Annotation of src/usr.bin/aucat/aparams.c, Revision 1.12
1.12 ! ratchov 1: /* $OpenBSD: aparams.c,v 1.11 2010/11/04 17:55:28 ratchov Exp $ */
1.1 ratchov 2: /*
3: * Copyright (c) 2008 Alexandre Ratchov <alex@caoua.org>
4: *
5: * Permission to use, copy, modify, and distribute this software for any
6: * purpose with or without fee is hereby granted, provided that the above
7: * copyright notice and this permission notice appear in all copies.
8: *
9: * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
10: * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
11: * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
12: * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
13: * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
14: * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
15: * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
16: */
17:
18: #include "aparams.h"
1.10 ratchov 19: #ifdef DEBUG
20: #include "dbg.h"
21: #endif
1.4 ratchov 22:
23: int aparams_ctltovol[128] = {
24: 0,
25: 256, 266, 276, 287, 299, 310, 323, 335,
26: 348, 362, 376, 391, 406, 422, 439, 456,
27: 474, 493, 512, 532, 553, 575, 597, 621,
28: 645, 670, 697, 724, 753, 782, 813, 845,
29: 878, 912, 948, 985, 1024, 1064, 1106, 1149,
30: 1195, 1241, 1290, 1341, 1393, 1448, 1505, 1564,
31: 1625, 1689, 1756, 1825, 1896, 1971, 2048, 2128,
32: 2212, 2299, 2389, 2483, 2580, 2682, 2787, 2896,
33: 3010, 3128, 3251, 3379, 3511, 3649, 3792, 3941,
34: 4096, 4257, 4424, 4598, 4778, 4966, 5161, 5363,
35: 5574, 5793, 6020, 6256, 6502, 6757, 7023, 7298,
36: 7585, 7883, 8192, 8514, 8848, 9195, 9556, 9931,
37: 10321, 10726, 11148, 11585, 12040, 12513, 13004, 13515,
38: 14045, 14596, 15170, 15765, 16384, 17027, 17696, 18390,
39: 19112, 19863, 20643, 21453, 22295, 23170, 24080, 25025,
40: 26008, 27029, 28090, 29193, 30339, 31530, 32768
41: };
1.8 ratchov 42:
43: /*
44: * Fake parameters for byte-streams
45: */
46: struct aparams aparams_none = { 1, 0, 0, 0, 0, 0, 0, 0 };
1.1 ratchov 47:
48: /*
1.2 ratchov 49: * Generate a string corresponding to the encoding in par,
1.7 ratchov 50: * return the length of the resulting string.
1.2 ratchov 51: */
52: int
53: aparams_enctostr(struct aparams *par, char *ostr)
54: {
55: char *p = ostr;
56:
57: *p++ = par->sig ? 's' : 'u';
58: if (par->bits > 9)
59: *p++ = '0' + par->bits / 10;
60: *p++ = '0' + par->bits % 10;
61: if (par->bps > 1) {
62: *p++ = par->le ? 'l' : 'b';
63: *p++ = 'e';
64: if (par->bps != APARAMS_BPS(par->bits) ||
65: par->bits < par->bps * 8) {
66: *p++ = par->bps + '0';
67: if (par->bits < par->bps * 8) {
68: *p++ = par->msb ? 'm' : 'l';
69: *p++ = 's';
70: *p++ = 'b';
71: }
72: }
73: }
74: *p++ = '\0';
75: return p - ostr - 1;
76: }
77:
78: /*
79: * Parse an encoding string, examples: s8, u8, s16, s16le, s24be ...
1.7 ratchov 80: * set *istr to the char following the encoding. Return the number
81: * of bytes consumed.
1.2 ratchov 82: */
83: int
84: aparams_strtoenc(struct aparams *par, char *istr)
85: {
86: char *p = istr;
87: int i, sig, bits, le, bps, msb;
1.6 ratchov 88:
1.2 ratchov 89: #define IS_SEP(c) \
90: (((c) < 'a' || (c) > 'z') && \
91: ((c) < 'A' || (c) > 'Z') && \
92: ((c) < '0' || (c) > '9'))
93:
94: /*
95: * get signedness
96: */
97: if (*p == 's') {
98: sig = 1;
99: } else if (*p == 'u') {
100: sig = 0;
101: } else
102: return 0;
103: p++;
1.6 ratchov 104:
1.2 ratchov 105: /*
106: * get number of bits per sample
107: */
108: bits = 0;
109: for (i = 0; i < 2; i++) {
110: if (*p < '0' || *p > '9')
111: break;
112: bits = (bits * 10) + *p - '0';
113: p++;
114: }
115: if (bits < BITS_MIN || bits > BITS_MAX)
116: return 0;
117: bps = APARAMS_BPS(bits);
118: msb = 1;
1.12 ! ratchov 119: le = ADATA_LE;
1.2 ratchov 120:
121: /*
1.7 ratchov 122: * get (optional) endianness
1.2 ratchov 123: */
124: if (p[0] == 'l' && p[1] == 'e') {
125: le = 1;
126: p += 2;
127: } else if (p[0] == 'b' && p[1] == 'e') {
128: le = 0;
129: p += 2;
130: } else if (IS_SEP(*p)) {
131: goto done;
132: } else
133: return 0;
134:
135: /*
1.7 ratchov 136: * get (optional) number of bytes
1.2 ratchov 137: */
138: if (*p >= '0' && *p <= '9') {
139: bps = *p - '0';
140: if (bps < (bits + 7) / 8 ||
141: bps > (BITS_MAX + 7) / 8)
142: return 0;
143: p++;
144:
145: /*
1.7 ratchov 146: * get (optional) alignement
1.2 ratchov 147: */
148: if (p[0] == 'm' && p[1] == 's' && p[2] == 'b') {
149: msb = 1;
150: p += 3;
151: } else if (p[0] == 'l' && p[1] == 's' && p[2] == 'b') {
152: msb = 0;
153: p += 3;
154: } else if (IS_SEP(*p)) {
155: goto done;
156: } else
157: return 0;
158: } else if (!IS_SEP(*p))
159: return 0;
160:
161: done:
162: par->msb = msb;
163: par->sig = sig;
164: par->bits = bits;
165: par->bps = bps;
166: par->le = le;
167: return p - istr;
168: }
169:
170: /*
1.1 ratchov 171: * Initialise parameters structure with the defaults natively supported
172: * by the machine.
