Aegisub/aegisub/src/audio_renderer.cpp

// Copyright (c) 2009-2010, Niels Martin Hansen
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
//   * Redistributions of source code must retain the above copyright notice,
//     this list of conditions and the following disclaimer.
//   * Redistributions in binary form must reproduce the above copyright notice,
//     this list of conditions and the following disclaimer in the documentation
//     and/or other materials provided with the distribution.
//   * Neither the name of the Aegisub Group nor the names of its contributors
//     may be used to endorse or promote products derived from this software
//     without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
// POSSIBILITY OF SUCH DAMAGE.
//
// Aegisub Project http://www.aegisub.org/
//
// $Id$

/// @file audio_renderer.cpp
/// @brief Base classes for audio renderers (spectrum, waveform, ...)
/// @ingroup audio_ui


// Headers
#include "config.h"

#include "audio_renderer.h"

#ifndef AGI_PRE
#include <algorithm>
#include <tr1/functional>

#include <wx/bitmap.h>
#include <wx/dcmemory.h>
#endif

#include "include/aegisub/audio_provider.h"

template<class C, class F> static void for_each(C &container, F const& func)
{
	std::for_each(container.begin(), container.end(), func);
}

using std::tr1::placeholders::_1;

AudioRendererBitmapCacheBitmapFactory::AudioRendererBitmapCacheBitmapFactory(AudioRenderer *renderer)
: renderer(renderer)
{
	assert(renderer);
}

wxBitmap *AudioRendererBitmapCacheBitmapFactory::ProduceBlock(int /* i */)
{
	return new wxBitmap(renderer->cache_bitmap_width, renderer->pixel_height, 24);
}

void AudioRendererBitmapCacheBitmapFactory::DisposeBlock(wxBitmap *bmp)
{
	delete bmp;
}

size_t AudioRendererBitmapCacheBitmapFactory::GetBlockSize() const
{
	return sizeof(wxBitmap) + renderer->cache_bitmap_width * renderer->pixel_height * 3;
}


AudioRenderer::AudioRenderer()
: pixel_ms(0)
, pixel_height(0)
, amplitude_scale(0)
, cache_bitmap_width(32) // arbitrary value for now
, cache_bitmap_maxsize(0)
, cache_renderer_maxsize(0)
, renderer(0)
, provider(0)
{
	bitmaps.resize(AudioStyle_MAX, AudioRendererBitmapCache(256, AudioRendererBitmapCacheBitmapFactory(this)));

	// Make sure there's *some* values for those fields, and in the caches
	SetMillisecondsPerPixel(1);
	SetHeight(1);
}

AudioRenderer::~AudioRenderer()
{
}

void AudioRenderer::SetMillisecondsPerPixel(double new_pixel_ms)
{
	if (pixel_ms == new_pixel_ms) return;

	pixel_ms = new_pixel_ms;

	if (renderer)
		renderer->SetMillisecondsPerPixel(pixel_ms);

	ResetBlockCount();
}


void AudioRenderer::SetHeight(int _pixel_height)
{
	if (pixel_height == _pixel_height) return;

	pixel_height = _pixel_height;
	Invalidate();
}


void AudioRenderer::SetAmplitudeScale(float _amplitude_scale)
{
	if (amplitude_scale == _amplitude_scale) return;

	// A scaling of 0 or a negative scaling makes no sense
	assert(_amplitude_scale > 0);

	amplitude_scale = _amplitude_scale;

	if (renderer)
		renderer->SetAmplitudeScale(amplitude_scale);
	Invalidate();
}


void AudioRenderer::SetRenderer(AudioRendererBitmapProvider *_renderer)
{
	if (renderer == _renderer) return;

	renderer = _renderer;
	Invalidate();

	if (renderer)
	{
		renderer->SetProvider(provider);
		renderer->SetAmplitudeScale(amplitude_scale);
		renderer->SetMillisecondsPerPixel(pixel_ms);
	}
}


void AudioRenderer::SetAudioProvider(AudioProvider *_provider)
{
	if (provider == _provider) return;

	provider = _provider;
	Invalidate();

	if (renderer)
		renderer->SetProvider(provider);

