EmbeddedArtists AB
/
app_lcdboard_demo_cube
Example for the LPC4088 QSB Base Board
CubeDemo.h
- Committer:
- embeddedartists
- Date:
- 2014-01-08
- Revision:
- 0:a771927a62fd
File content as of revision 0:a771927a62fd:
#ifndef CUBEDEMO_H #define CUBEDEMO_H #include "Graphics.h" #include "GFXFb.h" class CubeDemo { public: /** Set the address of the frame buffer to use. * * It is the content of the frame buffer that is shown on the * display. All the drawing on the frame buffer can be done * 'offline' and whenever it should be shown this function * can be called with the address of the offline frame buffer. * * @param pFrameBuf Pointer to the frame buffer, which must be * 3 times as big as the frame size (for tripple * buffering). * dispWidth The width of the display (in pixels). * dispHeight The height of the display (in pixels). * loops Number of loops in the demo code. * delayMs Delay in milliseconds between schreen updates. * * @returns * none */ CubeDemo(uint8_t *pFrameBuf, uint16_t dispWidth, uint16_t dispHeight); ~CubeDemo(); void run(uint32_t loops, uint32_t delayMs); private: enum Constants { BACKGROUND_COLOR = BLACK, SMALL_CIRCLE_FRONT_COLOR = WHITE, LENS = 256, X_OFFSET = 240, //120, Y_OFFSET = 130 }; typedef struct { uint32_t w; uint32_t h; void *pixels; } Surface_t; typedef struct { int x; int y; } Coord2D_t; typedef struct { int32_t x; //normal 3d coords int32_t y; int32_t z; int32_t xr; //rotated coords int32_t yr; int32_t zr; int32_t scrx; //translated and projected 3d points int32_t scry; } tPoint3d; typedef struct { int32_t p1; //vertex int32_t p2; int32_t p3; int32_t u1; //texture coords int32_t v1; int32_t u2; int32_t v2; int32_t u3; int32_t v3; } tPoly; typedef struct { int32_t x; int32_t y; int32_t z; } tVector; int32_t windowX; int32_t windowY; uint16_t *pFrmBuf; uint16_t *pFrmBuf1; uint16_t *pFrmBuf2; uint16_t *pFrmBuf3; Graphics graphics; Surface_t sourcePicture1; Surface_t sourcePicture2; Surface_t activeFrame; int32_t rx; int32_t ry; int32_t rx_; int32_t ry_; uint8_t mode; tPoint3d cubeModel[8]; tPoly cubePoly[12]; uint32_t camX; uint32_t camY; uint32_t camZ; void plot4points( int32_t cx, int32_t cy, int32_t x, int32_t y, int16_t color, int32_t Filled ); void plot8points( int32_t cx, int32_t cy, int32_t x, int32_t y, int16_t color, int32_t Filled ); void put_circle( int32_t cx, int32_t cy, int16_t color, int32_t radius, int32_t Filled ); int32_t swim_abs(int32_t v1); void put_line(int32_t x1, int32_t y1, int32_t x2, int32_t y2, int16_t color); int32_t sgn(int32_t val) const; short icosine(short x) const; short isine(short x) const; short _cos(short y) const; short _sin(short y) const; void TriangleProjectFast(Surface_t *SrcRP_p, Surface_t *DstRP_p, Coord2D_t *SrcCoords_p, Coord2D_t *DstCoords_p); void CpPixel16Fast(int xSrc, int ySrc, int x, int y, Surface_t *SrcRP_p, Surface_t *DstRP_p); void drawCubeZ(Surface_t *pSourcePicture, uint8_t shades); void rotateAndProject(uint16_t rotX, uint16_t rotY, uint16_t rotZ); void createCubeModel(uint32_t radius); unsigned decodePNG(const unsigned char* pIn, size_t insize, Surface_t* pOut); void initialize(); void render(uint32_t idx); }; #endif /* CUBEDEMO_H */