src/engines/InstrumentManagerBase.h

/***************************************************************************
 *                                                                         *
 *   LinuxSampler - modular, streaming capable sampler                     *
 *                                                                         *
 *   Copyright (C) 2003, 2004 by Benno Senoner and Christian Schoenebeck   *
 *   Copyright (C) 2005 - 2009 Christian Schoenebeck                       *
 *   Copyright (C) 2009 Grigor Iliev                                       *
 *                                                                         *
 *   This library 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 library 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 library; if not, write to the Free Software           *
 *   Foundation, Inc., 59 Temple Place, Suite 330, Boston,                 *
 *   MA  02111-1307  USA                                                   *
 ***************************************************************************/

#ifndef __LS_INSTRUMENTMANAGERBASE_H__
#define __LS_INSTRUMENTMANAGERBASE_H__

#include "InstrumentManager.h"
#include "AbstractEngine.h"
#include "AbstractEngineChannel.h"
#include "../common/ResourceManager.h"
#include "../common/global_private.h"

// We need to know the maximum number of sample points which are going to
// be processed for each render cycle of the audio output driver, to know
// how much initial sample points we need to cache into RAM. If the given
// sampler channel does not have an audio output device assigned yet
// though, we simply use this default value.
#define GIG_RESOURCE_MANAGER_DEFAULT_MAX_SAMPLES_PER_CYCLE     128

namespace LinuxSampler {

    template <class F /* Instrument File */, class I /* Instrument */, class R /* Regions */, class S /*Sample */>
    class InstrumentManagerBase : virtual public InstrumentManager, virtual public ResourceManager<InstrumentManager::instrument_id_t, I> {
        public:
            struct region_info_t {
                int    refCount;
                F*     file;
                void*  pArg;

                region_info_t() {
                    refCount = 0; file = NULL; pArg = NULL;
                }
            };

            typedef ResourceConsumer<I> InstrumentConsumer;

            InstrumentManagerBase() { }
            virtual ~InstrumentManagerBase() { }

            virtual InstrumentEditor* LaunchInstrumentEditor(instrument_id_t ID, void* pUserData = NULL) throw (InstrumentManagerException) {
                 throw InstrumentManagerException(
                    "Instrument editing is not supported for this instrument format"
                );
            }

            virtual String GetInstrumentDataStructureName(instrument_id_t ID) {
                throw InstrumentManagerException("Not implemented");
            }

            virtual String GetInstrumentDataStructureVersion(instrument_id_t ID) {
                throw InstrumentManagerException("Not implemented");
            }

            /**
             * Give back an instrument. This should be used instead of
             * HandBack if there are some regions that are still in
             * use. (When an instrument is changed, the voices currently
             * playing are allowed to keep playing with the old instrument
             * until note off arrives. New notes will use the new instrument.)
             */
            void HandBackInstrument (
                I*                   pResource,
                InstrumentConsumer*  pConsumer,
                RTList<R*>*          pRegionsInUse
            ) {
                RegionInfoMutex.Lock();
                for (typename RTList<R*>::Iterator i = pRegionsInUse->first() ; i != pRegionsInUse->end() ; i++) {
                    RegionInfo[*i].refCount++;
                    SampleRefCount[(*i)->pSample]++;
                }
                HandBack(pResource, pConsumer, true);
                RegionInfoMutex.Unlock();
            }

            /**
             * Give back a region that belongs to an instrument that
             * was previously handed back.
             */
            virtual void HandBackRegion(R* pRegion) {
                RegionInfoMutex.Lock();
                if (RegionInfo.find(pRegion) == RegionInfo.end()) {
                    std::cerr << "Handing back unknown region. This is a BUG!!!" << std::endl;
                }
                region_info_t& regInfo = RegionInfo[pRegion];
                int regionRefCount = --regInfo.refCount;
                int sampleRefCount = --SampleRefCount[pRegion->pSample];
                if (regionRefCount == 0) {
                    RegionInfo.erase(pRegion);
                    DeleteRegionIfNotUsed(pRegion, &regInfo);

