Mercurial > sdl-ios-xcode
view src/cdrom/win32/SDL_syscdrom.c @ 4194:05c9e942cc46 SDL-1.2
Preliminary work to support the Milan video bios, that will gives access to 24 or 32 bpp modes. I used the svga driver as model to dynamically build video modes list.
author | Patrice Mandin <patmandin@gmail.com> |
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date | Sat, 19 Sep 2009 12:46:00 +0000 |
parents | a1b03ba2fcd0 |
children |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2009 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Sam Lantinga slouken@libsdl.org */ #include "SDL_config.h" #ifdef SDL_CDROM_WIN32 /* Functions for system-level CD-ROM audio control */ #define WIN32_LEAN_AND_MEAN #include <windows.h> #include <mmsystem.h> #include "SDL_cdrom.h" #include "../SDL_syscdrom.h" /* This really broken?? */ #define BROKEN_MCI_PAUSE /* Pausing actually stops play -- Doh! */ /* The maximum number of CD-ROM drives we'll detect (Don't change!) */ #define MAX_DRIVES 26 /* A list of available CD-ROM drives */ static char *SDL_cdlist[MAX_DRIVES]; static MCIDEVICEID SDL_mciID[MAX_DRIVES]; #ifdef BROKEN_MCI_PAUSE static int SDL_paused[MAX_DRIVES]; #endif static int SDL_CD_end_position; /* The system-dependent CD control functions */ static const char *SDL_SYS_CDName(int drive); static int SDL_SYS_CDOpen(int drive); static int SDL_SYS_CDGetTOC(SDL_CD *cdrom); static CDstatus SDL_SYS_CDStatus(SDL_CD *cdrom, int *position); static int SDL_SYS_CDPlay(SDL_CD *cdrom, int start, int length); static int SDL_SYS_CDPause(SDL_CD *cdrom); static int SDL_SYS_CDResume(SDL_CD *cdrom); static int SDL_SYS_CDStop(SDL_CD *cdrom); static int SDL_SYS_CDEject(SDL_CD *cdrom); static void SDL_SYS_CDClose(SDL_CD *cdrom); /* Add a CD-ROM drive to our list of valid drives */ static void AddDrive(char *drive) { int i; if ( SDL_numcds < MAX_DRIVES ) { /* Add this drive to our list */ i = SDL_numcds; SDL_cdlist[i] = SDL_strdup(drive); if ( SDL_cdlist[i] == NULL ) { SDL_OutOfMemory(); return; } ++SDL_numcds; #ifdef CDROM_DEBUG fprintf(stderr, "Added CD-ROM drive: %s\n", drive); #endif } } int SDL_SYS_CDInit(void) { /* checklist: Drive 'A' - 'Z' */ int i; char drive[4]; /* Fill in our driver capabilities */ SDL_CDcaps.Name = SDL_SYS_CDName; SDL_CDcaps.Open = SDL_SYS_CDOpen; SDL_CDcaps.GetTOC = SDL_SYS_CDGetTOC; SDL_CDcaps.Status = SDL_SYS_CDStatus; SDL_CDcaps.Play = SDL_SYS_CDPlay; SDL_CDcaps.Pause = SDL_SYS_CDPause; SDL_CDcaps.Resume = SDL_SYS_CDResume; SDL_CDcaps.Stop = SDL_SYS_CDStop; SDL_CDcaps.Eject = SDL_SYS_CDEject; SDL_CDcaps.Close = SDL_SYS_CDClose; /* Scan the system for CD-ROM drives */ for ( i='A'; i<='Z'; ++i ) { SDL_snprintf(drive, SDL_arraysize(drive), "%c:\\", i); if ( GetDriveType(drive) == DRIVE_CDROM ) { AddDrive(drive); } } SDL_memset(SDL_mciID, 0, sizeof(SDL_mciID)); return(0); } /* General ioctl() CD-ROM command function */ static int SDL_SYS_CDioctl(int id, UINT msg, DWORD flags, void *arg) { MCIERROR mci_error; mci_error = mciSendCommand(SDL_mciID[id], msg, flags, (DWORD_PTR)arg); if ( mci_error ) { char error[256]; mciGetErrorString(mci_error, error, 256); SDL_SetError("mciSendCommand() error: %s", error); } return(!mci_error ? 