libpappsomspp
Library for mass spectrometry
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pappso::MassSpecTracePlotWidget Class Reference

#include <massspectraceplotwidget.h>

Inheritance diagram for pappso::MassSpecTracePlotWidget:
pappso::BaseTracePlotWidget pappso::BasePlotWidget

Signals

void keyPressEventSignal (QKeyEvent *event, const pappso::MassSpecTracePlotContext &context)
void keyReleaseEventSignal (QKeyEvent *event, const pappso::MassSpecTracePlotContext &context)
void massDeconvolutionSignal (const pappso::MassSpecTracePlotContext &context)
void resolvingPowerComputationSignal (const pappso::MassSpecTracePlotContext &context)
void mousePressEventSignal (QMouseEvent *event, const pappso::MassSpecTracePlotContext &context)
void mouseReleaseEventSignal (QMouseEvent *event, const pappso::MassSpecTracePlotContext &context)
Signals inherited from pappso::BasePlotWidget
void setFocusSignal ()
void lastCursorHoveredPointSignal (const QPointF &pointf)
void plotRangesChangedSignal (QMouseEvent *event, const pappso::BasePlotContext &context)
void plotRangesChangedWheelEventSignal (QWheelEvent *event, const pappso::BasePlotContext &context)
void xAxisMeasurementSignal (const pappso::BasePlotContext &context, bool with_delta)
void keyPressEventSignal (QKeyEvent *event, const pappso::BasePlotContext &context)
void keyReleaseEventSignal (QKeyEvent *event, const pappso::BasePlotContext &context)
void mousePressEventSignal (QMouseEvent *event, const pappso::BasePlotContext &context)
void mouseReleaseEventSignal (QMouseEvent *event, const pappso::BasePlotContext &context)
void mouseMoveDraggingCursorSignal (QMouseEvent *event, const pappso::BasePlotContext &context)
void mouseWheelEventSignal (QWheelEvent *event, const pappso::BasePlotContext &context)
void plottableSelectionChangedSignal (QCPAbstractPlottable *plottable_p, bool selected)
void integrationRequestedSignal (const BasePlotContext &context)
void plottableDestructionRequestedSignal (BasePlotWidget *base_plot_widget_p, QCPAbstractPlottable *plottable_p, const pappso::BasePlotContext &context)
void beforeReplotSignal ()
void afterLayoutSignal ()
void afterReplotSignal ()

