/** * $Id: RAS_IRasterizer.h 29259 2010-06-06 01:15:44Z campbellbarton $ * * ***** BEGIN GPL LICENSE BLOCK ***** * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV. * All rights reserved. * * The Original Code is: all of this file. * * Contributor(s): none yet. * * ***** END GPL LICENSE BLOCK ***** */ #ifndef __RAS_IRASTERIZER #define __RAS_IRASTERIZER #ifdef WIN32 #pragma warning (disable:4786) #endif #include "STR_HashedString.h" #include "MT_CmMatrix4x4.h" #include "MT_Matrix4x4.h" #include "RAS_TexVert.h" #include using namespace std; #ifdef WITH_CXX_GUARDEDALLOC #include "MEM_guardedalloc.h" #endif class RAS_ICanvas; class RAS_IPolyMaterial; typedef vector KX_IndexArray; typedef vector KX_VertexArray; typedef vector< KX_VertexArray* > vecVertexArray; typedef vector< KX_IndexArray* > vecIndexArrays; /** * 3D rendering device context interface. */ class RAS_IRasterizer { public: RAS_IRasterizer(RAS_ICanvas* canv){}; virtual ~RAS_IRasterizer(){}; /** */ enum { RAS_RENDER_3DPOLYGON_TEXT = 16384 }; /** * Drawing types */ enum DrawType { KX_BOUNDINGBOX = 1, KX_WIREFRAME, KX_SOLID, KX_SHADED, KX_TEXTURED, KX_SHADOW }; /** * Drawing modes */ enum DrawMode { KX_MODE_LINES = 1, KX_MODE_TRIANGLES, KX_MODE_QUADS }; /** * Valid SetDepthMask parameters */ enum DepthMask { KX_DEPTHMASK_ENABLED =1, KX_DEPTHMASK_DISABLED }; /** */ enum { KX_TWOSIDE = 512, KX_LINES = 32768 }; /** * Stereo mode types */ enum StereoMode { RAS_STEREO_NOSTEREO = 1, RAS_STEREO_QUADBUFFERED, RAS_STEREO_ABOVEBELOW, RAS_STEREO_INTERLACED, RAS_STEREO_ANAGLYPH, RAS_STEREO_SIDEBYSIDE, RAS_STEREO_VINTERLACE, RAS_STEREO_DOME, RAS_STEREO_MAXSTEREO }; /** * Texture gen modes. */ enum TexCoGen { RAS_TEXCO_GEN, //< GPU will generate texture coordinates RAS_TEXCO_ORCO, //< Vertex coordinates (object space) RAS_TEXCO_GLOB, //< Vertex coordinates (world space) RAS_TEXCO_UV1, //< UV coordinates RAS_TEXCO_OBJECT, //< Use another object's position as coordinates RAS_TEXCO_LAVECTOR, //< Light vector as coordinates RAS_TEXCO_VIEW, //< View vector as coordinates RAS_TEXCO_STICKY, //< Sticky coordinates RAS_TEXCO_WINDOW, //< Window coordinates RAS_TEXCO_NORM, //< Normal coordinates RAS_TEXTANGENT, //< RAS_TEXCO_UV2, //< RAS_TEXCO_VCOL, //< Vertex Color RAS_TEXCO_DISABLE //< Disable this texture unit (cached) }; /** * Render pass identifiers for stereo. */ enum StereoEye { RAS_STEREO_LEFTEYE = 1, RAS_STEREO_RIGHTEYE }; /** * SetDepthMask enables or disables writing a fragment's depth value * to the Z buffer. */ virtual void SetDepthMask(DepthMask depthmask)=0; /** * SetMaterial sets the material settings for subsequent primitives * to be rendered with. * The material will be cached. */ virtual bool SetMaterial(const RAS_IPolyMaterial& mat)=0; /** * Init initialises the renderer. */ virtual bool Init()=0; /** * Exit cleans up the renderer. */ virtual void Exit()=0; /** * BeginFrame is called at the start of each frame. */ virtual bool BeginFrame(int drawingmode, double time)=0; /** * ClearColorBuffer clears the color buffer. */ virtual void ClearColorBuffer()=0; /** * ClearDepthBuffer clears the depth buffer. */ virtual void ClearDepthBuffer()=0; /** * ClearCachingInfo clears the currently cached material. */ virtual void ClearCachingInfo(void)=0; /** * EndFrame is called at the end of each frame. */ virtual void EndFrame()=0; /** * SetRenderArea sets the render area from the 2d canvas. * Returns true if only of subset of the canvas is used. */ virtual void SetRenderArea()=0; // Stereo Functions /** * SetStereoMode will set the stereo mode */ virtual void SetStereoMode(const StereoMode stereomode)=0; /** * Stereo can be used to query if the rasterizer is in stereo mode. * @return true if stereo mode is enabled. */ virtual bool Stereo()=0; virtual StereoMode GetStereoMode()=0; virtual bool InterlacedStereo()=0; /** * Sets which eye buffer subsequent primitives will be rendered to. */ virtual void SetEye(const StereoEye eye)=0; virtual StereoEye GetEye()=0; /** * Sets the distance between eyes for stereo mode. */ virtual void SetEyeSeparation(const float eyeseparation)=0; virtual float GetEyeSeparation() = 0; /** * Sets the focal length for stereo mode. */ virtual void SetFocalLength(const float focallength)=0; virtual float GetFocalLength() = 0; /** * SwapBuffers swaps the back buffer with the front buffer. */ virtual void SwapBuffers()=0; // Drawing Functions /** * IndexPrimitives: Renders primitives from mesh slot. */ virtual void IndexPrimitives(class RAS_MeshSlot& ms)=0; virtual void IndexPrimitivesMulti(class RAS_MeshSlot& ms)=0; /** * IndexPrimitives_3DText will render text into the polygons. * The text to be rendered is from @param rendertools client object's text property. */ virtual void IndexPrimitives_3DText(class RAS_MeshSlot& ms, class RAS_IPolyMaterial* polymat, class RAS_IRenderTools* rendertools)=0; virtual void SetProjectionMatrix(MT_CmMatrix4x4 & mat)=0; /* This one should become our final version, methinks. */ /** * Set the projection matrix for the rasterizer. This projects * from camera coordinates to window coordinates. * @param mat The projection matrix. */ virtual void SetProjectionMatrix(const MT_Matrix4x4 & mat)=0; /** * Sets the modelview matrix. */ virtual void SetViewMatrix(const MT_Matrix4x4 & mat, const MT_Matrix3x3 & ori, const MT_Point3 & pos, bool perspective)=0; /** */ virtual const MT_Point3& GetCameraPosition()=0; virtual bool GetCameraOrtho()=0; /** */ virtual void SetFog(float start, float dist, float r, float g, float b)=0; virtual void SetFogColor(float r, float g, float b)=0; virtual void SetFogStart(float start)=0; /** */ virtual void SetFogEnd(float end)=0; /** */ virtual void DisplayFog()=0; /** */ virtual void DisableFog()=0; virtual bool IsFogEnabled()=0; virtual void SetBackColor(float red, float green, float blue, float alpha)=0; /** * @param drawingmode = KX_BOUNDINGBOX, KX_WIREFRAME, KX_SOLID, KX_SHADED or KX_TEXTURED. */ virtual void SetDrawingMode(int drawingmode)=0; /** * @return the current drawing mode: KX_BOUNDINGBOX, KX_WIREFRAME, KX_SOLID, KX_SHADED or KX_TEXTURED. */ virtual int GetDrawingMode()=0; /** * Sets face culling */ virtual void SetCullFace(bool enable)=0; /** * Sets wireframe mode. */ virtual void SetLines(bool enable)=0; /** */ virtual double GetTime()=0; /** * Generates a projection matrix from the specified frustum. * @param left the left clipping plane * @param right the right clipping plane * @param bottom the bottom clipping plane * @param top the top clipping plane * @param frustnear the near clipping plane * @param frustfar the far clipping plane * @return a 4x4 matrix representing the projection transform. */ virtual MT_Matrix4x4 GetFrustumMatrix( float left, float right, float bottom, float top, float frustnear, float frustfar, float focallength = 0.0f, bool perspective = true )=0; /** * Generates a orthographic projection matrix from the specified frustum. * @param left the left clipping plane * @param right the right clipping plane * @param bottom the bottom clipping plane * @param top the top clipping plane * @param frustnear the near clipping plane * @param frustfar the far clipping plane * @return a 4x4 matrix representing the projection transform. */ virtual MT_Matrix4x4 GetOrthoMatrix( float left, float right, float bottom, float top, float frustnear, float frustfar )=0; /** * Sets the specular color component of the lighting equation. */ virtual void SetSpecularity(float specX, float specY, float specZ, float specval)=0; /** * Sets the specular exponent component of the lighting equation. */ virtual void SetShinyness(float shiny)=0; /** * Sets the diffuse color component of the lighting equation. */ virtual void SetDiffuse(float difX, float difY, float difZ, float diffuse)=0; /** * Sets the emissive color component of the lighting equation. */ virtual void SetEmissive(float eX, float eY, float eZ, float e )=0; virtual void SetAmbientColor(float red, float green, float blue)=0; virtual void SetAmbient(float factor)=0; /** * Sets a polygon offset. z depth will be: z1 = mult*z0 + add */ virtual void SetPolygonOffset(float mult, float add) = 0; virtual void DrawDebugLine(const MT_Vector3& from,const MT_Vector3& to,const MT_Vector3& color)=0; virtual void FlushDebugLines()=0; virtual void SetTexCoordNum(int num) = 0; virtual void SetAttribNum(int num) = 0; virtual void SetTexCoord(TexCoGen coords, int unit) = 0; virtual void SetAttrib(TexCoGen coords, int unit) = 0; virtual const MT_Matrix4x4& GetViewMatrix() const = 0; virtual const MT_Matrix4x4& GetViewInvMatrix() const = 0; virtual bool QueryLists(){return false;} virtual bool QueryArrays(){return false;} virtual void EnableMotionBlur(float motionblurvalue)=0; virtual void DisableMotionBlur()=0; virtual float GetMotionBlurValue()=0; virtual int GetMotionBlurState()=0; virtual void SetMotionBlurState(int newstate)=0; virtual void SetBlendingMode(int blendmode)=0; virtual void SetFrontFace(bool ccw)=0; #ifdef WITH_CXX_GUARDEDALLOC public: void *operator new(size_t num_bytes) { return MEM_mallocN(num_bytes, "GE:RAS_IRasterizer"); } void operator delete( void *mem ) { MEM_freeN(mem); } #endif }; #endif //__RAS_IRASTERIZER