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[/] [or1k/] [trunk/] [mw/] [src/] [contrib/] [speedtst/] [speed.c] - Rev 673
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#include <stdio.h> #include <stdlib.h> #include <time.h> #ifdef TEST_FOR_X #include <X11/Xlib.h> #else #define MWINCLUDECOLORS #include <microwin/nano-X.h> #endif #define NUM_POINTS 80 time_t start_time, end_time; void start_timer() { time(&start_time); } void end_timer() { time(&end_time); printf("start=%lu, end=%lu, time=%lu\n", start_time, end_time, end_time-start_time); } int main() { #ifdef TEST_FOR_X Display *display; Window window; GC gc; XGCValues gcValues; Colormap colormap; Pixmap src_pixmap; unsigned long fgColor, bgColor; int screenNum; XPoint points[NUM_POINTS]; #else GR_WINDOW_ID window; GR_WINDOW_ID src_pixmap; unsigned char* src_pixmap_buf[320*240*2]; GR_GC_ID gc; GR_POINT points[NUM_POINTS]; #endif int c, c1, count=4500; int x, y, x1, y1, x2, y2; #ifdef TEST_FOR_X if(!(display=XOpenDisplay(""))) { printf("Cannot connect to X.\n"); } screenNum = DefaultScreen(display); colormap = DefaultColormap(display, screenNum); bgColor = BlackPixel(display, screenNum); fgColor = WhitePixel(display, screenNum); window = XCreateSimpleWindow(display, RootWindow(display, screenNum), 0, 0 , 639, 479, 0, fgColor, bgColor); src_pixmap = XCreatePixmap(display, window, 320, 240, 16); XMapRaised(display, window); gcValues.background = bgColor; gcValues.foreground = fgColor; gcValues.line_width = 1; gcValues.line_style = LineSolid; gcValues.fill_style = FillSolid; gcValues.fill_rule = WindingRule; gcValues.arc_mode = ArcPieSlice; gc = XCreateGC(display, window, GCForeground | GCBackground | GCLineWidth | GCLineStyle | GCFillStyle, &gcValues); #else GrOpen(); window = GrNewWindow(GR_ROOT_WINDOW_ID, 0, 0, 639, 479, 0, BLACK, BLUE); src_pixmap = GrNewPixmap(640, 480, src_pixmap_buf); GrMapWindow(window); gc = GrNewGC(); GrSetGCForeground(gc, WHITE); GrSetGCBackground(gc, BLACK); GrSetGCMode(gc, GR_MODE_COPY); #endif // Horizontal Line //////////////////////////////////////////////// printf("Horizontal Line(XDrawLine)\n"); start_timer(); for(c=0; c<count*20; c++) { y1=random()%480; #ifdef TEST_FOR_X XDrawLine(display, window, gc, 0, y1, 639, y1); XFlush(display); #else GrLine(window, gc, 0, y1, 639, y1); GrFlush(); #endif } end_timer(); #ifdef TEST_FOR_X XClearWindow(display, window); #else GrClearWindow(window, GR_TRUE); #endif // Vertical Line ///////////////////////////////////////////////// printf("Vertical Line(XDrawLine)\n"); start_timer(); for(c=0; c<count*19; c++) { x1=random()%640; #ifdef TEST_FOR_X XDrawLine(display, window, gc, x1, 0, x1, 479); XFlush(display); #else GrLine(window, gc, x1, 0, x1, 479); GrFlush(); #endif } end_timer(); #ifdef TEST_FOR_X XClearWindow(display, window); #else GrClearWindow(window, GR_TRUE); #endif // General Line ///////////////////////////////////////////////// printf("General Line(XDrawLine)\n"); start_timer(); for(c=0; c<count*22; c++) { x1 = random()%640; x2 = random()%640; y1 = random()%480; y2 = random()%480; #ifdef TEST_FOR_X XDrawLine(display, window, gc, x1, y1, x2, y2); XFlush(display); #else GrLine(window, gc, x1, y1, x2, y2); GrFlush(); #endif } end_timer(); #ifdef TEST_FOR_X XClearWindow(display, window); #else GrClearWindow(window, GR_TRUE); #endif // Point ////////////////////////////////////////////////// printf("XPoint\n"); start_timer(); for(c=0; c<count*25; c++) { x1 = random()%640; y1 = random()%480; #ifdef TEST_FOR_X XDrawPoint(display, window, gc, x1, y1); XFlush(display); #else GrPoint(window, gc, x1, y1); GrFlush(); #endif } end_timer(); #ifdef TEST_FOR_X XClearWindow(display, window); #else GrClearWindow(window, GR_TRUE); #endif // Rectangle ////////////////////////////////////////////////// printf("XRectangle\n"); start_timer(); for(c=0; c<count*20; c++) { x1=random()%639; y1=random()%479; x2=random()%(639-x1)+1; y2=random()%(479-y1)+1; #ifdef TEST_FOR_X XDrawRectangle(display, window, gc, x1, y1, x2, y2); XFlush(display); #else GrRect(window, gc, x1, y1, x2, y2); GrFlush(); #endif } end_timer(); #ifdef TEST_FOR_X XClearWindow(display, window); #else GrClearWindow(window, GR_TRUE); #endif // FillRectangle ////////////////////////////////////////////////// printf("XFillRectangle\n"); start_timer(); for(c=0; c<count*18; c++) { x1=random()%639; y1=random()%479; x2=random()%(639-x1)+1; y2=random()%(479-y1)+1; #ifdef TEST_FOR_X XFillRectangle(display, window, gc, x1, y1, x2, y2); XFlush(display); #else GrFillRect(window, gc, x1, y1, x2, y2); GrFlush(); #endif } end_timer(); #ifdef TEST_FOR_X XClearWindow(display, window); #else GrClearWindow(window, GR_TRUE); #endif // FillPolygon ////////////////////////////////////////////////// printf("XFillPolygon\n"); start_timer(); for(c=0; c<count; c++) { for(c1=0; c1<NUM_POINTS; c1++) { points[c1].x = random()%640; points[c1].y = random()%480; } #ifdef TEST_FOR_X XFillPolygon(display, window, gc, points, NUM_POINTS, 0, 0); XFlush(display); #else GrFillPoly(window, gc, NUM_POINTS, points); GrFlush(); #endif } end_timer(); #ifdef TEST_FOR_X XClearWindow(display, window); #else GrClearWindow(window, GR_TRUE); #endif // CopyArea ///////////////////////////////////////////////// printf("XCopyArea\n"); start_timer(); for(c=0; c<count*5; c++) { x1=random()%320; y1=random()%240; x2=random()%319+1; y2=random()%239+1; #ifdef TEST_FOR_X XCopyArea(display, src_pixmap, window, gc, 0, 0, x2, y2, x1, y1); XFlush(display); #else GrCopyArea(window, gc, x1, y1, x2 ,y2, src_pixmap, 0, 0, 0); GrFlush(); #endif } end_timer(); #ifdef TEST_FOR_X XDestroyWindow(display, window); #else GrClose(); #endif }
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