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502 lines
20 KiB
C++
502 lines
20 KiB
C++
///////////////////////////////////////////////////////////////////////////////////
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// Copyright (C) 2017 Edouard Griffiths, F4EXB //
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// //
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// This program is free software; you can redistribute it and/or modify //
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// it under the terms of the GNU General Public License as published by //
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// the Free Software Foundation as version 3 of the License, or //
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// (at your option) any later version. //
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// //
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// This program is distributed in the hope that it will be useful, //
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// but WITHOUT ANY WARRANTY; without even the implied warranty of //
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
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// GNU General Public License V3 for more details. //
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// //
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// You should have received a copy of the GNU General Public License //
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// along with this program. If not, see <http://www.gnu.org/licenses/>. //
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///////////////////////////////////////////////////////////////////////////////////
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#ifndef PLUGINS_CHANNELTX_MODATV_ATVMODSOURCE_H_
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#define PLUGINS_CHANNELTX_MODATV_ATVMODSOURCE_H_
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#include <vector>
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#include <QObject>
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#include <QMutex>
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#include <opencv2/core/core.hpp>
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#include <opencv2/highgui/highgui.hpp>
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#include <opencv2/videoio.hpp>
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#include <stdint.h>
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#include "dsp/channelsamplesource.h"
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#include "dsp/nco.h"
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#include "dsp/interpolator.h"
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#include "util/movingaverage.h"
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#include "dsp/fftfilt.h"
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#include "util/message.h"
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#include "atvmodsettings.h"
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class MessageQueue;
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class ATVModSource : public ChannelSampleSource
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{
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public:
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ATVModSource();
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~ATVModSource();
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virtual void pull(SampleVector::iterator begin, unsigned int nbSamples);
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virtual void pullOne(Sample& sample);
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virtual void prefetch(unsigned int nbSamples);
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int getEffectiveSampleRate() const { return m_tvSampleRate; };
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double getMagSq() const { return m_movingAverage.asDouble(); }
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void getCameraNumbers(std::vector<int>& numbers);
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void setMessageQueueToGUI(MessageQueue *messageQueue) { m_messageQueueToGUI = messageQueue; }
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void getLevels(Real& rmsLevel, Real& peakLevel, Real& numSamples) const
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{
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rmsLevel = m_rmsLevel;
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peakLevel = m_peakLevel;
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numSamples = m_levelNbSamples;
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}
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void applyChannelSettings(int channelSampleRate, int channelFrequencyOffset, bool force = false);
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void applySettings(const ATVModSettings& settings, bool force = false);
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void openImage(const QString& fileName);
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void openVideo(const QString& fileName);
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void seekVideoFileStream(int seekPercentage);
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void reportVideoFileSourceStreamTiming();
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void configureCameraIndex(int index);
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void configureCameraData(uint32_t index, float mnaualFPS, bool manualFPSEnable);
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static void getBaseValues(int outputSampleRate, int linesPerSecond, int& sampleRateUnits, uint32_t& nbPointsPerRateUnit);
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static float getRFBandwidthDivisor(ATVModSettings::ATVModulation modulation);
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private:
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class ATVCamera
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{
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public:
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cv::VideoCapture m_camera; //!< camera object
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cv::Mat m_videoframeOriginal; //!< camera non resized image
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cv::Mat m_videoFrame; //!< displayable camera frame
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int m_cameraNumber; //!< camera device number
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float m_videoFPS; //!< camera FPS rate
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float m_videoFPSManual; //!< camera FPS rate manually set
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bool m_videoFPSManualEnable; //!< Enable camera FPS rate manual set value
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int m_videoWidth; //!< camera frame width
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int m_videoHeight; //!< camera frame height
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float m_videoFx; //!< camera horizontal scaling factor
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float m_videoFy; //!< camera vertictal scaling factor
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float m_videoFPSq; //!< camera FPS sacaling factor
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float m_videoFPSqManual; //!< camera FPS sacaling factor manually set
