Mercurial > hg > demos > bussi
view demo.c @ 0:f339a3903bc9
Initial import.
| author | Matti Hamalainen <ccr@tnsp.org> |
|---|---|
| date | Thu, 21 May 2015 22:52:30 +0300 |
| parents | |
| children | 496b9ab9238c |
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#include "dmengine.h" #include "dmtext.h" #include "dmfft.h" #include "dmvecmat.h" #include <math.h> static int demoInit(DMEngineData *engine); static void demoShutdown(DMEngineData *engine); static int demoRender(DMEngineData *engine); int demoPreInit(DMEngineData *engine) { dmInitProg("bussi", "Bussi by AnCiat ProDz", "0", "ENGINE INITTIALISSSIZING!!!!!", NULL); engine->optPackFilename = "bussi.dat"; engine->optDataPath = NULL; engine->optResFlags = DRF_USE_PACK | DRF_PRELOAD_RES | DRF_USE_STDIO; engine->optAudioSetup = DM_ASETUP_JSS; engine->optVidSetup = DM_VSETUP_ASPECT; engine->optVidWidth = 640; engine->optVidHeight = 480; engine->optVidDepth = 32; engine->optVFlags = SDL_SWSURFACE; engine->demoInit = demoInit; engine->demoRender = demoRender; engine->demoShutdown = demoShutdown; return DMERR_OK; } #define FFT_SIZE 128 DMFFTContext fft; static int demoInit(DMEngineData *engine) { int i; JSSModule *mod = NULL; dmInitializeFFT(&fft, FFT_SIZE); engineGetResModule(engine, mod, "pas2.xm"); if ((i = jssConvertModuleForPlaying(mod)) != DMERR_OK) { dmErrorMsg("Could not convert module for playing, %d: %s\n", i, dmErrorStr(i)); return DMERR_INIT_FAIL; } jvmSetCallback(engine->jssDev, jmpExec, engine->jssPlr); jmpSetModule(engine->jssPlr, mod); jmpPlayOrder(engine->jssPlr, 0); jvmSetGlobalVol(engine->jssDev, 55); // Jne srand(15); return DMERR_OK; } static void demoShutdown(DMEngineData *engine) { (void) engine; dmEndFFT(&fft); } static inline float dmCX(DMEngineData *engine, const float x) { return (x * engine->screen->w); } static inline float dmCY(DMEngineData *engine, const float y) { return (y * engine->screen->h); } static inline float dmQX(DMEngineData *engine, SDL_Surface *img, const float x) { return engine->optVidNative ? (img->w * x) : (img->w * engine->screen->w * x) / 640.0f; } static inline float dmQY(DMEngineData *engine, SDL_Surface *img, const float y) { return engine->optVidNative ? (img->h * y) : (img->h * engine->screen->h * y) / 480.0f; } typedef struct { char *filename; float xc, yc; SDL_Surface *img; } DMTextItem; static DMTextItem textItems[] = { { "text01.png", 0.05, 0.10, NULL }, { "text02.png", 0.10, 0.30, NULL }, { "text03.png", 0.60, 0.30, NULL }, { "text04.png", 0.20, 0.60, NULL }, { "text05.png", 0.30, 0.70, NULL }, }; static const int ntextItems = sizeof(textItems) / sizeof(textItems[0]); static DMTextItem textItems2[] = { { "text11.png", 0.05, 0.10, NULL }, { "text02.png", 0.30, 0.25, NULL }, { "text12.png", 0.10, 0.40, NULL }, { "text13.png", 0.20, 0.60, NULL }, { "text14.png", 0.30, 0.70, NULL }, }; static const int ntextItems2 = sizeof(textItems2) / sizeof(textItems2[0]); static DMTextItem textItems3[] = { { "teki.png" , 0.25, 0.20, NULL }, { "mitvit.png" , 0.05, 0.40, NULL }, { "ja.png" , 0.05, 0.65, NULL }, { "kemisti.png", 0.15, 0.65, NULL }, }; static const int