Public Member Functions

 MassSpecTracePlotWidget (QWidget *parent=0)
 MassSpecTracePlotWidget (QWidget *parent, const QString &x_axis_label, const QString &y_axis_label)
virtual ~MassSpecTracePlotWidget ()
void setChargeMinimalFractionalPart (double charge_fractional_part)
double getChargeMinimalFractionalPart () const
void setChargeStateEnvelopePeakSpan (int interval)
int getChargeStateEnvelopePeakSpan () const
bool deconvolute ()
 Deconvolute the mass peaks into charge and molecular mass.
bool deconvoluteIsotopicCluster ()
 Deconvolute the mass peaks into charge and molecular mass.
bool deconvoluteChargedState (int span=1)
 Deconvolute the mass peaks into charge and molecular mass.
bool computeResolvingPower ()
virtual void keyPressEvent (QKeyEvent *event) override
 Set the m_pressedKeyCode to the key code in event.
virtual void keyReleaseEvent (QKeyEvent *event) override
 Handle specific key codes and trigger respective actions.
virtual void mouseMoveHandler (QMouseEvent *event) override
 Handle mouse movements, in particular record all the last visited points.
virtual void mousePressHandler (QMouseEvent *event) override
 Record the clicks of the mouse.
virtual void mouseReleaseHandler (QMouseEvent *event) override
 React to the release of the mouse buttons.
virtual void mouseMoveHandlerNotDraggingCursor (QMouseEvent *event) override
virtual void mouseMoveHandlerDraggingCursor (QMouseEvent *event) override
const MassSpecTracePlotContextrefreshBaseContext () const
Public Member Functions inherited from pappso::BaseTracePlotWidget
 BaseTracePlotWidget (QWidget *parent=0)
 BaseTracePlotWidget (QWidget *parent, const QString &x_axis_label, const QString &y_axis_label)
virtual ~BaseTracePlotWidget ()
 Destruct this BaseTracePlotWidget instance.
virtual void setGraphData (int graph_index, const std::vector< double > &keys, const std::vector< double > &values)
virtual void setGraphData (QCPGraph *graph_p, const std::vector< double > &keys, const std::vector< double > &values)
virtual void clearGraphData (int graph_index)
virtual void axisDoubleClickHandler (QCPAxis *axis, QCPAxis::SelectablePart part, QMouseEvent *event) override
virtual void axisRescale () override
 RANGE-related functions.
virtual void axisReframe () override
virtual void axisZoom () override
virtual void axisPan () override
virtual QCPGraph * addTrace (const pappso::Trace &trace, const QColor &color)
virtual QCPBars * addBars (const pappso::Trace &bars, const QColor &color)
virtual bool findIntegrationLowerRangeForKey (int index, double key, QCPRange &range)
 Find a minimal integration range starting at an existing data point.
std::vector< double > getValuesX (int index) const
std::vector< double > getValuesY (int index) const
QCPRange getValueRangeOnKeyRange (QCPAbstractPlottable *plottable_p, bool &ok)
QCPRange getValueRangeOnKeyRange (int index, bool &ok)
double getYatX (double x, QCPGraph *graph_p)
double getYatX (double x, int index=0)
pappso::Trace toTrace (int index, bool only_visible_range=false) const
pappso::Trace toTrace (const QCPGraph *graph_p, bool only_visible_range=false) const
pappso::Trace toTrace (const QCPRange &x_axis_range, int index) const
pappso::Trace toTrace (const QCPRange &x_axis_range, const QCPGraph *graph_p) const
pappso::Trace toTrace (const QCPRange &x_axis_range, const QCPBars *bars_p) const
Public Member Functions inherited from pappso::BasePlotWidget
 BasePlotWidget (QWidget *parent)
 BasePlotWidget (QWidget *parent, const QString &x_axis_label, const QString &y_axis_label)
virtual ~BasePlotWidget ()
 Destruct this BasePlotWidget instance.
virtual bool setupWidget ()
virtual void setPen (const QPen &pen)
virtual const QPen & getPen () const
virtual void setPlottingColor (QCPAbstractPlottable *plottable_p, const QColor &new_color)
virtual void setPlottingColor (int index, const QColor &new_color)
virtual QColor getPlottingColor (QCPAbstractPlottable *plottable_p) const
virtual QColor getPlottingColor (int index=0) const
virtual void setAxisLabelX (const QString &label)
virtual void setAxisLabelY (const QString &label)
virtual void resetAxesRangeHistory ()
virtual void updateAxesRangeHistory ()
 Create new axis range history items and append them to the history.
virtual void restorePreviousAxesRangeHistory ()
 Go up one history element in the axis history.
virtual void restoreAxesRangeHistory (std::size_t index)
 Get the axis histories at index index and update the plot ranges.
virtual void spaceKeyReleaseEvent (QKeyEvent *event)
virtual void directionKeyPressEvent (QKeyEvent *event)
virtual void directionKeyReleaseEvent (QKeyEvent *event)
virtual void mousePseudoButtonKeyPressEvent (QKeyEvent *event)
virtual void mousePseudoButtonKeyReleaseEvent (QKeyEvent *event)
virtual void mouseReleaseHandlerLeftButton (QMouseEvent *event)
virtual void mouseReleaseHandlerRightButton (QMouseEvent *event)
virtual void mouseWheelHandler (QWheelEvent *event)
virtual void mouseMoveHandlerLeftButtonDraggingCursor (QMouseEvent *event)
virtual void mouseMoveHandlerRightButtonDraggingCursor (QMouseEvent *event)
bool isClickOntoXAxis (const QPointF &mousePoint)
bool isClickOntoYAxis (const QPointF &mousePoint)
int dragDirection ()
 MOUSE-related EVENTS.
virtual void moveMouseCursorGraphCoordToGlobal (QPointF plot_coordinates)
virtual void moveMouseCursorPixelCoordToGlobal (QPointF local_coordinates)
virtual void horizontalMoveMouseCursorCountPixels (int pixel_count)
virtual QPointF horizontalGetGraphCoordNewPointCountPixels (int pixel_count)
virtual void verticalMoveMouseCursorCountPixels (int pixel_count)
virtual QPointF verticalGetGraphCoordNewPointCountPixels (int pixel_count)
virtual QCPRange getRangeX (bool &found_range, int index) const
 MOUSE MOVEMENTS mouse/keyboard-triggered.
virtual QCPRange getRangeY (bool &found_range, int index) const
QCPRange getRange (Enums::Axis axis, RangeType range_type, bool &found_range) const
virtual QCPRange getInnermostRangeX (bool &found_range) const
virtual QCPRange getOutermostRangeX (bool &found_range) const
virtual QCPRange getInnermostRangeY (bool &found_range) const
virtual QCPRange getOutermostRangeY (bool &found_range) const
void yMinMaxOnXAxisCurrentRange (double &min, double &max, QCPAbstractPlottable *plottable_p=nullptr)
void yMinMaxOnXAxisCurrentRange (double &min, double &max, int index)
virtual void replotWithAxesRanges (QCPRange xAxisRange, QCPRange yAxisRange, Enums::Axis axis)
virtual void replotWithAxisRangeX (double lower, double upper)
virtual void replotWithAxisRangeY (double lower, double upper)
virtual void hideAllPlotItems ()
 PLOTTING / REPLOTTING functions.
virtual void showTracers ()
 Show the traces (vertical and horizontal).
virtual void hideTracers ()
 Hide the traces (vertical and horizontal).
virtual void drawXScopeSpanFeatures ()
virtual void drawYScopeSpanFeatures ()
virtual void calculateDragDeltas ()
virtual bool isVerticalDisplacementAboveThreshold ()
virtual void drawSelectionRectangleAndPrepareZoom (bool as_line_segment=false, bool for_integration=false)
virtual void updateIntegrationScopeDrawing (bool as_line_segment=false, bool for_integration=false)
virtual void resetSelectionRectangle ()
virtual void hideSelectionRectangle (bool reset_values=false)
virtual bool isSelectionRectangleVisible ()
virtual SelectionDrawingLines whatIsVisibleOfTheSelectionRectangle ()
virtual void setFocus ()
 PLOT ITEMS : TRACER TEXT ITEMS...
virtual void redrawPlotBackground (QWidget *focusedPlotWidget)
 Redraw the background of the focusedPlotWidget plot widget.
virtual void updateContextXandYAxisRanges ()
virtual const BasePlotContextgetContext () const

