Mercurial > sdl-ios-xcode
view touchTest/gestureTest.c @ 4669:62e6a6e9720b
Fixed x11 compile bugs.
author | jimtla |
---|---|
date | Thu, 22 Jul 2010 08:12:28 +0400 |
parents | b5007b7995c6 |
children |
line wrap: on
line source
#include <stdio.h> #include <SDL.h> #include <math.h> #include <SDL_touch.h> #define PI 3.1415926535897 #define PHI ((sqrt(5)-1)/2) #define WIDTH 640 #define HEIGHT 480 #define BPP 4 #define DEPTH 32 #define MAXFINGERS 3 #define DOLLARNPOINTS 64 #define DOLLARSIZE 256 //MUST BE A POWER OF 2! #define EVENT_BUF_SIZE 256 SDL_Event events[EVENT_BUF_SIZE]; int eventWrite; int mousx,mousy; int keystat[512]; int bstatus; int colors[7] = {0xFF,0xFF00,0xFF0000,0xFFFF00,0x00FFFF,0xFF00FF,0xFFFFFF}; int index2fingerid[MAXFINGERS]; int fingersDown; typedef struct { float x,y; } Point; typedef struct { Point p; float pressure; int id; } Finger; typedef struct { Finger f; Point cv; float dtheta,dDist; } TouchPoint; typedef struct { //dt + s Point d,s; //direction, start int points; } Line; typedef struct { float length; int numPoints; Point p[EVENT_BUF_SIZE]; //To be safe } DollarPath; typedef struct { float ang,r; Point p; } Knob; Knob knob; Finger finger[MAXFINGERS]; DollarPath dollarPath[MAXFINGERS]; #define MAXTEMPLATES 4 Point dollarTemplate[MAXTEMPLATES][DOLLARNPOINTS]; int numDollarTemplates = 0; #ifdef DRAW_VECTOR_EST Line gestureLine[MAXFINGERS]; #endif void handler (int sig) { printf ("\exiting...(%d)\n", sig); exit (0); } void perror_exit (char *error) { perror (error); handler (9); } void setpix(SDL_Surface *screen, int x, int y, unsigned int col) { Uint32 *pixmem32; Uint32 colour; if((unsigned)x > screen->w) return; if((unsigned)y > screen->h) return; pixmem32 = (Uint32*) screen->pixels + y*screen->pitch/BPP + x; Uint8 r,g,b; float a; memcpy(&colour,pixmem32,screen->format->BytesPerPixel); SDL_GetRGB(colour,screen->format,&r,&g,&b); //Always returns 0xFFFFFF? //r = 0;g = 0; b = 0; a = (col>>24)&0xFF; if(a == 0) a = 0xFF; //Hack, to make things easier. a /= 0xFF; r = r*(1-a) + ((col>>16)&0xFF)*(a); g = g*(1-a) + ((col>> 8)&0xFF)*(a); b = b*(1-a) + ((col>> 0)&0xFF)*(a); colour = SDL_MapRGB( screen->format,r, g, b); *pixmem32 = colour; } void drawLine(SDL_Surface *screen,int x0,int y0,int x1,int y1,unsigned int col) { float t; for(t=0;t<1;t+=1.f/SDL_max(abs(x0-x1),abs(y0-y1))) setpix(screen,x1+t*(x0-x1),y1+t*(y0-y1),col); } void drawCircle(SDL_Surface* screen,int x,int y,int r,unsigned int c) { float a; int tx; int ty; float xr; for(ty = -abs(r);ty <= abs(r);ty++) { xr = sqrt(r*r - ty*ty); if(r > 0) { //r > 0 ==> filled circle for(tx=-xr+.5;tx<=xr-.5;tx++) { setpix(screen,x+tx,y+ty,c); } } else { setpix(screen,x-xr+.5,y+ty,c); setpix(screen,x+xr-.5,y+ty,c); } } } void drawKnob(SDL_Surface* screen,Knob k) { printf("Knob: x = %f, y = %f, r = %f, a = %f\n",k.p.x,k.p.y,k.r,k.ang); drawCircle(screen,k.p.x*screen->w,k.p.y*screen->h,k.r*screen->w,0xFFFFFF); drawCircle(screen,(k.p.x+k.r/2*cos(k.ang))*screen->w, (k.p.y+k.r/2*sin(k.ang))*screen->h,k.r/4*screen->w,0); } void