                    if (sampleRefCount == 0) {
                        SampleRefCount.erase(pRegion->pSample);
                        DeleteSampleIfNotUsed(pRegion->pSample, &regInfo);
                    }
                }
                RegionInfoMutex.Unlock();
            }

            virtual InstrumentManager::mode_t GetMode(const InstrumentManager::instrument_id_t& ID) {
                return static_cast<InstrumentManager::mode_t>(ResourceManager<instrument_id_t, I>::AvailabilityMode(ID));
            }

            virtual void SetMode(const InstrumentManager::instrument_id_t& ID, InstrumentManager::mode_t Mode) {
                dmsg(2,("InstrumentManagerBase: setting mode for %s (Index=%d) to %d\n",ID.FileName.c_str(),ID.Index,Mode));
                SetAvailabilityMode(ID, static_cast<typename ResourceManager<instrument_id_t, I>::mode_t>(Mode));
            }

        protected:
            Mutex RegionInfoMutex; ///< protects the RegionInfo and SampleRefCount maps from concurrent access by the instrument loader and disk threads
            std::map< R*, region_info_t> RegionInfo; ///< contains dimension regions that are still in use but belong to released instrument
            std::map< S*, int> SampleRefCount; ///< contains samples that are still in use but belong to a released instrument

            /**
             *  Caches a certain size at the beginning of the given sample in RAM. If the
             *  sample is very short, the whole sample will be loaded into RAM and thus
             *  no disk streaming is needed for this sample. Caching an initial part of
             *  samples is needed to compensate disk reading latency.
             *
             *  @param pSample - points to the sample to be cached
             *  @param pEngine - pointer to Engine which caused this call
             *                   (may be NULL, in this case default amount of samples
             *                   will be cached)
             */
            virtual void CacheInitialSamples(S* pSample, AbstractEngine* pEngine) = 0;

            virtual void DeleteRegionIfNotUsed(R* pRegion, region_info_t* pRegInfo) = 0;
            virtual void DeleteSampleIfNotUsed(S* pSample, region_info_t* pRegInfo) = 0;

            void SetKeyBindings(uint8_t* bindingsArray, int low, int high, int undefined = -1) {
                if (low == undefined || high == undefined) return;
                if (low < 0 || low > 127 || high < 0 || high > 127 || low > high) {
                    std::cerr << "Invalid key range: " << low << " - " << high << std::endl;
                    return;
                }

                for (int i = low; i <= high; i++) bindingsArray[i] = 1;
            }

    };

    template <class F /* Instrument File */, class I /* Instrument */, class R /* Region */, class S /* Sample */>
    class InstrumentManagerDefaultImpl : public InstrumentManagerBase<F, I, R, S> {
        public:
            InstrumentManagerDefaultImpl() { }
            virtual ~InstrumentManagerDefaultImpl() { }
        protected:
            virtual void CacheInitialSamples(S* pSample, AbstractEngine* pEngine)  {
                if (!pSample) {
                    dmsg(4,("InstrumentManagerBase: Skipping sample (pSample == NULL)\n"));
                    return;
                }
                if (!pSample->GetTotalFrameCount()) return; // skip zero size samples

                if (pSample->GetTotalFrameCount() <= CONFIG_PRELOAD_SAMPLES) {
                    // Sample is too short for disk streaming, so we load the whole
                    // sample into RAM and place 'pAudioIO->FragmentSize << CONFIG_MAX_PITCH'
                    // number of '0' samples (silence samples) behind the official buffer
                    // border, to allow the interpolator do it's work even at the end of
                    // the sample.
                    const uint maxSamplesPerCycle =
                        (pEngine) ? pEngine->pAudioOutputDevice->MaxSamplesPerCycle()
                                  : GIG_RESOURCE_MANAGER_DEFAULT_MAX_SAMPLES_PER_CYCLE;
                    const uint neededSilenceSamples = (maxSamplesPerCycle << CONFIG_MAX_PITCH) + 3;
                    const uint currentlyCachedSilenceSamples = pSample->GetCache().NullExtensionSize / pSample->GetFrameSize();
                    if (currentlyCachedSilenceSamples < neededSilenceSamples) {
                        dmsg(3,("Caching whole sample (sample name: \"%s\", sample size: %d)\n", pSample->GetName().c_str(), pSample->GetTotalFrameCount()));
                        typename S::buffer_t buf = pSample->LoadSampleDataWithNullSamplesExtension(neededSilenceSamples);
                        dmsg(4,("Cached %d Bytes, %d silence bytes.\n", buf.Size, buf.NullExtensionSize));
                    }
                }
                else { // we only cache CONFIG_PRELOAD_SAMPLES and stream the other sample points from disk
                    if (!pSample->GetCache().Size) pSample->LoadSampleData(CONFIG_PRELOAD_SAMPLES);
                }