	ResetBlockCount();
}


void AudioRenderer::SetCacheMaxSize(size_t max_size)
{
	// Limit the bitmap cache sizes to 16 MB hard, to avoid the risk of exhausting
	// system bitmap object resources and similar. Experimenting shows that 16 MB
	// bitmap cache should be plenty even if working with a one hour audio clip.
	cache_bitmap_maxsize = std::min<size_t>(max_size/8, 0x1000000);
	// The renderer gets whatever is left.
	cache_renderer_maxsize = max_size - 4*cache_bitmap_maxsize;
}


void AudioRenderer::ResetBlockCount()
{
	if (provider)
	{
		double duration = provider->GetNumSamples() * 1000.0 / provider->GetSampleRate();
		size_t rendered_width = (size_t)ceil(duration / pixel_ms);
		cache_numblocks = rendered_width / cache_bitmap_width;
		for_each(bitmaps, bind(&AudioRendererBitmapCache::SetBlockCount, _1, cache_numblocks));
	}
}


const wxBitmap *AudioRenderer::GetCachedBitmap(int i, AudioRenderingStyle style)
{
	assert(provider);
	assert(renderer);

	bool created = false;
	wxBitmap *bmp = bitmaps[style].Get(i, &created);
	assert(bmp);
	if (created)
	{
		renderer->Render(*bmp, i*cache_bitmap_width, style);
		needs_age = true;
	}

	assert(bmp->IsOk());
	return bmp;
}


void AudioRenderer::Render(wxDC &dc, wxPoint origin, int start, int length, AudioRenderingStyle style)
{
	assert(start >= 0);

	if (!provider) return;
	if (!renderer) return;
	if (length <= 0) return;

	// One past last absolute pixel strip to render
	int end = start + length;
	// One past last X coordinate to render on
	int lastx = origin.x + length;
	// Figure out which range of bitmaps are required
	int firstbitmap = start / cache_bitmap_width;
	// And the offset in it to start its use at
	int firstbitmapoffset = start % cache_bitmap_width;
	// The last bitmap required
	int lastbitmap = std::min<int>(end / cache_bitmap_width, cache_numblocks - 1);

	// Set a clipping region so that the first and last bitmaps don't draw
	// outside the requested range
	wxDCClipper clipper(dc, wxRect(origin, wxSize(length, pixel_height)));
	origin.x -= firstbitmapoffset;

	for (int i = firstbitmap; i <= lastbitmap; ++i)
	{
		dc.DrawBitmap(*GetCachedBitmap(i, style), origin);
		origin.x += cache_bitmap_width;
	}

	// Now render blank audio from origin to end
	if (origin.x < lastx)
	{
		renderer->RenderBlank(dc, wxRect(origin.x-1, origin.y, lastx-origin.x+1, pixel_height), style);
	}

	if (needs_age)
	{
		bitmaps[style].Age(cache_bitmap_maxsize);
		renderer->AgeCache(cache_renderer_maxsize);
		needs_age = false;
	}
}


void AudioRenderer::Invalidate()
{
	for_each(bitmaps, bind(&AudioRendererBitmapCache::Age, _1, 0));
	needs_age = false;
}


void AudioRendererBitmapProvider::SetProvider(AudioProvider *_provider)
{
	if (provider == _provider) return;

	provider = _provider;

	OnSetProvider();
}


void AudioRendererBitmapProvider::SetMillisecondsPerPixel(double new_pixel_ms)
{
	if (pixel_ms == new_pixel_ms) return;

	pixel_ms = new_pixel_ms;

	OnSetMillisecondsPerPixel();
}


void AudioRendererBitmapProvider::SetAmplitudeScale(float _amplitude_scale)
{
	if (amplitude_scale == _amplitude_scale) return;

	amplitude_scale = _amplitude_scale;

	OnSetAmplitudeScale();
}