0 : -1); } static const char *SDL_SYS_CDName(int drive) { return(SDL_cdlist[drive]); } static int SDL_SYS_CDOpen(int drive) { MCI_OPEN_PARMS mci_open; MCI_SET_PARMS mci_set; char device[3]; DWORD flags; /* Open the requested device */ mci_open.lpstrDeviceType = (LPCSTR) MCI_DEVTYPE_CD_AUDIO; device[0] = *SDL_cdlist[drive]; device[1] = ':'; device[2] = '\0'; mci_open.lpstrElementName = device; flags = (MCI_OPEN_TYPE|MCI_OPEN_SHAREABLE|MCI_OPEN_TYPE_ID|MCI_OPEN_ELEMENT); if ( SDL_SYS_CDioctl(0, MCI_OPEN, flags, &mci_open) < 0 ) { flags &= ~MCI_OPEN_SHAREABLE; if ( SDL_SYS_CDioctl(0, MCI_OPEN, flags, &mci_open) < 0 ) { return(-1); } } SDL_mciID[drive] = mci_open.wDeviceID; /* Set the minute-second-frame time format */ mci_set.dwTimeFormat = MCI_FORMAT_MSF; SDL_SYS_CDioctl(drive, MCI_SET, MCI_SET_TIME_FORMAT, &mci_set); #ifdef BROKEN_MCI_PAUSE SDL_paused[drive] = 0; #endif return(drive); } static int SDL_SYS_CDGetTOC(SDL_CD *cdrom) { MCI_STATUS_PARMS mci_status; int i, okay; DWORD flags; okay = 0; mci_status.dwItem = MCI_STATUS_NUMBER_OF_TRACKS; flags = MCI_STATUS_ITEM | MCI_WAIT; if ( SDL_SYS_CDioctl(cdrom->id, MCI_STATUS, flags, &mci_status) == 0 ) { cdrom->numtracks = mci_status.dwReturn; if ( cdrom->numtracks > SDL_MAX_TRACKS ) { cdrom->numtracks = SDL_MAX_TRACKS; } /* Read all the track TOC entries */ flags = MCI_STATUS_ITEM | MCI_TRACK | MCI_WAIT; for ( i=0; i<cdrom->numtracks; ++i ) { cdrom->track[i].id = i+1; mci_status.dwTrack = cdrom->track[i].id; #ifdef MCI_CDA_STATUS_TYPE_TRACK mci_status.dwItem = MCI_CDA_STATUS_TYPE_TRACK; if ( SDL_SYS_CDioctl(cdrom->id, MCI_STATUS, flags, &mci_status) < 0 ) { break; } if ( mci_status.dwReturn == MCI_CDA_TRACK_AUDIO ) { cdrom->track[i].type = SDL_AUDIO_TRACK; } else { cdrom->track[i].type = SDL_DATA_TRACK; } #else cdrom->track[i].type = SDL_AUDIO_TRACK; #endif mci_status.dwItem = MCI_STATUS_POSITION; if ( SDL_SYS_CDioctl(cdrom->id, MCI_STATUS, flags, &mci_status) < 0 ) { break; } cdrom->track[i].offset = MSF_TO_FRAMES( MCI_MSF_MINUTE(mci_status.dwReturn), MCI_MSF_SECOND(mci_status.dwReturn), MCI_MSF_FRAME(mci_status.dwReturn)); cdrom->track[i].length = 0; if ( i > 0 ) { cdrom->track[i-1].length = cdrom->track[i].offset- cdrom->track[i-1].offset; } } if ( i == cdrom->numtracks ) { mci_status.dwTrack = cdrom->track[i - 1].id; mci_status.dwItem = MCI_STATUS_LENGTH; if ( SDL_SYS_CDioctl(cdrom->id, MCI_STATUS, flags, &mci_status) == 0 ) { cdrom->track[i - 1].length = MSF_TO_FRAMES( MCI_MSF_MINUTE(mci_status.dwReturn), MCI_MSF_SECOND(mci_status.dwReturn), MCI_MSF_FRAME(mci_status.dwReturn)); /* compute lead-out offset */ cdrom->track[i].offset = cdrom->track[i - 1].offset + cdrom->track[i - 1].length; cdrom->track[i].length = 0; okay = 1; } } } return(okay ? 