                if (!pSample->GetCache().Size) std::cerr << "Unable to cache sample - maybe memory full!" << std::endl << std::flush;
            }

            /**
             * Just a wrapper around the other @c CacheInitialSamples() method.
             *
             *  @param pSample - points to the sample to be cached
             *  @param pEngine - pointer to Gig Engine Channel which caused this call
             *                   (may be NULL, in this case default amount of samples
             *                   will be cached)
             */
            virtual void CacheInitialSamples(S* pSample, EngineChannel* pEngineChannel) {
                 AbstractEngine* pEngine =
                    (pEngineChannel && pEngineChannel->GetEngine()) ?
                        dynamic_cast<AbstractEngine*>(pEngineChannel->GetEngine()) : NULL;
                CacheInitialSamples(pSample, pEngine);
            }
    };

} // namespace LinuxSampler

#endif // __LS_INSTRUMENTMANAGERBASE_H__
1	/***************************************************************************
2	* *
3	* LinuxSampler - modular, streaming capable sampler *
4	* *
5	* Copyright (C) 2003, 2004 by Benno Senoner and Christian Schoenebeck *
6	* Copyright (C) 2005 - 2009 Christian Schoenebeck *
7	* Copyright (C) 2009 Grigor Iliev *
8	* *
9	* This library is free software; you can redistribute it and/or modify *
10	* it under the terms of the GNU General Public License as published by *
11	* the Free Software Foundation; either version 2 of the License, or *
12	* (at your option) any later version. *
13	* *
14	* This library is distributed in the hope that it will be useful, *
15	* but WITHOUT ANY WARRANTY; without even the implied warranty of *
16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
17	* GNU General Public License for more details. *
18	* *
19	* You should have received a copy of the GNU General Public License *
20	* along with this library; if not, write to the Free Software *
21	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, *
22	* MA 02111-1307 USA *
23	***************************************************************************/
24
25	#ifndef __LS_INSTRUMENTMANAGERBASE_H__
26	#define __LS_INSTRUMENTMANAGERBASE_H__
27
28	#include "InstrumentManager.h"
29	#include "AbstractEngine.h"
30	#include "AbstractEngineChannel.h"
31	#include "../common/ResourceManager.h"
32	#include "../common/global_private.h"
33
34	// We need to know the maximum number of sample points which are going to
35	// be processed for each render cycle of the audio output driver, to know
36	// how much initial sample points we need to cache into RAM. If the given
37	// sampler channel does not have an audio output device assigned yet
38	// though, we simply use this default value.
39	#define GIG_RESOURCE_MANAGER_DEFAULT_MAX_SAMPLES_PER_CYCLE 128
40
41	namespace LinuxSampler {
42
43	template <class F /* Instrument File /, class I / Instrument /, class R / Regions /, class S /Sample */>
44	class InstrumentManagerBase : virtual public InstrumentManager, virtual public ResourceManager<InstrumentManager::instrument_id_t, I> {
45	public:
46	struct region_info_t {
47	int refCount;
48	F* file;
49	void* pArg;
50
51	region_info_t() {
52	refCount = 0; file = NULL; pArg = NULL;
53	}
54	};
55
56	typedef ResourceConsumer<I> InstrumentConsumer;
57
58	InstrumentManagerBase() { }
59	virtual ~InstrumentManagerBase() { }
60
