Mercurial > sdl-ios-xcode
view test/testvidinfo.c @ 4532:dc4a3de60d3a
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 | 59ff7a2beb57 |
| children | 762e40fb8e28 |
line wrap: on
line source
/* Simple program -- figure out what kind of video display we have */ #include <stdlib.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "SDL.h" #define NUM_BLITS 10 #define NUM_UPDATES 500 #define FLAG_MASK (SDL_HWSURFACE | SDL_FULLSCREEN | SDL_DOUBLEBUF | \ SDL_SRCCOLORKEY | SDL_SRCALPHA | SDL_RLEACCEL | \ SDL_RLEACCELOK) #if 0 void PrintFlags(Uint32 flags) { printf("0x%8.8x", (flags & FLAG_MASK)); if (flags & SDL_HWSURFACE) { printf(" SDL_HWSURFACE"); } else { printf(" SDL_SWSURFACE"); } if (flags & SDL_FULLSCREEN) { printf(" | SDL_FULLSCREEN"); } if (flags & SDL_DOUBLEBUF) { printf(" | SDL_DOUBLEBUF"); } if (flags & SDL_SRCCOLORKEY) { printf(" | SDL_SRCCOLORKEY"); } if (flags & SDL_SRCALPHA) { printf(" | SDL_SRCALPHA"); } if (flags & SDL_RLEACCEL) { printf(" | SDL_RLEACCEL"); } if (flags & SDL_RLEACCELOK) { printf(" | SDL_RLEACCELOK"); } } int RunBlitTests(SDL_Surface * screen, SDL_Surface * bmp, int blitcount) { int i, j; int maxx; int maxy; SDL_Rect dst; maxx = (int) screen->w - bmp->w + 1; maxy = (int) screen->h - bmp->h + 1; for (i = 0; i < NUM_UPDATES; ++i) { for (j = 0; j < blitcount; ++j) { if (maxx) { dst.x = rand() % maxx; } else { dst.x = 0; } if (maxy) { dst.y = rand() % maxy; } else { dst.y = 0; } dst.w = bmp->w; dst.h = bmp->h; SDL_BlitSurface(bmp, NULL, screen, &dst); } SDL_Flip(screen); } return i; } int RunModeTests(SDL_Surface * screen) { Uint32 then, now; Uint32 frames; float seconds; int i; Uint8 r, g, b; SDL_Surface *bmp, *bmpcc, *tmp; SDL_Event event; while (SDL_PollEvent(&event)) { if (event.type == SDL_KEYDOWN) return 0; } /* First test fills and screen update speed */ printf("Running color fill and fullscreen update test\n"); then = SDL_GetTicks(); frames = 0; for (i = 0; i < 256; ++i) { r = i; g = 0; b = 0; SDL_FillRect(screen, NULL, SDL_MapRGB(screen->format, r, g, b)); SDL_Flip(screen); ++frames; } for (i = 0; i < 256; ++i) { r = 0; g = i; b = 0; SDL_FillRect(screen, NULL, SDL_MapRGB(screen->format, r, g, b)); SDL_Flip(screen); ++frames; } for (i = 0; i < 256; ++i) { r = 0; g = 0; b = i; SDL_FillRect(screen, NULL, SDL_MapRGB(screen->format, r, g, b)); SDL_Flip(screen); ++frames; } now = SDL_GetTicks(); seconds = (float) (now - then) / 1000.0f; if (seconds > 0.0f) { printf("%d fills and flips in %2.2f seconds, %2.2f FPS\n", frames, seconds, (float) frames / seconds); } else { printf("%d fills and flips in zero seconds!n", frames); } /* clear the screen after fill test */ SDL_FillRect(screen, NULL, SDL_MapRGB(screen->format, 0, 0, 0)); SDL_Flip(screen); while (SDL_PollEvent(&event)) { if (event.type == SDL_KEYDOWN) return 0; } /* run the generic blit test */ bmp = SDL_LoadBMP("sample.bmp"); if (!bmp) { printf("Couldn't load sample.bmp: %s\n", SDL_GetError()); return 0; } printf("Running freshly loaded blit test: %dx%d at %d bpp, flags: ", bmp->w, bmp->h, bmp->format->BitsPerPixel); PrintFlags(bmp->flags); printf("\n"); then = SDL_GetTicks(); frames = RunBlitTests(screen, bmp, NUM_BLITS); now = SDL_GetTicks(); seconds = (float) (now - then) / 1000.0f; if (seconds > 0.0f) { printf("%d blits / %d updates in %2.2f seconds, %2.2f FPS\n", NUM_BLITS * frames, frames, seconds, (float) frames / seconds); } else { printf("%d blits / %d updates in zero seconds!