ntextItems3 = sizeof(textItems3) / sizeof(textItems3[0]); #define DM_RADIAL_BLUR(YC, XC) \ DMVector p1 = { xc, yc, 0, 0 }, p2 = { cx, cy, 0, 0 }, v; \ dm_vector_sub_r(&v, &p2, &p1); \ dm_vector_scale(&v, scale); \ dm_vector_add(&v, &p1); \ if (v.y YC || v.x XC) continue; \ DMColor *dp = pix + xc, \ *q = ((DMColor *)img->pixels) + ((int)(v.y) * pitch) + (int)v.x; \ dp->r = (q->r + dp->r) / 2; \ dp->g = (q->g + dp->g) / 2; \ dp->b = (q->b + dp->b) / 2; void dmRadialBlur(SDL_Surface *img, const int cx, const int cy, const DMFloat scale) { const int pitch = img->pitch / sizeof(DMColor); int xc, yc; #pragma omp parallel private(yc, xc) shared(img) { #pragma omp sections nowait { #pragma omp section for (yc = cy; yc >= 0; yc--) { DMColor *pix = ((DMColor *)img->pixels) + yc * pitch; for (xc = cx + 1; xc < img->w; xc++) { DM_RADIAL_BLUR(< 0, >= img->w) } } #pragma omp section for (yc = cy; yc >= 0; yc--) { DMColor *pix = ((DMColor *)img->pixels) + yc * pitch; for (xc = cx; xc > 0; xc--) { DM_RADIAL_BLUR(< 0, < 0) } } #pragma omp section for (yc = cy + 1; yc < img->h; yc++) { DMColor *pix = ((DMColor *)img->pixels) + yc * pitch; for (xc = cx; xc > 0; xc--) { DM_RADIAL_BLUR(>= img->h, < 0) } } #pragma omp section for (yc = cy + 1; yc < img->h; yc++) { DMColor *pix = ((DMColor *)img->pixels) + yc * pitch; for (xc = cx + 1; xc < img->w; xc++) { DM_RADIAL_BLUR(>= img->h, >= img->w) } } } } } static int hitlerText(DMEngineData *engine, const int dt, float fftPow, DMTextItem *items, const int nitems, BOOL *nollattu) { int i, vis; if (!(*nollattu)) { for (i = 0; i < nitems; i++) engineGetResImage(engine, items[i].img, items[i].filename); *nollattu = TRUE; } float q = fftPow * 0.05f; vis = dt / 1000; for (i = 0; i < nitems; i++) { DMTextItem *item = &items[i]; if (i < vis) { dmScaledBlitSurface32to32TransparentGA( item->img, dmCX(engine, item->xc - q), dmCY(engine, item->yc - q), dmQX(engine, item->img, 1.0f + q * 2.0f), dmQY(engine, item->img, 1.0f + q * 2.0f), engine->screen, 100 + 80 * fftPow); } } return DMERR_OK; } static int demoRender(DMEngineData *engine) { float t = engineGetTimeDT(engine); static DMScaledBlitFunc cblit = NULL; // Do FFT DMFFTType fftPow = 0; BOOL fftOK = FALSE; static DMFFTType fftAmp[FFT_SIZE / 2]; static DMFFTType fftData[FFT_SIZE]; dmMutexLock(engine->audioStreamMutex); if (engine->audioStreamBuf != 0 && engine->audioStreamLen > FFT_SIZE) { int i; Sint16 *buf = (Sint16 *) engine->audioStreamBuf; for (i = 0; i < FFT_SIZE; i++) { fftData[i] = *buf; buf += 2; } fftOK = TRUE; } dmMutexUnlock(engine->audioStreamMutex); if (fftOK) { dmRealFFT(&fft, fftData); dmConvertFFTtoPowerAndSum(&fft, fftData, fftAmp, 1.0, &fftPow, 0.00004f); } #if 1 // Demokoodi if (t < 5) { // Alkufeidi sisään int dt = engineGetTime(engine, 0); static DMLerpContext fadeLerp; static SDL_Surface *tausta = NULL; static BOOL nollattu = FALSE; if (!nollattu) { engineGetResImage(engine, tausta, "tausta.jpg"); cblit = dmGetScaledBlitFunc(tausta->format, engine->screen->format, DMD_NONE); dmLerpInit(&fadeLerp, 0, 255, 5000); nollattu = TRUE; } dmClearSurface(engine->screen, dmMapRGB(engine->screen, 