dos33fsprogs/music/tiny_tracker2/text_to_tiny.c
2022-01-10 19:34:02 -05:00

397 lines
7.7 KiB
C

/* make music for tiny_music player */
#define VERSION "1.0"
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <stdlib.h>
#include <unistd.h>
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <math.h>
static int octave_adjust=0;
static int notes_used[64];
// CCOONNNN -- c=channel, o=octave, n=note
int note_to_ed(char note, int flat, int sharp, int octave) {
int offset;
switch(note) {
case 'C': offset=0; break;
case 'D': offset=2; break;
case 'E': offset=4; break;
case 'F': offset=5; break;
case 'G': offset=7; break;
case 'A': offset=9; break;
case 'B': offset=11; break;
case 'R': offset=12; flat=0; sharp=0; octave=3; break;
default:
fprintf(stderr,"Unknown note %c\n",note);
return -1;
}
if (flat==1) offset--;
if (sharp==1) offset++;
if (sharp==2) offset+=2;
offset=((((octave+octave_adjust)-3)&0x3)<<4)|offset;
return offset;
}
static int debug=0;
static int line=0;
static int header_version=0;
struct note_type {
unsigned char which;
unsigned char note;
int sharp,flat;
int octave;
int len;
int enabled;
int freq;
int length;
int left;
int ed_freq;
};
static int get_note(char *string, int sp, struct note_type *n, int line) {
int freq;
int ch;
// fprintf(stderr,"VMW: Entering, sp=%d\n",sp);
/* Skip white space */
while((string[sp]==' ' || string[sp]=='\t')) sp++;
if (string[sp]=='\n') return -1;
/* return early if no change */
ch=string[sp];
// fprintf(stderr,"VMW: %d %d\n",ch,sp);
if (ch=='-') {
if (header_version==0) return sp+6;
else {
return sp+11;
}
}
/* get note info */
n->sharp=0;
n->flat=0;
n->ed_freq=-1;
n->note=ch;
sp++;
if (string[sp]==' ') ;
else if (string[sp]=='#') n->sharp=1;
else if (string[sp]=='-') n->flat=1;
else if (string[sp]=='=') n->flat=2;
else {
fprintf(stderr,"Unknown note modifier %c, line %d:%d\n",
string[sp],line,sp);
fprintf(stderr,"String: %s\n",string);
}
// printf("Sharp=%d Flat=%d\n",n->sharp,n->flat);
sp++;
n->octave=string[sp]-'0';
sp++;
sp++;
n->len=string[sp]-'0';
sp++;
if (n->note!='-') {
freq=note_to_ed(n->note,n->flat,n->sharp,
n->octave);
n->enabled=1;
n->length=0;
n->ed_freq=freq;
}
if (header_version==2) sp+=6;
return sp;
}
static int get_string(char *string, char *key, char *output, int strip_linefeed) {
char *found;
found=strstr(string,key);
found=found+strlen(key);
/* get rid of leading whitespace */
while(1) {
if ((*found==' ') || (*found=='\t')) found++;
else break;
}
strcpy(output,found);
/* remove trailing linefeed */
if (strip_linefeed) output[strlen(output)-1]=0;
return 0;
}
static void print_help(int just_version, char *exec_name) {
printf("\ntext_to_ed version %s by Vince Weaver <vince@deater.net>\n\n",VERSION);
if (just_version) exit(0);
printf("This created Electric Duet files\n\n");
printf("Usage:\n");
printf("\t%s [-h] [-v] [-d] [-o X] [-i X] textfile outbase\n\n",
exec_name);
printf("\t-h: this help message\n");
printf("\t-v: version info\n");
printf("\t-d: print debug messages\n");
printf("\t-o: Offset octave by X\n");
printf("\t-i: set second instrument to X\n");
exit(0);
}
int main(int argc, char **argv) {
char string[BUFSIZ];
char *result;
char *in_filename;
char temp[BUFSIZ];
FILE *in_file=NULL;
//int attributes=0;
int loop=0;
int sp,external_frequency,irq;
struct note_type a,b,c;
int copt;
char song_name[BUFSIZ];
char author_name[BUFSIZ];
char comments[BUFSIZ];
char *comments_ptr=comments;
unsigned char sharp_char[]=" #-=";
/* Parse command line arguments */