\n", NUM_BLITS * frames, frames); } /* clear the screen after blit test */ SDL_FillRect(screen, NULL, SDL_MapRGB(screen->format, 0, 0, 0)); SDL_Flip(screen); while (SDL_PollEvent(&event)) { if (event.type == SDL_KEYDOWN) return 0; } /* run the colorkeyed blit test */ bmpcc = SDL_LoadBMP("sample.bmp"); if (!bmpcc) { printf("Couldn't load sample.bmp: %s\n", SDL_GetError()); return 0; } printf("Running freshly loaded cc blit test: %dx%d at %d bpp, flags: ", bmpcc->w, bmpcc->h, bmpcc->format->BitsPerPixel); SDL_SetColorKey(bmpcc, SDL_SRCCOLORKEY | SDL_RLEACCEL, *(Uint8 *) bmpcc->pixels); PrintFlags(bmpcc->flags); printf("\n"); then = SDL_GetTicks(); frames = RunBlitTests(screen, bmpcc, NUM_BLITS); now = SDL_GetTicks(); seconds = (float) (now - then) / 1000.0f; if (seconds > 0.0f) { printf("%d cc blits / %d updates in %2.2f seconds, %2.2f FPS\n", NUM_BLITS * frames, frames, seconds, (float) frames / seconds); } else { printf("%d cc blits / %d updates in zero seconds!\n", NUM_BLITS * frames, frames); } /* clear the screen after cc blit test */ SDL_FillRect(screen, NULL, SDL_MapRGB(screen->format, 0, 0, 0)); SDL_Flip(screen); while (SDL_PollEvent(&event)) { if (event.type == SDL_KEYDOWN) return 0; } /* run the generic blit test */ tmp = bmp; bmp = SDL_DisplayFormat(bmp); SDL_FreeSurface(tmp); if (!bmp) { printf("Couldn't convert sample.bmp: %s\n", SDL_GetError()); return 0; } printf("Running display format blit test: %dx%d at %d bpp, flags: ", bmp->w, bmp->h, bmp->format->BitsPerPixel); PrintFlags(bmp->flags); printf("\n"); then = SDL_GetTicks(); frames = RunBlitTests(screen, bmp, NUM_BLITS); now = SDL_GetTicks(); seconds = (float) (now - then) / 1000.0f; if (seconds > 0.0f) { printf("%d blits / %d updates in %2.2f seconds, %2.2f FPS\n", NUM_BLITS * frames, frames, seconds, (float) frames / seconds); } else { printf("%d blits / %d updates in zero seconds!\n", NUM_BLITS * frames, frames); } /* clear the screen after blit test */ SDL_FillRect(screen, NULL, SDL_MapRGB(screen->format, 0, 0, 0)); SDL_Flip(screen); while (SDL_PollEvent(&event)) { if (event.type == SDL_KEYDOWN) return 0; } /* run the colorkeyed blit test */ tmp = bmpcc; bmpcc = SDL_DisplayFormat(bmpcc); SDL_FreeSurface(tmp); if (!bmpcc) { printf("Couldn't convert sample.bmp: %s\n", SDL_GetError()); return 0; } printf("Running display format cc blit test: %dx%d at %d bpp, flags: ", bmpcc->w, bmpcc->h, bmpcc->format->BitsPerPixel); PrintFlags(bmpcc->flags); printf("\n"); then = SDL_GetTicks(); frames = RunBlitTests(screen, bmpcc, NUM_BLITS); now = SDL_GetTicks(); seconds = (float) (now - then) / 1000.0f; if (seconds > 0.0f) { printf("%d cc blits / %d updates in %2.2f seconds, %2.2f FPS\n", NUM_BLITS * frames, frames, seconds, (float) frames / seconds); } else { printf("%d cc blits / %d updates in zero seconds!