Protected Attributes

MassSpecTracePlotContext m_context
double m_chargeMinimalFractionalPart = 0.990
int m_chargeStateEnvelopePeakSpan = 1
Protected Attributes inherited from pappso::BasePlotWidget
QString m_name = "NOT_SET"
 Name of the plot widget.
QString m_desc = "NOT_SET"
 Description of the plot widget.
QString m_fileName
 The name of the data file from which the mass data were read.
QString m_axisLabelX
QString m_axisLabelY
BasePlotContext m_context
int m_leftMousePseudoButtonKey = Qt::Key_Less
int m_rightMousePseudoButtonKey = Qt::Key_Greater
QCPItemLine * mp_selectionRectangeLine1 = nullptr
 Rectangle defining the borders of zoomed-in/out data.
QCPItemLine * mp_selectionRectangeLine2 = nullptr
QCPItemLine * mp_selectionRectangeLine3 = nullptr
QCPItemLine * mp_selectionRectangeLine4 = nullptr
QCPItemText * mp_xDeltaTextItem = nullptr
 Text describing the x-axis delta value during a drag operation.
QCPItemText * mp_yDeltaTextItem = nullptr
bool m_shouldTracersBeVisible = true
 Tells if the tracers should be visible.
QCPItemLine * mp_hPosTracerItem = nullptr
 Horizontal position tracer.
QCPItemLine * mp_vPosTracerItem = nullptr
 Vertical position tracer.
QCPItemLine * mp_vStartTracerItem = nullptr
 Vertical selection start tracer (typically in green).
QCPItemLine * mp_vEndTracerItem = nullptr
 Vertical selection end tracer (typically in red).
std::size_t m_lastAxisRangeHistoryIndex = 0
 Index of the last axis range history item.
std::vector< QCPRange * > m_xAxisRangeHistory
 List of x axis ranges occurring during the panning zooming actions.
std::vector< QCPRange * > m_yAxisRangeHistory
 List of y axis ranges occurring during the panning zooming actions.
int m_mouseMoveHandlerSkipAmount = 10
 How many mouse move events must be skipped *‍/.
int m_mouseMoveHandlerSkipCount = 0
 Counter to handle the "fat data" mouse move event handling.
QColor m_unfocusedColor = QColor("lightgray")
 Color used for the background of unfocused plot.
QBrush m_unfocusedBrush = QBrush(m_unfocusedColor)
 Color used for the background of unfocused plot.
QColor m_focusedColor = QColor(Qt::transparent)
 Color used for the background of focused plot.
QBrush m_focusedBrush = QBrush(m_focusedColor)
 Color used for the background of focused plot.
QPen m_pen
 Pen used to draw the graph and textual elements in the plot widget.

Additional Inherited Members

Protected Member Functions inherited from pappso::BasePlotWidget
virtual void createAllAncillaryItems ()
virtual void updateIntegrationScope (bool for_integration=false)
virtual void updateIntegrationScopeRect (bool for_integration=false)
virtual void updateIntegrationScopeHorizontalRhomb (bool for_integration=false)
virtual void updateIntegrationScopeVerticalRhomb (bool for_integration=false)
virtual void updateIntegrationScopeRhomb (bool for_integration=false)
virtual QString allLayerNamesToString () const
virtual QString layerableLayerName (QCPLayerable *layerable_p) const
virtual int layerableLayerIndex (QCPLayerable *layerable_p) const

Detailed Description

Definition at line 57 of file massspectraceplotwidget.h.

Constructor & Destructor Documentation

◆ MassSpecTracePlotWidget() [1/2]

pappso::MassSpecTracePlotWidget::MassSpecTracePlotWidget ( QWidget * parent = 0)
explicit

Definition at line 53 of file massspectraceplotwidget.cpp.

53 : BaseTracePlotWidget(parent)
54{
56 m_context.m_dataKind = Enums::DataKind::mz;
57
58 // qDebug() << "Data kind:" << static_cast<int>(m_context.m_dataKind);
59}
Enums::DataKind m_dataKind
BasePlotContext m_context

References pappso::BaseTracePlotWidget::BaseTracePlotWidget(), pappso::BasePlotWidget::m_context, m_context, and pappso::Enums::mz.

◆ MassSpecTracePlotWidget() [2/2]

pappso::MassSpecTracePlotWidget::MassSpecTracePlotWidget ( QWidget * parent,
const QString & x_axis_label,
const QString & y_axis_label )
explicit

Definition at line 61 of file massspectraceplotwidget.cpp.

64 : BaseTracePlotWidget(parent, x_axis_label, y_axis_label)
65{
66 // Set the base context to be of kind Enums::DataKind::mz;
67
69 m_context.m_dataKind = Enums::DataKind::mz;
70
71 // qDebug() << "Data kind:" << static_cast<int>(m_context.m_dataKind);
72}

References pappso::BaseTracePlotWidget::BaseTracePlotWidget(), pappso::BasePlotWidget::m_context, m_context, and pappso::Enums::mz.

◆ ~MassSpecTracePlotWidget()

pappso::MassSpecTracePlotWidget::~MassSpecTracePlotWidget ( )
virtual

Definition at line 75 of file massspectraceplotwidget.cpp.

76{
77}

Member Function Documentation

◆ computeResolvingPower()

bool pappso::MassSpecTracePlotWidget::computeResolvingPower ( )

Definition at line 607 of file massspectraceplotwidget.cpp.

