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54fff4ff230cbfcf855f616efdc8cde67488a49b
lmms/plugins/Eq/EqSpectrumView.cpp
Levin Oehlmann f742710758 Macro cleanup (#6095) 
Summary:

* `NULL` -> `nullptr`
* `gui` -> Function `getGUI()`
* `pluginFactory` -> Function `getPluginFactory()`
* `assert` (redefinition) -> using `NDEBUG` instead, which standard `assert` respects.
* `powf` (C stdlib symbol clash) -> removed and all expansions replaced with calls to `std::pow`.
* `exp10` (nonstandard function symbol clash) -> removed and all expansions replaced with calls to `std::pow`.
* `PATH_DEV_DSP` -> File-scope QString of identical name and value.
* `VST_SNC_SHM_KEY_FILE` -> constexpr char* with identical name and value.
* `MM_ALLOC` and `MM_FREE` -> Functions with identical name and implementation.
* `INVAL`, `OUTVAL`, etc. for automation nodes -> Functions with identical names and implementations.
* BandLimitedWave.h: All integer constant macros replaced with constexpr ints of same name and value.
* `FAST_RAND_MAX` -> constexpr int of same name and value.
* `QSTR_TO_STDSTR` -> Function with identical name and equivalent implementation.
* `CCONST` -> constexpr function template with identical name and implementation.
* `F_OPEN_UTF8` -> Function with identical name and equivalent implementation.
* `LADSPA_PATH_SEPARATOR` -> constexpr char with identical name and value.
* `UI_CTRL_KEY` -> constexpr char* with identical name and value.
* `ALIGN_SIZE` -> Renamed to `LMMS_ALIGN_SIZE` and converted from a macro to a constexpr size_t.
* `JACK_MIDI_BUFFER_MAX` -> constexpr size_t with identical name and value.
* versioninfo.h: `PLATFORM`, `MACHINE` and `COMPILER_VERSION` -> prefixed with `LMMS_BUILDCONF_` and converted from macros to constexpr char* literals.
* Header guard _OSCILLOSCOPE -> renamed to OSCILLOSCOPE_H
* Header guard _TIME_DISPLAY_WIDGET -> renamed to TIME_DISPLAY_WIDGET_H
* C-style typecasts in DrumSynth.cpp have been replaced with `static_cast`.
* constexpr numerical constants are initialized with assignment notation instead of curly brace intializers.
* In portsmf, `Alg_seq::operator[]` will throw an exception instead of returning null if the operator index is out of range.

Additionally, in many places, global constants that were declared as `const T foo = bar;` were changed from const to constexpr, leaving them const and making them potentially evaluable at compile time.

Some macros that only appeared in single source files and were unused in those files have been removed entirely.
2021-09-30 18:01:27 +02:00

