drivers/audio/AudioOutputDevice.cpp

/***************************************************************************
 *                                                                         *
 *   LinuxSampler - modular, streaming capable sampler                     *
 *                                                                         *
 *   Copyright (C) 2003, 2004 by Benno Senoner and Christian Schoenebeck   *
 *   Copyright (C) 2005 Christian Schoenebeck                              *
 *                                                                         *
 *   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., 59 Temple Place, Suite 330, Boston,                 *
 *   MA  02111-1307  USA                                                   *
 ***************************************************************************/

#include "AudioOutputDeviceFactory.h"
#include "AudioOutputDevice.h"

namespace LinuxSampler {

// *************** ParameterActive ***************
// *

    AudioOutputDevice::ParameterActive::ParameterActive() : DeviceCreationParameterBool() {
        InitWithDefault();
    }

    AudioOutputDevice::ParameterActive::ParameterActive(String s) : DeviceCreationParameterBool(s) {
    }

    String AudioOutputDevice::ParameterActive::Description() {
        return "Enable / disable device";
    }

    bool AudioOutputDevice::ParameterActive::Fix() {
        return false;
    }

    bool AudioOutputDevice::ParameterActive::Mandatory() {
        return false;
    }

    std::map<String,DeviceCreationParameter*> AudioOutputDevice::ParameterActive::DependsAsParameters() {
        return std::map<String,DeviceCreationParameter*>();
    }

    optional<bool> AudioOutputDevice::ParameterActive::DefaultAsBool(std::map<String,String> Parameters) {
        return true;
    }

    void AudioOutputDevice::ParameterActive::OnSetValue(bool b) throw (LinuxSamplerException) {
        if (b) ((AudioOutputDevice*)pDevice)->Play();
        else ((AudioOutputDevice*)pDevice)->Stop();
    }

    String AudioOutputDevice::ParameterActive::Name() {
        return "ACTIVE";
    }


// *************** ParameterSampleRate ***************
// *

    AudioOutputDevice::ParameterSampleRate::ParameterSampleRate() : DeviceCreationParameterInt() {
        InitWithDefault();
    }

    AudioOutputDevice::ParameterSampleRate::ParameterSampleRate(String s) : DeviceCreationParameterInt(s) {
    }

    String AudioOutputDevice::ParameterSampleRate::Description() {
        return "Output sample rate";
    }

    bool AudioOutputDevice::ParameterSampleRate::Fix() {
        return true;
    }

    bool AudioOutputDevice::ParameterSampleRate::Mandatory() {
        return false;
    }

    std::map<String,DeviceCreationParameter*> AudioOutputDevice::ParameterSampleRate::DependsAsParameters() {
        return std::map<String,DeviceCreationParameter*>();
    }

    optional<int> AudioOutputDevice::ParameterSampleRate::DefaultAsInt(std::map<String,String> Parameters) {
        return 44100;
    }

    optional<int> AudioOutputDevice::ParameterSampleRate::RangeMinAsInt(std::map<String,String> Parameters) {
        return optional<int>::nothing;
    }

    optional<int> AudioOutputDevice::ParameterSampleRate::RangeMaxAsInt(std::map<String,String> Parameters) {
        return optional<int>::nothing;
    }

    std::vector<int> AudioOutputDevice::ParameterSampleRate::PossibilitiesAsInt(std::map<String,String> Parameters) {
        return std::vector<int>();
    }

    void AudioOutputDevice::ParameterSampleRate::OnSetValue(int i) throw (LinuxSamplerException) {
        /* cannot happen, as parameter is fix */
    }

    String AudioOutputDevice::ParameterSampleRate::Name() {
        return "SAMPLERATE";
    }


// *************** ParameterChannels ***************
// *

    AudioOutputDevice::ParameterChannels::ParameterChannels() : DeviceCreationParameterInt() {
       InitWithDefault();
    }

    AudioOutputDevice::ParameterChannels::ParameterChannels(String s) : DeviceCreationParameterInt(s) {
    }

