/* | |
* DOSMID - a low-requirement MIDI player for DOS | |
* | |
* Copyright (c) 2014,2015, Mateusz Viste | |
* All rights reserved. | |
* | |
* Redistribution and use in source and binary forms, with or without | |
* modification, are permitted provided that the following conditions are met: | |
* | |
* 1. Redistributions of source code must retain the above copyright notice, | |
* this list of conditions and the following disclaimer. | |
* | |
* 2. Redistributions in binary form must reproduce the above copyright | |
* notice, this list of conditions and the following disclaimer in the | |
* documentation and/or other materials provided with the distribution. | |
* | |
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" | |
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE | |
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE | |
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE | |
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR | |
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF | |
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS | |
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN | |
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) | |
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE | |
* POSSIBILITY OF SUCH DAMAGE. | |
*/ | |
#include <dos.h> | |
#include <conio.h> /* kbhit() */ | |
#include <stdio.h> /* printf(), puts(), fopen()... */ | |
#include <limits.h> /* ULONG_MAX */ | |
#include <stdlib.h> /* malloc(), free(), rand() */ | |
#include <string.h> /* strcmp() */ | |
#include <time.h> | |
#include "mem.h" | |
#include "midi.h" | |
#include "mpu401.h" | |
#include "timer.h" | |
#include "ui.h" | |
#define PVER "0.6" | |
#define PDATE "2014-2015" | |
#define MAXTRACKS 64 | |
#define EVENTSCACHESIZE 64 /* *must* be a power of 2 !!! */ | |
#define EVENTSCACHEMASK 63 /* used by the circular events buffer */ | |
enum playactions { | |
ACTION_NONE = 0, | |
ACTION_NEXT = 1, | |
ACTION_PREV = 2, | |
ACTION_ERR_SOFT = 3, | |
ACTION_ERR_HARD = 4, | |
ACTION_EXIT = 64 | |
}; | |
struct clioptions { | |
int memmode; /* type of memory to use: MEM_XMS or MEM_MALLOC */ | |
int workmem; /* amount of work memory to allocate, in KiBs */ | |
int delay; | |
int mpuport; | |
int nopowersave; | |
int dontstop; | |
char *midifile; /* MIDI filename to play */ | |
char *playlist; /* the playlist to read files from */ | |
FILE *logfd; /* an open file descriptor to the debug log file */ | |
}; | |
/* copies the base name of a file (ie without directory path) into a string */ | |
static void filename2basename(char *fromname, char *tobasename, char *todirname, int maxlen) { | |
int x, x2, firstchar = 0; | |
/* find the first character of the base name */ | |
for (x = 0; fromname[x] != 0; x++) { | |
switch (fromname[x]) { | |
case '/': | |
case '\\': | |
case ':': | |
firstchar = x + 1; | |
break; | |
} | |
} | |
/* copy basename to tobasename */ | |
if (tobasename != NULL) { | |
x2 = 0; | |
for (x = firstchar; fromname[x] != 0; x++) { | |
if ((fromname[x] == 0) || (x2 >= maxlen)) break; | |
tobasename[x2++] = fromname[x]; | |
} | |
tobasename[x2] = 0; | |
} | |
/* copy dirname to todirname */ | |
if (todirname != NULL) { | |
x2 = 0; | |
for (x = 0; x < firstchar; x++) { | |
if ((fromname[x] == 0) || (x2 >= maxlen)) break; | |
todirname[x2++] = fromname[x]; | |
} | |
todirname[x2] = 0; | |
} | |
} | |
/* checks whether str starts with start or not. returns 0 if so, non-zero otherwise */ | |
