Mercurial > sdl-ios-xcode

view test/testblitspeed.c @ 4532:dc4a3de60d3a

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Logitech G15 on Ubuntu 10.04: code = 1, sym = 0xFF1B (Escape) scancode = 41 (Escape) code = 2, sym = 0x31 (1) scancode = 30 (1) code = 3, sym = 0x32 (2) scancode = 31 (2) code = 4, sym = 0x33 (3) scancode = 32 (3) code = 5, sym = 0x34 (4) scancode = 33 (4) code = 6, sym = 0x35 (5) scancode = 34 (5) code = 7, sym = 0x36 (6) scancode = 35 (6) code = 8, sym = 0x37 (7) scancode = 36 (7) code = 9, sym = 0x38 (8) scancode = 37 (8) code = 10, sym = 0x39 (9) scancode = 38 (9) code = 11, sym = 0x30 (0) scancode = 39 (0) code = 12, sym = 0x2D (minus) scancode = 45 (-) code = 13, sym = 0x3D (equal) scancode = 46 (=) code = 14, sym = 0xFF08 (BackSpace) scancode = 42 (Backspace) code = 15, sym = 0xFF09 (Tab) scancode = 43 (Tab) code = 16, sym = 0x71 (q) scancode = 20 (Q) code = 17, sym = 0x77 (w) scancode = 26 (W) code = 18, sym = 0x65 (e) scancode = 8 (E) code = 19, sym = 0x72 (r) scancode = 21 (R) code = 20, sym = 0x74 (t) scancode = 23 (T) code = 21, sym = 0x79 (y) scancode = 28 (Y) code = 22, sym = 0x75 (u) scancode = 24 (U) code = 23, sym = 0x69 (i) scancode = 12 (I) code = 24, sym = 0x6F (o) scancode = 18 (O) code = 25, sym = 0x70 (p) scancode = 19 (P) code = 26, sym = 0x5B (bracketleft) scancode = 47 ([) code = 27, sym = 0x5D (bracketright) scancode = 48 (]) code = 28, sym = 0xFF0D (Return) scancode = 40 (Return) code = 29, sym = 0xFFE3 (Control_L) scancode = 224 (Left Ctrl) code = 30, sym = 0x61 (a) scancode = 4 (A) code = 31, sym = 0x73 (s) scancode = 22 (S) code = 32, sym = 0x64 (d) scancode = 7 (D) code = 33, sym = 0x66 (f) scancode = 9 (F) code = 34, sym = 0x67 (g) scancode = 10 (G) code = 35, sym = 0x68 (h) scancode = 11 (H) code = 36, sym = 0x6A (j) scancode = 13 (J) code = 37, sym = 0x6B (k) scancode = 14 (K) code = 38, sym = 0x6C (l) scancode = 15 (L) code = 39, sym = 0x3B (semicolon) scancode = 51 (;) code = 40, sym = 0x27 (apostrophe) scancode = 52 (') code = 41, sym = 0x60 (grave) scancode = 53 (`) code = 42, sym = 0xFFE1 (Shift_L) scancode = 225 (Left Shift) code = 43, sym = 0x5C (backslash) scancode = 49 (\) code = 44, sym = 0x7A (z) scancode = 29 (Z) code = 45, sym = 0x78 (x) scancode = 27 (X) code = 46, sym = 0x63 (c) scancode = 6 (C) code = 47, sym = 0x76 (v) scancode = 25 (V) code = 48, sym = 0x62 (b) scancode = 5 (B) code = 49, sym = 0x6E (n) scancode = 17 (N) code = 50, sym = 0x6D (m) scancode = 16 (M) code = 51, sym = 0x2C (comma) scancode = 54 (,) code = 52, sym = 0x2E (period) scancode = 55 (.) code = 53, sym = 0x2F (slash) scancode = 56 (/) code = 54, sym = 0xFFE2 (Shift_R) scancode = 229 (Right Shift) code = 55, sym = 0xFFAA (KP_Multiply) scancode = 85 (Keypad *) code = 56, sym = 0xFFE9 (Alt_L) scancode = 226 (Left Alt) code = 57, sym = 0x20 (space) scancode = 44 (Space) code = 58, sym = 0xFFE5 (Caps_Lock) scancode = 57 (CapsLock) code = 59, sym = 0xFFBE (F1) scancode = 58 (F1) code = 60, sym = 0xFFBF (F2) scancode = 59 (F2) code = 61, sym = 0xFFC0 (F3) scancode = 60 (F3) code = 62, sym = 0xFFC1 (F4) scancode = 61 (F4) code = 63, sym = 0xFFC2 (F5) scancode = 62 (F5) code = 64, sym = 0xFFC3 (F6) scancode = 63 (F6) code = 65, sym = 0xFFC4 (F7) scancode = 64 (F7) code = 66, sym = 0xFFC5 (F8) scancode = 65 (F8) code = 67, sym = 0xFFC6 (F9) scancode = 66 (F9) code = 68, sym = 0xFFC7 (F10) scancode = 67 (F10) code = 69, sym = 0xFF7F (Num_Lock) scancode = 83 (Numlock) code = 70, sym = 0xFF14 (Scroll_Lock) scancode = 71 (ScrollLock) code = 71, sym = 0xFF95 (KP_Home) scancode = 95 (Keypad 7) code = 72, sym = 0xFF97 (KP_Up) scancode = 96 (Keypad 8) code = 73, sym = 0xFF9A (KP_Prior) scancode = 97 (Keypad 9) code = 74, sym = 0xFFAD (KP_Subtract) scancode = 86 (Keypad -) code = 75, sym = 0xFF96 (KP_Left) scancode = 92 (Keypad 4) code = 76, sym = 0xFF9D (KP_Begin) scancode = 93 (Keypad 5) code = 77, sym = 0xFF98 (KP_Right) scancode = 94 (Keypad 6) code = 78, sym = 0xFFAB (KP_Add) scancode = 87 (Keypad +) code = 79, sym = 0xFF9C (KP_End) scancode = 89 (Keypad 1) code = 80, sym = 0xFF99 (KP_Down) scancode = 90 (Keypad 2) code = 81, sym = 0xFF9B (KP_Next) scancode = 91 (Keypad 3) code = 82, sym = 0xFF9E (KP_Insert) scancode = 98 (Keypad 0) code = 83, sym = 0xFF9F (KP_Delete) scancode = 99 (Keypad .) code = 84, sym = 0xFE03 (ISO_Level3_Shift) scancode = 0 () code = 86, sym = 0x3C (less) scancode not found code = 87, sym = 0xFFC8 (F11) scancode = 68 (F11) code = 88, sym = 0xFFC9 (F12) scancode = 69 (F12) code = 90, sym = 0xFF26 (Katakana) scancode = 0 () code = 91, sym = 0xFF25 (Hiragana) scancode = 0 () code = 92, sym = 0xFF23 (Henkan_Mode) scancode = 0 () code = 93, sym = 0xFF27 (Hiragana_Katakana) scancode = 0 () code = 94, sym = 0xFF22 (Muhenkan) scancode = 0 () code = 96, sym = 0xFF8D (KP_Enter) scancode = 88 (Keypad Enter) code = 97, sym = 0xFFE4 (Control_R) scancode = 228 (Right Ctrl) code = 98, sym = 0xFFAF (KP_Divide) scancode = 84 (Keypad /) code = 99, sym = 0xFF61 (Print) scancode = 70 (PrintScreen) code = 100, sym = 0xFFEA (Alt_R) scancode = 230 (Right Alt) code = 101, sym = 0xFF0A (Linefeed) scancode = 0 () code = 102, sym = 0xFF50 (Home) scancode = 74 (Home) code = 103, sym = 0xFF52 (Up) scancode = 82 (Up) code = 104, sym = 0xFF55 (Prior) scancode = 75 (PageUp) code = 105, sym = 0xFF51 (Left) scancode = 80 (Left) code = 106, sym = 0xFF53 (Right) scancode = 79 (Right) code = 107, sym = 0xFF57 (End) scancode = 77 (End) code = 108, sym = 0xFF54 (Down) scancode = 81 (Down) code = 109, sym = 0xFF56 (Next) scancode = 78 (PageDown) code = 110, sym = 0xFF63 (Insert) scancode = 73 (Insert) code = 111, sym = 0xFFFF (Delete) scancode = 76 (Delete) code = 113, sym = 0x1008FF12 (XF86AudioMute) scancode = 0 () code = 114, sym = 0x1008FF11 (XF86AudioLowerVolume) scancode = 0 () code = 115, sym = 0x1008FF13 (XF86AudioRaiseVolume) scancode = 0 () code = 116, sym = 0x1008FF2A (XF86PowerOff) scancode = 0 () code = 117, sym = 0xFFBD (KP_Equal) scancode = 103 (Keypad =) code = 118, sym = 0xB1 (plusminus) scancode not found code = 119, sym = 0xFF13 (Pause) scancode = 72 (Pause) code = 120, sym = 0x1008FF4A (XF86LaunchA) scancode = 0 () code = 121, sym = 0xFFAE (KP_Decimal) scancode = 99 (Keypad .) code = 122, sym = 0xFF31 (Hangul) scancode = 0 () code = 123, sym = 0xFF34 (Hangul_Hanja) scancode = 0 () code = 125, sym = 0xFFEB (Super_L) scancode = 227 (Left GUI) code = 126, sym = 0xFFEC (Super_R) scancode = 231 (Right GUI) code = 127, sym = 0xFF67 (Menu) scancode = 118 (Menu) code = 128, sym = 0xFF69 (Cancel) scancode = 120 (Stop) code = 129, sym = 0xFF66 (Redo) scancode = 121 (Again) code = 130, sym = 0x1005FF70 (SunProps) scancode = 0 () code = 131, sym = 0xFF65 (Undo) scancode = 122 (Undo) code = 132, sym = 0x1005FF71 (SunFront) scancode = 0 () code = 133, sym = 0x1008FF57 (XF86Copy) scancode = 0 () code = 134, sym = 0x1005FF73 (SunOpen) scancode = 0 () code = 135, sym = 0x1008FF6D (XF86Paste) scancode = 0 () code = 136, sym = 0xFF68 (Find) scancode = 126 (Find) code = 137, sym = 0x1008FF58 (XF86Cut) scancode = 0 () code = 138, sym = 0xFF6A (Help) scancode = 117 (Help) code = 139, sym = 0x1008FF65 (XF86MenuKB) scancode = 0 () code = 140, sym = 0x1008FF1D (XF86Calculator) scancode = 0 () code = 142, sym = 0x1008FF2F (XF86Sleep) scancode = 0 () code = 143, sym = 0x1008FF2B (XF86WakeUp) scancode = 0 () code = 144, sym = 0x1008FF5D (XF86Explorer) scancode = 0 () code = 145, sym = 0x1008FF7B (XF86Send) scancode = 0 () code = 147, sym = 0x1008FF8A (XF86Xfer) scancode = 0 () code = 148, sym = 0x1008FF41 (XF86Launch1) scancode = 0 () code = 149, sym = 0x1008FF42 (XF86Launch2) scancode = 0 () code = 150, sym = 0x1008FF2E (XF86WWW) scancode = 0 () code = 151, sym = 0x1008FF5A (XF86DOS) scancode = 0 () code = 152, sym = 0x1008FF2D (XF86ScreenSaver) scancode = 0 () code = 154, sym = 0x1008FF74 (XF86RotateWindows) scancode = 0 () code = 155, sym = 0x1008FF19 (XF86Mail) scancode = 0 () code = 156, sym = 0x1008FF30 (XF86Favorites) scancode = 0 () code = 157, sym = 0x1008FF33 (XF86MyComputer) scancode = 0 () code = 158, sym = 0x1008FF26 (XF86Back) scancode = 0 () code = 159, sym = 0x1008FF27 (XF86Forward) scancode = 0 () code = 161, sym = 0x1008FF2C (XF86Eject) scancode = 0 () code = 162, sym = 0x1008FF2C (XF86Eject) scancode = 0 () code = 163, sym = 0x1008FF17 (XF86AudioNext) scancode = 0 () code = 164, sym = 0x1008FF14 (XF86AudioPlay) scancode = 0 () code = 165, sym = 0x1008FF16 (XF86AudioPrev) scancode = 0 () code = 166, sym = 0x1008FF15 (XF86AudioStop) scancode = 0 () code = 167, sym = 0x1008FF1C (XF86AudioRecord) scancode = 0 () code = 168, sym = 0x1008FF3E (XF86AudioRewind) scancode = 0 () code = 169, sym = 0x1008FF6E (XF86Phone) scancode = 0 () code = 171, sym = 0x1008FF81 (XF86Tools) scancode = 0 () code = 172, sym = 0x1008FF18 (XF86HomePage) scancode = 0 () code = 173, sym = 0x1008FF73 (XF86Reload) scancode = 0 () code = 174, sym = 0x1008FF56 (XF86Close) scancode = 0 () code = 177, sym = 0x1008FF78 (XF86ScrollUp) scancode = 0 () code = 178, sym = 0x1008FF79 (XF86ScrollDown) scancode = 0 () code = 179, sym = 0x28 (parenleft) scancode not found code = 180, sym = 0x29 (parenright) scancode not found code = 181, sym = 0x1008FF68 (XF86New) scancode = 0 () code = 182, sym = 0xFF66 (Redo) scancode = 121 (Again) code = 183, sym = 0x1008FF81 (XF86Tools) scancode = 0 () code = 184, sym = 0x1008FF45 (XF86Launch5) scancode = 0 () code = 185, sym = 0x1008FF65 (XF86MenuKB) scancode = 0 () code = 192, sym = 0x1008FFA9 (XF86TouchpadToggle) scancode = 0 () code = 195, sym = 0xFF7E (Mode_switch) scancode = 257 (ModeSwitch) code = 200, sym = 0x1008FF14 (XF86AudioPlay) scancode = 0 () code = 201, sym = 0x1008FF31 (XF86AudioPause) scancode = 0 () code = 202, sym = 0x1008FF43 (XF86Launch3) scancode = 0 () code = 203, sym = 0x1008FF44 (XF86Launch4) scancode = 0 () code = 204, sym = 0x1008FF4B (XF86LaunchB) scancode = 0 () code = 205, sym = 0x1008FFA7 (XF86Suspend) scancode = 0 () code = 206, sym = 0x1008FF56 (XF86Close) scancode = 0 () code = 207, sym = 0x1008FF14 (XF86AudioPlay) scancode = 0 () code = 208, sym = 0x1008FF97 (XF86AudioForward) scancode = 0 () code = 210, sym = 0xFF61 (Print) scancode = 70 (PrintScreen) code = 212, sym = 0x1008FF8F (XF86WebCam) scancode = 0 () code = 215, sym = 0x1008FF19 (XF86Mail) scancode = 0 () code = 217, sym = 0x1008FF1B (XF86Search) scancode = 0 () code = 219, sym = 0x1008FF3C (XF86Finance) scancode = 0 () code = 221, sym = 0x1008FF36 (XF86Shop) scancode = 0 () code = 223, sym = 0xFF69 (Cancel) scancode = 120 (Stop) code = 224, sym = 0x1008FF03 (XF86MonBrightnessDown) scancode = 0 () code = 225, sym = 0x1008FF02 (XF86MonBrightnessUp) scancode = 0 () code = 226, sym = 0x1008FF32 (XF86AudioMedia) scancode = 0 () code = 227, sym = 0x1008FF59 (XF86Display) scancode = 0 () code = 228, sym = 0x1008FF04 (XF86KbdLightOnOff) scancode = 0 () code = 229, sym = 0x1008FF06 (XF86KbdBrightnessDown) scancode = 0 () code = 230, sym = 0x1008FF05 (XF86KbdBrightnessUp) scancode = 0 () code = 231, sym = 0x1008FF7B (XF86Send) scancode = 0 () code = 232, sym = 0x1008FF72 (XF86Reply) scancode = 0 () code = 233, sym = 0x1008FF90 (XF86MailForward) scancode = 0 () code = 234, sym = 0x1008FF77 (XF86Save) scancode = 0 () code = 235, sym = 0x1008FF5B (XF86Documents) scancode = 0 () code = 236, sym = 0x1008FF93 (XF86Battery) scancode = 0 () code = 237, sym = 0x1008FF94 (XF86Bluetooth) scancode = 0 () code = 238, sym = 0x1008FF95 (XF86WLAN) scancode = 0 ()
author Sam Lantinga <slouken@libsdl.org>
date Sun, 18 Jul 2010 00:40:17 -0700
parents 204be4fc2726
children
line wrap: on
line source