608{
609
610 // m_xRangeLower and m_xRangeUpper and m_xDelta (in fabs() form) have been set
611 // during mouve movement handling. Note that the range values *are
612 // sorted*.
613
614 if(!m_context.m_xDelta || m_context.m_xDelta > 1)
615 {
616 m_context.m_lastResolvingPower = std::numeric_limits<double>::min();
617
618 return false;
619 }
620
621 // Resolving power is m/z / Delta(m/z), for singly-charged species.
622
623 // qDebug() << "Calculating the resolving power with these data:"
624 //<< "m_context.m_xRegionRangeStart: " << m_context.m_xRegionRangeStart
625 //<< "m_context.m_xRegionRangeEnd: " << m_context.m_xRegionRangeEnd
626 //<< "m_context.m_xDelta / 2: " << m_context.m_xDelta / 2;
627
628 m_context.m_lastResolvingPower =
629 (std::min<double>(m_context.m_xRegionRangeStart, m_context.m_xRegionRangeStop) +
630 (m_context.m_xDelta / 2)) /
631 m_context.m_xDelta;
632
633 // The m_context was refreshed with the base class context in the calling
634 // chain.
636
637 return true;
638}
void resolvingPowerComputationSignal(const pappso::MassSpecTracePlotContext &context)

References m_context, and resolvingPowerComputationSignal().

Referenced by mouseMoveHandlerDraggingCursor().

◆ deconvolute()

bool pappso::MassSpecTracePlotWidget::deconvolute ( )

Deconvolute the mass peaks into charge and molecular mass.

Definition at line 288 of file massspectraceplotwidget.cpp.

289{
290
291 // qDebug() << "The current m_lastZ value:" << m_context.m_lastZ;
292
293 // There are two situations: when the user is deconvoluting on the
294 // basis of the distance between two consecutive peaks of a same
295 // isotopic cluster or when the user deconvolutes on the basis of two
296 // different charged-stated peaks that belong to the same envelope.
297
298 // We can tell the difference because in the first case the xDelta
299 // should be less than 1. In the other case, of course the difference
300 // is much greater than 1.
301
302 // In order to do the deconvolutions, we need to know what is the tolerance
303 // on the fractional part of the deconvoluted charge value. This value is set
304 // in the parent window's double spin box.
305
306 if(fabs(m_context.m_xDelta) >= 0 && fabs(m_context.m_xDelta) <= 1.1)
307 {
308 // qDebug() << "m_xDelta:" << m_context.m_xDelta
309 //<< "trying isotope-based deconvolution.";
310
312 }
313
314 // If not deconvoluting on the basis of the isotopic cluster, then:
315
317}
bool deconvoluteChargedState(int span=1)
Deconvolute the mass peaks into charge and molecular mass.
bool deconvoluteIsotopicCluster()
Deconvolute the mass peaks into charge and molecular mass.

References deconvoluteChargedState(), deconvoluteIsotopicCluster(), m_chargeStateEnvelopePeakSpan, and m_context.

Referenced by mouseMoveHandlerDraggingCursor().

◆ deconvoluteChargedState()

bool pappso::MassSpecTracePlotWidget::deconvoluteChargedState ( int span = 1)

Deconvolute the mass peaks into charge and molecular mass.

This is one of two methods to deconvolute mass data into a charge value and a Mr value. The method implemented in this function is based on the charge state envelope offered by the mass spectrum (most often for polymers of a reasonable size).

Parameters
spanvalue representing the number of peaks of the charge state envelope that are spanned by the user selection. Defaults to 1, that is, the span encompasses two consecutive mass peaks of a given charge state envelope.

The z charge that is computed is for the first peak that was clicked in the trace plot, and thus the Mr value that is returned is calculated from the m/z value under the peak that was clicked first.

Set m_lastMz, m_lastZ and m_lastMass.

Returns
true if the deconvolution could be performed, false otherwise.

Definition at line 342 of file massspectraceplotwidget.cpp.