static int stringstartswith(char *str, char *start) { | |
if ((str == NULL) || (start == NULL)) return(-1); | |
while (*start != 0) { | |
if (*start != *str) return(-1); | |
str++; | |
start++; | |
} | |
return(0); | |
} | |
static int hexchar2int(char c) { | |
if ((c >= '0') && (c <= '9')) return(c - '0'); | |
if ((c >= 'a') && (c <= 'f')) return(c - 'a'); | |
if ((c >= 'A') && (c <= 'F')) return(c - 'A'); | |
return(-1); | |
} | |
static void noteon(int mpuport, int chan, int n, int velocity) { | |
mpu401_waitwrite(mpuport); /* Wait for port ready */ | |
outp(mpuport, 0x90 | chan); /* Send note ON code on selected channel */ | |
mpu401_waitwrite(mpuport); /* Wait for port ready */ | |
outp(mpuport, n); /* Send note Number to turn ON */ | |
mpu401_waitwrite(mpuport); /* Wait for port ready */ | |
outp(mpuport, velocity); /* Send velocity */ | |
} | |
static void noteoff(int mpuport, int chan, int n) { | |
mpu401_waitwrite(mpuport); /* Wait for port ready */ | |
outp(mpuport, 0x80 | chan); /* Send note OFF code on selected channel */ | |
mpu401_waitwrite(mpuport); /* Wait for port ready */ | |
outp(mpuport, n); /* Send note number to turn OFF */ | |
mpu401_waitwrite(mpuport); /* Wait for port ready */ | |
outp(mpuport, 64); /* Send velocity */ | |
} | |
static void rawevent(int mpuport, unsigned char far *rawdata, int rawlen) { | |
int i; | |
for (i = 0; i < rawlen; i++) { | |
mpu401_waitwrite(mpuport); /* Wait for port ready */ | |
outp(mpuport, rawdata[i]); /* Send the raw byte over the wire */ | |
} | |
} | |
static void midi_reinit(int mpuport) { | |
unsigned char buff[4] = {0, 0, 0, 0}; | |
unsigned char far *buffptr; | |
buffptr = buff; | |
/* iterate on MIDI channels and send messages */ | |
for (buff[0] = 0xB0; buff[0] <= 0xBF; buff[0] += 1) { | |
/* Send "all notes off" (second byte is zero) */ | |
buff[1] = 0x7B; | |
rawevent(mpuport, buffptr, 3); | |
/* Send "all sounds off" (second byte is zero) */ | |
buff[1] = 0x78; | |
rawevent(mpuport, buffptr, 3); | |
/* "all controllers off" */ | |
buff[1] = 0x79; | |
rawevent(mpuport, buffptr, 3); | |
} | |
} | |
/* high resolution sleeping routine */ | |
static void udelay(unsigned long us) { | |
unsigned long t1, t2; | |
timer_read(&t1); | |
for (;;) { | |
timer_read(&t2); | |
if (t2 < t1) { /* detect timer wraparound */ | |
break; | |
} else if (t2 - t1 >= us) { | |
break; | |
} | |
} | |
} | |
/* loads the file's extension into ext (limited to limit characters) */ | |
static void getfileext(char *ext, char *filename, int limit) { | |
int x; | |
char *extptr = NULL; | |
ext[0] = 0; | |
/* find the last dot first */ | |
while (*filename != 0) { | |
if (*filename == '.') { | |
extptr = filename + 1; | |
} | |
filename++; | |
} | |
if (extptr == NULL) return; | |
/* copy the extension to ext, up to limit bytes */ | |
limit--; /* make room for the null char */ | |
for (x = 0; extptr[x] != 0; x++) { | |
if (x >= limit) break; | |
/* make sure the extension is all-lowercase */ | |
if ((extptr[x] >= 'A') && (extptr[x] <= 'Z')) { | |
ext[x] = extptr[x] + 32; | |
} else { | |
ext[x] = extptr[x]; | |
} | |
} | |
ext[x] = 0; /* terminate the ext string */ | |
} | |
/* parse command line params and fills the params struct accordingly. returns | |
NULL on sucess, or a pointer to an error string otherwise. */ | |
static char *parseargv(int argc, char **argv, struct clioptions *params) { | |
int i; | |
/* first load defaults */ | |
params->midifile = NULL; | |
params->playlist = NULL; | |
