#include #include #include "gui/glscope.h" #include "dsp/dspengine.h" #include #include #ifdef _WIN32 static double log2f(double n) { return log(n) / log(2.0); } #endif GLScope::GLScope(QWidget* parent) : QGLWidget(parent), m_dataChanged(false), m_configChanged(true), m_mode(ModeIQ), m_displays(DisplayBoth), m_orientation(Qt::Horizontal), m_displayTrace(&m_rawTrace), m_oldTraceSize(-1), m_sampleRate(0), m_amp1(1.0), m_amp2(1.0), m_ofs1(0.0), m_ofs2(0.0), m_dspEngine(NULL), m_scopeVis(NULL), m_amp(1.0), m_ofs(0.0), m_timeBase(1), m_timeOfsProMill(0), m_triggerChannel(ScopeVis::TriggerFreeRun), m_triggerLevel(0.0), m_displayGridIntensity(5), m_displayTraceIntensity(50), m_left1ScaleTextureAllocated(false), m_left2ScaleTextureAllocated(false), m_bot1ScaleTextureAllocated(false), m_bot2ScaleTextureAllocated(false) { setAttribute(Qt::WA_OpaquePaintEvent); connect(&m_timer, SIGNAL(timeout()), this, SLOT(tick())); m_timer.start(50); m_y1Scale.setFont(font()); m_y1Scale.setOrientation(Qt::Vertical); m_y2Scale.setFont(font()); m_y2Scale.setOrientation(Qt::Vertical); m_x1Scale.setFont(font()); m_x1Scale.setOrientation(Qt::Horizontal); m_x2Scale.setFont(font()); m_x2Scale.setOrientation(Qt::Horizontal); } GLScope::~GLScope() { if(m_dspEngine != NULL) { m_dspEngine->removeSink(m_scopeVis); delete m_scopeVis; } } void GLScope::setDSPEngine(DSPEngine* dspEngine) { if((m_dspEngine == NULL) && (dspEngine != NULL)) { m_dspEngine = dspEngine; m_scopeVis = new ScopeVis(this); m_dspEngine->addSink(m_scopeVis); } } void GLScope::setSampleRate(int sampleRate) { m_sampleRate = sampleRate; m_configChanged = true; update(); emit sampleRateChanged(m_sampleRate); } void GLScope::setAmp(Real amp) { m_amp = amp; m_configChanged = true; update(); } void GLScope::setAmpOfs(Real ampOfs) { m_ofs = ampOfs; m_configChanged = true; update(); } void GLScope::setTimeBase(int timeBase) { m_timeBase = timeBase; m_configChanged = true; update(); } void GLScope::setTimeOfsProMill(int timeOfsProMill) { m_timeOfsProMill = timeOfsProMill; m_configChanged = true; update(); } void GLScope::setMode(Mode mode) { m_mode = mode; m_dataChanged = true; m_configChanged = true; update(); } void GLScope::setDisplays(Displays displays) { m_displays = displays; m_dataChanged = true; m_configChanged = true; update(); } void GLScope::setOrientation(Qt::Orientation orientation) { m_orientation = orientation; m_configChanged = true; update(); } void GLScope::setDisplayGridIntensity(int intensity) { m_displayGridIntensity = intensity; if (m_displayGridIntensity > 100) { m_displayGridIntensity = 100; } else if (m_displayGridIntensity < 0) { m_displayGridIntensity = 0; } update(); } void GLScope::setDisplayTraceIntensity(int intensity) { m_displayTraceIntensity = intensity; if (m_displayTraceIntensity > 100) { m_displayTraceIntensity = 100; } else if (m_displayTraceIntensity < 0) { m_displayTraceIntensity = 0; } update(); } void GLScope::newTrace(const std::vector& trace, int sampleRate) { if(!m_mutex.tryLock(2)) return; if(m_dataChanged) { m_mutex.unlock(); return; } m_rawTrace = trace; m_sampleRate = sampleRate; // sampleRate comes from scopeVis m_dataChanged = true; m_mutex.unlock(); } void GLScope::initializeGL() { glDisable(GL_DEPTH_TEST); } void GLScope::resizeGL(int width, int height) { glViewport(0, 0, width, height); m_configChanged = true; } void GLScope::paintGL() { if(!m_mutex.tryLock(2)) return; if(m_configChanged) applyConfig(); handleMode(); if(m_displayTrace->size() - m_oldTraceSize != 0) { m_oldTraceSize = m_displayTrace->size(); emit traceSizeChanged(m_displayTrace->size()); } glClearColor(0.0f, 0.0f, 0.0f, 0.0f); glClear(GL_COLOR_BUFFER_BIT); glPushMatrix(); glScalef(2.0, -2.0, 1.0); glTranslatef(-0.50, -0.5, 0); // I - primary display if ((m_displays == DisplayBoth) || (m_displays == DisplayFirstOnly)) { // draw rect around glPushMatrix(); glTranslatef(m_glScopeRect1.x(), m_glScopeRect1.y(), 0); glScalef(m_glScopeRect1.width(), m_glScopeRect1.height(), 1); glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glLineWidth(1.0f); glColor4f(1, 1, 1, 0.5); glBegin(GL_LINE_LOOP); glVertex2f(1, 1); glVertex2f(0, 1); glVertex2f(0, 0); glVertex2f(1, 0); glEnd(); glDisable(GL_BLEND); // paint grid const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glLineWidth(1.0f); glColor4f(1, 1, 1, m_displayGridIntensity / 100.0); // Horizontal Y1 tickList = &m_y1Scale.getTickList(); for(int i= 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { float y = 1 - (tick->pos / m_y1Scale.getSize()); glBegin(GL_LINE_LOOP); glVertex2f(0, y); glVertex2f(1, y); glEnd(); } } } /* for(int i = 1; i < 10; i++) { glBegin(GL_LINE_LOOP); glVertex2f(0, i * 0.1); glVertex2f(1, i * 0.1); glEnd(); }*/ // Vertical X1 tickList = &m_x1Scale.getTickList(); for(int i= 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { float x = tick->pos / m_x1Scale.getSize(); glBegin(GL_LINE_LOOP); glVertex2f(x, 0); glVertex2f(x, 1); glEnd(); } } } /* for(int i = 1; i < 10; i++) { glBegin(GL_LINE_LOOP); glVertex2f(i * 0.1, 0); glVertex2f(i * 0.1, 1); glEnd(); }*/ glPopMatrix(); // paint left #1 scale glBindTexture(GL_TEXTURE_2D, m_left1ScaleTexture); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT); glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE); glPushMatrix(); glTranslatef(m_glLeft1ScaleRect.x(), m_glLeft1ScaleRect.y(), 0); glScalef(m_glLeft1ScaleRect.width(), m_glLeft1ScaleRect.height(), 1); glEnable(GL_TEXTURE_2D); glBegin(GL_QUADS); glTexCoord2f(0, 1); glVertex2f(0, 1); glTexCoord2f(1, 1); glVertex2f(1, 1); glTexCoord2f(1, 0); glVertex2f(1, 0); glTexCoord2f(0, 0); glVertex2f(0, 0); glEnd(); glDisable(GL_TEXTURE_2D); glPopMatrix(); // paint bottom #1 scale glBindTexture(GL_TEXTURE_2D, m_bot1ScaleTexture); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT); glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE); glPushMatrix(); glTranslatef(m_glBot1ScaleRect.x(), m_glBot1ScaleRect.y(), 0); glScalef(m_glBot1ScaleRect.width(), m_glBot1ScaleRect.height(), 1); glEnable(GL_TEXTURE_2D); glBegin(GL_QUADS); glTexCoord2f(0, 1); glVertex2f(0, 1); glTexCoord2f(1, 1); glVertex2f(1, 1); glTexCoord2f(1, 0); glVertex2f(1, 0); glTexCoord2f(0, 0); glVertex2f(0, 0); glEnd(); glDisable(GL_TEXTURE_2D); glPopMatrix(); // paint trigger level if ((m_triggerChannel == ScopeVis::TriggerChannelI) || (m_triggerChannel == ScopeVis::TriggerMagLin) || (m_triggerChannel == ScopeVis::TriggerMagDb) ) { glPushMatrix(); glTranslatef(m_glScopeRect1.x(), m_glScopeRect1.y() + m_glScopeRect1.height() / 2.0, 0); glScalef(m_glScopeRect1.width(), -(m_glScopeRect1.height() / 2) * m_amp1, 1); glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glEnable(GL_LINE_SMOOTH); glLineWidth(1.0f); glColor4f(0, 1, 0, 0.5f); glBegin(GL_LINE_LOOP); if (m_triggerChannel == ScopeVis::TriggerChannelI) { glVertex2f(0, m_triggerLevel); glVertex2f(1, m_triggerLevel); } else if (m_triggerChannel == ScopeVis::TriggerMagLin) { Real y = (m_triggerLevel + 1.0 - (m_ofs / 2.0)) * m_amp1; //std::cerr << "y=" << y << " ofs=" << m_ofs << std::endl; glVertex2f(0, (y - 1.0)/m_amp1); glVertex2f(1, (y - 1.0)/m_amp1); } else if (m_triggerChannel == ScopeVis::TriggerMagDb) { Real y = (m_triggerLevel - m_ofs) * m_amp1; /* std::cerr << "m_triggerLevel=" << m_triggerLevel << " amp1=" << m_amp1 << " ofs=" << m_ofs << " ofs1=" << m_ofs1 << std::endl;*/ glVertex2f(0, (y - 1.0)/m_amp1); glVertex2f(1, (y - 1.0)/m_amp1); } glEnd(); glDisable(GL_LINE_SMOOTH); glPopMatrix(); } // paint trace if(m_displayTrace->size() > 0) { glPushMatrix(); glTranslatef(m_glScopeRect1.x(), m_glScopeRect1.y() + m_glScopeRect1.height() / 2.0, 0); glScalef(m_glScopeRect1.width() * (float)m_timeBase / (float)(m_displayTrace->size() - 1), -(m_glScopeRect1.height() / 2) * m_amp1, 1); glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glEnable(GL_LINE_SMOOTH); glLineWidth(1.0f); glColor4f(1, 1, 0.25f, m_displayTraceIntensity / 100.0); int start = (m_timeOfsProMill/1000.0) * m_displayTrace->size(); int end = std::min(start + m_displayTrace->size()/m_timeBase, m_displayTrace->size()); if(end - start < 2) start--; float posLimit = 1.0 / m_amp1; float negLimit = -1.0 / m_amp1; glBegin(GL_LINE_STRIP); for(int i = start; i < end; i++) { float v = (*m_displayTrace)[i].real() + m_ofs1; if(v > posLimit) v = posLimit; else if(v < negLimit) v = negLimit; glVertex2f(i - start, v); } glEnd(); glDisable(GL_LINE_SMOOTH); glPopMatrix(); } } // Both displays or primary only // Q - secondary display if ((m_displays == DisplayBoth) || (m_displays == DisplaySecondOnly)) { // draw rect around glPushMatrix(); glTranslatef(m_glScopeRect2.x(), m_glScopeRect2.y(), 0); glScalef(m_glScopeRect2.width(), m_glScopeRect2.height(), 1); glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glLineWidth(1.0f); glColor4f(1, 1, 1, 0.5); glBegin(GL_LINE_LOOP); glVertex2f(1, 1); glVertex2f(0, 1); glVertex2f(0, 0); glVertex2f(1, 0); glEnd(); glDisable(GL_BLEND); // paint grid const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glLineWidth(1.0f); glColor4f(1, 1, 1, m_displayGridIntensity / 100.0); // Horizontal Y2 tickList = &m_y2Scale.getTickList(); for(int i= 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { float y = 1 - (tick->pos / m_y2Scale.getSize()); glBegin(GL_LINE_LOOP); glVertex2f(0, y); glVertex2f(1, y); glEnd(); } } } /* for(int i = 1; i < 10; i++) { glBegin(GL_LINE_LOOP); glVertex2f(0, i * 0.1); glVertex2f(1, i * 0.1); glEnd(); }*/ // Vertical X2 tickList = &m_x2Scale.getTickList(); for(int i= 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { float x = tick->pos / m_x2Scale.getSize(); glBegin(GL_LINE_LOOP); glVertex2f(x, 0); glVertex2f(x, 1); glEnd(); } } } /* for(int i = 1; i < 10; i++) { glBegin(GL_LINE_LOOP); glVertex2f(i * 0.1, 0); glVertex2f(i * 0.1, 1); glEnd(); }*/ glPopMatrix(); // paint left #2 scale glBindTexture(GL_TEXTURE_2D, m_left2ScaleTexture); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT); glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE); glPushMatrix(); glTranslatef(m_glLeft2ScaleRect.x(), m_glLeft2ScaleRect.y(), 0); glScalef(m_glLeft2ScaleRect.width(), m_glLeft2ScaleRect.height(), 1); glEnable(GL_TEXTURE_2D); glBegin(GL_QUADS); glTexCoord2f(0, 1); glVertex2f(0, 1); glTexCoord2f(1, 1); glVertex2f(1, 1); glTexCoord2f(1, 0); glVertex2f(1, 0); glTexCoord2f(0, 0); glVertex2f(0, 0); glEnd(); glDisable(GL_TEXTURE_2D); glPopMatrix(); // paint bottom #2 scale glBindTexture(GL_TEXTURE_2D, m_bot2ScaleTexture); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT); glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE); glPushMatrix(); glTranslatef(m_glBot2ScaleRect.x(), m_glBot2ScaleRect.y(), 0); glScalef(m_glBot2ScaleRect.width(), m_glBot2ScaleRect.height(), 1); glEnable(GL_TEXTURE_2D); glBegin(GL_QUADS); glTexCoord2f(0, 1); glVertex2f(0, 1); glTexCoord2f(1, 1); glVertex2f(1, 1); glTexCoord2f(1, 0); glVertex2f(1, 0); glTexCoord2f(0, 0); glVertex2f(0, 0); glEnd(); glDisable(GL_TEXTURE_2D); glPopMatrix(); // paint trigger level if((m_triggerChannel == ScopeVis::TriggerPhase) || (m_triggerChannel == ScopeVis::TriggerChannelQ)) { glPushMatrix(); glTranslatef(m_glScopeRect2.x(), m_glScopeRect2.y() + m_glScopeRect2.height() / 2.0, 0); glScalef(m_glScopeRect2.width(), -(m_glScopeRect2.height() / 2) * m_amp2, 1); glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glEnable(GL_LINE_SMOOTH); glLineWidth(1.0f); glColor4f(0, 1, 0, 0.5f); glBegin(GL_LINE_LOOP); glVertex2f(0, m_triggerLevel); glVertex2f(1, m_triggerLevel); glEnd(); /* glColor4f(0, 0.8f, 0.0, 0.3f); glBegin(GL_LINE_LOOP); glVertex2f(0, m_triggerLevelLow); glVertex2f(1, m_triggerLevelLow); glEnd();*/ glDisable(GL_LINE_SMOOTH); glPopMatrix(); } // paint trace if(m_displayTrace->size() > 0) { glPushMatrix(); glTranslatef(m_glScopeRect2.x(), m_glScopeRect2.y() + m_glScopeRect2.height() / 2.0, 0); glScalef(m_glScopeRect2.width() * (float)m_timeBase / (float)(m_displayTrace->size() - 