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float m_videoFPSCount; //!< camera FPS fractional counter
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int m_videoPrevFPSCount; //!< camera FPS previous integer counter
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ATVCamera() :
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m_cameraNumber(-1),
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m_videoFPS(25.0f),
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m_videoFPSManual(20.0f),
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m_videoFPSManualEnable(false),
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m_videoWidth(1),
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m_videoHeight(1),
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m_videoFx(1.0f),
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m_videoFy(1.0f),
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m_videoFPSq(1.0f),
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m_videoFPSqManual(1.0f),
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m_videoFPSCount(0.0f),
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m_videoPrevFPSCount(0)
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{}
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ATVCamera(const ATVCamera& camera) :
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m_camera(camera.m_camera),
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m_videoframeOriginal(camera.m_videoframeOriginal),
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m_videoFrame(camera.m_videoFrame),
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m_cameraNumber(camera.m_cameraNumber),
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m_videoFPS(camera.m_videoFPS),
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m_videoFPSManual(camera.m_videoFPSManual),
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m_videoFPSManualEnable(camera.m_videoFPSManualEnable),
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m_videoWidth(camera.m_videoWidth),
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m_videoHeight(camera.m_videoHeight),
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m_videoFx(camera.m_videoFx),
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m_videoFy(camera.m_videoFy),
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m_videoFPSq(camera.m_videoFPSq),
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m_videoFPSqManual(camera.m_videoFPSqManual),
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m_videoFPSCount(camera.m_videoFPSCount),
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m_videoPrevFPSCount(camera.m_videoPrevFPSCount)
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{}
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};
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int m_channelSampleRate;
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int m_channelFrequencyOffset;
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ATVModSettings m_settings;
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NCO m_carrierNco;
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Complex m_modSample;
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float m_modPhasor; //!< For FM modulation
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Interpolator m_interpolator;
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Real m_interpolatorDistance;
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Real m_interpolatorDistanceRemain;
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int m_tvSampleRate; //!< sample rate for generating signal
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uint32_t m_pointsPerLine; //!< Number of points per full line
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int m_pointsPerSync; //!< number of line points for the horizontal sync
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int m_pointsPerBP; //!< number of line points for the back porch
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int m_pointsPerImgLine; //!< number of line points for the image line
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uint32_t m_pointsPerFP; //!< number of line points for the front porch
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int m_pointsPerFSync; //!< number of line points for the field first sync
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uint32_t m_pointsPerHBar; //!< number of line points for a bar of the bar chart
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uint32_t m_linesPerVBar; //!< number of lines for a bar of the bar chart
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uint32_t m_pointsPerTU; //!< number of line points per time unit
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int m_nbLines; //!< number of lines per complete frame
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int m_nbLines2; //!< same number as above (non interlaced) or half the number above (interlaced)
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uint32_t m_nbImageLines; //!< number of image lines excluding synchronization lines
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uint32_t m_nbImageLines2; //!< same number as above (non interlaced) or half the number above (interlaced)
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int m_nbHorizPoints; //!< number of line points per horizontal line
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int m_nbSyncLinesHeadE; //!< number of header sync lines on even frame
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int m_nbSyncLinesHeadO; //!< number of header sync lines on odd frame
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int m_nbSyncLinesBottom;//!< number of sync lines at bottom
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int m_nbLongSyncLines; //!< number of whole long sync lines for vertical synchronization
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int m_nbHalfLongSync; //!< number of half long sync / equalization lines
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int m_nbWholeEqLines; //!< number of whole equalizing lines
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bool m_singleLongSync; //!< single or double long sync per long sync line
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int m_nbBlankLines; //!< number of lines in a frame (full or half) that are blanked (black) at the top of the image
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float m_blankLineLvel; //!< video level of blank lines
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float m_hBarIncrement; //!< video level increment at each horizontal bar increment
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float m_vBarIncrement; //!< video level increment at each vertical bar increment
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bool m_interleaved; //!< true if image is interlaced (2 half frames per frame)
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bool m_evenImage; //!< in interlaced mode true if this is an even image
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int m_horizontalCount; //!< current point index on line
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int m_lineCount; //!< current line index in frame
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float m_fps; //!< resulting frames per second
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MovingAverageUtil<double, double, 16> m_movingAverage;
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quint32 m_levelCalcCount;