params->memmode = MEM_XMS; | |
params->workmem = 16384; /* try to use 16M of XMS memory by default */ | |
params->delay = 1; | |
params->logfd = NULL; | |
params->nopowersave = 0; | |
params->dontstop = 0; | |
/* if no params at all, don't waste time */ | |
if (argc == 0) return(""); | |
/* now read params */ | |
for (i = 1; i < argc; i++) { | |
if (strcmp(argv[i], "/noxms") == 0) { | |
params->memmode = MEM_MALLOC; | |
params->workmem = 63; /* using 'normal' malloc, fallback to 63K */ | |
} else if (strcmp(argv[i], "/nodelay") == 0) { | |
params->delay = 0; | |
} else if (strcmp(argv[i], "/fullcpu") == 0) { | |
params->nopowersave = 1; | |
} else if (strcmp(argv[i], "/dontstop") == 0) { | |
params->dontstop = 1; | |
} else if (stringstartswith(argv[i], "/mpu=") == 0) { | |
char *hexstr; | |
hexstr = argv[i] + 5; | |
params->mpuport = 0; | |
while (*hexstr != 0) { | |
int c; | |
c = hexchar2int(*hexstr); | |
if (c < 0) return("Invalid MPU port provided. Example: /mpu=330"); | |
params->mpuport <<= 4; | |
params->mpuport |= c; | |
hexstr++; | |
} | |
if (params->mpuport < 1) return("Invalid MPU port provided. Example: /mpu=330"); | |
} else if (stringstartswith(argv[i], "/log=") == 0) { | |
params->logfd = fopen(argv[i] + 5, "wb"); | |
if (params->logfd == NULL) { | |
return("Failed to open the debug log file."); | |
} | |
} else if ((strcmp(argv[i], "/?") == 0) || (strcmp(argv[i], "/h") == 0) || (strcmp(argv[i], "/help") == 0)) { | |
return(""); | |
} else if ((argv[i][0] != '/') && (params->midifile == NULL) && (params->playlist == NULL)) { | |
char ext[4]; | |
getfileext(ext, argv[i], 4); | |
if (strcmp(ext, "m3u") == 0) { | |
params->playlist = argv[i]; | |
} else { | |
params->midifile = argv[i]; | |
} | |
} else { | |
return("Unknown option."); | |
} | |
} | |
/* check if at least a MIDI filename have been provided */ | |
if ((params->midifile == NULL) && (params->playlist == NULL)) { | |
return("You have to provide the path to a MIDI file or a playlist to play."); | |
} | |
/* all good */ | |
return(NULL); | |
} | |
static void setchanprog(int mpuport, int chan, int prog) { | |
mpu401_waitwrite(mpuport); /* Wait for port ready */ | |
outp(mpuport, 0xC0 | chan); /* Send channel */ | |
mpu401_waitwrite(mpuport); /* Wait for port ready */ | |
outp(mpuport, prog); /* Send patch id */ | |
} | |
/* computes the time elapsed since the song started (in secs). Returns 0 if | |
* elapsed time didn't changed since last time, non-zero otherwise */ | |
static int compute_elapsed_time(unsigned long starttime, unsigned long *elapsed) { | |
unsigned long curtime, res; | |
timer_read(&curtime); | |
if (curtime < starttime) { /* wraparound detected */ | |
res = (ULONG_MAX - starttime) + curtime; | |
} else { | |
res = curtime - starttime; | |
} | |
res /= 1000000lu; /* microseconds to seconds */ | |
if (res == *elapsed) return(0); | |
*elapsed = res; | |
return(1); | |
} | |
/* check the event cache for a given event */ | |
static struct midi_event_t *getnexteventfromcache(struct midi_event_t *eventscache, long trackpos, int delay) { | |
static unsigned int itemsincache = 0; | |
static unsigned int curcachepos = 0; | |
struct midi_event_t *res = NULL; | |
long nextevent; | |
/* if we have available cache */ | |
if (itemsincache > 0) { | |
curcachepos++; | |
curcachepos &= EVENTSCACHEMASK; | |
itemsincache--; | |
res = &eventscache[curcachepos]; | |
/* if we have some free time, refill the cache proactively */ | |
if (res->deltatime > 0) { | |
int nextslot, pullres; | |