343{
344 // We assume that we are dealing with two successive (if span is 1) mass
345 // peaks belonging to a given charge state family.
346
347 // We call span the number of intervals in a given charge state envelope
348 // that separate the initial peak (lowerMz) from the last peak (upperMz).
349 // That parameter defaults to 1, that is the two peaks are immediately
350 // consecutive, that is, there is only one interval.
351
352 // qDebug() << "The span is:" << span;
353
354 // The m_context ranges are inherently sorted. This is not something that
355 // is favorable to us because we need to know what is the direction of the
356 // drag. That should be configurable, but we can establish that by
357 // default, the z value will be calculated for the mass peak at which
358 // the mouse drag movement started.
359
360 // These two values reflect a m/z range:
361 // startMz and curMz are always sorted (startMz < curMz)
362 double startMz = m_context.m_xRegionRangeStart;
363 double curMz = m_context.m_xRegionRangeStop;
364
365 // qDebug() << "startMz:" << startMz << "curMz:" << curMz;
366
367 if(startMz == curMz)
368 {
369 m_context.m_lastZ = std::numeric_limits<quint16>::max();
370 m_context.m_lastMz = qQNaN();
371 m_context.m_lastTicIntensity = qQNaN();
372 m_context.m_lastMr = qQNaN();
373
374 // qDebug() << "Start and Cur are the same, no deconvolution possible.";
375 return false;
376 }
377
378 // After much discussing, the agreement we reached with users is that the
379 // m/z value that is reported has to be that of the clicked peak, that is
380 // the start point of the mouse cursor drag operation. The z charge value
381 // has to be related to that m/z value.
382
383 double chargeTemp = ((startMz * span) - span) / (curMz - startMz);
384 // This is the charge of the least charged peak, that is, by necessity
385 // the charge of the peak on the right (curMz, because the values
386 // are sorted).
387
388 // Make a judicious roundup.
389
390 double chargeIntPart;
391 double chargeFracPart = modf(chargeTemp, &chargeIntPart);
392
393 // When calculating the charge of the ion, very rarely does it provide a
394 // perfect integer value. Most often (if deconvolution is for bona fide
395 // peaks belonging to the same charge state envelope) that value is with
396 // either a large fractional part or a very small fractional part. What we
397 // test here, it that fractional part. If it is greater than
398 // m_chargeMinimalFractionalPart, then we simply round up to the next integer
399 // value (that is, chargeIntPart = 27 and chargeFracPart 0.995, then we
400 // set charge to 28). If it is lesser or equal to (1 -
401 // m_chargeMinimalFractionalPart /* that is >= 0.01 */, then we let
402 // chargeIntPart unmodified (that is, chargeIntPart = 29 and
403 // chargeFracPart 0.01, then we set charge to 29). If chargeFracPart is in
404 // between (1 - m_chargeMinimalFractionalPart) and
405 // m_chargeMinimalFractionalPart, then we consider that the peaks do not
406 // belong to the same charge state envelope.
407
408 // qDebug() << "Charge:" << chargeIntPart << "Charge fractional part: " << chargeFracPart;
409
410
411 if(chargeFracPart >= (1 - m_chargeMinimalFractionalPart /* that is >= 0.01 */) &&
412 chargeFracPart <= m_chargeMinimalFractionalPart /* that is <= 0.99 */)
413 {
414 m_context.m_lastZ = std::numeric_limits<quint16>::max();
415 m_context.m_lastMz = qQNaN();
416 m_context.m_lastTicIntensity = qQNaN();
417 m_context.m_lastMr = qQNaN();
418
419 // qDebug() << "Not a charge state family peak,"
420 // << "returning from deconvoluteChargeState";
421
422 return false;
423 }
424
425 if(chargeFracPart > m_chargeMinimalFractionalPart)
426 m_context.m_lastZ = chargeIntPart + 1;
427 else
428 m_context.m_lastZ = chargeIntPart;
429
430 // qDebug() << "Initially computed m_lastZ as " << m_context.m_lastZ;
431
432 // We know the that formula above computed the charge of the least charged
433 // ion, that corresponds to the greater m/z value of the range: curMz.
434
435 // Now, if the user did click on that least-charged peak, nothing is
436 // to be modified. But, if the user did click on the most-charged
437 // peak, that is on startMz, the we need to fix the values:
438
439 if(static_cast<int>(m_context.m_dragDirections) & static_cast<int>(DragDirections::RIGHT_TO_LEFT))
440 {
441 // qDebug() << "Dragging from right to left, that is from higher m/z value.";
442 m_context.m_lastMz = curMz;
443 }
444 else if(static_cast<int>(m_context.m_dragDirections) &
445 static_cast<int>(DragDirections::LEFT_TO_RIGHT))
446 {
447 // qDebug() << "Dragging from left to right, we need to report"
448 // << "the mass for the left peak, that is for z+span and lower m/z value.";
449 m_context.m_lastZ += span;
450 m_context.m_lastMz = startMz;
451 }
452
453 // qDebug() << "Final m_lastZ is " << m_context.m_lastZ << "m/z: m_context.m_lastMz";
454
455 m_context.m_lastMr = (m_context.m_lastMz * m_context.m_lastZ) - (m_context.m_lastZ * MPROTON);
456
457 // qDebug() << "startMz:" << QString("%1").arg(startMz, 0, 'f', 6)
458 // << "curMz:" << QString("%1").arg(curMz, 0, 'f', 6)
459 // << "m_lastMz (make computation for this startMz):"
460 // << QString("%1").arg(m_context.m_lastMz, 0, 'f', 6)
461 // << "m_lastZ:" << QString("%1").arg(m_context.m_lastZ)
462 // << "m_lastMass:" << QString("%1").arg(m_context.m_lastMr, 0, 'f', 6);
463
464 // The m_context was refreshed with the base class context in the calling
465 // chain.
467
468 return true;
469}
void massDeconvolutionSignal(const pappso::MassSpecTracePlotContext &context)
const pappso_double MPROTON(1.007276466879)

References pappso::LEFT_TO_RIGHT, m_chargeMinimalFractionalPart, m_context, massDeconvolutionSignal(), pappso::MPROTON(), and pappso::RIGHT_TO_LEFT.

Referenced by deconvolute().

◆ deconvoluteIsotopicCluster()

bool pappso::MassSpecTracePlotWidget::deconvoluteIsotopicCluster ( )

Deconvolute the mass peaks into charge and molecular mass.

This is one of two methods to deconvolute mass data into a charge value and a Mr value. The method implemented in this function is based on the distance that separates two immediately consecutive peaks of an isotopic cluster. This method can be used as long as the instrument produced data with a resolution sufficient to separate reasonably well the different peaks of an isotopic cluster.

Set m_lastMz, m_lastZ and m_lastMass.

Returns
true if the deconvolution could be performed, false otherwise.

Definition at line 487 of file massspectraceplotwidget.cpp.