/*
 * Benchmarks surface-to-surface blits in various formats.
 *
 *  Written by Ryan C. Gordon.
 */

#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#include "SDL.h"

static SDL_Surface *dest = NULL;
static SDL_Surface *src = NULL;
static int testSeconds = 10;


static int
percent(int val, int total)
{
    return ((int) ((((float) val) / ((float) total)) * 100.0f));
}

static int
randRange(int lo, int hi)
{
    return (lo + (int) (((double) hi) * rand() / (RAND_MAX + 1.0)));
}

static void
copy_trunc_str(char *str, size_t strsize, const char *flagstr)
{
    if ((strlen(str) + strlen(flagstr)) >= (strsize - 1))
        strcpy(str + (strsize - 5), " ...");
    else
        strcat(str, flagstr);
}

static void
__append_sdl_surface_flag(SDL_Surface * _surface, char *str,
                          size_t strsize, Uint32 flag, const char *flagstr)
{
    if (_surface->flags & flag)
        copy_trunc_str(str, strsize, flagstr);
}


#define append_sdl_surface_flag(a, b, c, fl) __append_sdl_surface_flag(a, b, c, fl, " " #fl)
#define print_tf_state(str, val) printf("%s: {%s}\n", str, (val) ? "true" : "false" )

static void
output_videoinfo_details(void)
{
    const SDL_VideoInfo *info = SDL_GetVideoInfo();
    printf("SDL_GetVideoInfo():\n");
    if (info == NULL)
        printf("  (null.)\n");
    else {
        print_tf_state("  hardware surface available", info->hw_available);
        print_tf_state("  window manager available", info->wm_available);
        print_tf_state("  accelerated hardware->hardware blits",
                       info->blit_hw);
        print_tf_state("  accelerated hardware->hardware colorkey blits",
                       info->blit_hw_CC);
        print_tf_state("  accelerated hardware->hardware alpha blits",
                       info->blit_hw_A);
        print_tf_state("  accelerated software->hardware blits",
                       info->blit_sw);
        print_tf_state("  accelerated software->hardware colorkey blits",
                       info->blit_sw_CC);
        print_tf_state("  accelerated software->hardware alpha blits",
                       info->blit_sw_A);
        print_tf_state("  accelerated color fills", info->blit_fill);
        printf("  video memory: (%d)\n", info->video_mem);
    }

    printf("\n");
}

static void
output_surface_details(const char *name, SDL_Surface * surface)
{
    printf("Details for %s:\n", name);

    if (surface == NULL) {
        printf("-WARNING- You've got a NULL surface!");
    } else {
        char f[256];
        printf("  width      : %d\n", surface->w);
        printf("  height     : %d\n", surface->h);
        printf("  depth      : %d bits per pixel\n",
               surface->format->BitsPerPixel);
        printf("  pitch      : %d\n", (int) surface->pitch);

        printf("  red bits   : 0x%08X mask, %d shift, %d loss\n",
               (int) surface->format->Rmask,
               (int) surface->format->Rshift, (int) surface->format->Rloss);
        printf("  green bits : 0x%08X mask, %d shift, %d loss\n",
               (int) surface->format->Gmask,
               (int) surface->format->Gshift, (int) surface->format->Gloss);
        printf("  blue bits  : 0x%08X mask, %d shift, %d loss\n",
               (int) surface->format->Bmask,
               (int) surface->format->Bshift, (int) surface->format->Bloss);
        printf("  alpha bits : 0x%08X mask, %d shift, %d loss\n",
               (int) surface->format->Amask,
               (int) surface->format->Ashift, (int) surface->format->Aloss);

        f[0] = '\0';