/* sleep 2ms after a MIDI OUT write, and before accessing XMS. | |
This is especially important for SoundBlaster "AWE" cards with the | |
AWEUTIL TSR midi emulation enabled, without this AWEUTIL crashes. */ | |
if (delay != 0) udelay(2000); | |
nextslot = curcachepos + itemsincache; | |
nextevent = eventscache[nextslot & EVENTSCACHEMASK].next; | |
while ((itemsincache < EVENTSCACHESIZE - 1) && (nextevent >= 0)) { | |
nextslot++; | |
nextslot &= EVENTSCACHEMASK; | |
pullres = pullevent(nextevent, &eventscache[nextslot]); | |
if (pullres != 0) { | |
printf("pullevent() ERROR: %u (eventid = %ld)\n", pullres, trackpos); | |
return(NULL); | |
} | |
nextevent = eventscache[nextslot].next; | |
itemsincache++; | |
} | |
} | |
} else { /* need to refill the cache NOW */ | |
int refillcount, pullres; | |
/* sleep 2ms after a MIDI OUT write, and before accessing XMS. | |
this is especially important for SoundBlaster "AWE" cards with the | |
AWEUTIL TSR midi emulation enabled, without this AWEUTIL crashes. */ | |
if (delay != 0) udelay(2000); | |
nextevent = trackpos; | |
curcachepos = 0; | |
for (refillcount = 0; refillcount < EVENTSCACHESIZE; refillcount++) { | |
pullres = pullevent(nextevent, &eventscache[refillcount]); | |
if (pullres != 0) { | |
printf("pullevent() ERROR: %u (eventid = %ld)\n", pullres, trackpos); | |
return(NULL); | |
} | |
nextevent = eventscache[refillcount].next; | |
itemsincache++; | |
if (nextevent < 0) break; | |
} | |
itemsincache--; | |
res = eventscache; | |
} | |
return(res); | |
} | |
/* reads the BLASTER variable for MPU port. If not found, fallbacks to 0x330 */ | |
static int preloadmpuport(void) { | |
char *blaster; | |
/* check if a blaster variable is present */ | |
blaster = getenv("BLASTER"); | |
/* if so, read it looking for a 'P' parameter */ | |
if (blaster != NULL) { | |
while ((*blaster != 'P') && (*blaster != 0)) { | |
blaster++; | |
} | |
/* have we found a 'P' param? */ | |
if (*blaster == 'P') { | |
int p = 0; | |
/* read the P param into a variable */ | |
blaster++; | |
while ((*blaster != 0) && (*blaster != ' ')) { | |
int c = hexchar2int(*blaster); | |
blaster++; | |
if (c < 0) { | |
p = -1; | |
break; | |
} | |
p <<= 4; | |
p |= c; | |
} | |
/* if what we have read looks sane, return it */ | |
if (p > 0) return(p); | |
} | |
} | |
/* if nothing else worked, fallback to 0x330 */ | |
return(0x330); | |
} | |
/* reads a position from an M3U file and returns a ptr to it from a static mem */ | |
static char *getnextm3uitem(char *playlist) { | |
static char fnamebuf[256]; | |
char tempstr[256]; | |
long fsize; | |
long pos; | |
int slen; | |
char *ptr; | |
FILE *fd; | |
/* open the playlist and read its size */ | |
fd = fopen(playlist, "rb"); | |
if (fd == NULL) return(NULL); | |
fseek(fd, 0, SEEK_END); | |
fsize = ftell(fd); | |
/* go to a random position */ | |
pos = rand() % (fsize - 2); | |
fseek(fd, pos, SEEK_SET); | |
/* rewind back to nearest \n or 0 position */ | |
while ((pos > 0) && (fgetc(fd) != '\n')) { | |
fseek(fd, -2, SEEK_CUR); | |
pos--; | |
} | |
/* read the string into fnamebuf */ | |
slen = fread(fnamebuf, 1, sizeof(fnamebuf), fd); | |
if (slen > 0) { | |
fnamebuf[slen - 1] = 0; | |
} else { | |
fnamebuf[0] = 0; | |
} | |
/* close the file descriptor */ | |
fclose(fd); | |
/* trim out the first line */ | |
for (ptr = fnamebuf; *ptr != '\r' && *ptr != '\n' && *ptr != 0; ptr++); | |
*ptr = 0; | |
/* if the file is a relative path, then prepend it with the path of the playlist */ | |
