git-svn-id: https://casparcg.svn.sourceforge.net/svnroot/casparcg/server/branches...

[casparcg] / core / mixer / audio / audio_mixer.cpp

/*\r
* copyright (c) 2010 Sveriges Television AB <info@casparcg.com>\r
*\r
*  This file is part of CasparCG.\r
*\r
*    CasparCG is free software: you can redistribute it and/or modify\r
*    it under the terms of the GNU General Public License as published by\r
*    the Free Software Foundation, either version 3 of the License, or\r
*    (at your option) any later version.\r
*\r
*    CasparCG is distributed in the hope that it will be useful,\r
*    but WITHOUT ANY WARRANTY; without even the implied warranty of\r
*    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the\r
*    GNU General Public License for more details.\r
\r
*    You should have received a copy of the GNU General Public License\r
*    along with CasparCG.  If not, see <http://www.gnu.org/licenses/>.\r
*\r
*/\r
#include "../../stdafx.h"\r
\r
#include "audio_mixer.h"\r
\r
#include <core/mixer/write_frame.h>\r
#include <core/producer/frame/frame_transform.h>\r
\r
#include <stack>\r
#include <map>\r
#include <vector>\r
\r
namespace caspar { namespace core {\r
\r
struct audio_item\r
{\r
        const void*                     tag;\r
        frame_transform         transform;\r
        audio_buffer            audio_data;\r
};\r
        \r
struct audio_mixer::implementation\r
{\r
        std::stack<core::frame_transform>                               transform_stack_;\r
        std::map<const void*, core::frame_transform>    prev_frame_transforms_;\r
        std::vector<audio_item>                                                 items_;\r
\r
public:\r
        implementation()\r
        {\r
                transform_stack_.push(core::frame_transform());\r
        }\r
        \r
        void begin(core::basic_frame& frame)\r
        {\r
                transform_stack_.push(transform_stack_.top()*frame.get_frame_transform());\r
        }\r
\r
        void visit(core::write_frame& frame)\r
        {\r
                if(transform_stack_.top().volume < 0.002 || frame.audio_data().empty())\r
                        return;\r
\r
                audio_item item;\r
                item.tag                = frame.tag();\r
                item.transform  = transform_stack_.top();\r
                item.audio_data = std::move(frame.audio_data()); // Note: We don't need to care about upper/lower since audio_data is removed/moved from the last field.\r
\r
                items_.push_back(item);         \r
        }\r
\r
        void begin(const core::frame_transform& transform)\r
        {\r
                transform_stack_.push(transform_stack_.top()*transform);\r
        }\r
                \r
        void end()\r
        {\r
                transform_stack_.pop();\r
        }\r
        \r
        audio_buffer mix(const video_format_desc& format_desc)\r
        {       \r
                //CASPAR_ASSERT(format_desc.audio_channels == 2);\r
                //CASPAR_ASSERT(format_desc.audio_samples_per_frame % 4 == 0);\r
\r
                // NOTE: auto data should be larger than format_desc_.audio_samples_per_frame to allow sse to read/write beyond size.\r
\r
                auto intermediate       = std::vector<float, tbb::cache_aligned_allocator<float>>(format_desc.audio_samples_per_frame+128, 0.0f);\r
                auto result                     = audio_buffer(format_desc.audio_samples_per_frame+128);        \r
                auto result_128         = reinterpret_cast<__m128i*>(result.data());\r
\r
                std::map<const void*, core::frame_transform> next_frame_transforms;\r
                                \r
                BOOST_FOREACH(auto& item, items_)\r
                {                                               \r
                        auto next = item.transform;\r
                        auto prev = next;\r
\r
                        const auto it = prev_frame_transforms_.find(item.tag);\r
                        if(it != prev_frame_transforms_.end())\r
                                prev = it->second;\r
                                \r
                        next_frame_transforms[item.tag] = next; // Store all active tags, inactive tags will be removed at the end.\r
                                        \r
                        if(prev.volume < 0.001 && next.volume < 0.001)\r
                                continue;\r
\r
                        if(item.audio_data.size() != format_desc.audio_samples_per_frame)\r
                                continue;\r
\r
                        const float prev_volume = static_cast<float>(prev.volume);\r
                        const float next_volume = static_cast<float>(next.volume);\r
                                                                        \r
                        auto alpha              = (next_volume-prev_volume)/static_cast<float>(format_desc.audio_samples_per_frame/format_desc.audio_channels);\r
                        auto alpha_ps   = _mm_set_ps1(alpha*2.0f);\r
                        auto volume_ps  = _mm_setr_ps(prev_volume, prev_volume, prev_volume+alpha, prev_volume+alpha);\r
\r
                        if(&item != &items_.back())\r
                        {\r
                                for(size_t n = 0; n < format_desc.audio_samples_per_frame/4; ++n)\r
                                {               \r
                                        auto sample_ps          = _mm_cvtepi32_ps(_mm_load_si128(reinterpret_cast<__m128i*>(&item.audio_data[n*4])));\r
                                        auto res_sample_ps      = _mm_load_ps(&intermediate[n*4]);                                                                                      \r
                                        sample_ps                       = _mm_mul_ps(sample_ps, volume_ps);     \r
                                        res_sample_ps           = _mm_add_ps(sample_ps, res_sample_ps); \r
\r
                                        volume_ps                       = _mm_add_ps(volume_ps, alpha_ps);\r
\r
                                        _mm_store_ps(&intermediate[n*4], res_sample_ps);\r
                                }\r
                        }\r
                        else\r
                        {\r
                                for(size_t n = 0; n < format_desc.audio_samples_per_frame/4; ++n)\r
                                {               \r
                                        auto sample_ps          = _mm_cvtepi32_ps(_mm_load_si128(reinterpret_cast<__m128i*>(&item.audio_data[n*4])));\r
                                        auto res_sample_ps      = _mm_load_ps(&intermediate[n*4]);                                                                                      \r
                                        sample_ps                       = _mm_mul_ps(sample_ps, volume_ps);     \r
                                        res_sample_ps           = _mm_add_ps(sample_ps, res_sample_ps); \r
                                        \r
                                        _mm_stream_si128(result_128++, _mm_cvtps_epi32(res_sample_ps));\r
                                }\r
                        }\r
                }                               \r
\r
                items_.clear();\r
                prev_frame_transforms_ = std::move(next_frame_transforms);      \r
\r
                result.resize(format_desc.audio_samples_per_frame);\r
                return std::move(result);\r
        }\r
};\r
\r
audio_mixer::audio_mixer() : impl_(new implementation()){}\r
void audio_mixer::begin(core::basic_frame& frame){impl_->begin(frame);}\r
void audio_mixer::visit(core::write_frame& frame){impl_->visit(frame);}\r
void audio_mixer::end(){impl_->end();}\r
audio_buffer audio_mixer::mix(const video_format_desc& format_desc){return impl_->mix(format_desc);}\r
audio_mixer& audio_mixer::operator=(audio_mixer&& other)\r
{\r
        impl_ = std::move(other.impl_);\r
        return *this;\r
}\r
\r
}}