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2.0. amcp: Simplified mixer commands.
[casparcg] / core / mixer / audio / audio_mixer.cpp
1 /*\r
2 * copyright (c) 2010 Sveriges Television AB <info@casparcg.com>\r
3 *\r
4 *  This file is part of CasparCG.\r
5 *\r
6 *    CasparCG is free software: you can redistribute it and/or modify\r
7 *    it under the terms of the GNU General Public License as published by\r
8 *    the Free Software Foundation, either version 3 of the License, or\r
9 *    (at your option) any later version.\r
10 *\r
11 *    CasparCG is distributed in the hope that it will be useful,\r
12 *    but WITHOUT ANY WARRANTY; without even the implied warranty of\r
13 *    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the\r
14 *    GNU General Public License for more details.\r
15 \r
16 *    You should have received a copy of the GNU General Public License\r
17 *    along with CasparCG.  If not, see <http://www.gnu.org/licenses/>.\r
18 *\r
19 */\r
20 #include "../../stdafx.h"\r
21 \r
22 #include "audio_mixer.h"\r
23 \r
24 #include <core/mixer/write_frame.h>\r
25 #include <core/producer/frame/audio_transform.h>\r
26 \r
27 #include <tbb/parallel_for.h>\r
28 \r
29 #include <stack>\r
30 #include <deque>\r
31 \r
32 namespace caspar { namespace core {\r
33         \r
34 struct audio_mixer::implementation\r
35 {\r
36         std::deque<std::vector<int16_t>> audio_data_;\r
37         std::stack<core::audio_transform> transform_stack_;\r
38 \r
39         std::map<const void*, core::audio_transform> prev_audio_transforms_;\r
40         std::map<const void*, core::audio_transform> next_audio_transforms_;\r
41 \r
42         const core::video_format_desc format_desc_;\r
43 \r
44 public:\r
45         implementation(const core::video_format_desc& format_desc)\r
46                 : format_desc_(format_desc)\r
47         {\r
48                 transform_stack_.push(core::audio_transform());\r
49                 audio_data_.push_back(std::vector<int16_t>()); // One frame delay\r
50         }\r
51         \r
52         void begin(core::basic_frame& frame)\r
53         {\r
54                 transform_stack_.push(transform_stack_.top()*frame.get_audio_transform());\r
55         }\r
56 \r
57         void visit(const core::write_frame& frame)\r
58         {\r
59                 if(!transform_stack_.top().get_has_audio() || frame.audio_data().empty())\r
60                         return;\r
61 \r
62                 const auto& audio_data = frame.audio_data();\r
63                 const auto tag = frame.tag(); // Get the identifier for the audio-stream.\r
64                                 \r
65                 const auto next = transform_stack_.top();\r
66                 auto prev = next;\r
67 \r
68                 const auto it = prev_audio_transforms_.find(tag);\r
69                 if(it != prev_audio_transforms_.end())\r
70                         prev = it->second;\r
71                                 \r
72                 next_audio_transforms_[tag] = next; // Store all active tags, inactive tags will be removed in end_pass.\r
73                                 \r
74                 if(next.get_volume() < 0.001 && prev.get_volume() < 0.001)\r
75                         return;\r
76                 \r
77                 static const int BASE = 1<<15;\r
78 \r
79                 const auto next_volume = static_cast<int>(next.get_volume()*BASE);\r
80                 const auto prev_volume = static_cast<int>(prev.get_volume()*BASE);\r
81                 \r
82                 const int n_samples = audio_data_.back().size();\r
83                 \r
84                 const auto in_size = static_cast<size_t>(audio_data.size());\r
85                 CASPAR_VERIFY(in_size == 0 || in_size == audio_data_.back().size());\r
86 \r
87                 if(in_size > audio_data_.back().size())\r
88                         return;\r
89 \r
90                 tbb::parallel_for\r
91                 (\r
92                         tbb::blocked_range<size_t>(0, audio_data.size()),\r
93                         [&](const tbb::blocked_range<size_t>& r)\r
94                         {\r
95                                 for(size_t n = r.begin(); n < r.end(); ++n)\r
96                                 {\r
97                                         const int sample_volume = (prev_volume - (prev_volume * n)/n_samples) + (next_volume * n)/n_samples;\r
98                                         const int sample = (static_cast<int>(audio_data[n])*sample_volume)/BASE;\r
99                                         audio_data_.back()[n] = static_cast<int16_t>((static_cast<int>(audio_data_.back()[n]) + sample) & 0xFFFF);\r
100                                 }\r
101                         }\r
102                 );\r
103         }\r
104 \r
105         void begin(const core::audio_transform& transform)\r
106         {\r
107                 transform_stack_.push(transform_stack_.top()*transform);\r
108         }\r
109                 \r
110         void end()\r
111         {\r
112                 transform_stack_.pop();\r
113         }\r
114         \r
115         std::vector<int16_t> mix()\r
116         {\r
117                 prev_audio_transforms_ = std::move(next_audio_transforms_);     \r
118                 auto result = std::move(audio_data_.front());\r
119                 audio_data_.pop_front();\r
120                 audio_data_.push_back(std::vector<int16_t>(format_desc_.audio_samples_per_frame));\r
121                 return std::move(result);\r
122         }\r
123 };\r
124 \r
125 audio_mixer::audio_mixer(const core::video_format_desc& format_desc) : impl_(new implementation(format_desc)){}\r
126 void audio_mixer::begin(core::basic_frame& frame){impl_->begin(frame);}\r
127 void audio_mixer::visit(core::write_frame& frame){impl_->visit(frame);}\r
128 void audio_mixer::end(){impl_->end();}\r
129 std::vector<int16_t> audio_mixer::mix(){return impl_->mix();}\r
130 audio_mixer& audio_mixer::operator=(audio_mixer&& other)\r
131 {\r
132         impl_ = std::move(other.impl_);\r
133         return *this;\r
134 }\r
135 \r
136 }}
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