173: */
174: void
175: aparams_init(struct aparams *par, unsigned cmin, unsigned cmax, unsigned rate)
176: {
1.11 ratchov 177: par->bps = sizeof(adata_t);
178: par->bits = ADATA_BITS;
1.12 ! ratchov 179: par->le = ADATA_LE;
1.11 ratchov 180: par->sig = 1;
1.12 ! ratchov 181: par->msb = 0;
1.1 ratchov 182: par->cmin = cmin;
183: par->cmax = cmax;
184: par->rate = rate;
185: }
186:
1.10 ratchov 187: #ifdef DEBUG
188: /*
189: * Print the format/channels/encoding on stderr.
190: */
191: void
192: aparams_dbg(struct aparams *par)
193: {
194: char enc[ENCMAX];
195:
196: aparams_enctostr(par, enc);
197: dbg_puts(enc);
198: dbg_puts(",");
199: dbg_putu(par->cmin);
200: dbg_puts(":");
201: dbg_putu(par->cmax);
202: dbg_puts(",");
203: dbg_putu(par->rate);
204: }
205: #endif
1.1 ratchov 206:
207: /*
1.3 ratchov 208: * Return true if both encodings are the same.
1.1 ratchov 209: */
210: int
1.3 ratchov 211: aparams_eqenc(struct aparams *par1, struct aparams *par2)
1.1 ratchov 212: {
213: if (par1->bps != par2->bps ||
214: par1->bits != par2->bits ||
1.3 ratchov 215: par1->sig != par2->sig)
1.1 ratchov 216: return 0;
217: if ((par1->bits != 8 * par1->bps) && par1->msb != par2->msb)
218: return 0;
219: if (par1->bps > 1 && par1->le != par2->le)
220: return 0;
221: return 1;
222: }
1.3 ratchov 223:
224: /*
225: * Return true if both parameters are the same.
226: */
227: int
228: aparams_eq(struct aparams *par1, struct aparams *par2)
229: {
230: if (!aparams_eqenc(par1, par2) ||
231: par1->cmin != par2->cmin ||
232: par1->cmax != par2->cmax ||
233: par1->rate != par2->rate)
234: return 0;
235: return 1;
236: }
237:
238: /*
1.7 ratchov 239: * Return true if first channel range includes second range.
1.3 ratchov 240: */
241: int
242: aparams_subset(struct aparams *subset, struct aparams *set)
243: {
244: return subset->cmin >= set->cmin && subset->cmax <= set->cmax;
245: }
246:
247: /*
1.7 ratchov 248: * Grow channels range and sample rate of ``set'' in order ``subset'' to
1.5 ratchov 249: * become an actual subset of it.
250: */
251: void
252: aparams_grow(struct aparams *set, struct aparams *subset)
253: {
254: if (set->cmin > subset->cmin)
255: set->cmin = subset->cmin;
256: if (set->cmax < subset->cmax)
257: set->cmax = subset->cmax;
258: if (set->rate < subset->rate)
259: set->rate = subset->rate;
260: }
261:
262: /*
1.7 ratchov 263: * Return true if rates are the same.
1.3 ratchov 264: */
265: int
266: aparams_eqrate(struct aparams *p1, struct aparams *p2)
267: {
268: /* XXX: allow 1/9 halftone of difference */
269: return p1->rate == p2->rate;
270: }
271:
1.1 ratchov 272:
273: /*
274: * Return the number of bytes per frame with the given parameters.
275: */
276: unsigned
277: aparams_bpf(struct aparams *par)
278: {
279: return (par->cmax - par->cmin + 1) * par->bps;
280: }
1.2 ratchov 281:
282: void
283: aparams_copyenc(struct aparams *dst, struct aparams *src)
284: {
285: dst->sig = src->sig;
286: dst->le = src->le;
287: dst->msb = src->msb;
288: dst->bits = src->bits;
289: dst->bps = src->bps;
290: }