488{
489 // The m_context ranges are inherently sorted. This is not something that
490 // is favorable to us because we need to know what is the direction of the
491 // drag. That should be configurable, but we can establish that by
492 // default, the z value will be calculated for the mass peak at which
493 // the mouse drag movement started.
494
495 double startMz = m_context.m_xRegionRangeStart;
496 double curMz = m_context.m_xRegionRangeStop;
497
498 // qDebug() << "startMz:" << startMz << "curMz:" << curMz;
499
500 if(startMz == curMz)
501 {
502 m_context.m_lastZ = std::numeric_limits<quint16>::max();
503 m_context.m_lastMz = qQNaN();
504 m_context.m_lastTicIntensity = qQNaN();
505 m_context.m_lastMr = qQNaN();
506
507 return false;
508 }
509
510 // After much discussion with people who perform mass data analysis for
511 // heavy isotope fully labelled analytes, it was decided that the Mr
512 // value thas is returned is for the peak from which the drag operation
513 // was performed. This is an analogous way of computing Mr as that used
514 // in the charge state envelope method.
515
516
517 double chargeTemp = 1 / fabs(m_context.m_xDelta);
518
519 // qDebug() << qSetRealNumberPrecision(6) << "curMz - startMz = " << fabs(curMz - startMz)
520 // << "while m_context.m_xDelta = " << m_context.m_xDelta;
521
522 // Sanity check
523 if(fabs(m_context.m_xDelta) != fabs(curMz - startMz))
524 qFatal() << "Programming error.";
525
526 // Make a judicious roundup.
527 double chargeIntPart;
528 double chargeFracPart = modf(chargeTemp, &chargeIntPart);
529
530 // qDebug() << "m_xDelta:" << m_context.m_xDelta
531 // << "chargeTemp:" << QString("%1").arg(chargeTemp, 0, 'f', 6)
532 // << "chargeIntPart:" << chargeIntPart
533 // << "chargeFracPart:" << QString("%1").arg(chargeFracPart, 0, 'f', 6)
534 // << "m_chargeMinimalFractionalPart:" << m_chargeMinimalFractionalPart;
535
536 if(chargeFracPart >= (1 - m_chargeMinimalFractionalPart /* that is >= 0.01 */) &&
537 chargeFracPart <= m_chargeMinimalFractionalPart /* that is <= 0.99 */)
538 {
539 m_context.m_lastZ = std::numeric_limits<quint16>::max();
540 m_context.m_lastMz = qQNaN();
541 m_context.m_lastTicIntensity = qQNaN();
542 m_context.m_lastMr = qQNaN();
543
544 // qDebug() << "Not in a isotopic cluster peak:"
545 // << "returning from deconvoluteIsotopicCluster";
546
547 return false;
548 }
549
550 if(chargeFracPart > m_chargeMinimalFractionalPart)
551 {
552 m_context.m_lastZ = chargeIntPart + 1;
553
554 // qDebug() << "chargeFracPart > m_chargeMinimalFractionalPart -> m_lastZ
555 // = "
556 //<< m_context.m_lastZ;
557 }
558 else
559 {
560 m_context.m_lastZ = chargeIntPart;
561
562 // qDebug()
563 //<< "chargeFracPart <= m_chargeMinimalFractionalPart -> m_lastZ = "
564 //<< m_context.m_lastZ;
565 }
566
567 // qDebug() << "Settled on m_lastZ: " << m_context.m_lastZ;
568
569 // Now that we have the charge in the form of an int, we can compute the
570 // Mr of the isotopic cluster peak that was under the cursor when the
571 // mouse drag started.
572
573 // If we know the drag direction, we would automatically know what is the
574 // peak that was under the cursor when the mouse drag mouvement was initiated.
575 // This is because the curMz is inherently larger than startMz because
576 // m_context.m_xRegionRangeStart and m_context.m_xRegionRangeEnd are inherently
577 // sorted (start < end).
578
579 if(static_cast<int>(m_context.m_dragDirections) & static_cast<int>(DragDirections::RIGHT_TO_LEFT))
580 {
581 // qDebug() << "Dragging from right to left, that is from higher m/z value.";
582 m_context.m_lastMz = curMz;
583 }
584 else if(static_cast<int>(m_context.m_dragDirections) &
585 static_cast<int>(DragDirections::LEFT_TO_RIGHT))
586 {
587 // qDebug() << "Dragging from left to right, we need to report"
588 // << "the mass for the left peak.";
589 m_context.m_lastMz = startMz;
590 }
591
592 m_context.m_lastMr = (m_context.m_lastMz * m_context.m_lastZ) - (m_context.m_lastZ * MPROTON);
593
594 // qDebug() << "m_lastMz :" << QString("%1").arg(m_context.m_lastMz, 0, 'f', 6)
595 // << "m_lastZ:" << QString("%1").arg(m_context.m_lastZ)
596 // << "m_lastMr:" << QString("%1").arg(m_context.m_lastMr, 0, 'f', 6);
597
598 // The m_context was refreshed with the base class context in the calling
599 // chain.
601
602 return true;
603}

References pappso::LEFT_TO_RIGHT, m_chargeMinimalFractionalPart, m_context, massDeconvolutionSignal(), pappso::MPROTON(), and pappso::RIGHT_TO_LEFT.

Referenced by deconvolute().

◆ getChargeMinimalFractionalPart()

double pappso::MassSpecTracePlotWidget::getChargeMinimalFractionalPart ( ) const

Definition at line 266 of file massspectraceplotwidget.cpp.

267{
269}

References m_chargeMinimalFractionalPart.

◆ getChargeStateEnvelopePeakSpan()

int pappso::MassSpecTracePlotWidget::getChargeStateEnvelopePeakSpan ( ) const

Definition at line 280 of file massspectraceplotwidget.cpp.

281{
283}

References m_chargeStateEnvelopePeakSpan.

◆ keyPressEvent()

void pappso::MassSpecTracePlotWidget::keyPressEvent ( QKeyEvent * event)
overridevirtual

Set the m_pressedKeyCode to the key code in event.