61	virtual InstrumentEditor* LaunchInstrumentEditor(instrument_id_t ID, void* pUserData = NULL) throw (InstrumentManagerException) {
62	throw InstrumentManagerException(
63	"Instrument editing is not supported for this instrument format"
64	);
65	}
66
67	virtual String GetInstrumentDataStructureName(instrument_id_t ID) {
68	throw InstrumentManagerException("Not implemented");
69	}
70
71	virtual String GetInstrumentDataStructureVersion(instrument_id_t ID) {
72	throw InstrumentManagerException("Not implemented");
73	}
74
75	/**
76	* Give back an instrument. This should be used instead of
77	* HandBack if there are some regions that are still in
78	* use. (When an instrument is changed, the voices currently
79	* playing are allowed to keep playing with the old instrument
80	* until note off arrives. New notes will use the new instrument.)
81	*/
82	void HandBackInstrument (
83	I* pResource,
84	InstrumentConsumer* pConsumer,
85	RTList<R> pRegionsInUse
86	) {
87	RegionInfoMutex.Lock();
88	for (typename RTList<R*>::Iterator i = pRegionsInUse->first() ; i != pRegionsInUse->end() ; i++) {
89	RegionInfo[*i].refCount++;
90	SampleRefCount[(*i)->pSample]++;
91	}
92	HandBack(pResource, pConsumer, true);
93	RegionInfoMutex.Unlock();
94	}
95
96	/**
97	* Give back a region that belongs to an instrument that
98	* was previously handed back.
99	*/
100	virtual void HandBackRegion(R* pRegion) {
101	RegionInfoMutex.Lock();
102	if (RegionInfo.find(pRegion) == RegionInfo.end()) {
103	std::cerr << "Handing back unknown region. This is a BUG!!!" << std::endl;
104	}
105	region_info_t& regInfo = RegionInfo[pRegion];
106	int regionRefCount = --regInfo.refCount;
107	int sampleRefCount = --SampleRefCount[pRegion->pSample];
108	if (regionRefCount == 0) {
109	RegionInfo.erase(pRegion);
110	DeleteRegionIfNotUsed(pRegion, &regInfo);
111
112	if (sampleRefCount == 0) {
113	SampleRefCount.erase(pRegion->pSample);
114	DeleteSampleIfNotUsed(pRegion->pSample, &regInfo);
115	}
116	}
117	RegionInfoMutex.Unlock();
118	}
119
120	virtual InstrumentManager::mode_t GetMode(const InstrumentManager::instrument_id_t& ID) {
121	return static_cast<InstrumentManager::mode_t>(ResourceManager<instrument_id_t, I>::AvailabilityMode(ID));
122	}
123
124	virtual void SetMode(const InstrumentManager::instrument_id_t& ID, InstrumentManager::mode_t Mode) {
125	dmsg(2,("InstrumentManagerBase: setting mode for %s (Index=%d) to %d\n",ID.FileName.c_str(),ID.Index,Mode));
126	SetAvailabilityMode(ID, static_cast<typename ResourceManager<instrument_id_t, I>::mode_t>(Mode));
127	}
128
129	protected:
130	Mutex RegionInfoMutex; ///< protects the RegionInfo and SampleRefCount maps from concurrent access by the instrument loader and disk threads
131	std::map< R*, region_info_t> RegionInfo; ///< contains dimension regions that are still in use but belong to released instrument
132	std::map< S*, int> SampleRefCount; ///< contains samples that are still in use but belong to a released instrument
133
134	/**
135	* Caches a certain size at the beginning of the given sample in RAM. If the
136	* sample is very short, the whole sample will be loaded into RAM and thus
137	* no disk streaming is needed for this sample. Caching an initial part of
138	* samples is needed to compensate disk reading latency.
139	*
140	* @param pSample - points to the sample to be cached
141	* @param pEngine - pointer to Engine which caused this call
142	* (may be NULL, in this case default amount of samples