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/* eqspectrumview.cpp - implementation of EqSpectrumView class.
*
* Copyright (c) 2014-2017, David French <dave/dot/french3/at/googlemail/dot/com>
*
* This file is part of LMMS - https://lmms.io
* 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 (see COPYING); if not, write to the
* Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301 USA.
*
*/
#include "EqSpectrumView.h"
#include "AudioEngine.h"
#include "Engine.h"
#include "EqCurve.h"
#include "GuiApplication.h"
#include "MainWindow.h"
EqAnalyser::EqAnalyser() :
m_framesFilledUp ( 0 ),
m_energy ( 0 ),
m_sampleRate ( 1 ),
m_active ( true )
{
m_inProgress=false;
m_specBuf = ( fftwf_complex * ) fftwf_malloc( ( FFT_BUFFER_SIZE + 1 ) * sizeof( fftwf_complex ) );
m_fftPlan = fftwf_plan_dft_r2c_1d( FFT_BUFFER_SIZE*2, m_buffer, m_specBuf, FFTW_MEASURE );
//initialize Blackman-Harris window, constants taken from
//https://en.wikipedia.org/wiki/Window_function#A_list_of_window_functions
const float a0 = 0.35875;
const float a1 = 0.48829;
const float a2 = 0.14128;
const float a3 = 0.01168;
for (int i = 0; i < FFT_BUFFER_SIZE; i++)
{
m_fftWindow[i] = (a0 - a1 * cos(2 * F_PI * i / ((float)FFT_BUFFER_SIZE - 1.0))
+ a2 * cos(4 * F_PI * i / ((float)FFT_BUFFER_SIZE - 1.0))
- a3 * cos(6 * F_PI * i / ((float)FFT_BUFFER_SIZE - 1.0)));
}
clear();
}
EqAnalyser::~EqAnalyser()
{
fftwf_destroy_plan( m_fftPlan );
fftwf_free( m_specBuf );
}
void EqAnalyser::analyze( sampleFrame *buf, const fpp_t frames )
{
//only analyse if the view is visible
if ( m_active )
{
m_inProgress=true;
const int FFT_BUFFER_SIZE = 2048;
fpp_t f = 0;
if( frames > FFT_BUFFER_SIZE )
{
m_framesFilledUp = 0;
f = frames - FFT_BUFFER_SIZE;
}
// meger channels
for( ; f < frames; ++f )
{
m_buffer[m_framesFilledUp] =
( buf[f][0] + buf[f][1] ) * 0.5;
++m_framesFilledUp;
}
if( m_framesFilledUp < FFT_BUFFER_SIZE )
{
m_inProgress = false;
return;
}
m_sampleRate = Engine::audioEngine()->processingSampleRate();
const int LOWEST_FREQ = 0;
const int HIGHEST_FREQ = m_sampleRate / 2;
//apply FFT window
for( int i = 0; i < FFT_BUFFER_SIZE; i++ )
{
m_buffer[i] = m_buffer[i] * m_fftWindow[i];
}
fftwf_execute( m_fftPlan );
absspec( m_specBuf, m_absSpecBuf, FFT_BUFFER_SIZE+1 );
compressbands( m_absSpecBuf, m_bands, FFT_BUFFER_SIZE+1,
MAX_BANDS,
( int )( LOWEST_FREQ * ( FFT_BUFFER_SIZE + 1 ) / ( float )( m_sampleRate / 2 ) ),
( int )( HIGHEST_FREQ * ( FFT_BUFFER_SIZE + 1) / ( float )( m_sampleRate / 2 ) ) );
m_energy = maximum( m_bands, MAX_BANDS ) / maximum( m_buffer, FFT_BUFFER_SIZE );
m_framesFilledUp = 0;
m_inProgress = false;
m_active = false;
}
}
float EqAnalyser::getEnergy() const
{
return m_energy;
}
int EqAnalyser::getSampleRate() const
{
return m_sampleRate;
}
bool EqAnalyser::getActive() const
{
return m_active;
}
void EqAnalyser::setActive(bool active)
{
m_active = active;
}
bool EqAnalyser::getInProgress()
{
return m_inProgress;
}
void EqAnalyser::clear()
{
m_framesFilledUp = 0;
m_energy = 0;
memset( m_buffer, 0, sizeof( m_buffer ) );
memset( m_bands, 0, sizeof( m_bands ) );
}
EqSpectrumView::EqSpectrumView(EqAnalyser *b, QWidget *_parent) :
QWidget( _parent ),
m_analyser( b ),
m_periodicalUpdate( false )
{
setFixedSize( 450, 200 );
connect( getGUI()->mainWindow(), SIGNAL( periodicUpdate() ), this, SLOT( periodicalUpdate() ) );
setAttribute( Qt::WA_TranslucentBackground, true );
m_skipBands = MAX_BANDS * 0.5;
float totalLength = log10( 20000 );
m_pixelsPerUnitWidth = width( ) / totalLength ;
m_scale = 1.5;
m_color = QColor( 255, 255, 255, 255 );
for ( int i = 0 ; i < MAX_BANDS ; i++ )
{
m_bandHeight.append( 0 );
}
}
void EqSpectrumView::paintEvent(QPaintEvent *event)
{
const float energy = m_analyser->getEnergy();
if( energy <= 0 && m_peakSum <= 0 )
{
//dont draw anything
return;
}
const int fh = height();
const int LOWER_Y = -36; // dB
QPainter painter( this );
painter.setPen( QPen( m_color, 1, Qt::SolidLine, Qt::RoundCap, Qt::BevelJoin ) );
painter.setRenderHint(QPainter::Antialiasing, true);
if( m_analyser->getInProgress() || m_periodicalUpdate == false )
{
//only paint the cached path
painter.fillPath( m_path, QBrush( m_color ) );
return;
}
m_periodicalUpdate = false;
//Now we calculate the path
m_path = QPainterPath();
float *bands = m_analyser->m_bands;
float peak;
m_path.moveTo( 0, height() );
m_peakSum = 0;
const float fallOff = 1.07;
for( int x = 0; x < MAX_BANDS; ++x, ++bands )
{
peak = ( fh * 2.0 / 3.0 * ( 20 * ( log10( *bands / energy ) ) - LOWER_Y ) / ( - LOWER_Y ) );
if( peak < 0 )
{
peak = 0;
}
else if( peak >= fh )
{
continue;
}
if ( peak > m_bandHeight[x] )
{
m_bandHeight[x] = peak;
}
else
{
m_bandHeight[x] = m_bandHeight[x] / fallOff;
}
if( m_bandHeight[x] < 0 )
{
m_bandHeight[x] = 0;
}
m_path.lineTo( EqHandle::freqToXPixel( bandToFreq( x ), width() ), fh - m_bandHeight[x] );
m_peakSum += m_bandHeight[x];
}
m_path.lineTo( width(), height() );
m_path.closeSubpath();
painter.fillPath( m_path, QBrush( m_color ) );
painter.drawPath( m_path );
}
QColor EqSpectrumView::getColor() const
{
return m_color;
}
void EqSpectrumView::setColor( const QColor &value )
{
m_color = value;
}
float EqSpectrumView::bandToFreq( int index )
{
return index * m_analyser->getSampleRate() / ( MAX_BANDS * 2 );
}
void EqSpectrumView::periodicalUpdate()
{
m_periodicalUpdate = true;
m_analyser->setActive( isVisible() );
update();
}
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