    String AudioOutputDevice::ParameterChannels::Description() {
        return "Number of output channels";
    }

    bool AudioOutputDevice::ParameterChannels::Fix() {
        return false;
    }

    bool AudioOutputDevice::ParameterChannels::Mandatory() {
        return false;
    }

    std::map<String,DeviceCreationParameter*> AudioOutputDevice::ParameterChannels::DependsAsParameters() {
        return std::map<String,DeviceCreationParameter*>();
    }

    optional<int> AudioOutputDevice::ParameterChannels::DefaultAsInt(std::map<String,String> Parameters) {
        return 2;
    }

    optional<int> AudioOutputDevice::ParameterChannels::RangeMinAsInt(std::map<String,String> Parameters) {
        return optional<int>::nothing;
    }

    optional<int> AudioOutputDevice::ParameterChannels::RangeMaxAsInt(std::map<String,String> Parameters) {
        return optional<int>::nothing;
    }

    std::vector<int> AudioOutputDevice::ParameterChannels::PossibilitiesAsInt(std::map<String,String> Parameters) {
        return std::vector<int>();
    }

    void AudioOutputDevice::ParameterChannels::OnSetValue(int i) throw (LinuxSamplerException) {
        ((AudioOutputDevice*)pDevice)->AcquireChannels(i);
    }

    String AudioOutputDevice::ParameterChannels::Name() {
        return "CHANNELS";
    }


// *************** AudioOutputDevice ***************
// *

    AudioOutputDevice::AudioOutputDevice(std::map<String,DeviceCreationParameter*> DriverParameters) {
        this->Parameters = DriverParameters;
    }

    AudioOutputDevice::~AudioOutputDevice() {
        // delete all audio channels
        {
            std::vector<AudioChannel*>::iterator iter = Channels.begin();
            while (iter != Channels.end()) {
                delete *iter;
                iter++;
            }
            Channels.clear();
        }

        // delete all device parameters
        {
            std::map<String,DeviceCreationParameter*>::iterator iter = Parameters.begin();
            while (iter != Parameters.end()) {
                delete iter->second;
                iter++;
            }
            Parameters.clear();
        }
    }

    void AudioOutputDevice::Connect(Engine* pEngine) {
        std::set<Engine*>& engines = Engines.GetConfigForUpdate();
        if (engines.find(pEngine) == engines.end()) {
            engines.insert(pEngine);
            Engines.SwitchConfig().insert(pEngine);
            // make sure the engine knows about the connection
            //pEngine->Connect(this);
        }
    }

    void AudioOutputDevice::Disconnect(Engine* pEngine) {
        std::set<Engine*>& engines = Engines.GetConfigForUpdate();
        if (engines.find(pEngine) != engines.end()) { // if clause to prevent disconnect loop
            engines.erase(pEngine);
            Engines.SwitchConfig().erase(pEngine);
            // make sure the engine knows about the disconnection
            //pEngine->DisconnectAudioOutputDevice();
        }
    }

    AudioChannel* AudioOutputDevice::Channel(uint ChannelIndex) {
        return (ChannelIndex < Channels.size()) ? Channels[ChannelIndex] : NULL;
    }

    void AudioOutputDevice::AcquireChannels(uint Channels) {
        if (Channels > this->Channels.size()) {
            for (int c = this->Channels.size(); c < Channels; c++) {
                this->Channels.push_back(CreateChannel(c));
            }
        }
    }

    std::map<String,DeviceCreationParameter*> AudioOutputDevice::DeviceParameters() {
        return Parameters;
    }

    int AudioOutputDevice::RenderAudio(uint Samples) {
        if (Channels.empty()) return 0;

        // reset all channels with silence
        {
            std::vector<AudioChannel*>::iterator iterChannels = Channels.begin();
            std::vector<AudioChannel*>::iterator end          = Channels.end();
            for (; iterChannels != end; iterChannels++)
                (*iterChannels)->Clear(); // zero out audio buffer
        }

        int result = 0;