while ((copt = getopt(argc, argv, "dhvo:i:"))!=-1) {
switch (copt) {
case 'd':
/* Debug messages */
printf("Debug enabled\n");
debug=1;
break;
case 'h':
/* help */
print_help(0,argv[0]);
break;
case 'v':
/* version */
print_help(1,argv[0]);
break;
case 'o':
/* octave offset */
octave_adjust=atoi(optarg);
break;
default:
print_help(0,argv[0]);
break;
}
}
if (argv[optind]!=NULL) {
/* Open the input file */
if (argv[optind][0]=='-') {
in_file=stdin;
}
else {
in_filename=strdup(argv[optind]);
in_file=fopen(in_filename,"r");
if (in_file==NULL) {
fprintf(stderr,"Couldn't open %s\n",in_filename);
return -1;
}
}
}
/* Get the info for the header */
while(1) {
result=fgets(string,BUFSIZ,in_file);
if (result==NULL) break;
line++;
if (strstr(string,"ENDHEADER")) break;
if (strstr(string,"HEADER:")) {
get_string(string,"HEADER:",temp,1);
header_version=atoi(temp);
printf("Found header version %d\n",header_version);
}
if (strstr(string,"TITLE:")) {
get_string(string,"TITLE:",song_name,1);
}
if (strstr(string,"AUTHOR:")) {
get_string(string,"AUTHOR:",author_name,1);
}
if (strstr(string,"COMMENTS:")) {
get_string(string,"COMMENTS:",comments_ptr,0);
comments_ptr=&comments[strlen(comments)];
}
if (strstr(string,"FREQ:")) {
get_string(string,"FREQ:",temp,1);
external_frequency=atoi(temp);
}
if (strstr(string,"IRQ:")) {
get_string(string,"IRQ:",temp,1);
irq=atoi(temp);
}
if (strstr(string,"LOOP:")) {
get_string(string,"LOOP:",temp,1);
loop=atoi(temp);
}
}
a.which='A'; b.which='B'; c.which='C';
// algorithm
// get A,B,C
// int first=1;
// int a_last=0,b_last=0,same_count=0;
// int a_len=0,b_len=0,a_freq=0,b_freq=0;
int current_length=0;
int first=1;
printf("peasant_song:\n");
printf("; register init\n");
//printf("\t.byte $00,$00,$00,$00,$00,$00 ; $00: A/B/C fine/coarse\n");
//printf("\t.byte $00 ; $06\n");
//printf("\t.byte $38 ; $07 mixer (ABC on)\n");
//printf("\t.byte $0E,$0C,$0C ; $08 volume A/B/C\n");
//printf("\t.byte $00,$00,$00,$00 ; $09\n");
printf("\n");
while(1) {
result=fgets(string,BUFSIZ,in_file);
if (result==NULL) break;
line++;
a.ed_freq=-1;
b.ed_freq=-1;
c.ed_freq=-1;
a.length=0;
b.length=0;
c.length=0;
/* skip comments */
if (string[0]=='\'') continue;
if (string[0]=='-') continue;
if (string[0]=='*') continue;
sp=0;
/* Skip line number */
while((string[sp]!=' ' && string[sp]!='\t')) sp++;
sp=get_note(string,sp,&a,line);
if (sp!=-1) sp=get_note(string,sp,&b,line);
if (sp!=-1) sp=get_note(string,sp,&c,line);
if (a.ed_freq>=0) {
notes_used[a.ed_freq]++;
fprintf(stderr,"A: %d\n",a.ed_freq);
}
if (b.ed_freq>=0) {
notes_used[b.ed_freq]++;
fprintf(stderr,"B: %d\n",b.ed_freq);
}
if (c.ed_freq>=0) {
notes_used[c.ed_freq]++;
fprintf(stderr,"C: %d\n",c.ed_freq);
}
if ((a.ed_freq>=0)||(b.ed_freq>=0)||(c.ed_freq>=0)) {
if (!first) {
printf("\t.byte $%02X ; L = %d\n",
current_length|0xc0,current_length);
printf("\n");
current_length=0;
}
first=0;
}
if (a.ed_freq>=0) {
printf("\t.byte $%02X ; A = %c%c%d\n",
a.ed_freq,
a.note,sharp_char[a.sharp+2*a.flat],
a.octave);
}
if (b.ed_freq>=0) {
printf("\t.byte $%02X ; B = %c%c%d\n",
b.ed_freq|0x40,
b.note,sharp_char[b.sharp+2*b.flat],
b.octave);
}
if (c.ed_freq>=0) {
printf("\t.byte $%02X ; C = %c%c%d\n",
c.ed_freq|0x80,
c.note,sharp_char[c.sharp+2*c.flat],
c.octave);
}
current_length++;
}
printf("\t.byte $C0 ; end\n");
int o,n;
for(o=0;o<4;o++) {
printf("; Octave %d : ",o);
for(n=0;n<12;n++) {
printf("%d ",notes_used[(o*12)+n]);
}
printf("\n");
}
(void) irq;
(void) loop;
(void) external_frequency;
return 0;
}