/* Extended Module Player * Copyright (C) 1996-2016 Claudio Matsuoka and Hipolito Carraro Jr * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include #include "common.h" #include "period.h" #include "player.h" #include "hio.h" struct xmp_instrument *libxmp_get_instrument(struct context_data *ctx, int ins) { struct smix_data *smix = &ctx->smix; struct module_data *m = &ctx->m; struct xmp_module *mod = &m->mod; struct xmp_instrument *xxi; if (ins < mod->ins) { xxi = &mod->xxi[ins]; } else if (ins < mod->ins + smix->ins) { xxi = &smix->xxi[ins - mod->ins]; } else { xxi = NULL; } return xxi; } struct xmp_sample *libxmp_get_sample(struct context_data *ctx, int smp) { struct smix_data *smix = &ctx->smix; struct module_data *m = &ctx->m; struct xmp_module *mod = &m->mod; struct xmp_sample *xxs; if (smp < mod->smp) { xxs = &mod->xxs[smp]; } else if (smp < mod->smp + smix->smp) { xxs = &smix->xxs[smp - mod->smp]; } else { xxs = NULL; } return xxs; } int xmp_start_smix(xmp_context opaque, int chn, int smp) { struct context_data *ctx = (struct context_data *)opaque; struct smix_data *smix = &ctx->smix; if (ctx->state > XMP_STATE_LOADED) { return -XMP_ERROR_STATE; } smix->xxi = (struct xmp_instrument *)calloc(sizeof (struct xmp_instrument), smp); if (smix->xxi == NULL) { goto err; } smix->xxs = (struct xmp_sample *)calloc(sizeof (struct xmp_sample), smp); if (smix->xxs == NULL) { goto err1; } smix->chn = chn; smix->ins = smix->smp = smp; return 0; err1: free(smix->xxi); err: return -XMP_ERROR_INTERNAL; } int xmp_smix_play_instrument(xmp_context opaque, int ins, int note, int vol, int chn) { struct context_data *ctx = (struct context_data *)opaque; struct player_data *p = &ctx->p; struct smix_data *smix = &ctx->smix; struct module_data *m = &ctx->m; struct xmp_module *mod = &m->mod; struct xmp_event *event; if (ctx->state < XMP_STATE_PLAYING) { return -XMP_ERROR_STATE; } if (chn >= smix->chn || ins >= mod->ins) { return -XMP_ERROR_INVALID; } if (note == 0) { note = 60; /* middle C note number */ } event = &p->inject_event[mod->chn + chn]; memset(event, 0, sizeof (struct xmp_event)); event->note = note + 1; event->ins = ins + 1; event->vol = vol + 1; event->_flag = 1; return 0; } int xmp_smix_play_sample(xmp_context opaque, int ins, int note, int vol, int chn) { struct context_data *ctx = (struct context_data *)opaque; struct player_data *p = &ctx->p; struct smix_data *smix = &ctx->smix; struct module_data *m = &ctx->m; struct xmp_module *mod = &m->mod; struct xmp_event *event; if (ctx->state < XMP_STATE_PLAYING) { return -XMP_ERROR_STATE; } if (chn >= smix->chn || ins >= smix->ins) { return -XMP_ERROR_INVALID; } if (note == 0) { note = 60; /* middle C note number */ } event = &p->inject_event[mod->chn + chn]; memset(event, 0, sizeof (struct xmp_event)); event->note = note + 1; event->ins = mod->ins + ins + 1; event->vol = vol + 1; event->_flag = 1; return 0; } int xmp_smix_channel_pan(xmp_context opaque, int chn, int pan) { struct context_data *ctx = (struct context_data *)opaque; struct player_data *p = &ctx->p; struct smix_data *smix = &ctx->smix; struct module_data *m = &ctx->m; struct channel_data *xc; if (chn >= smix->chn || pan < 0 || pan > 255) { return -XMP_ERROR_INVALID; } xc = &p->xc_data[m->mod.chn + chn]; xc->pan.val = pan; return 0; } #ifdef EDUKE32_DISABLED int xmp_smix_load_sample(xmp_context opaque, int num, char *path) { struct context_data *ctx = (struct context_data *)opaque; struct smix_data *smix = &ctx->smix; struct module_data *m = &ctx->m; struct xmp_instrument *xxi; struct xmp_sample *xxs; HIO_HANDLE *h; uint32 magic; int chn, rate, bits, size; int retval = -XMP_ERROR_INTERNAL; if (num >= smix->ins) { retval = -XMP_ERROR_INVALID; goto err; } xxi = &smix->xxi[num]; xxs = &smix->xxs[num]; h = hio_open(path, "rb"); if (h == NULL) { retval = -XMP_ERROR_SYSTEM; goto err; } /* Init instrument */ xxi->sub = (struct xmp_subinstrument *)calloc(sizeof(struct xmp_subinstrument), 1); if (xxi->sub == NULL) { retval = -XMP_ERROR_SYSTEM; goto err1; } xxi->vol = m->volbase; xxi->nsm = 1; xxi->sub[0].sid = num; xxi->sub[0].vol = xxi->vol; xxi->sub[0].pan = 0x80; /* Load sample */ magic = hio_read32b(h); if (magic != 0x52494646) { /* RIFF */ retval = -XMP_ERROR_FORMAT; goto err2; } if (hio_seek(h, 22, SEEK_SET) < 0) { retval = -XMP_ERROR_SYSTEM; goto err2; } chn = hio_read16l(h); if (chn != 1) { retval = -XMP_ERROR_FORMAT; goto err2; } rate = hio_read32l(h); if (rate == 0) { retval = -XMP_ERROR_FORMAT; goto err2; } if (hio_seek(h, 34, SEEK_SET) < 0) { retval = -XMP_ERROR_SYSTEM; goto err2; } bits = hio_read16l(h); if (bits == 0) { retval = -XMP_ERROR_FORMAT; goto err2; } if (hio_seek(h, 40, SEEK_SET) < 0) { retval = -XMP_ERROR_SYSTEM; goto err2; } size = hio_read32l(h) / (bits / 8); if (size == 0) { retval = -XMP_ERROR_FORMAT; goto err2; } libxmp_c2spd_to_note(rate, &xxi->sub[0].xpo, &xxi->sub[0].fin); xxs->len = 8 * size / bits; xxs->lps = 0; xxs->lpe = 0; xxs->flg = bits == 16 ? XMP_SAMPLE_16BIT : 0; xxs->data = (unsigned char *)malloc(size); if (xxs->data == NULL) { retval = -XMP_ERROR_SYSTEM; goto err2; } if (hio_seek(h, 44, SEEK_SET) < 0) { retval = -XMP_ERROR_SYSTEM; goto err2; } if (hio_read(xxs->data, 1, size, h) != size) { retval = -XMP_ERROR_SYSTEM; goto err2; } hio_close(h); return 0; err2: free(xxi->sub); xxi->sub = NULL; err1: hio_close(h); err: return retval; } #endif int xmp_smix_release_sample(xmp_context opaque, int num) { struct context_data *ctx = (struct context_data *)opaque; struct smix_data *smix = &ctx->smix; if (num >= smix->ins) { return -XMP_ERROR_INVALID; } free(smix->xxs[num].data); free(smix->xxi[num].sub); smix->xxs[num].data = NULL; smix->xxi[num].sub = NULL; return 0; } void xmp_end_smix(xmp_context opaque) { struct context_data *ctx = (struct context_data *)opaque; struct smix_data *smix = &ctx->smix; int i; for (i = 0; i < smix->smp; i++) { xmp_smix_release_sample(opaque, i); } free(smix->xxs); free(smix->xxi); }