drawDollarPath(SDL_Surface* screen,Point* points,int numPoints, int rad,unsigned int col){ int i; for(i=0;i<numPoints;i++) { drawCircle(screen,points[i].x+screen->w/2, points[i].y+screen->h/2, rad,col); } } float dollarDifference(Point* points,Point* templ,float ang) { // Point p[DOLLARNPOINTS]; float dist = 0; Point p; int i; for(i = 0; i < DOLLARNPOINTS; i++) { p.x = points[i].x * cos(ang) - points[i].y * sin(ang); p.y = points[i].x * sin(ang) + points[i].y * cos(ang); dist += sqrt((p.x-templ[i].x)*(p.x-templ[i].x)+ (p.y-templ[i].y)*(p.y-templ[i].y)); } return dist/DOLLARNPOINTS; } float bestDollarDifference(Point* points,Point* templ) { //------------BEGIN DOLLAR BLACKBOX----------------// //-TRANSLATED DIRECTLY FROM PSUDEO-CODE AVAILABLE AT-// //-"http://depts.washington.edu/aimgroup/proj/dollar/"-// float ta = -PI/4; float tb = PI/4; float dt = PI/90; float x1 = PHI*ta + (1-PHI)*tb; float f1 = dollarDifference(points,templ,x1); float x2 = (1-PHI)*ta + PHI*tb; float f2 = dollarDifference(points,templ,x2); while(abs(ta-tb) > dt) { if(f1 < f2) { tb = x2; x2 = x1; f2 = f1; x1 = PHI*ta + (1-PHI)*tb; f1 = dollarDifference(points,templ,x1); } else { ta = x1; x1 = x2; f1 = f2; x2 = (1-PHI)*ta + PHI*tb; f2 = dollarDifference(points,templ,x2); } } /* if(f1 <= f2) printf("Min angle (x1): %f\n",x1); else if(f1 > f2) printf("Min angle (x2): %f\n",x2); */ return SDL_min(f1,f2); } float dollarRecognize(SDL_Surface* screen, DollarPath path,int *bestTempl) { Point points[DOLLARNPOINTS]; int numPoints = dollarNormalize(path,points); int i; int k; /* for(k = 0;k<DOLLARNPOINTS;k++) { printf("(%f,%f)\n",points[k].x, points[k].y); } */ drawDollarPath(screen,points,numPoints,-15,0xFF6600); int bestDiff = 10000; *bestTempl = -1; for(i = 0;i < numDollarTemplates;i++) { int diff = bestDollarDifference(points,dollarTemplate[i]); if(diff < bestDiff) {bestDiff = diff; *bestTempl = i;} } return bestDiff; } //DollarPath contains raw points, plus (possibly) the calculated length int dollarNormalize(DollarPath path,Point *points) { int i; //Calculate length if it hasn't already been done if(path.length <= 0) { for(i=1;i<path.numPoints;i++) { float dx = path.p[i ].x - path.p[i-1].x; float dy = path.p[i ].y - path.p[i-1].y; path.length += sqrt(dx*dx+dy*dy); } } //Resample float interval = path.length/(DOLLARNPOINTS - 1); float dist = 0; int numPoints = 0; Point centroid; centroid.x = 0;centroid.y = 0; //printf("(%f,%f)\n",path.p[path.numPoints-1].x,path.p[path.numPoints-1].y); for(i = 1;i < path.numPoints;i++) { float d = sqrt((path.p[i-1].x-path.p[i].x)*(path.p[i-1].x-path.p[i].x)+ (path.p[i-1].y-path.p[i].y)*(path.p[i-1].y-path.p[i].y)); //printf("d = %f dist = %f/%f\n",d,dist,interval); while(dist + d > interval) { points[numPoints].x = path.p[i-1].x + ((interval-dist)/d)*(path.p[i].x-path.p[i-1].x); points[numPoints].y = path.p[i-1].y + ((interval-dist)/d)*(path.p[i].y-path.p[i-1].y); centroid.x += points[numPoints].x; centroid.y += points[numPoints].y; numPoints++; dist -= interval; } dist += d; } if(numPoints < 1) return 0; centroid.x /= numPoints; centroid.y /= numPoints; //printf("Centroid (%f,%f)",centroid.x,centroid.y); //Rotate Points so point 0 is left of centroid and solve for the bounding box float xmin,xmax,ymin,ymax; xmin = centroid.x; xmax = centroid.x; ymin = centroid.y; ymax = centroid.y; float ang = atan2(centroid.y - points[0].y, centroid.x - points[0].x); for(i = 0;i<numPoints;i++) { float px = points[i].x; float py = points[i].y; points[i].x = (px - centroid.x)*cos(ang) - (py - centroid.y)*sin(ang) + centroid.x; points[i].y = (px - centroid.x)*sin(ang) + (py - centroid.y)*cos(ang) + centroid.y; if(points[i].x < xmin) xmin = points[i].x; if(points[i].x > xmax) xmax = points[i].x; if(points[i].y < ymin) ymin = points[i].y; if(points[i].y > ymax) ymax = points[i].y; } //Scale points to DOLLARSIZE, and translate to the origin float w = xmax-xmin; float h = ymax-ymin; for(i=0;i<numPoints;i++) { points[i].x = (points[i].x - centroid.x)*DOLLARSIZE/w; points[i].y = (points[i].y - centroid.y)*DOLLARSIZE/h; } return numPoints; } void DrawScreen(SDL_Surface* screen, int h) { int x, y, xm,ym,c; if(SDL_MUSTLOCK(screen)) { if(SDL_LockSurface(screen) < 0) return; } for(y = 0; y < screen->h; y++ ) { for( x = 0; x < screen->w; x++ ) { //setpixel(screen, x, y, (x*x)/256+3*y+h, (y*y)/256+x+h, h); //xm = (x+h)%screen->w; //ym = (y+h)%screen->w; //c = sin(h/256*2*PI)*x*y/screen->w/screen->h; //setpix(screen,x,y,255*sin(xm/screen->w*2*PI),sin(h/255*2*PI)*255*y/screen->h,c); setpix(screen,x,y,((x%255)<<16) + ((y%255)<<8) + (x+y)%255); //setpix(screen,x,y,0); //Inefficient, but that's okay... } } drawCircle(screen,mousx,mousy,-30,0xFFFFFF); drawLine(screen,0,0,screen->w,screen->h,0xFFFFFF); int i; //draw Touch History TouchPoint gestureLast[MAXFINGERS]; //printf("------------------Start History------------------\n"); for(i = 0;i < MAXFINGERS;i++) { gestureLast[i].f.id = -1; } int numDownFingers = 0; Point centroid; float gdtheta,gdDist; for(i = SDL_max(0,eventWrite - EVENT_BUF_SIZE);i < eventWrite;i++) { SDL_Event event = events[i&(EVENT_BUF_SIZE-1)]; int age = eventWrite - i - 1; if(event.type == SDL_FINGERMOTION || event.type == SDL_FINGERDOWN || event.type == SDL_FINGERUP) { SDL_Touch* inTouch = SDL_GetTouch(event.tfinger.touchId); //SDL_Finger* inFinger = SDL_GetFinger(inTouch,event.tfinger.fingerId); float x = ((float)event.tfinger.x)/inTouch->xres; float y = ((float)event.tfinger.y)/inTouch->yres; int j,empty = -1; for(j = 0;j<MAXFINGERS;j++) { if(gestureLast[j].f.id == event.tfinger.fingerId) { if(event.type == SDL_FINGERUP) { numDownFingers--; if(numDownFingers <= 1) { gdtheta = 0; gdDist = 0; } if(!keystat[32]){ //spacebar int bestTempl; float error = dollarRecognize(screen,dollarPath[j],&bestTempl); if(bestTempl >= 0){ drawDollarPath(screen,dollarTemplate[bestTempl] ,DOLLARNPOINTS,-15,0x0066FF); printf("Dollar error: %f\n",error); } } else if(numDollarTemplates < MAXTEMPLATES) { dollarNormalize(dollarPath[j], dollarTemplate[numDollarTemplates]); /* int k; for(k = 0;k<DOLLARNPOINTS;k++) { printf("(%f,%f)\n",dollarTemplate[numDollarTemplates][i].x, dollarTemplate[numDollarTemplates][i].y); }*/ numDollarTemplates++; } gestureLast[j].f.id = -1; break; } else { dollarPath[j].p[dollarPath[j].numPoints].x = x; dollarPath[j].p[dollarPath[j].numPoints].y = y; float dx = (dollarPath[j].p[dollarPath[j].numPoints ].x- dollarPath[j].p[dollarPath[j].numPoints-1].x); float dy = (dollarPath[j].p[dollarPath[j].numPoints ].y- dollarPath[j].p[dollarPath[j].numPoints-1].y); dollarPath[j].length += sqrt(dx*dx + dy*dy); dollarPath[j].numPoints++; centroid.x = centroid.x + dx/numDownFingers; centroid.y = centroid.y + dy/numDownFingers; if(numDownFingers > 1) { Point lv; //Vector from centroid to last x,y position Point v; //Vector from centroid to current x,y position lv.x = gestureLast[j].cv.x; lv.y = gestureLast[j].cv.y; float lDist = sqrt(lv.x*lv.x + lv.y*lv.y); v.x = x - centroid.x; v.y = y - centroid.y; gestureLast[j].cv = v; float Dist = sqrt(v.x*v.x+v.y*v.y); // cos(dTheta) = (v . lv)/(|v| * |lv|) lv.x/=lDist; lv.y/=lDist; v.x/=Dist; v.y/=Dist; float dtheta = atan2(lv.x*v.y - lv.y*v.x,lv.x*v.x + lv.y*v.y); float dDist = (lDist - Dist); gestureLast[j].dDist = dDist; gestureLast[j].dtheta = dtheta; //gdtheta = gdtheta*.9 + dtheta*.1; //gdDist = gdDist*.9 + dDist*.1 gdtheta += dtheta; gdDist += dDist; //printf("thetaSum = %f, distSum = %f\n",gdtheta,gdDist); //printf("id: %i dTheta = %f, dDist = %f\n",j,dtheta,dDist); } else { gestureLast[j].dDist = 0; gestureLast[j].dtheta = 0; gestureLast[j].cv.x = 0; gestureLast[j].cv.y = 0; } gestureLast[j].f.p.x = x; gestureLast[j].f.p.y = y; break; //pressure? } } else if(gestureLast[j].f.id == -1 && empty == -1) { empty = j; } } if(j >= MAXFINGERS && empty >= 0) { // printf("Finger Down!!!\n"); numDownFingers++; centroid.x = (centroid.x*(numDownFingers - 1) + x)/numDownFingers; centroid.y = (centroid.y*(numDownFingers - 1) + y)/numDownFingers; j = empty; gestureLast[j].f.id = event.tfinger.fingerId; gestureLast[j].f.p.x = x; gestureLast[j].f.p.y = y; dollarPath[j].length = 0; dollarPath[j].p[0].x = x; dollarPath[j].p[0].y = y; dollarPath[j].numPoints = 1; } //draw the touch: if(gestureLast[j].f.id < 0) continue; //Finger up. Or some error... unsigned int c = colors[gestureLast[j].f.id%7]; unsigned int col = ((unsigned int)(c*(.1+.85))) | ((unsigned int)((0xFF*(1-((float)age)/EVENT_BUF_SIZE))) & 0xFF)<<24; x = gestureLast[j].f.p.x; y = gestureLast[j].f.p.y; if(event.type == SDL_FINGERMOTION) drawCircle(screen,x*screen->w,y*screen->h,5,col); else if(event.type == SDL_FINGERDOWN) drawCircle(screen,x*screen->w,y*screen->h,-10,col); //if there is a centroid, draw it if(numDownFingers > 1) { unsigned int col = ((unsigned