#ifndef RASTERIZER_H #define RASTERIZER_H #include "software_global.h" namespace paysages { namespace software { const int RASTERIZER_CLIENT_SKY = 0; const int RASTERIZER_CLIENT_WATER = 1; const int RASTERIZER_CLIENT_TERRAIN = 2; typedef struct ScanPoint ScanPoint; typedef struct RenderScanlines RenderScanlines; /** * @brief Base abstract class for scenery pieces that can be rasterized to polygons. */ class SOFTWARESHARED_EXPORT Rasterizer { public: Rasterizer(SoftwareRenderer *renderer, RenderProgress *progress, int client_id, const Color &color); virtual ~Rasterizer(); inline SoftwareRenderer *getRenderer() const { return renderer; } inline int getTriangleCount() const { return triangle_count; } /** * Set the rasterization quality factor. */ virtual void setQuality(double factor); /** * Set the edge length under which to stop auto-cutting triangles near the camera. */ void setAutoCutLimit(double limit); /** * Abstract method to prepare for the rasterization process, and return the estimated progress count. */ virtual int prepareRasterization() = 0; /** * Abstract method to effectively do the rasterization on a canvas. */ virtual void rasterizeToCanvas(CanvasPortion *canvas) = 0; /** * Abstract method to render a fragment stored on a canvas, to a color. */ virtual Color shadeFragment(const CanvasFragment &fragment, const CanvasFragment *previous) const = 0; /** * Ask for an interrupt in rasterization process. */ virtual void interrupt(); void setColor(const Color &color); void setBackFaceCulling(bool cull); /** * Reset the internal triangle counter to 0. */ void resetTriangleCount(); void pushTriangle(CanvasPortion *canvas, const Vector3 &v1, const Vector3 &v2, const Vector3 &v3); void pushDisplacedTriangle(CanvasPortion *canvas, const Vector3 &v1, const Vector3 &v2, const Vector3 &v3, const Vector3 &ov1, const Vector3 &ov2, const Vector3 &ov3); void pushQuad(CanvasPortion *canvas, const Vector3 &v1, const Vector3 &v2, const Vector3 &v3, const Vector3 &v4); void pushDisplacedQuad(CanvasPortion *canvas, const Vector3 &v1, const Vector3 &v2, const Vector3 &v3, const Vector3 &v4, const Vector3 &ov1, const Vector3 &ov2, const Vector3 &ov3, const Vector3 &ov4); protected: bool pushProjectedTriangle(CanvasPortion *canvas, const Vector3 &pixel1, const Vector3 &pixel2, const Vector3 &pixel3, const Vector3 &location1, const Vector3 &location2, const Vector3 &location3); Color *color; SoftwareRenderer *renderer; RenderProgress *progress; int client_id; bool interrupted; private: void scanGetDiff(ScanPoint *v1, ScanPoint *v2, ScanPoint *result); void scanInterpolate(CameraDefinition *camera, ScanPoint *v1, ScanPoint *diff, double value, ScanPoint *result); void pushScanPoint(CanvasPortion *canvas, RenderScanlines *scanlines, ScanPoint *point); void pushScanLineEdge(CanvasPortion *canvas, RenderScanlines *scanlines, ScanPoint *point1, ScanPoint *point2); void renderScanLines(CanvasPortion *canvas, RenderScanlines *scanlines); int triangle_count; double auto_cut_limit; bool backface_culling; }; } } #endif // RASTERIZER_H