        /*append_sdl_surface_flag(surface, f, sizeof (f), SDL_SWSURFACE); */
        if ((surface->flags & SDL_HWSURFACE) == 0)
            copy_trunc_str(f, sizeof(f), " SDL_SWSURFACE");

        append_sdl_surface_flag(surface, f, sizeof(f), SDL_HWSURFACE);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_ASYNCBLIT);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_ANYFORMAT);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_HWPALETTE);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_DOUBLEBUF);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_FULLSCREEN);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_OPENGL);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_RESIZABLE);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_NOFRAME);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_HWACCEL);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_SRCCOLORKEY);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_RLEACCELOK);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_RLEACCEL);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_SRCALPHA);
        append_sdl_surface_flag(surface, f, sizeof(f), SDL_PREALLOC);

        if (f[0] == '\0')
            strcpy(f, " (none)");

        printf("  flags      :%s\n", f);
    }

    printf("\n");
}

static void
output_details(void)
{
    output_videoinfo_details();
    output_surface_details("Source Surface", src);
    output_surface_details("Destination Surface", dest);
}

static Uint32
blit(SDL_Surface * dst, SDL_Surface * src, int x, int y)
{
    Uint32 start = 0;
    SDL_Rect srcRect;
    SDL_Rect dstRect;

    srcRect.x = 0;
    srcRect.y = 0;
    dstRect.x = x;
    dstRect.y = y;
    dstRect.w = srcRect.w = src->w;     /* SDL will clip as appropriate. */
    dstRect.h = srcRect.h = src->h;

    start = SDL_GetTicks();
    SDL_BlitSurface(src, &srcRect, dst, &dstRect);
    return (SDL_GetTicks() - start);
}

static void
blitCentered(SDL_Surface * dst, SDL_Surface * src)
{
    int x = (dst->w - src->w) / 2;
    int y = (dst->h - src->h) / 2;
    blit(dst, src, x, y);
}

static int
atoi_hex(const char *str)
{
    if (str == NULL)
        return 0;

    if (strlen(str) > 2) {
        int retval = 0;
        if ((str[0] == '0') && (str[1] == 'x'))
            sscanf(str + 2, "%X", &retval);
        return (retval);
    }

    return (atoi(str));
}


static int
setup_test(int argc, char **argv)
{
    const char *dumpfile = NULL;
    SDL_Surface *bmp = NULL;
    Uint32 dstbpp = 32;
    Uint32 dstrmask = 0x00FF0000;
    Uint32 dstgmask = 0x0000FF00;
    Uint32 dstbmask = 0x000000FF;
    Uint32 dstamask = 0x00000000;
    Uint32 dstflags = 0;
    int dstw = 640;
    int dsth = 480;
    Uint32 srcbpp = 32;
    Uint32 srcrmask = 0x00FF0000;
    Uint32 srcgmask = 0x0000FF00;
    Uint32 srcbmask = 0x000000FF;
    Uint32 srcamask = 0x00000000;
    Uint32 srcflags = 0;
    int srcw = 640;
    int srch = 480;
    Uint32 origsrcalphaflags = 0;
    Uint32 origdstalphaflags = 0;
    Uint32 srcalphaflags = 0;
    Uint32 dstalphaflags = 0;
    Uint8 origsrcalpha = 255;
    Uint8 origdstalpha = 255;
    Uint8 srcalpha = 255;
    Uint8 dstalpha = 255;
    int screenSurface = 0;
    int i = 0;

    for (i = 1; i < argc; i++) {
        const char *arg = argv[i];

