Mercurial > hg > xmms-sid
view src/xs_sidplay2.cc @ 695:ca594ca1056f
COM API support works now.
| author | Matti Hamalainen <ccr@tnsp.org> |
|---|---|
| date | Thu, 22 May 2008 11:32:37 +0300 |
| parents | fd81a16434ed |
| children | e2800b15ec0f |
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/* XMMS-SID - SIDPlay input plugin for X MultiMedia System (XMMS) libSIDPlay v2 support Programmed and designed by Matti 'ccr' Hamalainen <ccr@tnsp.org> (C) Copyright 1999-2007 Tecnic Software productions (TNSP) This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "xmms-sid.h" #ifdef HAVE_SIDPLAY2 #include <stdio.h> #include "xs_sidplay2.h" #include "xs_config.h" #include <sidplay/sidplay2.h> #ifdef HAVE_SIDPLAY2_COMI # include <sidplay/sidlazyiptr.h> #endif class xs_sidplay2_t { public: #ifdef HAVE_SIDPLAY2_COMI SidIPtr<ISidplay2> currEng; SidLazyIPtr<ISidUnknown> currBuilder; #else sidplay2 *currEng; sidbuilder *currBuilder; #endif sid2_config_t currConfig; SidTune *currTune; guint8 *buf; size_t bufSize; xs_sidplay2_t(void); virtual ~xs_sidplay2_t(void) { ; } }; #ifdef HAVE_RESID_BUILDER # include <sidplay/builders/resid.h> #endif #ifdef HAVE_HARDSID_BUILDER # include <sidplay/builders/hardsid.h> #endif xs_sidplay2_t::xs_sidplay2_t(void) #ifdef HAVE_SIDPLAY2_COMI :currEng(sidplay2::create()) #else :currEng(NULL) #endif { buf = NULL; bufSize = 0; currTune = NULL; currBuilder = NULL; } /* We need to 'export' all this pseudo-C++ crap */ extern "C" { /* Return song information */ #define TFUNCTION xs_sidplay2_getinfo #define TFUNCTION2 xs_sidplay2_updateinfo #define TTUNEINFO SidTuneInfo #define TTUNE SidTune #define TENGINE xs_sidplay2_t #include "xs_sidplay.h" /* Check if we can play the given file */ gboolean xs_sidplay2_probe(xs_file_t *f) { gchar tmpBuf[4]; if (!f) return FALSE; if (xs_fread(tmpBuf, sizeof(gchar), 4, f) != 4) return FALSE; if (!strncmp(tmpBuf, "PSID", 4) || !strncmp(tmpBuf, "RSID", 4)) return TRUE; else return FALSE; } /* Initialize SIDPlay2 */ gboolean xs_sidplay2_init(xs_status_t * myStatus) { gint tmpFreq, i; xs_sidplay2_t *myEngine; sid_filter_t tmpFilter; t_xs_sid2_filter *f; assert(myStatus); /* Allocate internal structures */ myEngine = new xs_sidplay2_t(); myStatus->sidEngine = myEngine; if (!myEngine) return FALSE; /* Initialize the engine */ #ifndef HAVE_SIDPLAY2_COMI myEngine->currEng = new sidplay2; #endif if (!myEngine->currEng) { xs_error("[SIDPlay2] Could not initialize emulation engine.