1), -(m_glScopeRect2.height() / 2) * m_amp2, 1); glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glEnable(GL_LINE_SMOOTH); glLineWidth(1.0f); glColor4f(1, 1, 0.25f, m_displayTraceIntensity / 100.0); int start = (m_timeOfsProMill/1000.0) * m_displayTrace->size(); int end = std::min(start + m_displayTrace->size()/m_timeBase, m_displayTrace->size()); if(end - start < 2) start--; float posLimit = 1.0 / m_amp2; float negLimit = -1.0 / m_amp2; glBegin(GL_LINE_STRIP); for(int i = start; i < end; i++) { float v = (*m_displayTrace)[i].imag(); if(v > posLimit) v = posLimit; else if(v < negLimit) v = negLimit; glVertex2f(i - start, v); } glEnd(); glDisable(GL_LINE_SMOOTH); glPopMatrix(); } } // Both displays or secondary display only glPopMatrix(); m_dataChanged = false; m_mutex.unlock(); } void GLScope::mousePressEvent(QMouseEvent* event) { #if 0 int x = event->x() - 10; int y = event->y() - 10; Real time; Real amplitude; ScopeVis::TriggerChannel channel; if((x < 0) || (x >= width() - 20)) return; if((y < 0) || (y >= height() - 20)) return; if((m_sampleRate != 0) && (m_timeBase != 0) && (width() > 20)) time = ((Real)x * (Real)m_displayTrace->size()) / ((Real)m_sampleRate * (Real)m_timeBase * (Real)(width() - 20)); else time = -1.0; if(y < (height() - 30) / 2) { channel = ScopeVis::TriggerChannelI; if((m_amp != 0) && (height() > 30)) amplitude = 2.0 * ((height() - 30) * 0.25 - (Real)y) / (m_amp * (height() - 30) / 2.0); else amplitude = -1; } else if(y > (height() - 30) / 2 + 10) { y -= 10 + (height() - 30) / 2; channel = ScopeVis::TriggerChannelQ; if((m_amp != 0) && (height() > 30)) amplitude = 2.0 * ((height() - 30) * 0.25 - (Real)y) / (m_amp * (height() - 30) / 2.0); else amplitude = -1; } else { channel = ScopeVis::TriggerFreeRun; } if(m_dspEngine != NULL) { qDebug("amp %f", amplitude); m_triggerLevel = amplitude + 0.01 / m_amp; m_triggerLevelLow = amplitude - 0.01 / m_amp; if(m_triggerLevel > 1.0) m_triggerLevel = 1.0; else if(m_triggerLevel < -1.0) m_triggerLevel = -1.0; if(m_triggerLevelLow > 1.0) m_triggerLevelLow = 1.0; else if(m_triggerLevelLow < -1.0) m_triggerLevelLow = -1.0; m_scopeVis->configure(m_dspEngine->getMessageQueue(), channel, m_triggerLevel, m_triggerLevelLow); m_triggerChannel = channel; m_changed = true; update(); } #endif } void GLScope::handleMode() { switch(m_mode) { case ModeIQ: { m_mathTrace.resize(m_rawTrace.size()); std::vector::iterator dst = m_mathTrace.begin(); m_displayTrace = &m_rawTrace; for(std::vector::const_iterator src = m_rawTrace.begin(); src != m_rawTrace.end(); ++src) { *dst++ = Complex(src->real() - 2*m_ofs, src->imag() - m_ofs); } m_displayTrace = &m_mathTrace; m_amp1 = m_amp; m_amp2 = m_amp; m_ofs1 = m_ofs; m_ofs2 = m_ofs; break; } case ModeMagLinPha: { m_mathTrace.resize(m_rawTrace.size()); std::vector::iterator dst = m_mathTrace.begin(); for(std::vector::const_iterator src = m_rawTrace.begin(); src != m_rawTrace.end(); ++src) *dst++ = Complex(abs(*src) - m_ofs/2.0, arg(*src) / M_PI); m_displayTrace = &m_mathTrace; m_amp1 = m_amp; m_amp2 = 1.0; m_ofs1 = -1.0 / m_amp1; m_ofs2 = 0.0; break; } case ModeMagdBPha: { m_mathTrace.resize(m_rawTrace.size()); std::vector::iterator dst = m_mathTrace.begin(); Real mult = (10.0f / log2f(10.0f)); for(std::vector::const_iterator src = m_rawTrace.begin(); src != m_rawTrace.end(); ++src) { Real v = src->real() * src->real() + src->imag() * src->imag(); v = (100.0 - m_ofs*100.0 + (mult * log2f(v))) / 100.0; // TODO: first term is the offset *dst++ = Complex(v, arg(*src) / M_PI); } m_displayTrace = &m_mathTrace; m_amp1 = 2.0 * m_amp; m_amp2 = 1.0; m_ofs1 = -1.0 / m_amp1; m_ofs2 = 0.0; break; } case ModeDerived12: { if(m_rawTrace.size() > 3) { m_mathTrace.resize(m_rawTrace.size() - 3); std::vector::iterator dst = m_mathTrace.begin(); for(uint i = 3; i < m_rawTrace.size() ; i++) { *dst++ = Complex( abs(m_rawTrace[i] - m_rawTrace[i - 1]), abs(m_rawTrace[i] - m_rawTrace[i - 1]) - abs(m_rawTrace[i - 2] - m_rawTrace[i - 