143	* will be cached)
144	*/
145	virtual void CacheInitialSamples(S* pSample, AbstractEngine* pEngine) = 0;
146
147	virtual void DeleteRegionIfNotUsed(R* pRegion, region_info_t* pRegInfo) = 0;
148	virtual void DeleteSampleIfNotUsed(S* pSample, region_info_t* pRegInfo) = 0;
149
150	void SetKeyBindings(uint8_t* bindingsArray, int low, int high, int undefined = -1) {
151	if (low == undefined \|\| high == undefined) return;
152	if (low < 0 \|\| low > 127 \|\| high < 0 \|\| high > 127 \|\| low > high) {
153	std::cerr << "Invalid key range: " << low << " - " << high << std::endl;
154	return;
155	}
156
157	for (int i = low; i <= high; i++) bindingsArray[i] = 1;
158	}
159
160	};
161
162	template <class F /* Instrument File /, class I / Instrument /, class R / Region /, class S / Sample */>
163	class InstrumentManagerDefaultImpl : public InstrumentManagerBase<F, I, R, S> {
164	public:
165	InstrumentManagerDefaultImpl() { }
166	virtual ~InstrumentManagerDefaultImpl() { }
167	protected:
168	virtual void CacheInitialSamples(S* pSample, AbstractEngine* pEngine) {
169	if (!pSample) {
170	dmsg(4,("InstrumentManagerBase: Skipping sample (pSample == NULL)\n"));
171	return;
172	}
173	if (!pSample->GetTotalFrameCount()) return; // skip zero size samples
174
175	if (pSample->GetTotalFrameCount() <= CONFIG_PRELOAD_SAMPLES) {
176	// Sample is too short for disk streaming, so we load the whole
177	// sample into RAM and place 'pAudioIO->FragmentSize << CONFIG_MAX_PITCH'
178	// number of '0' samples (silence samples) behind the official buffer
179	// border, to allow the interpolator do it's work even at the end of
180	// the sample.
181	const uint maxSamplesPerCycle =
182	(pEngine) ? pEngine->pAudioOutputDevice->MaxSamplesPerCycle()
183	: GIG_RESOURCE_MANAGER_DEFAULT_MAX_SAMPLES_PER_CYCLE;
184	const uint neededSilenceSamples = (maxSamplesPerCycle << CONFIG_MAX_PITCH) + 3;
185	const uint currentlyCachedSilenceSamples = pSample->GetCache().NullExtensionSize / pSample->GetFrameSize();
186	if (currentlyCachedSilenceSamples < neededSilenceSamples) {
187	dmsg(3,("Caching whole sample (sample name: \"%s\", sample size: %d)\n", pSample->GetName().c_str(), pSample->GetTotalFrameCount()));
188	typename S::buffer_t buf = pSample->LoadSampleDataWithNullSamplesExtension(neededSilenceSamples);
189	dmsg(4,("Cached %d Bytes, %d silence bytes.\n", buf.Size, buf.NullExtensionSize));
190	}
191	}
192	else { // we only cache CONFIG_PRELOAD_SAMPLES and stream the other sample points from disk
193	if (!pSample->GetCache().Size) pSample->LoadSampleData(CONFIG_PRELOAD_SAMPLES);
194	}
195
196	if (!pSample->GetCache().Size) std::cerr << "Unable to cache sample - maybe memory full!" << std::endl << std::flush;
197	}
198
199	/**
200	* Just a wrapper around the other @c CacheInitialSamples() method.
201	*
202	* @param pSample - points to the sample to be cached
203	* @param pEngine - pointer to Gig Engine Channel which caused this call
204	* (may be NULL, in this case default amount of samples
205	* will be cached)
206	*/
207	virtual void CacheInitialSamples(S* pSample, EngineChannel* pEngineChannel) {
208	AbstractEngine* pEngine =
209	(pEngineChannel && pEngineChannel->GetEngine()) ?
210	dynamic_cast<AbstractEngine*>(pEngineChannel->GetEngine()) : NULL;
211	CacheInitialSamples(pSample, pEngine);
212	}
213	};
214
215	} // namespace LinuxSampler
216
217	#endif // __LS_INSTRUMENTMANAGERBASE_H__