0,0,0)); dmScaledBlitSurface32to32TransparentGA(tausta, 0, 0, dmQX(engine, tausta, 1.0f), dmQX(engine, tausta, 1.0f), engine->screen, dmLerpSCurveClamp(&fadeLerp, dt + 150500 * fftPow)); } #endif #if 0 else if (t < 25) { static BOOL nollattu = FALSE; static SDL_Surface *tausta = NULL; if (!nollattu) { engineGetResImage(engine, tausta, "tausta.jpg"); } cblit(tausta, 0, 0, dmQX(engine, tausta, 1.0f), dmQX(engine, tausta, 1.0f), engine->screen); } if (t <= 7) { int dt = engineGetTime(engine, 2); static DMLerpContext fadeLerp; static SDL_Surface *logo1 = NULL, *logo2 = NULL; static BOOL nollattu = FALSE; if (!nollattu) { engineGetResImage(engine, logo1, "iso.png"); engineGetResImage(engine, logo2, "forevisar.png"); dmLerpInit(&fadeLerp, 0, 255, 2500); nollattu = TRUE; } int fade; if (dt < 2500) { fade = dmLerpSCurveClamp(&fadeLerp, dt + fftPow * 1000); } else if (dt > 4500) { fade = 255 - dmLerpSCurveClamp(&fadeLerp, dt - 4500 + fftPow * 1000); } else { fade = 255; } float d = fftPow * 0.1f; dmScaledBlitSurface32to32TransparentGA(logo1, dmCX(engine, 0.1f), dmCY(engine, 0.22f), dmQX(engine, logo1, 1.0f), dmQY(engine, logo1, 1.0f), engine->screen, fade); dmScaledBlitSurface32to32TransparentGA(logo2, dmCX(engine, 0.2f - d), dmCY(engine, 0.72f - d), dmQX(engine, logo2, 1.0f + d * 2.0f), dmQY(engine, logo2, 1.0f + d * 2.0f), engine->screen, fade); } else if (t <= 15) { int dt = engineGetTime(engine, 7); static DMLerpContext fadeLerp; static SDL_Surface *logo1 = NULL, *logo2 = NULL; static BOOL nollattu = FALSE; if (!nollattu) { engineGetResImage(engine, logo1, "hitler_on_kiva.png"); engineGetResImage(engine, logo2, "hitler.png"); dmLerpInit(&fadeLerp, 0, 255, 2500); nollattu = TRUE; } int fade; if (dt < 2500) { fade = dmLerpSCurveClamp(&fadeLerp, dt + fftPow * 1000); } else if (dt > 4500) { fade = 255 - dmLerpSCurveClamp(&fadeLerp, dt - 4500 + fftPow * 1000); } else { fade = 255; } dmScaledBlitSurface32to32TransparentGA(logo1, dmCX(engine, 0.1f), dmCY(engine, 0.22f), dmQX(engine, logo1, 1.0f), dmQY(engine, logo1, 1.0f), engine->screen, fade); float q = fftPow * 0.2; dmScaledBlitSurface32to32TransparentGA(logo2, dmCX(engine, 0.15f), dmCY(engine, 0.47f - q), dmQX(engine, logo2, 1.0f + q), dmQY(engine, logo2, 1.0f + q), engine->screen, fade); } if (t <= 15) { int dt = engineGetTime(engine, 0); static DMLerpContext posLerp, posLerp2; static SDL_Surface *mainos = NULL; static BOOL nollattu = FALSE; if (!nollattu) { engineGetResImage(engine, mainos, "radio.png"); dmLerpInit(&posLerp, 1, -1, 15000); dmLerpInit(&posLerp2, 0.3, 0.7, 15000); nollattu = TRUE; } dmScaledBlitSurface32to32TransparentGA(mainos, dmCX(engine, dmLerpSCurveClamp(&posLerp2, dt)), dmCY(engine, dmLerpSCurveClamp(&posLerp, dt)), dmQX(engine, mainos, 1.0f), dmQY(engine, mainos, 1.0f), engine->screen, 50); } else if (t <= 25) { int dt = engineGetTime(engine, 15); static DMLerpContext posLerp, posLerp2; static DMScaledBlitFunc qblit = NULL; static SDL_Surface *mainos = NULL, *mainos2 = NULL, *hitler = NULL, *sydan = NULL; static BOOL nollattu = FALSE; if (!nollattu) { engineGetResImage(engine, mainos, "lasi.jpg"); engineGetResImage(engine, mainos2, "nigrolin.jpg"); engineGetResImage(engine, hitler, "hitler2.png"); engineGetResImage(engine, sydan, "sydan.png"); qblit = dmGetScaledBlitFunc(hitler->format, engine->screen->format, DMD_TRANSPARENT); dmLerpInit(&posLerp, 1, -1, 20000); dmLerpInit(&posLerp2, -0.5, -0.2, 20000); nollattu = TRUE; } dmScaledBlitSurface32to32TransparentGA(mainos, dmCX(engine, dmLerpSCurveClamp(&posLerp2, dt)), dmCY(engine, dmLerpSCurveClamp(&posLerp, dt + fftPow * 250)), dmQX(engine, mainos, 1.0f), dmQY(engine, mainos, 1.0f), engine->screen, 50); dmScaledBlitSurface32to32TransparentGA(mainos2, dmCX(engine, dmLerpSCurveClamp(&posLerp, dt)), dmCY(engine, dmLerpSCurveClamp(&posLerp2, dt + fftPow * 250)), dmQX(engine, mainos2, 1.0f), dmQY(engine, mainos2, 1.0f), engine->screen, 50); float d = fftPow * 0.1f; qblit(hitler, dmCX(engine, 0.4 - d), dmCY(engine, 0.3 - d), dmQX(engine, hitler, 1.0f + d * 2.0f), dmQY(engine, hitler, 1.0f + d * 2.0f), engine->screen); if (t > 17) { static BOOL xnollattu = FALSE; if (t > 19) { float z = sin(t * 2.0f + fftPow) * 0.1f; qblit(sydan, dmCX(engine, 0.7) + dmQX(engine, sydan, 0.5f - z), dmCY(engine, 0.55) + dmQX(engine, sydan, 0.5f - z), dmQX(engine, sydan, 1.0f + z * 2.0f), dmQY(engine, sydan, 1.0f + z * 2.0f), engine->screen); } hitlerText(engine, engineGetTime(engine, 17), fftPow, textItems, ntextItems, &xnollattu); } } else if (t <= 60) { int dt = engineGetTime(engine, 25); static SDL_Surface *tekstur, *poni1, *poni2; static BOOL nollattu = FALSE; static DMScaledBlitFunc qblit = NULL; if (!nollattu) { engineGetResImage(engine, tekstur, "disco.jpg"); engineGetResImage(engine, poni1, "poni1.png"); engineGetResImage(engine, poni2, "poni2.png"); qblit = dmGetScaledBlitFunc(poni1->format, engine->screen->format, DMD_TRANSPARENT); nollattu = TRUE; } float m = t*2.0f; float q = sin(m) * 0.3f, q2 = sin(m + 0.2) * 0.4f, z = sin(m) * 0.3f + 2.0f, z2 = sin(m + 0.1f) * 0.3f + 2.0f; dmScaledBlitSurface32to32TransparentGA(tekstur, dmCX(engine, sin(q) * 0.1f - 0.2f), dmCY(engine, cos(q) * 0.1f - 0.2f), dmQX(engine, tekstur, z), dmQY(engine, tekstur, z), engine->screen, 130); dmScaledBlitSurface32to32TransparentGA(tekstur, dmCX(engine, sin(q2) * 0.1f - 0.2f), dmCY(engine, cos(q2) * 0.1f - 0.2f), dmQX(engine, tekstur, z2), dmQY(engine, tekstur, z2), engine->screen, 130); qblit(poni1, dmCX(engine, 0.2f), dmCY(engine, 0.07f), dmQX(engine, poni1, 1.0f), dmQY(engine, poni1, 1.0f), engine->screen); dmScaledBlitSurface32to32TransparentGA(poni2, dmCX(engine, 0.2f), dmCY(engine, 0.07f), dmQX(engine, poni2, 1.0f), dmQY(engine, poni2, 1.0f), engine->screen, 50 + fftPow * 400); dmRadialBlur(engine->screen, dmCX(engine, 0.5f + sin(m) * 0.1f), dmCY(engine, 0.5f + cos(m) * 0.1f), 0.035f); if (t >= 30 && t <= 37) { static BOOL xnollattu = FALSE; hitlerText(engine, engineGetTime(engine, 30), fftPow + 0.2, textItems2, ntextItems2, &xnollattu); } else if (t >= 38 && t <= 47) { static BOOL xnollattu = FALSE; hitlerText(engine, engineGetTime(engine, 38), fftPow + 0.2, textItems3, ntextItems3, &xnollattu); } else if (t > 50) return 1; } #endif return DMERR_OK; }