if ((fnamebuf[0] == 0) || (fnamebuf[1] != ':')) { | |
strcpy(tempstr, fnamebuf); | |
filename2basename(playlist, NULL, fnamebuf, sizeof(fnamebuf) - 1); | |
strncat(fnamebuf, tempstr, sizeof(fnamebuf) - 1); | |
} | |
/* return the result */ | |
return(fnamebuf); | |
} | |
static enum playactions loadmidifile(struct clioptions *params, struct trackinfodata *trackinfo, long *trackpos) { | |
FILE *fd; | |
struct midi_chunkmap_t *chunkmap; | |
int miditracks; | |
int i; | |
long newtrack; | |
fd = fopen(params->midifile, "rb"); | |
if (fd == NULL) { | |
ui_puterrmsg(params->midifile, "Error: Failed to open the midi file"); | |
return(ACTION_ERR_SOFT); | |
} | |
chunkmap = malloc(sizeof(struct midi_chunkmap_t) * MAXTRACKS); | |
if (chunkmap == NULL) { | |
ui_puterrmsg(params->midifile, "Error: Out of memory"); | |
fclose(fd); | |
return(ACTION_ERR_HARD); | |
} | |
if (midi_readhdr(fd, &(trackinfo->midiformat), &miditracks, &(trackinfo->miditimeunitdiv), chunkmap, MAXTRACKS) != 0) { | |
ui_puterrmsg(params->midifile, "Error: Invalid MIDI file format"); | |
fclose(fd); | |
free(chunkmap); | |
return(ACTION_ERR_SOFT); | |
} | |
if (params->logfd != NULL) fprintf(params->logfd, "LOADED FILE '%s': format=%d tracks=%d timeunitdiv=%u\n", params->midifile, trackinfo->midiformat, miditracks, trackinfo->miditimeunitdiv); | |
if ((trackinfo->midiformat != 0) && (trackinfo->midiformat != 1)) { | |
char errstr[64]; | |
sprintf(errstr, "Error: Unsupported MIDI format (%d)", trackinfo->midiformat); | |
ui_puterrmsg(params->midifile, errstr); | |
fclose(fd); | |
free(chunkmap); | |
return(ACTION_ERR_SOFT); | |
} | |
if (miditracks > MAXTRACKS) { | |
char errstr[64]; | |
sprintf(errstr, "Error: Too many tracks (%d, max: %d)", miditracks, MAXTRACKS); | |
ui_puterrmsg(params->midifile, errstr); | |
fclose(fd); | |
free(chunkmap); | |
return(ACTION_ERR_SOFT); | |
} | |
filename2basename(params->midifile, trackinfo->filename, NULL, UI_FILENAMEMAXLEN); | |
for (i = 0; i < miditracks; i++) { | |
/* is it really a track we got here? */ | |
if (strcmp(chunkmap[i].id, "MTrk") != 0) { | |
char errstr[64]; | |
sprintf(errstr, "Error: Unexpected chunk (expecting mtrk #%d)", i); | |
ui_puterrmsg(params->midifile, errstr); | |
fclose(fd); | |
free(chunkmap); | |
return(ACTION_ERR_SOFT); | |
} | |
if (params->logfd != NULL) fprintf(params->logfd, "LOADING TRACK %d FROM OFFSET 0x%04X\n", i, chunkmap[i].offset); | |
fseek(fd, chunkmap[i].offset, SEEK_SET); | |
if (i == 0) { | |
newtrack = midi_track2events(fd, trackinfo->title, UI_TITLENODES, UI_TITLEMAXLEN, trackinfo->copyright, UI_COPYRIGHTMAXLEN, &(trackinfo->channelsusage), params->logfd); | |
} else { | |
newtrack = midi_track2events(fd, NULL, 0, UI_TITLEMAXLEN, NULL, 0, &(trackinfo->channelsusage), params->logfd); | |
} | |
if (params->logfd != NULL) fprintf(params->logfd, "TRACK %d LOADED -> MERGING NOW\n", i); | |
*trackpos = midi_mergetrack(*trackpos, newtrack, &(trackinfo->totlen), trackinfo->miditimeunitdiv); | |
/* printf("merged track starts with %ld\n", trackpos); */ | |
} | |
fclose(fd); | |
free(chunkmap); | |
return(ACTION_NONE); | |
} | |
/* plays a file. returns 0 on success, non-zero if the program must exit */ | |
static enum playactions playfile(struct clioptions *params, struct trackinfodata *trackinfo, struct midi_event_t *eventscache) { | |
static int volume = 100; /* volume is static because it needs to be retained between songs */ | |
int i; | |
enum playactions exitaction; | |
unsigned long nexteventtime; | |
