FreeCalypso > hg > freecalypso-tools
view ringtools/fc-e1gen.c @ 465:003e48f8ebe1
rvinterf/etmsync/fsnew.c: cast 0 to (char *) for execl sentinel
I generally don't use NULL and use plain 0 instead, based on a "NULL
considered harmful" discussion on the classiccmp mailing list many aeons
ago (I couldn't find it, and I reason that it must have been 2005 or
earlier), but a recent complaint by a packager sent me searching, and I
found this:
https://ewontfix.com/11/
While I don't give a @#$% about "modern" systems and code-nazi tools,
I realized that passing a plain 0 as a pointer sentinel in execl is wrong
because it will break on systems where pointers are longer than the plain
int type. Again, I don't give a @#$% about the abomination of x86_64 and
the like, but if anyone ever manages to port my code to something like a
PDP-11 (16-bit int, 32-bit long and pointers), then passing a plain 0
as a function argument where a pointer is expected most definitely won't
work: if the most natural stack slot and SP alignment unit is 16 bits,
fitting an int, with longs and pointers taking up two such slots, then
the call stack will be totally wrong with a plain 0 passed for a pointer.
Casting the 0 to (char *) ought to be the most kosher solution for the
most retro systems possible.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Mon, 11 Feb 2019 00:00:19 +0000 |
| parents | 2133c475f5bd |
| children |
line wrap: on
line source
/* * This program is an experimental compiler for TI's Melody E1 format * based on the description given in the L1M_AS001_1.pdf document * found in the Peek/FGW drop. */ #include <sys/types.h> #include <stdio.h> #include <stdlib.h> #include <ctype.h> #include <string.h> #include <strings.h> #define MAX_FIELDS 17 char *infname, *outfname; FILE *inf, *outf; char linebuf[512], *fields[MAX_FIELDS+1]; int lineno, nfields; int global_osc_set; int start_time, osc_mask; u_short osc_words[8][4]; get_input_line() { char *cp; int n; if (!fgets(linebuf, sizeof linebuf, inf)) { fprintf(stderr, "%s: unexpected EOF\n", infname); exit(1); } cp = index(linebuf, '\n'); if (!cp) { fprintf(stderr, "%s line %d: too long or missing newline\n", infname, lineno); exit(1); } *cp = '\0'; /* parse it into fields */ cp = linebuf; n = 0; for (;;) { while (isspace(*cp)) cp++; if (*cp == '\0' || *cp == '#') break; if (n >= MAX_FIELDS) { fprintf(stderr, "%s line %d: too many fields\n", infname, lineno); exit(1); } fields[n++] = cp; while (*cp && !isspace(*cp)) cp++; if (*cp) *cp++ = '\0'; } fields[n] = 0; nfields = n; } input_number(str, min, max) char *str; { char *endp; long val; val = strtol(str, &endp, 10); if (*endp) { fprintf(stderr, "%s line %d: \"%s\" is not a valid decimal number\n", infname, lineno, str); exit(1); } if (val < min || val > max) { fprintf(stderr, "%s line %d: number %ld is out of range\n", infname, lineno, val); exit(1); } return val; } input_paren_number(str, min, max) char *str; { char *cp; if (str[0] != '(') { badparen: fprintf(stderr, "%s line %d: bad parenthesized argument \"%s\"\n", infname, lineno, str); exit(1); } cp = index(str, ')'); if (!cp || cp[1]) goto badparen; *cp = '\0'; return input_number(str + 1, min, max); } handle_time_line() { if (nfields != 2) { fprintf(stderr, "%s line %d: time header takes 1 argument\n", infname, lineno); exit(1); } start_time = input_number(fields[1], 1, 255); } check_req_field(n) { if (n >= nfields) { fprintf(stderr, "%s line %d: too few fields\n", infname, lineno); exit(1); } } process_osc_line() { int p = 1; int oscn, osc_bit; u_short word0, word1, word2, word3; int amp, freq, length; int tremT0, tremFreq; int sustain, t1, t2, t3, t5; int bit0; check_req_field(p); oscn = input_number(fields[p], 0, 7); p++; osc_bit = 1 << oscn; if (osc_mask & osc_bit) { fprintf(stderr, "%s line %d: osc %d defined more than once\n", infname, lineno, oscn); exit(1); } osc_mask |= osc_bit; /* basic part */ check_req_field(p); if (fields[p][0] == '(') { bit0 = input_paren_number(fields[p], 0, 1); p++; check_req_field(p); } else bit0 = 0; if (!strcmp(fields[p], "df")) { p++; check_req_field(p); freq = input_number(fields[p], -8192, 8191) & 0x3FFF; p++; check_req_field(p); amp = input_number(fields[p], 0, 1023); p++; word0 = freq << 2 | 2 | bit0; word1 = amp << 6; } else { word0 = bit0; if (!strcmp(fields[p], "sq1")) { p++; word0 |= 4; check_req_field(p); } if (!strcmp(fields[p], "sq2")) { p++; word0 |= 8; check_req_field(p); } amp = input_number(fields[p], 0, 63); p++; check_req_field(p); freq = input_number(fields[p], 0, 63); p++; word0 |= (freq << 10) | (amp << 4); check_req_field(p); length = input_number(fields[p], 0, 1023); p++; word1 = length << 6; } /* optional 3rd word */ if (p < nfields && !strcmp(fields[p], "trem")) { p++; word1 |= 0x10; check_req_field(p); tremT0 = input_number(fields[p], 0, 7); p++; check_req_field(p); tremFreq = input_number(fields[p], -16, 15) & 31; p++; word2 = (tremFreq << 11) | (tremT0 << 8); } /* optional 4th word */ if (p < nfields && !strcmp(fields[p], "env")) { p++; word1 |= 0x20; check_req_field(p); sustain = input_number(fields[p], 0, 15); p++; check_req_field(p); t1 = input_number(fields[p], 0, 7); p++; check_req_field(p); t2 = input_number(fields[p], 0, 7); p++; check_req_field(p); t3 = input_number(fields[p], 0, 7); p++; check_req_field(p); t5 = input_number(fields[p], 0, 7); p++; word3 = (t1 << 13) | (t2 << 10) | (t3 << 7) | (t5 << 4) | sustain; } if (p != nfields) { fprintf(stderr, "%s line %d: unexpected extra fields\n", infname, lineno); } osc_words[oscn][0] = word0; osc_words[oscn][1] = word1; osc_words[oscn][2] = word2; osc_words[oscn][3] = word3; } read_osc_lines() { osc_mask = 0; for (;;) { get_input_line(); if (!nfields) break; if (!strcmp(fields[0], "osc")) { process_osc_line(); continue; } fprintf(stderr, "%s line %d: osc line expected\n", infname, lineno); exit(1); } } emit_16bit_word(word) u_short word; { putc(word & 0xFF, outf); putc(word >> 8, outf); } emit_record() { int oscn, osc_bit; putc(start_time, outf); putc(osc_mask, outf); for (oscn = 0; oscn < 8; oscn++) { osc_bit = 1 << oscn; if (!(osc_mask & osc_bit)) continue; emit_16bit_word(osc_words[oscn][0]); emit_16bit_word(osc_words[oscn][1]); if (osc_words[oscn][1] & 0x10) emit_16bit_word(osc_words[oscn][2]); if (osc_words[oscn][1] & 0x20) emit_16bit_word(osc_words[oscn][3]); } } handle_global_osc_set() { int p; int oscn, osc_bit; int dummy_time_byte; do get_input_line(); while (!nfields); if (strcmp(fields[0], "osc-set")) { fprintf(stderr, "%s line %d: osc-set line expected\n", infname, lineno); exit(1); } if (nfields < 2) { emptyerr: fprintf(stderr, "%s line %d: osc-set must be non-empty\n", infname, lineno); exit(1); } p = 1; if (fields[p][0] == '(') { dummy_time_byte = input_paren_number(fields[p], 0, 255); p++; if (nfields < 3) goto emptyerr; } else dummy_time_byte = 0; for (; p < nfields; p++) { oscn = input_number(fields[p], 0, 7); osc_bit = 1 << oscn; global_osc_set |= osc_bit; } putc(dummy_time_byte, outf); putc(global_osc_set, outf); } main(argc, argv) char **argv; { if (argc != 3) { fprintf(stderr, "usage: %s src-file e1-bin-file\n", argv[0]); exit(1); } if (strcmp(argv[1], "-")) { infname = argv[1]; inf = fopen(infname, "r"); if (!inf) { perror(infname); exit(1); } } else { infname = "stdin"; inf = stdin; } outfname = argv[2]; outf = fopen(outfname, "w"); if (!outf) { perror(outfname); exit(1); } handle_global_osc_set(); /* main loop */ for (;;) { do get_input_line(); while (!nfields); if (!strcmp(fields[0], "time")) { handle_time_line(); read_osc_lines(); emit_record(); } else if (!strcmp(fields[0], "end")) { emit_16bit_word(0); exit(0); } else { fprintf(stderr, "%s line %d: expected time or end\n", infname, lineno); exit(1); } } }