        // let all connected engines render audio for the current audio fragment cycle
        const std::set<Engine*>& engines = Engines.Lock();
        #if CONFIG_RT_EXCEPTIONS
        try
        #endif // CONFIG_RT_EXCEPTIONS
        {
            std::set<Engine*>::iterator iterEngine = engines.begin();
            std::set<Engine*>::iterator end        = engines.end();
            for (; iterEngine != end; iterEngine++) {
                int res = (*iterEngine)->RenderAudio(Samples);
                if (res != 0) result = res;
            }
        }
        #if CONFIG_RT_EXCEPTIONS
        catch (std::runtime_error se) {
            std::cerr << "std::runtime_error: " << se.what() << std::endl << std::flush;
            exit(EXIT_FAILURE);
        }
        #endif // CONFIG_RT_EXCEPTIONS

        Engines.Unlock();
        return result;
    }

    int AudioOutputDevice::RenderSilence(uint Samples) {
        if (Channels.empty()) return 0;

        // reset all channels with silence
        {
            std::vector<AudioChannel*>::iterator iterChannels = Channels.begin();
            std::vector<AudioChannel*>::iterator end          = Channels.end();
            for (; iterChannels != end; iterChannels++)
                (*iterChannels)->Clear(); // zero out audio buffer
        }