int refreshflags; | |
long trackpos = -1; | |
unsigned long midiplaybackstart; | |
struct midi_event_t *curevent; | |
unsigned long elticks = 0; | |
/* clear out trackinfo & eventscache data */ | |
memset(trackinfo, 0, sizeof(struct trackinfodata)); | |
memset(eventscache, 0, sizeof(struct midi_event_t)); | |
/* set default params for trackinfo variables */ | |
trackinfo->tempo = 500000l; | |
for (i = 0; i < 16; i++) trackinfo->chanprogs[i] = i; | |
for (i = 0; i < UI_TITLENODES; i++) trackinfo->title[i] = trackinfo->titledat[i]; | |
/* draw the UI a first time, without data yet */ | |
refreshflags = 0xff; | |
sprintf(trackinfo->title[0], "Loading..."); | |
ui_draw(trackinfo, &refreshflags, PVER, params->mpuport, volume); | |
memset(trackinfo->title[0], 0, 16); | |
refreshflags = 0xff; | |
/* if running on a playlist, load next song */ | |
if (params->playlist != NULL) { | |
params->midifile = getnextm3uitem(params->playlist); | |
if (params->midifile == NULL) { | |
ui_puterrmsg(params->playlist, "Error: Failed to fetch an entry from the playlist"); | |
return(ACTION_ERR_SOFT); | |
} | |
} | |
exitaction = loadmidifile(params, trackinfo, &trackpos); | |
if (exitaction != ACTION_NONE) return(exitaction); | |
if (params->logfd != NULL) fputs("RESET MPU-401", params->logfd); | |
if (mpu401_rst(params->mpuport) != 0) { | |
printf("Error: failed to reset the MPU-401 synthesizer via port %03Xh\n", params->mpuport); | |
return(ACTION_ERR_HARD); | |
} | |
if (params->logfd != NULL) fputs("SET UART MODE", params->logfd); | |
mpu401_uart(params->mpuport); | |
midi_reinit(params->mpuport); /* reinit the device */ | |
/* save start time so we can compute elapsed time later */ | |
timer_read(&midiplaybackstart); | |
nexteventtime = midiplaybackstart; | |
while (trackpos >= 0) { | |
/* fetch next event */ | |
curevent = getnexteventfromcache(eventscache, trackpos, params->delay); | |
mpu401_flush(params->mpuport); | |
/* printf("Action: %d / Note: %d / Vel: %d / t=%lu / next->%ld\n", curevent->type, curevent->data.note.note, curevent->data.note.velocity, curevent->deltatime, curevent->next); */ | |
if (curevent->deltatime > 0) { /* if I have some time ahead, I can do a few things */ | |
nexteventtime += (curevent->deltatime * trackinfo->tempo / trackinfo->miditimeunitdiv); | |
elticks += curevent->deltatime; | |
while (exitaction == ACTION_NONE) { | |
unsigned long t; | |
/* is time for next event yet? */ | |
timer_read(&t); | |
if (t >= nexteventtime) break; | |
/* detect wraparound of the timer counter */ | |
if (nexteventtime - t > ULONG_MAX / 2) break; | |
/* if next event not due yet, do some keyboard/screen processing */ | |
if (compute_elapsed_time(midiplaybackstart, &(trackinfo->elapsedsec)) != 0) refreshflags |= UI_REFRESH_TIME; | |
/* read keypresses */ | |
switch (getkey_ifany()) { | |
case 0x1B: /* escape */ | |
exitaction = ACTION_EXIT; | |
break; | |
case 0x0D: /* return */ | |
exitaction = ACTION_NEXT; | |
break; | |
case '+': /* volume up */ | |
volume += 5; /* note: I could also use a MIDI command to */ | |
if (volume > 100) volume = 100; /* adjust the MPU's global volume but this */ | |
refreshflags |= UI_REFRESH_VOLUME; /* is messy because the MIDI file might use */ | |
break; /* such message, too. Besides, some MPUs do */ | |
case '-': /* volume down */ /* not support volume control (eg. my SB64) */ | |
volume -= 5; | |
if (volume < 0) volume = 0; | |
refreshflags |= UI_REFRESH_VOLUME; | |
break; | |
} | |