3])); } m_displayTrace = &m_mathTrace; m_amp1 = m_amp; m_amp2 = m_amp; m_ofs1 = -1.0 / m_amp1; m_ofs2 = 0.0; } break; } case ModeCyclostationary: { if(m_rawTrace.size() > 2) { m_mathTrace.resize(m_rawTrace.size() - 2); std::vector::iterator dst = m_mathTrace.begin(); for(uint i = 2; i < m_rawTrace.size() ; i++) *dst++ = Complex(abs(m_rawTrace[i] - conj(m_rawTrace[i - 1])), 0); m_displayTrace = &m_mathTrace; m_amp1 = m_amp; m_amp2 = m_amp; m_ofs1 = -1.0 / m_amp1; m_ofs2 = 0.0; } break; } } } void GLScope::applyConfig() { m_configChanged = false; QFontMetrics fm(font()); int M = fm.width("-"); int topMargin = 5; int botMargin = 20; int leftMargin = 35; int rightMargin = 5; float pow_floor = -100.0 + m_ofs * 100.0; float pow_range = 100.0 / m_amp; float amp_range = 2.0 / m_amp; float amp_ofs = m_ofs; float t_start = (m_timeOfsProMill / 1000.0) * ((float) m_displayTrace->size() / m_sampleRate); float t_len = ((float) m_displayTrace->size() / m_sampleRate) / (float) m_timeBase; m_x1Scale.setRange(Unit::Time, t_start, t_start + t_len); m_x2Scale.setRange(Unit::Time, t_start, t_start + t_len); switch(m_mode) { case ModeIQ: { if (amp_range < 2.0) { m_y1Scale.setRange(Unit::None, - amp_range * 500.0 + amp_ofs * 1000.0, amp_range * 500.0 + amp_ofs * 1000.0); m_y2Scale.setRange(Unit::None, - amp_range * 500.0 + amp_ofs * 1000.0, amp_range * 500.0 + amp_ofs * 1000.0); } else { m_y1Scale.setRange(Unit::None, - amp_range * 0.5 + amp_ofs, amp_range * 0.5 + amp_ofs); m_y2Scale.setRange(Unit::None, - amp_range * 0.5 + amp_ofs, amp_range * 0.5 + amp_ofs); } break; } case ModeMagLinPha: { if (amp_range < 2.0) { m_y1Scale.setRange(Unit::None, amp_ofs * 500.0, amp_range * 1000.0 + amp_ofs * 500.0); } else { m_y1Scale.setRange(Unit::None, amp_ofs/2.0, amp_range + amp_ofs/2.0); } m_y2Scale.setRange(Unit::None, -1.0, 1.0); // Scale to Pi break; } case ModeMagdBPha: { m_y1Scale.setRange(Unit::Decibel, pow_floor, pow_floor + pow_range); m_y2Scale.setRange(Unit::AngleDegrees, -1.0, 1.0); // Scale to Pi break; } case ModeDerived12: { if (amp_range < 2.0) { m_y1Scale.setRange(Unit::None, 0.0, amp_range * 1000.0); m_y2Scale.setRange(Unit::None, - amp_range * 500.0, amp_range * 500.0); } else { m_y1Scale.setRange(Unit::None, 0.0, amp_range); m_y2Scale.setRange(Unit::None, - amp_range * 0.5, amp_range * 0.5); } break; } case ModeCyclostationary: { if (amp_range < 2.0) { m_y1Scale.setRange(Unit::None, 0.0, amp_range * 1000.0); m_y2Scale.setRange(Unit::None, - amp_range * 500.0, amp_range * 500.0); } else { m_y1Scale.setRange(Unit::None, 0.0, amp_range); m_y2Scale.setRange(Unit::None, - amp_range * 0.5, amp_range * 0.5); } break; } } // QRectF(x, y, w, h); (x, y) = top left corner if (m_displays == DisplayBoth) { if(m_orientation == Qt::Vertical) { int scopeHeight = (height() - topMargin) / 2 - botMargin; int scopeWidth = width() - leftMargin - rightMargin; m_glScopeRect1 = QRectF( (float) leftMargin / (float) width(), (float) topMargin / (float) height(), (float) scopeWidth / (float) width(), (float) scopeHeight / (float) height() ); m_glLeft1ScaleRect = QRectF( 0, (float) topMargin / (float) height(), (float) (leftMargin-1) / (float) width(), (float) scopeHeight / (float) height() ); m_glBot1ScaleRect = QRectF( (float) leftMargin / (float) width(), (float) (scopeHeight + topMargin + 1) / (float) height(), (float) scopeWidth / (float) width(), (float) (botMargin - 1) / (float) height() ); { // Y1 scale m_y1Scale.setSize(scopeHeight); m_left1ScalePixmap = QPixmap( leftMargin - 1, scopeHeight ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_left1ScalePixmap.fill(Qt::black); QPainter painter(&m_left1ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_y1Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { //std::cerr << (tick->text).toStdString() << " @ " << tick->textPos << std::endl; painter.drawText(QPointF(leftMargin - M - tick->textSize, topMargin + scopeHeight - tick->textPos - fm.ascent()/2), tick->text); } } } if (m_left1ScaleTextureAllocated) deleteTexture(m_left1ScaleTexture); m_left1ScaleTexture = bindTexture(m_left1ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_left1ScaleTextureAllocated = true; } // Y1 scale { // X1 scale m_x1Scale.setSize(scopeWidth); m_bot1ScalePixmap = QPixmap( scopeWidth, botMargin - 1 ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_bot1ScalePixmap.fill(Qt::black); QPainter painter(&m_bot1ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_x1Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { painter.drawText(QPointF(tick->textPos, fm.height() - 1), tick->text); } } } if (m_bot1ScaleTextureAllocated) deleteTexture(m_bot1ScaleTexture); m_bot1ScaleTexture = bindTexture(m_bot1ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_bot1ScaleTextureAllocated = true; } // X1 scale m_glScopeRect2 = QRectF( (float) leftMargin / (float)width(), (float) (botMargin + topMargin + scopeHeight) / (float)height(), (float) scopeWidth / (float)width(), (float) scopeHeight / (float)height() ); m_glLeft2ScaleRect = QRectF( 0, (float) (topMargin + scopeHeight + botMargin) / (float) height(), (float) (leftMargin-1) / (float) width(), (float) scopeHeight / (float) height() ); m_glBot2ScaleRect = QRectF( (float) leftMargin / (float) width(), (float) (scopeHeight + topMargin + scopeHeight + botMargin + 1) / (float) height(), (float) scopeWidth / (float) width(), (float) (botMargin - 1) / (float) height() ); { // Y2 scale m_y2Scale.setSize(scopeHeight); m_left2ScalePixmap = QPixmap( leftMargin - 1, scopeHeight ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_left2ScalePixmap.fill(Qt::black); QPainter painter(&m_left2ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_y2Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { //std::cerr << (tick->text).toStdString() << " @ " << tick->textPos << std::endl; painter.drawText(QPointF(leftMargin - M - tick->textSize, topMargin + scopeHeight - tick->textPos - fm.ascent()/2), tick->text); } } } if (m_left2ScaleTextureAllocated) deleteTexture(m_left2ScaleTexture); m_left2ScaleTexture = bindTexture(m_left2ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_left2ScaleTextureAllocated = true; } // Y2 scale { // X2 scale m_x2Scale.setSize(scopeWidth); m_bot2ScalePixmap = QPixmap( scopeWidth, botMargin - 1 ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_bot2ScalePixmap.fill(Qt::black); QPainter painter(&m_bot2ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_x2Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { painter.drawText(QPointF(tick->textPos, fm.height() - 1), tick->text); } } } if (m_bot2ScaleTextureAllocated) deleteTexture(m_bot2ScaleTexture); m_bot2ScaleTexture = bindTexture(m_bot2ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_bot2ScaleTextureAllocated = true; } // X2 scale } else // Horizontal { int scopeHeight = height() - topMargin - botMargin; int scopeWidth = (width() - rightMargin)/2 - leftMargin; m_glScopeRect1 = QRectF( (float) leftMargin / (float) width(), (float) topMargin / (float) height(), (float) scopeWidth / (float) width(), (float) scopeHeight / (float) height() ); m_glLeft1ScaleRect = QRectF( 0, (float) topMargin / (float) height(), (float) (leftMargin-1) / (float) width(), (float) scopeHeight / (float) height() ); m_glBot1ScaleRect = QRectF( (float) leftMargin / (float) width(), (float) (scopeHeight + topMargin + 1) / (float) height(), (float) scopeWidth / (float) width(), (float) (botMargin - 1) / (float) height() ); { // Y1 scale //std::cerr << "Horizontal: " << width() << "x" << scopeHeight << " amp:" << m_amp << std::endl; m_y1Scale.setSize(scopeHeight); m_left1ScalePixmap = QPixmap( leftMargin - 1, scopeHeight ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_left1ScalePixmap.fill(Qt::black); QPainter painter(&m_left1ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_y1Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { //std::cerr << (tick->text).toStdString() << " @ " << tick->textPos << std::endl; painter.drawText(QPointF(leftMargin - M - tick->textSize, topMargin + scopeHeight - tick->textPos - fm.ascent()/2), tick->text); } } } if (m_left1ScaleTextureAllocated) deleteTexture(m_left1ScaleTextureAllocated); m_left1ScaleTexture = bindTexture(m_left1ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_left1ScaleTextureAllocated = true; } // Y1 scale { // X1 scale m_x1Scale.setSize(scopeWidth); m_bot1ScalePixmap = QPixmap( scopeWidth, botMargin - 1 ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_bot1ScalePixmap.fill(Qt::black); QPainter painter(&m_bot1ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_x1Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { painter.drawText(QPointF(tick->textPos, fm.height() - 1), tick->text); } } } if (m_bot1ScaleTextureAllocated) deleteTexture(m_bot1ScaleTexture); m_bot1ScaleTexture = bindTexture(m_bot1ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_bot1ScaleTextureAllocated = true; } // X1 scale m_glScopeRect2 = QRectF( (float)(leftMargin + leftMargin + ((width() - leftMargin - leftMargin - rightMargin) / 2)) / (float)width(), (float)topMargin / (float)height(), (float)((width() - leftMargin - leftMargin - rightMargin) / 2) / (float)width(), (float)(height() - topMargin - botMargin) / (float)height() ); m_glLeft2ScaleRect = QRectF( (float) (leftMargin + scopeWidth) / (float) width(), (float) topMargin / (float) height(), (float) (leftMargin-1) / (float) width(), (float) scopeHeight / (float) height() ); m_glBot2ScaleRect = QRectF( (float) (leftMargin + leftMargin + scopeWidth) / (float) width(), (float) (scopeHeight + topMargin + 1) / (float) height(), (float) scopeWidth / (float) width(), (float) (botMargin - 1) / (float) height() ); { // Y2 scale m_y2Scale.setSize(scopeHeight); m_left2ScalePixmap = QPixmap( leftMargin - 1, scopeHeight ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_left2ScalePixmap.fill(Qt::black); QPainter painter(&m_left2ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_y2Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { //std::cerr << (tick->text).toStdString() << " @ " << tick->textPos << std::endl; painter.drawText(QPointF(leftMargin - M - tick->textSize, topMargin + scopeHeight - tick->textPos - fm.ascent()/2), tick->text); } } } if (m_left2ScaleTextureAllocated) deleteTexture(m_left2ScaleTexture); m_left2ScaleTexture = bindTexture(m_left2ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_left2ScaleTextureAllocated = true; } // Y2 scale { // X2 scale m_x2Scale.setSize(scopeWidth); m_bot2ScalePixmap = QPixmap( scopeWidth, botMargin - 1 ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_bot2ScalePixmap.fill(Qt::black); QPainter painter(&m_bot2ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_x2Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { painter.drawText(QPointF(tick->textPos, fm.height() - 1), tick->text); } } } if (m_bot2ScaleTextureAllocated) deleteTexture(m_bot2ScaleTexture); m_bot2ScaleTexture = bindTexture(m_bot2ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_bot2ScaleTextureAllocated = true; } // X2 scale } } // Both displays else if (m_displays == DisplayFirstOnly) { int scopeHeight = height() - topMargin - botMargin; int scopeWidth = width() - leftMargin - rightMargin; m_glScopeRect1 = QRectF( (float) leftMargin / (float) width(), (float) topMargin / (float) height(), (float) scopeWidth / (float) width(), (float) scopeHeight / (float) height() ); m_glLeft1ScaleRect = QRectF( 0, (float) topMargin / (float) height(), (float) (leftMargin-1) / (float) width(), (float) scopeHeight / (float) height() ); m_glBot1ScaleRect = QRectF( (float) leftMargin / (float) width(), (float) (scopeHeight + topMargin + 1) / (float) height(), (float) scopeWidth / (float) width(), (float) (botMargin - 1) / (float) height() ); { // Y1 scale //std::cerr << "Horizontal: " << width() << "x" << scopeHeight << " amp:" << m_amp << std::endl; m_y1Scale.setSize(scopeHeight); m_left1ScalePixmap = QPixmap( leftMargin - 1, scopeHeight ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_left1ScalePixmap.fill(Qt::black); QPainter painter(&m_left1ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_y1Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { //std::cerr << (tick->text).toStdString() << " @ " << tick->textPos << std::endl; painter.drawText(QPointF(leftMargin - M - tick->textSize, topMargin + scopeHeight - tick->textPos - fm.ascent()/2), tick->text); } } } if (m_left1ScaleTextureAllocated) deleteTexture(m_left1ScaleTextureAllocated); m_left1ScaleTexture = bindTexture(m_left1ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_left1ScaleTextureAllocated = true; } // Y1 scale { // X1 scale m_x1Scale.setSize(scopeWidth); m_bot1ScalePixmap = QPixmap( scopeWidth, botMargin - 1 ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_bot1ScalePixmap.fill(Qt::black); QPainter painter(&m_bot1ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_x1Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { painter.drawText(QPointF(tick->textPos, fm.height() - 1), tick->text); } } } if (m_bot1ScaleTextureAllocated) deleteTexture(m_bot1ScaleTexture); m_bot1ScaleTexture = bindTexture(m_bot1ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_bot1ScaleTextureAllocated = true; } // X1 scale } // Primary display only else if (m_displays == DisplaySecondOnly) { int scopeHeight = height() - topMargin - botMargin; int scopeWidth = width() - leftMargin - rightMargin; m_glScopeRect2 = QRectF( (float) leftMargin / (float) width(), (float) topMargin / (float) height(), (float) scopeWidth / (float) width(), (float) scopeHeight / (float) height() ); m_glLeft2ScaleRect = QRectF( 0, (float) topMargin / (float) height(), (float) (leftMargin-1) / (float) width(), (float) scopeHeight / (float) height() ); m_glBot2ScaleRect = QRectF( (float) leftMargin / (float) width(), (float) (scopeHeight + topMargin + 1) / (float) height(), (float) scopeWidth / (float) width(), (float) (botMargin - 1) / (float) height() ); { // Y2 scale //std::cerr << "Horizontal: " << width() << "x" << scopeHeight << " amp:" << m_amp << std::endl; m_y2Scale.setSize(scopeHeight); m_left2ScalePixmap = QPixmap( leftMargin - 1, scopeHeight ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_left2ScalePixmap.fill(Qt::black); QPainter painter(&m_left2ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_y2Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { //std::cerr << (tick->text).toStdString() << " @ " << tick->textPos << std::endl; painter.drawText(QPointF(leftMargin - M - tick->textSize, topMargin + scopeHeight - tick->textPos - fm.ascent()/2), tick->text); } } } if (m_left2ScaleTextureAllocated) deleteTexture(m_left2ScaleTextureAllocated); m_left2ScaleTexture = bindTexture(m_left2ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_left2ScaleTextureAllocated = true; } // Y2 scale { // X2 scale m_x2Scale.setSize(scopeWidth); m_bot2ScalePixmap = QPixmap( scopeWidth, botMargin - 1 ); const ScaleEngine::TickList* tickList; const ScaleEngine::Tick* tick; m_bot2ScalePixmap.fill(Qt::black); QPainter painter(&m_bot2ScalePixmap); painter.setPen(QColor(0xf0, 0xf0, 0xff)); painter.setFont(font()); tickList = &m_x2Scale.getTickList(); for(int i = 0; i < tickList->count(); i++) { tick = &(*tickList)[i]; if(tick->major) { if(tick->textSize > 0) { painter.drawText(QPointF(tick->textPos, fm.height() - 1), tick->text); } } } if (m_bot2ScaleTextureAllocated) deleteTexture(m_bot2ScaleTexture); m_bot2ScaleTexture = bindTexture(m_bot2ScalePixmap, GL_TEXTURE_2D, GL_RGBA, QGLContext::LinearFilteringBindOption | QGLContext::MipmapBindOption); m_bot2ScaleTextureAllocated = true; } // X2 scale } // Secondary display only } void GLScope::tick() { if(m_dataChanged) update(); } void GLScope::setTriggerChannel(ScopeVis::TriggerChannel triggerChannel) { m_triggerChannel = triggerChannel; } void GLScope::setTriggerLevel(Real triggerLevel) { m_triggerLevel = triggerLevel; }