        return 0;
    }

} // namespace LinuxSampler
1	schoenebeck	200	/***************************************************************************
2			* *
3			* LinuxSampler - modular, streaming capable sampler *
4			* *
5			* Copyright (C) 2003, 2004 by Benno Senoner and Christian Schoenebeck *
6	schoenebeck	411	* Copyright (C) 2005 Christian Schoenebeck *
7	schoenebeck	200	* *
8			* This program is free software; you can redistribute it and/or modify *
9			* it under the terms of the GNU General Public License as published by *
10			* the Free Software Foundation; either version 2 of the License, or *
11			* (at your option) any later version. *
12			* *
13			* This program is distributed in the hope that it will be useful, *
14			* but WITHOUT ANY WARRANTY; without even the implied warranty of *
15			* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
16			* GNU General Public License for more details. *
17			* *
18			* You should have received a copy of the GNU General Public License *
19			* along with this program; if not, write to the Free Software *
20			* Foundation, Inc., 59 Temple Place, Suite 330, Boston, *
21			* MA 02111-1307 USA *
22			***************************************************************************/
23
24			#include "AudioOutputDeviceFactory.h"
25			#include "AudioOutputDevice.h"
26
27			namespace LinuxSampler {
28
29	schoenebeck	226	// ************* ParameterActive *************
30			// *
31
32			AudioOutputDevice::ParameterActive::ParameterActive() : DeviceCreationParameterBool() {
33			InitWithDefault();
34			}
35
36			AudioOutputDevice::ParameterActive::ParameterActive(String s) : DeviceCreationParameterBool(s) {
37			}
38
39			String AudioOutputDevice::ParameterActive::Description() {
40			return "Enable / disable device";
41			}
42
43			bool AudioOutputDevice::ParameterActive::Fix() {
44			return false;
45			}
46
47			bool AudioOutputDevice::ParameterActive::Mandatory() {
48			return false;
49			}
50
51			std::map<String,DeviceCreationParameter*> AudioOutputDevice::ParameterActive::DependsAsParameters() {
52			return std::map<String,DeviceCreationParameter*>();
53			}
54
55			optional<bool> AudioOutputDevice::ParameterActive::DefaultAsBool(std::map<String,String> Parameters) {
56			return true;
57			}
58
59			void AudioOutputDevice::ParameterActive::OnSetValue(bool b) throw (LinuxSamplerException) {
60			if (b) ((AudioOutputDevice*)pDevice)->Play();
61			else ((AudioOutputDevice*)pDevice)->Stop();
62			}
63
64			String AudioOutputDevice::ParameterActive::Name() {
65			return "ACTIVE";
66			}
67
68
69
70			// ************* ParameterSampleRate *************
71			// *
72
73			AudioOutputDevice::ParameterSampleRate::ParameterSampleRate() : DeviceCreationParameterInt() {
74			InitWithDefault();
75			}
76
77			AudioOutputDevice::ParameterSampleRate::ParameterSampleRate(String s) : DeviceCreationParameterInt(s) {
78			}
79
80			String AudioOutputDevice::ParameterSampleRate::Description() {
81			return "Output sample rate";
82			}
83
84			bool AudioOutputDevice::ParameterSampleRate::Fix() {
85			return true;
86			}
87
88			bool AudioOutputDevice::ParameterSampleRate::Mandatory() {
89			return false;
90			}
91
92			std::map<String,DeviceCreationParameter*> AudioOutputDevice::ParameterSampleRate::DependsAsParameters() {
93			return std::map<String,DeviceCreationParameter*>();
94			}
95
96			optional<int> AudioOutputDevice::ParameterSampleRate::DefaultAsInt(std::map<String,String> Parameters) {
97			return 44100;
98			}
99
100			optional<int> AudioOutputDevice::ParameterSampleRate::RangeMinAsInt(std::map<String,String> Parameters) {
101			return optional<int>::nothing;
102			}
103
104			optional<int> AudioOutputDevice::ParameterSampleRate::RangeMaxAsInt(std::map<String,String> Parameters) {
105			return optional<int>::nothing;
106			}
107
108			std::vector<int> AudioOutputDevice::ParameterSampleRate::PossibilitiesAsInt(std::map<String,String> Parameters) {
109			return std::vector<int>();
110			}
111
112			void AudioOutputDevice::ParameterSampleRate::OnSetValue(int i) throw (LinuxSamplerException) {
113			/* cannot happen, as parameter is fix */
114			}
115
116			String AudioOutputDevice::ParameterSampleRate::Name() {
117			return "SAMPLERATE";
118			}
119
120
121
122			// ************* ParameterChannels *************
123			// *
124
125			AudioOutputDevice::ParameterChannels::ParameterChannels() : DeviceCreationParameterInt() {
126			InitWithDefault();
127			}
128
129			AudioOutputDevice::ParameterChannels::ParameterChannels(String s) : DeviceCreationParameterInt(s) {
130			}
131
132			String AudioOutputDevice::ParameterChannels::Description() {
133			return "Number of output channels";
134			}
135
136			bool AudioOutputDevice::ParameterChannels::Fix() {
137			return false;
138			}
139
140			bool AudioOutputDevice::ParameterChannels::Mandatory() {
141			return false;
142			}
143
144			std::map<String,DeviceCreationParameter*> AudioOutputDevice::ParameterChannels::DependsAsParameters() {
145			return std::map<String,DeviceCreationParameter*>();
146			}
147