/* do I need to refresh the screen now? if not, just call INT28h */ | |
if (refreshflags != 0) { | |
ui_draw(trackinfo, &refreshflags, PVER, params->mpuport, volume); | |
} else if (params->nopowersave == 0) { /* if no screen refresh is */ | |
union REGS regs; /* needed, and power saver not */ | |
int86(0x28, ®s, ®s); /* disabled, then call INT 28h */ | |
} /* for some power saving */ | |
} | |
if (exitaction != ACTION_NONE) break; | |
} | |
switch (curevent->type) { | |
case EVENT_NOTEON: | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: NOTE ON chan: %d / note: %d / vel: %d\n", trackinfo->elapsedsec, curevent->data.note.chan, curevent->data.note.note, curevent->data.note.velocity); | |
noteon(params->mpuport, curevent->data.note.chan, curevent->data.note.note, (volume * curevent->data.note.velocity) / 100); | |
trackinfo->notestates[curevent->data.note.note] |= (1 << curevent->data.note.chan); | |
refreshflags |= UI_REFRESH_NOTES; | |
break; | |
case EVENT_NOTEOFF: | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: NOTE OFF chan: %d / note: %d\n", trackinfo->elapsedsec, curevent->data.note.chan, curevent->data.note.note); | |
noteoff(params->mpuport, curevent->data.note.chan, curevent->data.note.note); | |
trackinfo->notestates[curevent->data.note.note] &= (0xFFFF ^ (1 << curevent->data.note.chan)); | |
refreshflags |= UI_REFRESH_NOTES; | |
break; | |
case EVENT_TEMPO: | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu (%lu): TEMPO change from %lu to %lu\n", trackinfo->elapsedsec, elticks, trackinfo->tempo, curevent->data.tempoval); | |
trackinfo->tempo = curevent->data.tempoval; | |
refreshflags |= UI_REFRESH_TEMPO; | |
break; | |
case EVENT_PROGCHAN: | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: CHANNEL #%d PROG: %d\n", trackinfo->elapsedsec, curevent->data.prog.chan, curevent->data.prog.prog); | |
trackinfo->chanprogs[curevent->data.prog.chan] = curevent->data.prog.prog; | |
setchanprog(params->mpuport, curevent->data.prog.chan, curevent->data.prog.prog); | |
refreshflags |= UI_REFRESH_PROGS; | |
break; | |
default: /* probably a raw event - bit 7 should be set (>127) */ | |
if (curevent->type & 128) { | |
if (params->logfd != NULL) { | |
fprintf(params->logfd, "%lu: RAW EVENT TYPE OF LEN %d: [0x%02X 0x%02X 0x%02X]\n", trackinfo->elapsedsec, curevent->type & 127, curevent->data.raw[0], curevent->data.raw[1], curevent->data.raw[2]); | |
} | |
rawevent(params->mpuport, curevent->data.raw, curevent->type & 127); | |
break; | |
} else { | |
if (params->logfd != NULL) { | |
fprintf(params->logfd, "%lu: ILLEGAL COMMAND: 0x%02X\n", trackinfo->elapsedsec, curevent->type); | |
} | |
} | |
break; | |
} | |
if (trackpos < 0) break; | |
trackpos = curevent->next; | |
} | |
if (params->logfd != NULL) fputs("Clear notes", params->logfd); | |
/* Look for notes that are still ON and turn them OFF */ | |
for (i = 0; i < 128; i++) { | |
if (trackinfo->notestates[i] != 0) { | |
int c; | |
for (c = 0; c < 16; c++) { | |
if (trackinfo->notestates[i] & (1 << c)) { | |
/* printf("note #%d is still playing on channel %d\n", i, c); */ | |
noteoff(params->mpuport, c, i); | |
} | |
} | |
} | |
} | |
if (params->logfd != NULL) fputs("Reset MPU", params->logfd); | |
midi_reinit(params->mpuport); /* reinit the device */ | |
mpu401_rst(params->mpuport); /* reset the MPU back into intelligent mode */ | |
return(exitaction); | |
} | |
int main(int argc, char **argv) { | |
struct clioptions params; | |
char *errstr; | |
enum playactions action = ACTION_NONE; | |