Reimplemented from pappso::BasePlotWidget.

Definition at line 82 of file massspectraceplotwidget.cpp.

83{
84 // qDebug() << "ENTER";
86
87 // Before working on the various data belonging to the base context, we need
88 // to get it from the base class and refresh our local context with it.
90
91 // qDebug() << "Going to emit keyPressEventSignal(m_context);";
92
93 emit keyPressEventSignal(event, m_context);
94}
virtual void keyPressEvent(QKeyEvent *event)
KEYBOARD-related EVENTS.
const MassSpecTracePlotContext & refreshBaseContext() const
void keyPressEventSignal(QKeyEvent *event, const pappso::MassSpecTracePlotContext &context)

References pappso::BasePlotWidget::keyPressEvent(), keyPressEventSignal(), m_context, and refreshBaseContext().

◆ keyPressEventSignal

void pappso::MassSpecTracePlotWidget::keyPressEventSignal ( QKeyEvent * event,
const pappso::MassSpecTracePlotContext & context )
signal

Referenced by keyPressEvent().

◆ keyReleaseEvent()

void pappso::MassSpecTracePlotWidget::keyReleaseEvent ( QKeyEvent * event)
overridevirtual

Handle specific key codes and trigger respective actions.

Reimplemented from pappso::BasePlotWidget.

Definition at line 99 of file massspectraceplotwidget.cpp.

100{
101 // qDebug() << "ENTER";
103
104 // Before working on the various data belonging to the base context, we need
105 // to get it from the base class and refresh our local context with it.
107
108 emit keyReleaseEventSignal(event, m_context);
109}
virtual void keyReleaseEvent(QKeyEvent *event)
Handle specific key codes and trigger respective actions.
void keyReleaseEventSignal(QKeyEvent *event, const pappso::MassSpecTracePlotContext &context)

References pappso::BasePlotWidget::keyReleaseEvent(), keyReleaseEventSignal(), m_context, and refreshBaseContext().

◆ keyReleaseEventSignal

void pappso::MassSpecTracePlotWidget::keyReleaseEventSignal ( QKeyEvent * event,
const pappso::MassSpecTracePlotContext & context )
signal

Referenced by keyReleaseEvent().

◆ massDeconvolutionSignal

void pappso::MassSpecTracePlotWidget::massDeconvolutionSignal ( const pappso::MassSpecTracePlotContext & context)
signal

◆ mouseMoveHandler()

void pappso::MassSpecTracePlotWidget::mouseMoveHandler ( QMouseEvent * event)
overridevirtual

Handle mouse movements, in particular record all the last visited points.

This function is reponsible for storing at each time the last visited point in the graph. Here, point is intended as any x/y coordinate in the plot widget viewport, not a graph point.

The stored values are then the basis for a large set of calculations throughout all the plot widget.

Parameters
pointerto QMouseEvent from which to retrieve the coordinates of the visited viewport points.

Reimplemented from pappso::BasePlotWidget.

Definition at line 126 of file massspectraceplotwidget.cpp.

127{
128 // Before working on the various data belonging to the base context, we need
129 // to get it from the base class and refresh our local context with it.
131
133}
virtual void mouseMoveHandler(QMouseEvent *event)
KEYBOARD-related EVENTS.

References pappso::BasePlotWidget::mouseMoveHandler(), and refreshBaseContext().

◆ mouseMoveHandlerDraggingCursor()

void pappso::MassSpecTracePlotWidget::mouseMoveHandlerDraggingCursor ( QMouseEvent * event)
overridevirtual

Reimplemented from pappso::BasePlotWidget.

Definition at line 150 of file massspectraceplotwidget.cpp.

151{
153
154 // Before working on the various data belonging to the base context, we need
155 // to get it from the base class and refresh our local context with it.
157
158 if(m_context.m_mouseButtonsAtMousePress & Qt::LeftButton)
159 {
160 if(!m_context.m_isMeasuringDistance)
161 return;
162
163 // qDebug() << "Mouse Buttons at Mouse press:" << m_context.m_mouseButtonsAtMousePress;
164
165 // qDebug() << "The current m_lastZ value:" << m_context.m_lastZ;
166
167 deconvolute();
169 }
170}
virtual void mouseMoveHandlerDraggingCursor(QMouseEvent *event)
bool deconvolute()
Deconvolute the mass peaks into charge and molecular mass.

References computeResolvingPower(), deconvolute(), m_context, pappso::BasePlotWidget::mouseMoveHandlerDraggingCursor(), and refreshBaseContext().

◆ mouseMoveHandlerNotDraggingCursor()

void pappso::MassSpecTracePlotWidget::mouseMoveHandlerNotDraggingCursor ( QMouseEvent * event)
overridevirtual

Reimplemented from pappso::BasePlotWidget.

Definition at line 137 of file massspectraceplotwidget.cpp.

138{
139 // Before working on the various data belonging to the base context, we need
140 // to get it from the base class and refresh our local context with it.
142
144
145 // qDebug() << "The current m_lastZ value:" << m_context.m_lastZ;
146}
virtual void mouseMoveHandlerNotDraggingCursor(QMouseEvent *event)

References pappso::BasePlotWidget::mouseMoveHandlerNotDraggingCursor(), and refreshBaseContext().

◆ mousePressEventSignal

void pappso::MassSpecTracePlotWidget::mousePressEventSignal ( QMouseEvent * event,
const pappso::MassSpecTracePlotContext & context )
signal

Referenced by mousePressHandler().

