ref: 51beed319b0d0ba2390b9284deb32fc79b7352e2
dir: /src/swap.c/
/* * swap - effect to swap ordering of channels in multi-channel audio. * * Written by Chris Bagwell (cbagwell@sprynet.com) - March 16, 1999 * * Copyright 1999 Chris Bagwell And Sundry Contributors * This source code is freely redistributable and may be used for * any purpose. This copyright notice must be maintained. * Chris Bagwell And Sundry Contributors are not responsible for * the consequences of using this software. */ #include "st.h" /* Private data for SKEL file */ typedef struct swapstuff { int order[4]; } *swap_t; /* * Process options * * Don't do initialization now. * The 'info' fields are not yet filled in. */ int st_swap_getopts(effp, n, argv) eff_t effp; int n; char **argv; { swap_t swap = (swap_t) effp->priv; swap->order[0] = swap->order[1] = swap->order[2] = swap->order[3] = 0; if (n) { if (n != 2 && n != 4) { st_fail("Usage: swap [1 2 | 1 2 3 4]"); return (ST_EOF); } else if (n == 2) { sscanf(argv[0],"%d",&swap->order[0]); sscanf(argv[1],"%d",&swap->order[1]); } else { sscanf(argv[0],"%d",&swap->order[0]); sscanf(argv[1],"%d",&swap->order[1]); sscanf(argv[2],"%d",&swap->order[2]); sscanf(argv[3],"%d",&swap->order[3]); } /* Some basic error checking */ if (swap->order[0] < 1 || swap->order[0] > 4) swap->order[0] = 1; if (swap->order[1] < 1 || swap->order[1] > 4) swap->order[1] = 1; /* If 2 and 3 weren't specified, this logic still forces * it to equal 0 (our default) */ if (swap->order[2] < 1 || swap->order[2] > 4) swap->order[2] = 1; if (swap->order[3] < 1 || swap->order[3] > 4) swap->order[3] = 1; /* Convert to array offsets */ swap->order[0]--; swap->order[1]--; swap->order[2]--; swap->order[3]--; } return (ST_SUCCESS); } /* * Prepare processing. * Do all initializations. */ int st_swap_start(effp) eff_t effp; { swap_t swap = (swap_t) effp->priv; if (effp->outinfo.channels == 1) { st_fail("Can't swap channels on mono data."); return (ST_EOF); } if (effp->outinfo.channels == 2) { if (swap->order[2] || swap->order[3]) { st_fail("invalid swap channel options used"); } if (swap->order[0] != 0 && swap->order[0] != 1) st_fail("invalid swap channel options used"); if (swap->order[1] != 0 && swap->order[1] != 1) st_fail("invalid swap channel options used"); } if (effp->outinfo.channels == 4) { if (!swap->order[2] && !swap->order[3]) st_fail("invalid swap channel options used"); } /* If nothing set then default to the following order */ if (!swap->order[0] && !swap->order[1] && !swap->order[2] && !swap->order[3]) { swap->order[0] = 1; swap->order[1] = 0; swap->order[2] = 3; swap->order[3] = 2; } return (ST_SUCCESS); } /* * Processed signed long samples from ibuf to obuf. * Return number of samples processed. */ int st_swap_flow(effp, ibuf, obuf, isamp, osamp) eff_t effp; LONG *ibuf, *obuf; int *isamp, *osamp; { swap_t swap = (swap_t) effp->priv; int len, done; switch (effp->outinfo.channels) { case 2: /* Length to process will be buffer length / 2 since we * work with two samples at a time. */ len = ((*isamp > *osamp) ? *osamp : *isamp) / 2; for(done = 0; done < len; done++) { obuf[0] = ibuf[swap->order[0]]; obuf[1] = ibuf[swap->order[1]]; /* Advance buffer by 2 samples */ ibuf += 2; obuf += 2; } *isamp = len * 2; *osamp = len * 2; break; case 4: /* Length to process will be buffer length / 4 since we * work with four samples at a time. */ len = ((*isamp > *osamp) ? *osamp : *isamp) / 4; for(done = 0; done < len; done++) { obuf[0] = ibuf[swap->order[0]]; obuf[1] = ibuf[swap->order[1]]; obuf[2] = ibuf[swap->order[2]]; obuf[3] = ibuf[swap->order[3]]; /* Advance buffer by 2 samples */ ibuf += 4; obuf += 4; } *isamp = len * 4; *osamp = len * 4; break; } return (ST_SUCCESS); } /* * Drain out remaining samples if the effect generates any. */ int st_swap_drain(effp, obuf, osamp) LONG *obuf; int *osamp; { *osamp = 0; return (ST_SUCCESS); } /* * Do anything required when you stop reading samples. * (free allocated memory, etc.) */ int st_swap_stop(effp) eff_t effp; { /* nothing to do */ return (ST_SUCCESS); }