        if (strcmp(arg, "--dstbpp") == 0)
            dstbpp = atoi(argv[++i]);
        else if (strcmp(arg, "--dstrmask") == 0)
            dstrmask = atoi_hex(argv[++i]);
        else if (strcmp(arg, "--dstgmask") == 0)
            dstgmask = atoi_hex(argv[++i]);
        else if (strcmp(arg, "--dstbmask") == 0)
            dstbmask = atoi_hex(argv[++i]);
        else if (strcmp(arg, "--dstamask") == 0)
            dstamask = atoi_hex(argv[++i]);
        else if (strcmp(arg, "--dstwidth") == 0)
            dstw = atoi(argv[++i]);
        else if (strcmp(arg, "--dstheight") == 0)
            dsth = atoi(argv[++i]);
        else if (strcmp(arg, "--dsthwsurface") == 0)
            dstflags |= SDL_HWSURFACE;
        else if (strcmp(arg, "--srcbpp") == 0)
            srcbpp = atoi(argv[++i]);
        else if (strcmp(arg, "--srcrmask") == 0)
            srcrmask = atoi_hex(argv[++i]);
        else if (strcmp(arg, "--srcgmask") == 0)
            srcgmask = atoi_hex(argv[++i]);
        else if (strcmp(arg, "--srcbmask") == 0)
            srcbmask = atoi_hex(argv[++i]);
        else if (strcmp(arg, "--srcamask") == 0)
            srcamask = atoi_hex(argv[++i]);
        else if (strcmp(arg, "--srcwidth") == 0)
            srcw = atoi(argv[++i]);
        else if (strcmp(arg, "--srcheight") == 0)
            srch = atoi(argv[++i]);
        else if (strcmp(arg, "--srchwsurface") == 0)
            srcflags |= SDL_HWSURFACE;
        else if (strcmp(arg, "--seconds") == 0)
            testSeconds = atoi(argv[++i]);
        else if (strcmp(arg, "--screen") == 0)
            screenSurface = 1;
        else if (strcmp(arg, "--dumpfile") == 0)
            dumpfile = argv[++i];
        /* !!! FIXME: set colorkey. */
        else if (0) {           /* !!! FIXME: we handle some commandlines elsewhere now */
            fprintf(stderr, "Unknown commandline option: %s\n", arg);
            return (0);
        }
    }

    if (SDL_Init(SDL_INIT_VIDEO) == -1) {
        fprintf(stderr, "SDL_Init failed: %s\n", SDL_GetError());
        return (0);
    }

    bmp = SDL_LoadBMP("sample.bmp");
    if (bmp == NULL) {
        fprintf(stderr, "SDL_LoadBMP failed: %s\n", SDL_GetError());
        SDL_Quit();
        return (0);
    }

    if ((dstflags & SDL_HWSURFACE) == 0)
        dstflags |= SDL_SWSURFACE;
    if ((srcflags & SDL_HWSURFACE) == 0)
        srcflags |= SDL_SWSURFACE;

    if (screenSurface)
        dest = SDL_SetVideoMode(dstw, dsth, dstbpp, dstflags);
    else {
        dest = SDL_CreateRGBSurface(dstflags, dstw, dsth, dstbpp,
                                    dstrmask, dstgmask, dstbmask, dstamask);
    }

    if (dest == NULL) {
        fprintf(stderr, "dest surface creation failed: %s\n", SDL_GetError());
        SDL_Quit();
        return (0);
    }

    src = SDL_CreateRGBSurface(srcflags, srcw, srch, srcbpp,
                               srcrmask, srcgmask, srcbmask, srcamask);
    if (src == NULL) {
        fprintf(stderr, "src surface creation failed: %s\n", SDL_GetError());
        SDL_Quit();
        return (0);
    }