◆ mousePressHandler()

void pappso::MassSpecTracePlotWidget::mousePressHandler ( QMouseEvent * event)
overridevirtual

Record the clicks of the mouse.

Reimplemented from pappso::BasePlotWidget.

Definition at line 175 of file massspectraceplotwidget.cpp.

176{
177 // qDebug() << "Entering";
178
179 // Before working on the various data belonging to the base context, we need
180 // to get it from the base class and refresh our local context with it.
182
184
185 // qDebug() << "The current m_lastZ value:" << m_context.m_lastZ;
186
187 emit mousePressEventSignal(event, m_context);
188
189 // qDebug() << "Exiting after having emitted mousePressEventSignal with context:"
190 // << m_context.toString();
191}
virtual void mousePressHandler(QMouseEvent *event)
KEYBOARD-related EVENTS.
void mousePressEventSignal(QMouseEvent *event, const pappso::MassSpecTracePlotContext &context)

References m_context, mousePressEventSignal(), pappso::BasePlotWidget::mousePressHandler(), and refreshBaseContext().

◆ mouseReleaseEventSignal

void pappso::MassSpecTracePlotWidget::mouseReleaseEventSignal ( QMouseEvent * event,
const pappso::MassSpecTracePlotContext & context )
signal

Referenced by mouseReleaseHandler().

◆ mouseReleaseHandler()

void pappso::MassSpecTracePlotWidget::mouseReleaseHandler ( QMouseEvent * event)
overridevirtual

React to the release of the mouse buttons.

Reimplemented from pappso::BasePlotWidget.

Definition at line 196 of file massspectraceplotwidget.cpp.

197{
198 // qDebug() << "Entering";
199
200 // Before working on the various data belonging to the base context, we need
201 // to get it from the base class and refresh our local context with it.
203
205
206 // qDebug() << "The current m_lastZ value:" << m_context.m_lastZ;
207
208 if(!m_context.m_isMouseDragging)
209 {
210 // Since we were not dragging, by essence we were not measuring
211 // distances and _a fortiori_ we were not deconvoluting. So
212 // reset deconvolution data in the context.
213
214 m_context.resetDeconvolutionData();
215 }
216
218
219 // qDebug() << "Exiting after having emitted mouseReleaseEventSignal with context:"
220 // << m_context.toString();
221}
virtual void mouseReleaseHandler(QMouseEvent *event)
void mouseReleaseEventSignal(QMouseEvent *event, const pappso::MassSpecTracePlotContext &context)

References m_context, mouseReleaseEventSignal(), pappso::BasePlotWidget::mouseReleaseHandler(), and refreshBaseContext().

◆ refreshBaseContext()

const MassSpecTracePlotContext & pappso::MassSpecTracePlotWidget::refreshBaseContext ( ) const

Definition at line 225 of file massspectraceplotwidget.cpp.

226{
227 // BasePlotWidget has a member m_context of type BasePlotContext.
228 // Here we also have a m_context *distinct* member that is of type
229 // MassSpecTracePlotContext.
230
231 // While MassSpecTracePlotContext is derived from BasePlotContext, the two
232 // m_context members are distinct and there are lots of housekeeping data that
233 // are managed by the parent BasePlotWidget class in its m_context member
234 // *independently* of what we have in the ::BasePlotContext part of our
235 // m_context member that is of type MassSpecTracePlotContext. We thus need to
236 // resynchronize the data from BasePlotWidget::m_context to our m_context.
237
238 // qDebug().noquote() << "The base plot context:" <<
239 // BasePlotWidget::m_context.toString();
240
241
242 // qDebug() << "Right before refreshing the context, the current m_lastZ value:"
243 // << m_context.m_lastZ;
244
246
247
248 // qDebug() << "Right after refreshing the context, the current m_lastZ value:"
249 // << m_context.m_lastZ;
250
251 // qDebug().noquote() << "After refreshing the base context, base context:"
252 // << m_context.toString();
253
254 return m_context;
255}

References pappso::BasePlotWidget::m_context, and m_context.

Referenced by keyPressEvent(), keyReleaseEvent(), mouseMoveHandler(), mouseMoveHandlerDraggingCursor(), mouseMoveHandlerNotDraggingCursor(), mousePressHandler(), and mouseReleaseHandler().

◆ resolvingPowerComputationSignal

void pappso::MassSpecTracePlotWidget::resolvingPowerComputationSignal ( const pappso::MassSpecTracePlotContext & context)
signal

Referenced by computeResolvingPower().

◆ setChargeMinimalFractionalPart()

void pappso::MassSpecTracePlotWidget::setChargeMinimalFractionalPart ( double charge_fractional_part)

Definition at line 259 of file massspectraceplotwidget.cpp.

260{
261 m_chargeMinimalFractionalPart = charge_fractional_part;
262}

References m_chargeMinimalFractionalPart.

◆ setChargeStateEnvelopePeakSpan()

void pappso::MassSpecTracePlotWidget::setChargeStateEnvelopePeakSpan ( int interval)

Definition at line 273 of file massspectraceplotwidget.cpp.

274{
276}

References m_chargeStateEnvelopePeakSpan.

Member Data Documentation

◆ m_chargeMinimalFractionalPart

double pappso::MassSpecTracePlotWidget::m_chargeMinimalFractionalPart = 0.990
protected

◆ m_chargeStateEnvelopePeakSpan

int pappso::MassSpecTracePlotWidget::m_chargeStateEnvelopePeakSpan = 1
protected

◆ m_context


The documentation for this class was generated from the following files: