOutput category, AmdDebugOutput severity, IntPtr length, string message, IntPtr userParam); public delegate void DebugProcArb(int id, ArbDebugOutput category, ArbDebugOutput severity, IntPtr length, string message, IntPtr userParam); }