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Real m_rmsLevel;
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Real m_peakLevelOut;
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Real m_peakLevel;
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Real m_levelSum;
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cv::Mat m_imageFromFile; //!< original image not resized not overlaid by text
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cv::Mat m_imageOriginal; //!< original not resized image
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cv::Mat m_image; //!< resized image for transmission at given rate
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bool m_imageOK;
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cv::VideoCapture m_video; //!< current video capture
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cv::Mat m_videoframeOriginal; //!< current frame from video
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cv::Mat m_videoFrame; //!< current displayable video frame
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float m_videoFPS; //!< current video FPS rate
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int m_videoWidth; //!< current video frame width
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int m_videoHeight; //!< current video frame height
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float m_videoFx; //!< current video horizontal scaling factor
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float m_videoFy; //!< current video vertictal scaling factor
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float m_videoFPSq; //!< current video FPS sacaling factor
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float m_videoFPSCount; //!< current video FPS fractional counter
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int m_videoPrevFPSCount; //!< current video FPS previous integer counter
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int m_videoLength; //!< current video length in frames
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bool m_videoEOF; //!< current video has reached end of file
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bool m_videoOK;
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std::vector<ATVCamera> m_cameras; //!< vector of available cameras
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int m_cameraIndex; //!< curent camera index in list of available cameras
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std::string m_overlayText;
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QString m_imageFileName;
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QString m_videoFileName;
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// Used for standard SSB
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fftfilt* m_SSBFilter;
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Complex* m_SSBFilterBuffer;
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int m_SSBFilterBufferIndex;
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// Used for vestigial SSB with asymmetrical filtering (needs double sideband scheme)
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fftfilt* m_DSBFilter;
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Complex* m_DSBFilterBuffer;
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int m_DSBFilterBufferIndex;
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MessageQueue *m_messageQueueToGUI;
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static const int m_ssbFftLen;
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static const float m_blackLevel;
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static const float m_spanLevel;
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static const int m_levelNbSamples;
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static const int m_nbBars; //!< number of bars in bar or chessboard patterns
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static const int m_cameraFPSTestNbFrames; //!< number of frames for camera FPS test
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void pullFinalize(Complex& ci, Sample& sample);
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void pullVideo(Real& sample);
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void calculateLevel(Real& sample);
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void modulateSample();
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Complex& modulateSSB(Real& sample);
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Complex& modulateVestigialSSB(Real& sample);
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void applyStandard(const ATVModSettings& settings);
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void resizeImage();
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void calculateVideoSizes();
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void resizeVideo();
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void scanCameras();
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void releaseCameras();
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void calculateCamerasSizes();
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void resizeCameras();
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void resizeCamera();
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void mixImageAndText(cv::Mat& image);
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MessageQueue *getMessageQueueToGUI() { return m_messageQueueToGUI; }
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inline void pullImageLine(Real& sample, bool noHSync = false)
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{
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if (m_horizontalCount < m_pointsPerSync) // sync pulse
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{
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sample = noHSync ? m_blackLevel : 0.0f; // ultra-black
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}
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else if (m_horizontalCount < m_pointsPerSync + m_pointsPerBP) // back porch
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{
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sample = m_blackLevel; // black
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}
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else if (m_horizontalCount < m_pointsPerSync + m_pointsPerBP + m_pointsPerImgLine)
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{
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int pointIndex = m_horizontalCount - (m_pointsPerSync + m_pointsPerBP);
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int oddity = m_lineCount < m_nbLines2 + 1 ? 0 : 1;
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int iLine = oddity == 0 ? m_lineCount : m_lineCount - m_nbLines2 - 1;
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int iLineImage = iLine - m_nbBlankLines - (oddity == 0 ? m_nbSyncLinesHeadE : m_nbSyncLinesHeadO);
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switch(m_settings.m_atvModInput)
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{
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case ATVModSettings::ATVModInputHBars:
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sample = (pointIndex / m_pointsPerHBar) * m_hBarIncrement + m_blackLevel;
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break;
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case ATVModSettings::ATVModInputVBars:
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sample = (iLine / m_linesPerVBar) * m_vBarIncrement + m_blackLevel;
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break;
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case ATVModSettings::ATVModInputChessboard:
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sample = (((iLine / m_linesPerVBar)*5 + (pointIndex / m_pointsPerHBar)) % 2) * m_spanLevel * m_settings.m_uniformLevel + m_blackLevel;
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break;
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case ATVModSettings::ATVModInputHGradient:
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sample = (pointIndex / (float) m_pointsPerImgLine) * m_spanLevel + m_blackLevel;
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break;
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case ATVModSettings::ATVModInputVGradient:
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sample = ((iLine -5) / (float) m_nbImageLines2) * m_spanLevel + m_blackLevel;
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break;
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case ATVModSettings::ATVModInputImage:
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if (!m_imageOK || (iLineImage < -oddity) || m_image.empty())
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{
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sample = m_spanLevel * m_settings.m_uniformLevel + m_blackLevel;
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}
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else
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{
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unsigned char pixv;
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if (m_interleaved) {
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pixv = m_image.at<unsigned char>(2*iLineImage + oddity, pointIndex); // row (y), col (x)
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} else {
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pixv = m_image.at<unsigned char>(iLineImage, pointIndex); // row (y), col (x)
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}
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sample = (pixv / 256.0f) * m_spanLevel + m_blackLevel;
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}
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break;
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case ATVModSettings::ATVModInputVideo:
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if (!m_videoOK || (iLineImage < -oddity) || m_videoFrame.empty())
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{
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sample = m_spanLevel * m_settings.m_uniformLevel + m_blackLevel;
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}
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else
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{
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unsigned char pixv;
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if (m_interleaved) {
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pixv = m_videoFrame.at<unsigned char>(2*iLineImage + oddity, pointIndex); // row (y), col (x)
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} else {
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pixv = m_videoFrame.at<unsigned char>(iLineImage, pointIndex); // row (y), col (x)
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}
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sample = (pixv / 256.0f) * m_spanLevel + m_blackLevel;
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}
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break;
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case ATVModSettings::ATVModInputCamera:
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if ((iLineImage < -oddity) || (m_cameraIndex < 0))
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{
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sample = m_spanLevel * m_settings.m_uniformLevel + m_blackLevel;
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}
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else
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{
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ATVCamera& camera = m_cameras[m_cameraIndex];
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if (camera.m_videoFrame.empty())
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{
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sample = m_spanLevel * m_settings.m_uniformLevel + m_blackLevel;
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}
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else
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{
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unsigned char pixv;
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if (m_interleaved) {
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pixv = camera.m_videoFrame.at<unsigned char>(2*iLineImage + oddity, pointIndex); // row (y), col (x)
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} else {
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pixv = camera.m_videoFrame.at<unsigned char>(iLineImage, pointIndex); // row (y), col (x)
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}
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sample = (pixv / 256.0f) * m_spanLevel + m_blackLevel;
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}
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}
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break;
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case ATVModSettings::ATVModInputUniform:
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default:
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sample = m_spanLevel * m_settings.m_uniformLevel + m_blackLevel;
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}
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}
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else // front porch
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{
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sample = m_blackLevel; // black
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}
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}
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inline void pullVSyncLineLongPulses(Real& sample)
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{
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int halfIndex = m_horizontalCount % (m_nbHorizPoints/2);
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if (halfIndex < (m_nbHorizPoints/2) - m_pointsPerSync) // ultra-black
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{
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sample = 0.0f;
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}
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else // black
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{
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if (m_singleLongSync && (m_horizontalCount < m_nbHorizPoints/2)) {
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sample = 0.0f;
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} else {
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sample = m_blackLevel;
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}
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}
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}
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inline void pullVSyncLineEqualizingPulses(Real& sample)