148			optional<int> AudioOutputDevice::ParameterChannels::DefaultAsInt(std::map<String,String> Parameters) {
149			return 2;
150			}
151
152			optional<int> AudioOutputDevice::ParameterChannels::RangeMinAsInt(std::map<String,String> Parameters) {
153			return optional<int>::nothing;
154			}
155
156			optional<int> AudioOutputDevice::ParameterChannels::RangeMaxAsInt(std::map<String,String> Parameters) {
157			return optional<int>::nothing;
158			}
159
160			std::vector<int> AudioOutputDevice::ParameterChannels::PossibilitiesAsInt(std::map<String,String> Parameters) {
161			return std::vector<int>();
162			}
163
164			void AudioOutputDevice::ParameterChannels::OnSetValue(int i) throw (LinuxSamplerException) {
165			((AudioOutputDevice*)pDevice)->AcquireChannels(i);
166			}
167
168			String AudioOutputDevice::ParameterChannels::Name() {
169			return "CHANNELS";
170			}
171
172
173
174			// ************* AudioOutputDevice *************
175			// *
176
177	schoenebeck	200	AudioOutputDevice::AudioOutputDevice(std::map<String,DeviceCreationParameter*> DriverParameters) {
178			this->Parameters = DriverParameters;
179			}
180
181			AudioOutputDevice::~AudioOutputDevice() {
182	schoenebeck	226	// delete all audio channels
183			{
184			std::vector<AudioChannel*>::iterator iter = Channels.begin();
185			while (iter != Channels.end()) {
186			delete *iter;
187			iter++;
188			}
189	persson	836	Channels.clear();
190	schoenebeck	200	}
191	schoenebeck	226
192			// delete all device parameters
193			{
194			std::map<String,DeviceCreationParameter*>::iterator iter = Parameters.begin();
195			while (iter != Parameters.end()) {
196			delete iter->second;
197			iter++;
198			}
199	persson	835	Parameters.clear();
200	schoenebeck	226	}
201	schoenebeck	200	}
202
203	schoenebeck	412	void AudioOutputDevice::Connect(Engine* pEngine) {
204	persson	840	std::set<Engine*>& engines = Engines.GetConfigForUpdate();
205			if (engines.find(pEngine) == engines.end()) {
206			engines.insert(pEngine);
207			Engines.SwitchConfig().insert(pEngine);
208	schoenebeck	412	// make sure the engine knows about the connection
209			//pEngine->Connect(this);
210	schoenebeck	200	}
211			}
212
213	schoenebeck	412	void AudioOutputDevice::Disconnect(Engine* pEngine) {
214	persson	840	std::set<Engine*>& engines = Engines.GetConfigForUpdate();
215			if (engines.find(pEngine) != engines.end()) { // if clause to prevent disconnect loop
216			engines.erase(pEngine);
217			Engines.SwitchConfig().erase(pEngine);
218	schoenebeck	412	// make sure the engine knows about the disconnection
219			//pEngine->DisconnectAudioOutputDevice();
220	schoenebeck	200	}
221			}
222
223			AudioChannel* AudioOutputDevice::Channel(uint ChannelIndex) {
224			return (ChannelIndex < Channels.size()) ? Channels[ChannelIndex] : NULL;
225			}
226
227	schoenebeck	226	void AudioOutputDevice::AcquireChannels(uint Channels) {
228			if (Channels > this->Channels.size()) {
229			for (int c = this->Channels.size(); c < Channels; c++) {
230			this->Channels.push_back(CreateChannel(c));
231			}
232			}
233			}
234
235	schoenebeck	200	std::map<String,DeviceCreationParameter*> AudioOutputDevice::DeviceParameters() {
236			return Parameters;
237			}
238
239			int AudioOutputDevice::RenderAudio(uint Samples) {
240			if (Channels.empty()) return 0;
241
242			// reset all channels with silence
243			{
244			std::vector<AudioChannel*>::iterator iterChannels = Channels.begin();
245			std::vector<AudioChannel*>::iterator end = Channels.end();
246			for (; iterChannels != end; iterChannels++)
247			(*iterChannels)->Clear(); // zero out audio buffer
248			}
249
250			int result = 0;
251
252			// let all connected engines render audio for the current audio fragment cycle
253	persson	840	const std::set<Engine*>& engines = Engines.Lock();
254	schoenebeck	554	#if CONFIG_RT_EXCEPTIONS
255	schoenebeck	272	try
256	schoenebeck	554	#endif // CONFIG_RT_EXCEPTIONS
257	schoenebeck	200	{
258	persson	840	std::set<Engine*>::iterator iterEngine = engines.begin();
259			std::set<Engine*>::iterator end = engines.end();
260	schoenebeck	412	for (; iterEngine != end; iterEngine++) {
261			int res = (*iterEngine)->RenderAudio(Samples);
262	schoenebeck	200	if (res != 0) result = res;
263			}
264			}
265	schoenebeck	554	#if CONFIG_RT_EXCEPTIONS
266	schoenebeck	272	catch (std::runtime_error se) {
267			std::cerr << "std::runtime_error: " << se.what() << std::endl << std::flush;
268			exit(EXIT_FAILURE);
269			}
270	schoenebeck	554	#endif // CONFIG_RT_EXCEPTIONS
271	schoenebeck	200
272	persson	840	Engines.Unlock();
273	schoenebeck	200	return result;
274			}
275
276			int AudioOutputDevice::RenderSilence(uint Samples) {
277			if (Channels.empty()) return 0;
278
279			// reset all channels with silence
280			{
281			std::vector<AudioChannel*>::iterator iterChannels = Channels.begin();
282			std::vector<AudioChannel*>::iterator end = Channels.end();
283			for (; iterChannels != end; iterChannels++)
284			(*iterChannels)->Clear(); // zero out audio buffer
285			}
286
287			return 0;
288			}
289
290			} // namespace LinuxSampler