\n", NUM_BLITS * frames, frames); } /* clear the screen after cc blit test */ SDL_FillRect(screen, NULL, SDL_MapRGB(screen->format, 0, 0, 0)); SDL_Flip(screen); while (SDL_PollEvent(&event)) { if (event.type == SDL_KEYDOWN) return 0; } /* run the alpha blit test only if screen bpp>8 */ if (bmp->format->BitsPerPixel > 8) { SDL_FreeSurface(bmp); bmp = SDL_LoadBMP("sample.bmp"); SDL_SetAlpha(bmp, SDL_SRCALPHA, 85); /* 85 - 33% alpha */ tmp = bmp; bmp = SDL_DisplayFormat(bmp); SDL_FreeSurface(tmp); if (!bmp) { printf("Couldn't convert sample.bmp: %s\n", SDL_GetError()); return 0; } printf ("Running display format alpha blit test: %dx%d at %d bpp, flags: ", bmp->w, bmp->h, bmp->format->BitsPerPixel); PrintFlags(bmp->flags); printf("\n"); then = SDL_GetTicks(); frames = RunBlitTests(screen, bmp, NUM_BLITS); now = SDL_GetTicks(); seconds = (float) (now - then) / 1000.0f; if (seconds > 0.0f) { printf ("%d alpha blits / %d updates in %2.2f seconds, %2.2f FPS\n", NUM_BLITS * frames, frames, seconds, (float) frames / seconds); } else { printf("%d alpha blits / %d updates in zero seconds!\n", NUM_BLITS * frames, frames); } } /* clear the screen after alpha blit test */ SDL_FillRect(screen, NULL, SDL_MapRGB(screen->format, 0, 0, 0)); SDL_Flip(screen); while (SDL_PollEvent(&event)) { if (event.type == SDL_KEYDOWN) return 0; } /* run the cc+alpha blit test only if screen bpp>8 */ if (bmp->format->BitsPerPixel > 8) { SDL_FreeSurface(bmpcc); bmpcc = SDL_LoadBMP("sample.bmp"); SDL_SetAlpha(bmpcc, SDL_SRCALPHA, 85); /* 85 - 33% alpha */ SDL_SetColorKey(bmpcc, SDL_SRCCOLORKEY | SDL_RLEACCEL, *(Uint8 *) bmpcc->pixels); tmp = bmpcc; bmpcc = SDL_DisplayFormat(bmpcc); SDL_FreeSurface(tmp); if (!bmpcc) { printf("Couldn't convert sample.bmp: %s\n", SDL_GetError()); return 0; } printf ("Running display format cc+alpha blit test: %dx%d at %d bpp, flags: ", bmpcc->w, bmpcc->h, bmpcc->format->BitsPerPixel); PrintFlags(bmpcc->flags); printf("\n"); then = SDL_GetTicks(); frames = RunBlitTests(screen, bmpcc, NUM_BLITS); now = SDL_GetTicks(); seconds = (float) (now - then) / 1000.0f; if (seconds > 0.0f) { printf ("%d cc+alpha blits / %d updates in %2.2f seconds, %2.2f FPS\n", NUM_BLITS * frames, frames, seconds, (float) frames / seconds); } else { printf("%d cc+alpha blits / %d updates in zero seconds!\n", NUM_BLITS * frames, frames); } } SDL_FreeSurface(bmpcc); SDL_FreeSurface(bmp); while (SDL_PollEvent(&event)) { if (event.type == SDL_KEYDOWN) return 0; } return 1; } void RunVideoTests() { static const struct { int w, h, bpp; } mode_list[] = { { 640, 480, 8}, { 640, 480, 16}, { 640, 480, 32}, { 800, 600, 8}, { 800, 600, 16}, { 800, 600, 32}, { 1024, 768, 8}, { 1024, 768, 16}, { 1024, 768, 32} }; static const Uint32 flags[] = { (SDL_SWSURFACE), (SDL_SWSURFACE | SDL_FULLSCREEN), (SDL_HWSURFACE | SDL_FULLSCREEN), (SDL_HWSURFACE | SDL_FULLSCREEN | SDL_DOUBLEBUF) }; int i, j; SDL_Surface *screen; /* Test out several different video mode combinations */ SDL_WM_SetCaption("SDL Video Benchmark", "vidtest"); SDL_ShowCursor(0); for (i = 0; i < SDL_TABLESIZE(mode_list); ++i) { for (j = 0; j < SDL_TABLESIZE(flags); ++j) { printf("===================================\n"); printf("Setting video mode: %dx%d at %d bpp, flags: ", mode_list[i].w, mode_list[i].h, mode_list[i].bpp); PrintFlags(flags[j]); printf("\n"); screen = SDL_SetVideoMode(mode_list[i].w, mode_list[i].h, mode_list[i].bpp, flags[j]); if (!screen) { printf("Setting video mode failed: %s\n", SDL_GetError()); continue; } if ((screen->flags & FLAG_MASK) != flags[j]) { printf("Flags didn't match: "); PrintFlags(screen->flags); printf("\n"); continue; } if (!RunModeTests(screen)) { return; } } } } #endif int main(int argc, char *argv[]) { const SDL_VideoInfo *info; int i, d, n; const char *driver; SDL_DisplayMode mode; int bpp; Uint32 Rmask, Gmask, Bmask, Amask; int nmodes; /* Print available video drivers */ n = SDL_GetNumVideoDrivers(); if (n == 0) { printf("No built-in video drivers\n"); } else { printf("Built-in video drivers:"); for (i = 0; i < n; ++i) { if (i > 0) { printf(","); } printf(" %s", SDL_GetVideoDriver(i)); } printf("\n"); } if (SDL_Init(SDL_INIT_VIDEO) < 0) { fprintf(stderr, "Couldn't initialize SDL: %s\n", SDL_GetError()); exit(1); } driver = SDL_GetCurrentVideoDriver(); if (driver) { printf("Video driver: %s\n", driver); } printf("Number of displays: %d\n", SDL_GetNumVideoDisplays()); for (d = 0; d < SDL_GetNumVideoDisplays(); ++d) { SDL_Rect bounds; SDL_GetDisplayBounds(d, &bounds); printf("Display %d: %dx%d at %d,%d\n", d, bounds.w, bounds.h, bounds.x, bounds.y); SDL_SelectVideoDisplay(d); SDL_GetDesktopDisplayMode(&mode); SDL_PixelFormatEnumToMasks(mode.format, &bpp, &Rmask, &Gmask, &Bmask, &Amask); printf(" Current mode: %dx%d@%dHz, %d bits-per-pixel\n", mode.w, mode.h, mode.refresh_rate, bpp); if (Rmask || Gmask || Bmask) { printf(" Red Mask = 0x%.8x\n", Rmask); printf(" Green Mask = 0x%.8x\n", Gmask); printf(" Blue Mask = 0x%.8x\n", Bmask); if (Amask) printf(" Alpha Mask = 0x%.8x\n", Amask); } /* Print available fullscreen video modes */ nmodes = SDL_GetNumDisplayModes(); if (nmodes == 0) { printf("No available fullscreen video modes\n"); } else { printf(" Fullscreen video modes:\n"); for (i = 0; i < nmodes; ++i) { SDL_GetDisplayMode(i, &mode); SDL_PixelFormatEnumToMasks(mode.format, &bpp, &Rmask, &Gmask, &Bmask, &Amask); printf(" Mode %d: %dx%d@%dHz, %d bits-per-pixel\n", i, mode.w, mode.h, mode.refresh_rate, bpp); if (Rmask || Gmask || Bmask) { printf(" Red Mask = 0x%.8x\n", Rmask); printf(" Green Mask = 0x%.8x\n", Gmask); printf(" Blue Mask = 0x%.8x\n", Bmask); if (Amask) printf(" Alpha Mask = 0x%.8x\n", Amask); } } } } info = SDL_GetVideoInfo(); if (info->wm_available) { printf("A window manager is available\n"); } if (info->hw_available) { printf("Hardware surfaces are available (%dK video memory)\n", info->video_mem); } if (info->blit_hw) { printf("Copy blits between hardware surfaces are accelerated\n"); } if (info->blit_hw_CC) { printf("Colorkey blits between hardware surfaces are accelerated\n"); } if (info->blit_hw_A) { printf("Alpha blits between hardware surfaces are accelerated\n"); } if (info->blit_sw) { printf ("Copy blits from software surfaces to hardware surfaces are accelerated\n"); } if (info->blit_sw_CC) { printf ("Colorkey blits from software surfaces to hardware surfaces are accelerated\n"); } if (info->blit_sw_A) { printf ("Alpha blits from software surfaces to hardware surfaces are accelerated\n"); } if (info->blit_fill) { printf("Color fills on hardware surfaces are accelerated\n"); } printf("Current resolution: %dx%d\n", info->current_w, info->current_h); #if 0 if (argv[1] && (strcmp(argv[1], "-benchmark") == 0)) { RunVideoTests(); } #endif SDL_Quit(); return (0); }