    /* handle alpha settings... */
    srcalphaflags = (src->flags & SDL_SRCALPHA) | (src->flags & SDL_RLEACCEL);
    dstalphaflags =
        (dest->flags & SDL_SRCALPHA) | (dest->flags & SDL_RLEACCEL);
    origsrcalphaflags = srcalphaflags;
    origdstalphaflags = dstalphaflags;
    SDL_GetSurfaceAlphaMod(src, &srcalpha);
    SDL_GetSurfaceAlphaMod(dest, &dstalpha);
    origsrcalpha = srcalpha;
    origdstalpha = dstalpha;
    for (i = 1; i < argc; i++) {
        const char *arg = argv[i];

        if (strcmp(arg, "--srcalpha") == 0)
            srcalpha = atoi(argv[++i]);
        else if (strcmp(arg, "--dstalpha") == 0)
            dstalpha = atoi(argv[++i]);
        else if (strcmp(arg, "--srcsrcalpha") == 0)
            srcalphaflags |= SDL_SRCALPHA;
        else if (strcmp(arg, "--srcnosrcalpha") == 0)
            srcalphaflags &= ~SDL_SRCALPHA;
        else if (strcmp(arg, "--srcrleaccel") == 0)
            srcalphaflags |= SDL_RLEACCEL;
        else if (strcmp(arg, "--srcnorleaccel") == 0)
            srcalphaflags &= ~SDL_RLEACCEL;
        else if (strcmp(arg, "--dstsrcalpha") == 0)
            dstalphaflags |= SDL_SRCALPHA;
        else if (strcmp(arg, "--dstnosrcalpha") == 0)
            dstalphaflags &= ~SDL_SRCALPHA;
        else if (strcmp(arg, "--dstrleaccel") == 0)
            dstalphaflags |= SDL_RLEACCEL;
        else if (strcmp(arg, "--dstnorleaccel") == 0)
            dstalphaflags &= ~SDL_RLEACCEL;
    }
    if ((dstalphaflags != origdstalphaflags) || (origdstalpha != dstalpha))
        SDL_SetAlpha(dest, dstalphaflags, dstalpha);
    if ((srcalphaflags != origsrcalphaflags) || (origsrcalpha != srcalpha))
        SDL_SetAlpha(src, srcalphaflags, srcalpha);

    /* set some sane defaults so we can see if the blit code is broken... */
    SDL_FillRect(dest, NULL, SDL_MapRGB(dest->format, 0, 0, 0));
    SDL_FillRect(src, NULL, SDL_MapRGB(src->format, 0, 0, 0));

    blitCentered(src, bmp);
    SDL_FreeSurface(bmp);

    if (dumpfile)
        SDL_SaveBMP(src, dumpfile);     /* make sure initial convert is sane. */

    output_details();

    return (1);
}


static void
test_blit_speed(void)
{
    Uint32 clearColor = SDL_MapRGB(dest->format, 0, 0, 0);
    Uint32 iterations = 0;
    Uint32 elasped = 0;
    Uint32 end = 0;
    Uint32 now = 0;
    Uint32 last = 0;
    int testms = testSeconds * 1000;
    int wmax = (dest->w - src->w);
    int hmax = (dest->h - src->h);
    int isScreen = (SDL_GetVideoSurface() == dest);
    SDL_Event event;

    printf("Testing blit speed for %d seconds...\n", testSeconds);

    now = SDL_GetTicks();
    end = now + testms;

    do {
        /* pump the event queue occasionally to keep OS happy... */
        if (now - last > 1000) {
            last = now;
            while (SDL_PollEvent(&event)) {     /* no-op. */
            }
        }

        iterations++;
        elasped += blit(dest, src, randRange(0, wmax), randRange(0, hmax));
        if (isScreen) {
            SDL_Flip(dest);     /* show it! */
            SDL_FillRect(dest, NULL, clearColor);       /* blank it for next time! */
        }

        now = SDL_GetTicks();
    } while (now < end);

    printf("Non-blitting crap accounted for %d percent of this run.\n",
           percent(testms - elasped, testms));

    printf("%d blits took %d ms (%d fps).\n",
           (int) iterations,
           (int) elasped,
           (int) (((float) iterations) / (((float) elasped) / 1000.0f)));
}

int
main(int argc, char **argv)
{
    int initialized = setup_test(argc, argv);
    if (initialized) {
        test_blit_speed();
        SDL_Quit();
    }
    return (!initialized);
}

/* end of testblitspeed.c ... */