/* 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 #include #include "common.h" #include "virtual.h" #include "mixer.h" #ifdef LIBXMP_PAULA_SIMULATOR #include "paula.h" #endif #define FREE -1 /* For virt_pastnote() */ void libxmp_player_set_release(struct context_data *, int); void libxmp_player_set_fadeout(struct context_data *, int); /* Get parent channel */ int libxmp_virt_getroot(struct context_data *ctx, int chn) { struct player_data *p = &ctx->p; struct mixer_voice *vi; int voc; voc = p->virt.virt_channel[chn].map; if (voc < 0) { return -1; } vi = &p->virt.voice_array[voc]; return vi->root; } void libxmp_virt_resetvoice(struct context_data *ctx, int voc, int mute) { struct player_data *p = &ctx->p; struct mixer_voice *vi = &p->virt.voice_array[voc]; #ifdef LIBXMP_PAULA_SIMULATOR struct paula_state *paula; #endif if ((uint32)voc >= p->virt.maxvoc) { return; } if (mute) { libxmp_mixer_setvol(ctx, voc, 0); } p->virt.virt_used--; p->virt.virt_channel[vi->root].count--; p->virt.virt_channel[vi->chn].map = FREE; #ifdef LIBXMP_PAULA_SIMULATOR paula = vi->paula; #endif memset(vi, 0, sizeof(struct mixer_voice)); #ifdef LIBXMP_PAULA_SIMULATOR vi->paula = paula; #endif vi->chn = vi->root = FREE; } /* virt_on (number of tracks) */ int libxmp_virt_on(struct context_data *ctx, int num) { struct player_data *p = &ctx->p; struct module_data *m = &ctx->m; int i; p->virt.num_tracks = num; num = libxmp_mixer_numvoices(ctx, -1); p->virt.virt_channels = p->virt.num_tracks; if (HAS_QUIRK(QUIRK_VIRTUAL)) { p->virt.virt_channels += num; } else if (num > p->virt.virt_channels) { num = p->virt.virt_channels; } p->virt.maxvoc = libxmp_mixer_numvoices(ctx, num); p->virt.voice_array = calloc(p->virt.maxvoc, sizeof(struct mixer_voice)); if (p->virt.voice_array == NULL) goto err; for (i = 0; i < p->virt.maxvoc; i++) { p->virt.voice_array[i].chn = FREE; p->virt.voice_array[i].root = FREE; } #ifdef LIBXMP_PAULA_SIMULATOR /* Initialize Paula simulator */ if (IS_AMIGA_MOD()) { for (i = 0; i < p->virt.maxvoc; i++) { p->virt.voice_array[i].paula = calloc(1, sizeof (struct paula_state)); if (p->virt.voice_array[i].paula == NULL) { goto err2; } libxmp_paula_init(ctx, p->virt.voice_array[i].paula); } } #endif p->virt.virt_channel = malloc(p->virt.virt_channels * sizeof(struct virt_channel)); if (p->virt.virt_channel == NULL) goto err2; for (i = 0; i < p->virt.virt_channels; i++) { p->virt.virt_channel[i].map = FREE; p->virt.virt_channel[i].count = 0; } p->virt.virt_used = 0; return 0; err2: #ifdef LIBXMP_PAULA_SIMULATOR if (IS_AMIGA_MOD()) { for (i = 0; i < p->virt.maxvoc; i++) { free(p->virt.voice_array[i].paula); } } #endif free(p->virt.voice_array); err: return -1; } void libxmp_virt_off(struct context_data *ctx) { struct player_data *p = &ctx->p; #ifdef LIBXMP_PAULA_SIMULATOR struct module_data *m = &ctx->m; int i; #endif #ifdef LIBXMP_PAULA_SIMULATOR /* Free Paula simulator state */ if (IS_AMIGA_MOD()) { for (i = 0; i < p->virt.maxvoc; i++) { free(p->virt.voice_array[i].paula); } } #endif p->virt.virt_used = p->virt.maxvoc = 0; p->virt.virt_channels = 0; p->virt.num_tracks = 0; free(p->virt.voice_array); free(p->virt.virt_channel); } void libxmp_virt_reset(struct context_data *ctx) { struct player_data *p = &ctx->p; int i; if (p->virt.virt_channels < 1) { return; } /* CID 129203 (#1 of 1): Useless call (USELESS_CALL) * Call is only useful for its return value, which is ignored. * * libxmp_mixer_numvoices(ctx, p->virt.maxvoc); */ for (i = 0; i < p->virt.maxvoc; i++) { struct mixer_voice *vi = &p->virt.voice_array[i]; #ifdef LIBXMP_PAULA_SIMULATOR struct paula_state *paula = vi->paula; #endif memset(vi, 0, sizeof(struct mixer_voice)); #ifdef LIBXMP_PAULA_SIMULATOR vi->paula = paula; #endif vi->chn = FREE; vi->root = FREE; } for (i = 0; i < p->virt.virt_channels; i++) { p->virt.virt_channel[i].map = FREE; p->virt.virt_channel[i].count = 0; } p->virt.virt_used = 0; } static int free_voice(struct context_data *ctx) { struct player_data *p = &ctx->p; int i, num, vol; /* Find background voice with lowest volume*/ num = FREE; vol = INT_MAX; for (i = 0; i < p->virt.maxvoc; i++) { struct mixer_voice *vi = &p->virt.voice_array[i]; if (vi->chn >= p->virt.num_tracks && vi->vol < vol) { num = i; vol = vi->vol; } } /* Free voice */ if (num >= 0) { p->virt.virt_channel[p->virt.voice_array[num].chn].map = FREE; p->virt.virt_channel[p->virt.voice_array[num].root].count--; p->virt.virt_used--; } return num; } static int alloc_voice(struct context_data *ctx, int chn) { struct player_data *p = &ctx->p; int i; /* Find free voice */ for (i = 0; i < p->virt.maxvoc; i++) { if (p->virt.voice_array[i].chn == FREE) break; } /* not found */ if (i == p->virt.maxvoc) { i = free_voice(ctx); } if (i >= 0) { p->virt.virt_channel[chn].count++; p->virt.virt_used++; p->virt.voice_array[i].chn = chn; p->virt.voice_array[i].root = chn; p->virt.virt_channel[chn].map = i; } return i; } static int map_virt_channel(struct player_data *p, int chn) { int voc; if ((uint32)chn >= p->virt.virt_channels) return -1; voc = p->virt.virt_channel[chn].map; if ((uint32)voc >= p->virt.maxvoc) return -1; return voc; } int libxmp_virt_mapchannel(struct context_data *ctx, int chn) { return map_virt_channel(&ctx->p, chn); } void libxmp_virt_resetchannel(struct context_data *ctx, int chn) { struct player_data *p = &ctx->p; struct mixer_voice *vi; #ifdef LIBXMP_PAULA_SIMULATOR struct paula_state *paula; #endif int voc; if ((voc = map_virt_channel(p, chn)) < 0) return; libxmp_mixer_setvol(ctx, voc, 0); p->virt.virt_used--; p->virt.virt_channel[p->virt.voice_array[voc].root].count--; p->virt.virt_channel[chn].map = FREE; vi = &p->virt.voice_array[voc]; #ifdef LIBXMP_PAULA_SIMULATOR paula = vi->paula; #endif memset(vi, 0, sizeof(struct mixer_voice)); #ifdef LIBXMP_PAULA_SIMULATOR vi->paula = paula; #endif vi->chn = vi->root = FREE; } void libxmp_virt_setvol(struct context_data *ctx, int chn, int vol) { struct player_data *p = &ctx->p; int voc, root; if ((voc = map_virt_channel(p, chn)) < 0) { return; } root = p->virt.voice_array[voc].root; if (root < XMP_MAX_CHANNELS && p->channel_mute[root]) { vol = 0; } libxmp_mixer_setvol(ctx, voc, vol); if (vol == 0 && chn >= p->virt.num_tracks) { libxmp_virt_resetvoice(ctx, voc, 1); } } void libxmp_virt_release(struct context_data *ctx, int chn, int rel) { struct player_data *p = &ctx->p; int voc; if ((voc = map_virt_channel(p, chn)) < 0) { return; } libxmp_mixer_release(ctx, voc, rel); } void libxmp_virt_setpan(struct context_data *ctx, int chn, int pan) { struct player_data *p = &ctx->p; int voc; if ((voc = map_virt_channel(p, chn)) < 0) { return; } libxmp_mixer_setpan(ctx, voc, pan); } void libxmp_virt_seteffect(struct context_data *ctx, int chn, int type, int val) { struct player_data *p = &ctx->p; int voc; if ((voc = map_virt_channel(p, chn)) < 0) { return; } libxmp_mixer_seteffect(ctx, voc, type, val); } double libxmp_virt_getvoicepos(struct context_data *ctx, int chn) { struct player_data *p = &ctx->p; int voc; if ((voc = map_virt_channel(p, chn)) < 0) { return -1; } return libxmp_mixer_getvoicepos(ctx, voc); } #ifndef LIBXMP_CORE_PLAYER void libxmp_virt_setsmp(struct context_data *ctx, int chn, int smp) { struct player_data *p = &ctx->p; struct mixer_voice *vi; double pos; int voc; if ((voc = map_virt_channel(p, chn)) < 0) { return; } vi = &p->virt.voice_array[voc]; if (vi->smp == smp) { return; } pos = libxmp_mixer_getvoicepos(ctx, voc); libxmp_mixer_setpatch(ctx, voc, smp, 0); libxmp_mixer_voicepos(ctx, voc, pos, 0); /* Restore old position */ } #endif #ifndef LIBXMP_CORE_DISABLE_IT void libxmp_virt_setnna(struct context_data *ctx, int chn, int nna) { struct player_data *p = &ctx->p; int voc; if ((voc = map_virt_channel(p, chn)) < 0) { return; } p->virt.voice_array[voc].act = nna; } static void check_dct(struct context_data *ctx, int i, int chn, int ins, int smp, int note, int nna, int dct, int dca) { struct player_data *p = &ctx->p; struct mixer_voice *vi = &p->virt.voice_array[i]; int voc; voc = p->virt.virt_channel[chn].map; if (vi->root == chn && vi->ins == ins) { if (nna == XMP_INST_NNA_CUT) { libxmp_virt_resetvoice(ctx, i, 1); return; } vi->act = nna; if ((dct == XMP_INST_DCT_INST) || (dct == XMP_INST_DCT_SMP && vi->smp == smp) || (dct == XMP_INST_DCT_NOTE && vi->note == note)) { if (nna == XMP_INST_NNA_OFF && dca == XMP_INST_DCA_FADE) { vi->act = VIRT_ACTION_OFF; } else if (dca) { if (i != voc || vi->act) { vi->act = dca; } } else { libxmp_virt_resetvoice(ctx, i, 1); } } } } #endif /* For note slides */ void libxmp_virt_setnote(struct context_data *ctx, int chn, int note) { struct player_data *p = &ctx->p; int voc; if ((voc = map_virt_channel(p, chn)) < 0) { return; } libxmp_mixer_setnote(ctx, voc, note); } int libxmp_virt_setpatch(struct context_data *ctx, int chn, int ins, int smp, int note, int nna, int dct, int dca) { struct player_data *p = &ctx->p; int voc, vfree; if ((uint32)chn >= p->virt.virt_channels) { return -1; } if (ins < 0) { smp = -1; } #ifndef LIBXMP_CORE_DISABLE_IT if (dct) { int i; for (i = 0; i < p->virt.maxvoc; i++) { check_dct(ctx, i, chn, ins, smp, note, nna, dct, dca); } } #endif voc = p->virt.virt_channel[chn].map; if (voc > FREE) { if (p->virt.voice_array[voc].act) { vfree = alloc_voice(ctx, chn); if (vfree < 0) { return -1; } for (chn = p->virt.num_tracks; p->virt.virt_channel[chn++].map > FREE;) ; p->virt.voice_array[voc].chn = --chn; p->virt.virt_channel[chn].map = voc; voc = vfree; } } else { voc = alloc_voice(ctx, chn); if (voc < 0) { return -1; } } if (smp < 0) { libxmp_virt_resetvoice(ctx, voc, 1); return chn; /* was -1 */ } libxmp_mixer_setpatch(ctx, voc, smp, 1); libxmp_mixer_setnote(ctx, voc, note); p->virt.voice_array[voc].ins = ins; p->virt.voice_array[voc].act = nna; return chn; } void libxmp_virt_setperiod(struct context_data *ctx, int chn, double period) { struct player_data *p = &ctx->p; int voc; if ((voc = map_virt_channel(p, chn)) < 0) { return; } libxmp_mixer_setperiod(ctx, voc, period); } void libxmp_virt_voicepos(struct context_data *ctx, int chn, double pos) { struct player_data *p = &ctx->p; int voc; if ((voc = map_virt_channel(p, chn)) < 0) { return; } libxmp_mixer_voicepos(ctx, voc, pos, 1); } #ifndef LIBXMP_CORE_DISABLE_IT void libxmp_virt_pastnote(struct context_data *ctx, int chn, int act) { struct player_data *p = &ctx->p; int c, voc; for (c = p->virt.num_tracks; c < p->virt.virt_channels; c++) { if ((voc = map_virt_channel(p, c)) < 0) continue; if (p->virt.voice_array[voc].root == chn) { switch (act) { case VIRT_ACTION_CUT: libxmp_virt_resetvoice(ctx, voc, 1); break; case VIRT_ACTION_OFF: libxmp_player_set_release(ctx, c); break; case VIRT_ACTION_FADE: libxmp_player_set_fadeout(ctx, c); break; } } } } #endif int libxmp_virt_cstat(struct context_data *ctx, int chn) { struct player_data *p = &ctx->p; int voc; if ((voc = map_virt_channel(p, chn)) < 0) { return VIRT_INVALID; } if (chn < p->virt.num_tracks) { return VIRT_ACTIVE; } return p->virt.voice_array[voc].act; }