\n"); return FALSE; } /* Get current configuration */ myEngine->currConfig = myEngine->currEng->config(); /* Configure channels and stuff */ switch (myStatus->audioChannels) { case XS_CHN_AUTOPAN: myEngine->currConfig.playback = sid2_stereo; break; case XS_CHN_STEREO: myEngine->currConfig.playback = sid2_stereo; break; case XS_CHN_MONO: default: myEngine->currConfig.playback = sid2_mono; myStatus->audioChannels = XS_CHN_MONO; break; } /* Memory mode settings */ switch (xs_cfg.memoryMode) { case XS_MPU_BANK_SWITCHING: myEngine->currConfig.environment = sid2_envBS; break; case XS_MPU_TRANSPARENT_ROM: myEngine->currConfig.environment = sid2_envTP; break; case XS_MPU_PLAYSID_ENVIRONMENT: myEngine->currConfig.environment = sid2_envPS; break; case XS_MPU_REAL: default: myEngine->currConfig.environment = sid2_envR; xs_cfg.memoryMode = XS_MPU_REAL; break; } /* Audio parameters sanity checking and setup */ myEngine->currConfig.precision = myStatus->audioBitsPerSample; tmpFreq = myStatus->audioFrequency; if (myStatus->oversampleEnable) tmpFreq = (tmpFreq * myStatus->oversampleFactor); myEngine->currConfig.frequency = tmpFreq; switch (myStatus->audioBitsPerSample) { case XS_RES_8BIT: myStatus->audioFormat = FMT_U8; myEngine->currConfig.sampleFormat = SID2_LITTLE_UNSIGNED; break; case XS_RES_16BIT: default: switch (myStatus->audioFormat) { case FMT_U16_LE: myEngine->currConfig.sampleFormat = SID2_LITTLE_UNSIGNED; break; case FMT_U16_BE: myEngine->currConfig.sampleFormat = SID2_BIG_UNSIGNED; break; case FMT_U16_NE: #if G_BYTE_ORDER == G_BIG_ENDIAN myEngine->currConfig.sampleFormat = SID2_BIG_UNSIGNED; #else #if G_BYTE_ORDER == G_LITTLE_ENDIAN myEngine->currConfig.sampleFormat = SID2_LITTLE_UNSIGNED; #else #error Unsupported endianess! #endif #endif break; case FMT_S16_LE: myEngine->currConfig.sampleFormat = SID2_LITTLE_SIGNED; break; case FMT_S16_BE: myEngine->currConfig.sampleFormat = SID2_BIG_SIGNED; break; default: myStatus->audioFormat = FMT_S16_NE; #if G_BYTE_ORDER == G_BIG_ENDIAN myEngine->currConfig.sampleFormat = SID2_BIG_SIGNED; #else #if G_BYTE_ORDER == G_LITTLE_ENDIAN myEngine->currConfig.sampleFormat = SID2_LITTLE_SIGNED; #else #error Unsupported endianess! #endif #endif break; } break; } /* Convert filter */ f = &(xs_cfg.sid2Filter); XSDEBUG("using filter '%s', %d points\n", f->name, f->npoints); if (f->npoints > XS_SIDPLAY2_NFPOINTS) { xs_error("[SIDPlay2] Invalid number of filter curve points (%d > %d)\n", f->npoints, XS_SIDPLAY2_NFPOINTS); f->npoints = XS_SIDPLAY2_NFPOINTS; } tmpFilter.points = f->npoints; for (i = 0; i < f->npoints; i++) { tmpFilter.cutoff[i][0] = f->points[i].x; tmpFilter.cutoff[i][1] = f->points[i].y; } /* Initialize builder object */ XSDEBUG("init builder #%i, maxsids=%i\n", xs_cfg.sid2Builder, (myEngine->currEng->info()).maxsids); #ifdef HAVE_RESID_BUILDER if (xs_cfg.sid2Builder == XS_BLD_RESID) { #ifdef HAVE_SIDPLAY2_COMI myEngine->currBuilder = ReSIDBuilderCreate(""); SidLazyIPtr<IReSIDBuilder> rs(myEngine->currBuilder); if (rs) { myEngine->currConfig.sidEmulation = rs->iaggregate(); #else ReSIDBuilder *rs = new ReSIDBuilder("ReSID builder"); myEngine->currBuilder = (sidbuilder *) rs; if (rs) { #endif /* Builder object created, initialize it */ rs->create((myEngine->currEng->info()).maxsids); if (!*rs) { xs_error("reSID->create() failed.\n"); return FALSE; } rs->filter(xs_cfg.emulateFilters); if (!*rs) { xs_error("reSID->filter(%d) failed.\n", xs_cfg.emulateFilters); return FALSE; } // FIXME FIX ME: support other configurable parameters ... // ... WHEN/IF resid-builder+libsidplay2 gets fixed rs->sampling(tmpFreq); if (!*rs) { xs_error("reSID->sampling(%d) failed.\n", tmpFreq); return FALSE; } if (tmpFilter.points > 0) rs->filter((sid_filter_t *) &tmpFilter); else rs->filter((sid_filter_t *) NULL); if (!*rs) { xs_error("reSID->filter(NULL) failed.\n"); return FALSE; } } } #endif #ifdef HAVE_HARDSID_BUILDER if (xs_cfg.sid2Builder == XS_BLD_HARDSID) { #ifdef HAVE_SIDPLAY2_COMI myEngine->currBuilder = HardSIDBuilderCreate(""); SidLazyIPtr<IHardSIDBuilder> hs(myEngine->currBuilder); if (hs) { myEngine->currConfig.sidEmulation = hs->iaggregate(); #else HardSIDBuilder *hs = new HardSIDBuilder("HardSID builder"); myEngine->currBuilder = (sidbuilder *) hs; if (hs) { #endif /* Builder object created, initialize it */ hs->create((myEngine->currEng->info()).maxsids); if (!*hs) { xs_error("hardSID->create() failed.\n"); return FALSE; } hs->filter(xs_cfg.emulateFilters); if (!*hs) { xs_error("hardSID->filter(%d) failed.\n", xs_cfg.emulateFilters); return FALSE; } } } #endif if (!myEngine->currBuilder) { xs_error("[SIDPlay2] Could not initialize SIDBuilder object.\n"); return FALSE; } #ifndef HAVE_SIDPLAY2_COMI myEngine->currConfig.sidEmulation = myEngine->currBuilder; XSDEBUG("%s\n", myEngine->currBuilder->credits()); #endif /* Clockspeed settings */ switch (xs_cfg.clockSpeed) { case XS_CLOCK_NTSC: myEngine->currConfig.clockDefault = SID2_CLOCK_NTSC; break; default: xs_error("[SIDPlay2] Invalid clockSpeed=%d, falling back to PAL.\n", xs_cfg.clockSpeed); case XS_CLOCK_PAL: myEngine->currConfig.clockDefault = SID2_CLOCK_PAL; xs_cfg.clockSpeed = XS_CLOCK_PAL; break; } /* Configure rest of the emulation */ if (xs_cfg.forceSpeed) { myEngine->currConfig.clockForced = true; myEngine->currConfig.clockSpeed = myEngine->currConfig.clockDefault; } else { myEngine->currConfig.clockForced = false; myEngine->currConfig.clockSpeed = SID2_CLOCK_CORRECT; } if ((xs_cfg.sid2OptLevel >= 0) && (xs_cfg.sid2OptLevel <= SID2_MAX_OPTIMISATION)) myEngine->currConfig.optimisation = xs_cfg.sid2OptLevel; else { xs_error("Invalid sid2OptLevel=%d, falling back to %d.\n", xs_cfg.sid2OptLevel, SID2_DEFAULT_OPTIMISATION); xs_cfg.sid2OptLevel = myEngine->currConfig.optimisation = SID2_DEFAULT_OPTIMISATION; } if (xs_cfg.mos8580) myEngine->currConfig.sidDefault = SID2_MOS8580; else myEngine->currConfig.sidDefault = SID2_MOS6581; if (xs_cfg.forceModel) myEngine->currConfig.sidModel = myEngine->currConfig.sidDefault; else myEngine->currConfig.sidModel = SID2_MODEL_CORRECT; /* XXX: Should this be configurable? libSIDPlay1 does not support it, though */ myEngine->currConfig.sidSamples = TRUE; /* Now set the emulator configuration */ if (myEngine->currEng->config(myEngine->currConfig) < 0) { xs_error("[SIDPlay2] Emulator engine configuration failed!\n"); return FALSE; } /* Create the sidtune */ myEngine->currTune = new SidTune(0); if (!myEngine->currTune) { xs_error("[SIDPlay2] Could not initialize SIDTune object.\n"); return FALSE; } return TRUE; } /* Close SIDPlay2 engine */ void xs_sidplay2_close(xs_status_t * myStatus) { xs_sidplay2_t *myEngine; assert(myStatus); myEngine = (xs_sidplay2_t *) myStatus->sidEngine; /* Free internals */ if (myEngine->currBuilder) { #ifndef HAVE_SIDPLAY2_COMI delete myEngine->currBuilder; #endif myEngine->currBuilder = NULL; } #ifndef HAVE_SIDPLAY2_COMI if (myEngine->currEng) { delete myEngine->currEng; myEngine->currEng = NULL; } #endif if (myEngine->currTune) { delete myEngine->currTune; myEngine->currTune = NULL; } xs_sidplay2_delete(myStatus); delete myEngine; myStatus->sidEngine = NULL; } /* Initialize current song and sub-tune */ gboolean xs_sidplay2_initsong(xs_status_t * myStatus) { xs_sidplay2_t *myEngine; assert(myStatus); myEngine = (xs_sidplay2_t *) myStatus->sidEngine; if (!myEngine) return FALSE; if (!myEngine->currTune->selectSong(myStatus->currSong)) { xs_error("[SIDPlay2] currTune->selectSong() failed\n"); return FALSE; } if (myEngine->currEng->load(myEngine->currTune) < 0) { xs_error("[SIDPlay2] currEng->load() failed\n"); return FALSE; } myStatus->isInitialized = TRUE; return TRUE; } /* Emulate and render audio data to given buffer */ guint xs_sidplay2_fillbuffer(xs_status_t * myStatus, gchar * audioBuffer, guint audioBufSize) { xs_sidplay2_t *myEngine; assert(myStatus); myEngine = (xs_sidplay2_t *) myStatus->sidEngine; if (!myEngine) return 0; return myEngine->currEng->play(audioBuffer, audioBufSize); } /* Load a given SID-tune file */ gboolean xs_sidplay2_load(xs_status_t * myStatus, gchar * pcFilename) { xs_sidplay2_t *myEngine; assert(myStatus); myStatus->isInitialized = FALSE; myEngine = (xs_sidplay2_t *) myStatus->sidEngine; if (!myEngine) return FALSE; /* Try to get the tune */ if (!pcFilename) return FALSE; if (xs_fload_buffer(pcFilename, &(myEngine->buf), &(myEngine->bufSize)) != 0) return FALSE; if (!myEngine->currTune->read(myEngine->buf, myEngine->bufSize)) return FALSE; return TRUE; } /* Delete INTERNAL information */ void xs_sidplay2_delete(xs_status_t * myStatus) { xs_sidplay2_t *myEngine; assert(myStatus); myEngine = (xs_sidplay2_t *) myStatus->sidEngine; if (!myEngine) return; g_free(myEngine->buf); myEngine->buf = NULL; myEngine->bufSize = 0; } /* Hardware backend flushing */ void xs_sidplay2_flush(xs_status_t * myStatus) { assert(myStatus); #ifdef HAVE_HARDSID_BUILDER #ifdef HSID_SID2_COM IfPtr<HardSIDBuilder> hs(myStatus->currBuilder); if (hs) hs->flush(); #else if (xs_cfg.sid2Builder == XS_BLD_HARDSID) ((HardSIDBuilder *) myStatus->currBuilder)->flush(); #endif #endif } } /* extern "C" */ #endif /* HAVE_SIDPLAY2 */