int)(0xFFFFFF)) | ((unsigned int)((0xFF*(1-((float)age)/EVENT_BUF_SIZE))) & 0xFF)<<24; drawCircle(screen,centroid.x*screen->w,centroid.y*screen->h,5,col); } } } for(i=0;i<MAXFINGERS;i++) if(finger[i].p.x >= 0 && finger[i].p.y >= 0) if(finger[i].pressure > 0) drawCircle(screen,finger[i].p.x*screen->w,finger[i].p.y*screen->h ,20,0xFF*finger[i].pressure); else drawCircle(screen,finger[i].p.x*screen->w,finger[i].p.y*screen->h ,20,0xFF); keystat[32] = 0; if(knob.p.x > 0) drawKnob(screen,knob); if(SDL_MUSTLOCK(screen)) SDL_UnlockSurface(screen); SDL_Flip(screen); } SDL_Surface* initScreen(int width,int height) { return SDL_SetVideoMode(width, height, DEPTH, SDL_HWSURFACE | SDL_RESIZABLE); } int main(int argc, char* argv[]) { SDL_Surface *screen; SDL_Event event; int keypress = 0; int h=0,s=1,i,j; //gesture variables int numDownFingers = 0; float gdtheta = 0,gdDist = 0; Point centroid; knob.r = .1; knob.ang = 0; TouchPoint gestureLast[MAXFINGERS]; for(i = 0;i < MAXFINGERS;i++) gestureLast[i].f.id = -1; memset(keystat,0,512*sizeof(keystat[0])); if (SDL_Init(SDL_INIT_VIDEO) < 0 ) return 1; if (!(screen = initScreen(WIDTH,HEIGHT))) { SDL_Quit(); return 1; } while(!keystat[27]) { //Poll SDL while(SDL_PollEvent(&event)) { //Record _all_ events events[eventWrite & (EVENT_BUF_SIZE-1)] = event; eventWrite++; switch (event.type) { case SDL_QUIT: keystat[27] = 1; break; case SDL_KEYDOWN: //printf("%i\n",event.key.keysym.sym); keystat[event.key.keysym.sym] = 1; //keypress = 1; break; case SDL_KEYUP: //printf("%i\n",event.key.keysym.sym); keystat[event.key.keysym.sym] = 0; //keypress = 1; break; case SDL_VIDEORESIZE: if (!(screen = initScreen(event.resize.w, event.resize.h))) { SDL_Quit(); return 1; } break; case SDL_MOUSEMOTION: mousx = event.motion.x; mousy = event.motion.y; break; case SDL_MOUSEBUTTONDOWN: bstatus |= (1<<(event.button.button-1)); break; case SDL_MOUSEBUTTONUP: bstatus &= ~(1<<(event.button.button-1)); break; case SDL_FINGERMOTION: ; //printf("Finger: %i,x: %i, y: %i\n",event.tfinger.fingerId, // event.tfinger.x,event.tfinger.y); SDL_Touch* inTouch = SDL_GetTouch(event.tfinger.touchId); SDL_Finger* inFinger = SDL_GetFinger(inTouch,event.tfinger.fingerId); for(i = 0;i<MAXFINGERS;i++) if(index2fingerid[i] == event.tfinger.fingerId) break; if(i == MAXFINGERS) break; if(inTouch > 0) { finger[i].p.x = ((float)event.tfinger.x)/ inTouch->xres; finger[i].p.y = ((float)event.tfinger.y)/ inTouch->yres; finger[i].pressure = ((float)event.tfinger.pressure)/inTouch->pressureres; /* printf("Finger: %i, Pressure: %f Pressureres: %i\n", event.tfinger.fingerId, finger[i].pressure, inTouch->pressureres); */ //printf("Finger: %i, pressure: %f\n",event.tfinger.fingerId, // finger[event.tfinger.fingerId].pressure); } break; case SDL_FINGERDOWN: printf("Finger: %i down - x: %i, y: %i\n",event.tfinger.fingerId, event.tfinger.x,event.tfinger.y); for(i = 0;i<MAXFINGERS;i++) if(index2fingerid[i] == -1) { index2fingerid[i] = event.tfinger.fingerId; break; } finger[i].p.x = event.tfinger.x; finger[i].p.y = event.tfinger.y; break; case SDL_FINGERUP: printf("Figner: %i up - x: %i, y: %i\n",event.tfinger.fingerId, event.tfinger.x,event.tfinger.y); for(i = 0;i<MAXFINGERS;i++) if(index2fingerid[i] == event.tfinger.fingerId) { index2fingerid[i] = -1; break; } finger[i].p.x = -1; finger[i].p.y = -1; break; } if(event.type == SDL_FINGERMOTION || event.type == SDL_FINGERDOWN || event.type == SDL_FINGERUP) { SDL_Touch* inTouch = SDL_GetTouch(event.tfinger.touchId); //SDL_Finger* inFinger = SDL_GetFinger(inTouch,event.tfinger.fingerId); float x = ((float)event.tfinger.x)/inTouch->xres; float y = ((float)event.tfinger.y)/inTouch->yres; int j,empty = -1; for(j = 0;j<MAXFINGERS;j++) { if(gestureLast[j].f.id == event.tfinger.fingerId) { if(event.type == SDL_FINGERUP) { numDownFingers--; if(numDownFingers <= 1) { gdtheta = 0; gdDist = 0; } gestureLast[j].f.id = -1; break; } else { float dx = x - gestureLast[j].f.p.x; float dy = y - gestureLast[j].f.p.y; centroid.x = centroid.x + dx/numDownFingers; centroid.y = centroid.y + dy/numDownFingers; if(numDownFingers > 1) { Point lv; //Vector from centroid to last x,y position Point v; //Vector from centroid to current x,y position lv = gestureLast[j].cv; float lDist = sqrt(lv.x*lv.x + lv.y*lv.y); printf("lDist = %f\n",lDist); v.x = x - centroid.x; v.y = y - centroid.y; gestureLast[j].cv = v; float Dist = sqrt(v.x*v.x+v.y*v.y); // cos(dTheta) = (v . lv)/(|v| * |lv|) lv.x/=lDist; lv.y/=lDist; v.x/=Dist; v.y/=Dist; float dtheta = atan2(lv.x*v.y - lv.y*v.x,lv.x*v.x + lv.y*v.y); float dDist = (Dist - lDist); if(lDist == 0) {dDist = 0;dtheta = 0;} gestureLast[j].dDist = dDist; gestureLast[j].dtheta = dtheta; printf("dDist = %f, dTheta = %f\n",dDist,dtheta); //gdtheta = gdtheta*.9 + dtheta*.1; //gdDist = gdDist*.9 + dDist*.1 knob.r += dDist/numDownFingers; knob.ang += dtheta; //printf("thetaSum = %f, distSum = %f\n",gdtheta,gdDist); //printf("id: %i dTheta = %f, dDist = %f\n",j,dtheta,dDist); } else { gestureLast[j].dDist = 0; gestureLast[j].dtheta = 0; gestureLast[j].cv.x = 0; gestureLast[j].cv.y = 0; } gestureLast[j].f.p.x = x; gestureLast[j].f.p.y = y; break; //pressure? } } else if(gestureLast[j].f.id == -1 && empty == -1) { empty = j; } } if(j >= MAXFINGERS && empty >= 0) { printf("Finger Down!!!\n"); numDownFingers++; centroid.x = (centroid.x*(numDownFingers - 1) + x)/numDownFingers; centroid.y = (centroid.y*(numDownFingers - 1) + y)/numDownFingers; j = empty; gestureLast[j].f.id = event.tfinger.fingerId; gestureLast[j].f.p.x = x; gestureLast[j].f.p.y = y; gestureLast[j].cv.x = 0; gestureLast[j].cv.y = 0; } //draw the touch: } //And draw if(numDownFingers > 1) knob.p = centroid; else knob.p.x = -1; } DrawScreen(screen,h); //printf("c: (%f,%f)\n",centroid.x,centroid.y); //printf("numDownFingers: %i\n",numDownFingers); //for(i=0;i<512;i++) // if(keystat[i]) printf("%i\n",i); } SDL_Quit(); return 0; }