0 : -1); } /* Get CD-ROM status */ static CDstatus SDL_SYS_CDStatus(SDL_CD *cdrom, int *position) { CDstatus status; MCI_STATUS_PARMS mci_status; DWORD flags; flags = MCI_STATUS_ITEM | MCI_WAIT; mci_status.dwItem = MCI_STATUS_MODE; if ( SDL_SYS_CDioctl(cdrom->id, MCI_STATUS, flags, &mci_status) < 0 ) { status = CD_ERROR; } else { switch (mci_status.dwReturn) { case MCI_MODE_NOT_READY: case MCI_MODE_OPEN: status = CD_TRAYEMPTY; break; case MCI_MODE_STOP: #ifdef BROKEN_MCI_PAUSE if ( SDL_paused[cdrom->id] ) { status = CD_PAUSED; } else { status = CD_STOPPED; } #else status = CD_STOPPED; #endif /* BROKEN_MCI_PAUSE */ break; case MCI_MODE_PLAY: #ifdef BROKEN_MCI_PAUSE if ( SDL_paused[cdrom->id] ) { status = CD_PAUSED; } else { status = CD_PLAYING; } #else status = CD_PLAYING; #endif /* BROKEN_MCI_PAUSE */ break; case MCI_MODE_PAUSE: status = CD_PAUSED; break; default: status = CD_ERROR; break; } } if ( position ) { if ( status == CD_PLAYING || (status == CD_PAUSED) ) { mci_status.dwItem = MCI_STATUS_POSITION; if ( SDL_SYS_CDioctl(cdrom->id, MCI_STATUS, flags, &mci_status) == 0 ) { *position = MSF_TO_FRAMES( MCI_MSF_MINUTE(mci_status.dwReturn), MCI_MSF_SECOND(mci_status.dwReturn), MCI_MSF_FRAME(mci_status.dwReturn)); } else { *position = 0; } } else { *position = 0; } } return(status); } /* Start play */ static int SDL_SYS_CDPlay(SDL_CD *cdrom, int start, int length) { MCI_PLAY_PARMS mci_play; int m, s, f; DWORD flags; flags = MCI_FROM | MCI_TO | MCI_NOTIFY; mci_play.dwCallback = 0; FRAMES_TO_MSF(start, &m, &s, &f); mci_play.dwFrom = MCI_MAKE_MSF(m, s, f); FRAMES_TO_MSF(start+length, &m, &s, &f); mci_play.dwTo = MCI_MAKE_MSF(m, s, f); SDL_CD_end_position = mci_play.dwTo; return(SDL_SYS_CDioctl(cdrom->id, MCI_PLAY, flags, &mci_play)); } /* Pause play */ static int SDL_SYS_CDPause(SDL_CD *cdrom) { #ifdef BROKEN_MCI_PAUSE SDL_paused[cdrom->id] = 1; #endif return(SDL_SYS_CDioctl(cdrom->id, MCI_PAUSE, MCI_WAIT, NULL)); } /* Resume play */ static int SDL_SYS_CDResume(SDL_CD *cdrom) { #ifdef BROKEN_MCI_PAUSE MCI_STATUS_PARMS mci_status; int okay; int flags; okay = 0; /* Play from the current play position to the end position set earlier */ flags = MCI_STATUS_ITEM | MCI_WAIT; mci_status.dwItem = MCI_STATUS_POSITION; if ( SDL_SYS_CDioctl(cdrom->id, MCI_STATUS, flags, &mci_status) == 0 ) { MCI_PLAY_PARMS mci_play; flags = MCI_FROM | MCI_TO | MCI_NOTIFY; mci_play.dwCallback = 0; mci_play.dwFrom = mci_status.dwReturn; mci_play.dwTo = SDL_CD_end_position; if (SDL_SYS_CDioctl(cdrom->id,MCI_PLAY,flags,&mci_play) == 0) { okay = 1; SDL_paused[cdrom->id] = 0; } } return(okay ? 0 : -1); #else return(SDL_SYS_CDioctl(cdrom->id, MCI_RESUME, MCI_WAIT, NULL)); #endif /* BROKEN_MCI_PAUSE */ } /* Stop play */ static int SDL_SYS_CDStop(SDL_CD *cdrom) { return(SDL_SYS_CDioctl(cdrom->id, MCI_STOP, MCI_WAIT, NULL)); } /* Eject the CD-ROM */ static int SDL_SYS_CDEject(SDL_CD *cdrom) { return(SDL_SYS_CDioctl(cdrom->id, MCI_SET, MCI_SET_DOOR_OPEN, NULL)); } /* Close the CD-ROM handle */ static void SDL_SYS_CDClose(SDL_CD *cdrom) { SDL_SYS_CDioctl(cdrom->id, MCI_CLOSE, MCI_WAIT, NULL); } void SDL_SYS_CDQuit(void) { int i; if ( SDL_numcds > 0 ) { for ( i=0; i<SDL_numcds; ++i ) { SDL_free(SDL_cdlist[i]); SDL_cdlist[i] = NULL; } SDL_numcds = 0; } } #endif /* SDL_CDROM_WIN32 */