struct trackinfodata *trackinfo; | |
struct midi_event_t *eventscache; | |
/* preload the mpu port to be used (might be forced later via **argv) */ | |
params.mpuport = preloadmpuport(); | |
errstr = parseargv(argc, argv, ¶ms); | |
if (errstr != NULL) { | |
if (*errstr != 0) { | |
printf("Error: %s\nRun DOSMID /? for some help", errstr); | |
} else { | |
puts("DOSMid v" PVER " Copyright (C) " PDATE " Mateusz Viste\n" | |
"\n" | |
"DOSMid is a MIDI player that reads *.MID or *.RMI files and drives a MPU401\n" | |
"synthesizer.\n" | |
"\n" | |
"Usage: dosmid [options] file.mid|playlist.m3u\n" | |
"\n" | |
"options:\n" | |
" /noxms use conventional memory instead of XMS\n" | |
" /nodelay do not wait 2ms before accessing XMS memory (makes AWEUTIL crash)\n" | |
" /mpu=XXX use MPU port 0xXXX (by default it follows the BLASTER\n" | |
" environment variable, and if not found, uses 0x330)\n" | |
" /log=FILE write highly verbose logs about DOSMid's activity to FILE\n" | |
" /fullcpu do not let DOSMid trying to be CPU-friendly\n" | |
" /dontstop never wait for a keypress on error and continue the playlist\n" | |
); | |
} | |
return(1); | |
} | |
/* allocate the work memory */ | |
if (mem_init(params.workmem, params.memmode) == 0) { | |
puts("ERROR: Memory init failed!"); | |
return(1); | |
} | |
/* allocate memory segments to be used later */ | |
trackinfo = malloc(sizeof(struct trackinfodata)); | |
eventscache = malloc(sizeof(struct midi_event_t) * EVENTSCACHESIZE); | |
if ((trackinfo == NULL) || (eventscache == NULL)) { | |
puts("ERROR: Out of memory! Free some conventional memory."); | |
mem_close(); | |
if (trackinfo != NULL) free(trackinfo); | |
if (eventscache != NULL) free(eventscache); | |
return(1); | |
} | |
/* init random numbers */ | |
srand((unsigned int)time(NULL)); | |
/* initialize the high resolution timer */ | |
timer_init(); | |
/* init ui and hide the blinking cursor */ | |
ui_init(); | |
ui_hidecursor(); | |
/* playlist loop */ | |
while (action != ACTION_EXIT) { | |
action = playfile(¶ms, trackinfo, eventscache); | |
switch (action) { | |
case ACTION_EXIT: | |
/* do nothing, we will exit at the end of the loop anyway */ | |
break; | |
case ACTION_PREV: | |
/* TODO to be implemented */ | |
break; | |
case ACTION_NEXT: | |
/* no explicit action - we will do a 'next' action by default */ | |
break; | |
case ACTION_ERR_HARD: /* wait for a keypress and quit */ | |
if (params.dontstop == 0) { | |
getkey(); | |
} else { | |
sleep(2); | |
} | |
action = ACTION_EXIT; | |
break; | |
case ACTION_ERR_SOFT: /* wait for a keypress so the user */ | |
if (params.dontstop == 0) { /* acknowledges the error message, */ | |
getkey(); /* then continue as usual */ | |
} else { | |
sleep(2); | |
} | |
case ACTION_NONE: /* choose an action depending of the mode we are in */ | |
if (params.playlist == NULL) { | |
action = ACTION_EXIT; | |
} else { | |
action = ACTION_NEXT; | |
} | |
break; | |
} | |
} | |
/* reset screen (clears the screen and makes the cursor visible again) */ | |
ui_init(); | |
/* unload XMS memory */ | |
mem_close(); | |
/* if a verbose log file was used, close it now */ | |
if (params.logfd != NULL) { | |
fputs("Closing the log file", params.logfd); | |
fclose(params.logfd); | |
} | |
/* free allocated heap memory */ | |
if (params.logfd != NULL) fputs("Free heap memory", params.logfd); | |
free(trackinfo); | |
free(eventscache); | |
puts("DOSMid v" PVER " Copyright (C) Mateusz Viste " PDATE); | |
return(0); | |
} |