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{
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if (m_horizontalCount < m_pointsPerSync)
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{
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sample = 0.0f; // ultra-black
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}
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else if (m_horizontalCount < (m_nbHorizPoints/2))
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{
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sample = m_blackLevel; // black
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}
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else if (m_horizontalCount < (m_nbHorizPoints/2) + m_pointsPerFSync)
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{
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sample = 0.0f; // ultra-black
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}
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else
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{
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sample = m_blackLevel; // black
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}
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}
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inline void pullVSyncLineEqualizingThenLongPulses(Real& sample)
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{
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if (m_horizontalCount < m_pointsPerSync)
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{
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sample = 0.0f; // ultra-black
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}
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else if (m_horizontalCount < (m_nbHorizPoints/2))
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{
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sample = m_blackLevel; // black
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}
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else if (m_horizontalCount < m_nbHorizPoints - m_pointsPerSync)
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{
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sample = 0.0f; // ultra-black
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}
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else
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{
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sample = m_blackLevel; // black
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}
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}
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inline void pullVSyncLineLongThenEqualizingPulses(Real& sample)
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{
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if (m_horizontalCount < (m_nbHorizPoints/2) - m_pointsPerSync)
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{
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sample = 0.0f; // ultra-black
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}
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else if (m_horizontalCount < (m_nbHorizPoints/2))
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{
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sample = m_blackLevel; // black
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}
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else if (m_horizontalCount < (m_nbHorizPoints/2) + m_pointsPerFSync)
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{
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sample = 0.0f; // ultra-black
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}
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else
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{
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sample = m_blackLevel; // black
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}
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}
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inline void pullVSyncLine(Real& sample)
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{
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if (m_lineCount < m_nbLines2 + 1) // even
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{
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int fieldLine = m_lineCount;
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if (fieldLine < m_nbLongSyncLines) // 0,1: Whole line "long" pulses
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{
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pullVSyncLineLongPulses(sample);
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}
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else if (fieldLine < m_nbLongSyncLines + m_nbHalfLongSync) // long pulse then equalizing pulse
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{
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pullVSyncLineLongThenEqualizingPulses(sample);
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}
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else if (fieldLine < m_nbLongSyncLines + m_nbHalfLongSync + m_nbWholeEqLines) // Whole line equalizing pulses
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{
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pullVSyncLineEqualizingPulses(sample);
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}
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else if (fieldLine > m_nbLines2 - m_nbHalfLongSync) // equalizing pulse then long pulse
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{
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pullVSyncLineEqualizingThenLongPulses(sample);
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}
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else if (fieldLine > m_nbLines2 - m_nbHalfLongSync - m_nbWholeEqLines) // Whole line equalizing pulses
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{
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pullVSyncLineEqualizingPulses(sample);
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}
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else // black images
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{
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if (m_horizontalCount < m_pointsPerSync)
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{
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sample = 0.0f;
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}
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else
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{
|
|
sample = m_blankLineLvel;
|
|
}
|
|
}
|
|
}
|
|
else // odd
|
|
{
|
|
int fieldLine = m_lineCount - m_nbLines2 - 1;
|
|
|
|
if (fieldLine < m_nbLongSyncLines) // 0,1: Whole line "long" pulses
|
|
{
|
|
pullVSyncLineLongPulses(sample);
|
|
}
|
|
else if (fieldLine < m_nbLongSyncLines + m_nbWholeEqLines) // Whole line equalizing pulses
|
|
{
|
|
pullVSyncLineEqualizingPulses(sample);
|
|
}
|
|
else if (fieldLine > m_nbLines2 - 1 - m_nbWholeEqLines - m_nbHalfLongSync) // Whole line equalizing pulses
|
|
{
|
|
pullVSyncLineEqualizingPulses(sample);
|
|
}
|
|
else // black images
|
|
{
|
|
if (m_horizontalCount < m_pointsPerSync)
|
|
{
|
|
sample = 0.0f;
|
|
}
|
|
else
|
|
{
|
|
sample = m_blankLineLvel;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
};
|
|
|
|
|
|
#endif /* PLUGINS_CHANNELTX_MODATV_ATVMOD_H_ */
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