#!/usr/bin/env python # -*- coding: utf-8 -*- # Parameter SpinBox, a custom Qt widget # Copyright (C) 2011-2019 Filipe Coelho # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License as # published by the Free Software Foundation; either version 2 of # the License, or any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # For a full copy of the GNU General Public License see the doc/GPL.txt file. # ------------------------------------------------------------------------------------------------------------ # Imports (Global) from math import isnan, modf from random import random from PyQt5.QtCore import pyqtSignal, pyqtSlot, Qt, QTimer from PyQt5.QtGui import QCursor, QPalette from PyQt5.QtWidgets import QAbstractSpinBox, QApplication, QComboBox, QDialog, QMenu, QProgressBar # ------------------------------------------------------------------------------------------------------------ # Imports (Custom) import ui_inputdialog_value from carla_shared import countDecimalPoints, MACOS # ------------------------------------------------------------------------------------------------------------ # Get a fixed value within min/max bounds def geFixedValue(name, value, minimum, maximum): if isnan(value): print("Parameter '%s' is NaN! - %f" % (name, value)) return minimum if value < minimum: print("Parameter '%s' too low! - %f/%f" % (name, value, minimum)) return minimum if value > maximum: print("Parameter '%s' too high! - %f/%f" % (name, value, maximum)) return maximum return value # ------------------------------------------------------------------------------------------------------------ # Custom InputDialog with Scale Points support class CustomInputDialog(QDialog): def __init__(self, parent, label, current, minimum, maximum, step, stepSmall, scalePoints, prefix, suffix): QDialog.__init__(self, parent) self.ui = ui_inputdialog_value.Ui_Dialog() self.ui.setupUi(self) decimals = countDecimalPoints(step, stepSmall) self.ui.label.setText(label) self.ui.doubleSpinBox.setDecimals(decimals) self.ui.doubleSpinBox.setRange(minimum, maximum) self.ui.doubleSpinBox.setSingleStep(step) self.ui.doubleSpinBox.setValue(current) self.ui.doubleSpinBox.setPrefix(prefix) self.ui.doubleSpinBox.setSuffix(suffix) if MACOS: self.setWindowModality(Qt.WindowModal) if not scalePoints: self.ui.groupBox.setVisible(False) self.resize(200, 0) else: text = "" for scalePoint in scalePoints: valuestr = ("%i" if decimals == 0 else "%f") % scalePoint['value'] text += "" % (valuestr, scalePoint['label']) text += "
%s - %s
" self.ui.textBrowser.setText(text) self.resize(200, 300) self.fRetValue = current self.adjustSize() self.accepted.connect(self.slot_setReturnValue) def returnValue(self): return self.fRetValue @pyqtSlot() def slot_setReturnValue(self): self.fRetValue = self.ui.doubleSpinBox.value() def done(self, r): QDialog.done(self, r) self.close() # ------------------------------------------------------------------------------------------------------------ # ProgressBar used for ParamSpinBox class ParamProgressBar(QProgressBar): # signals dragStateChanged = pyqtSignal(bool) valueChanged = pyqtSignal(float) def __init__(self, parent): QProgressBar.__init__(self, parent) self.fLeftClickDown = False self.fIsInteger = False self.fIsReadOnly = False self.fMinimum = 0.0 self.fMaximum = 1.0 self.fInitiated = False self.fRealValue = 0.0 self.fLastPaintedValue = None self.fCurrentPaintedText = "" self.fName = "" self.fLabelPrefix = "" self.fLabelSuffix = "" self.fTextCall = None self.fValueCall = None self.setFormat("(none)") # Fake internal value, 10'000 precision QProgressBar.setMinimum(self, 0) QProgressBar.setMaximum(self, 10000) QProgressBar.setValue(self, 0) def setMinimum(self, value): self.fMinimum = value def setMaximum(self, value): self.fMaximum = value def setValue(self, value): if (self.fRealValue == value or isnan(value)) and self.fInitiated: return False self.fInitiated = True self.fRealValue = value div = float(self.fMaximum - self.fMinimum) if div == 0.0: print("Parameter '%s' division by 0 prevented (value:%f, min:%f, max:%f)" % (self.fName, value, self.fMaximum, self.fMinimum)) vper = 1.0 elif isnan(value): print("Parameter '%s' is NaN (value:%f, min:%f, max:%f)" % (self.fName, value, self.fMaximum, self.fMinimum)) vper = 1.0 else: vper = float(value - self.fMinimum) / div if vper < 0.0: vper = 0.0 elif vper > 1.0: vper = 1.0 if self.fValueCall is not None: self.fValueCall(value) QProgressBar.setValue(self, int(vper * 10000)) return True def setSuffixes(self, prefix, suffix): self.fLabelPrefix = prefix self.fLabelSuffix = suffix # force refresh of text value self.fLastPaintedValue = None self.update() def setName(self, name): self.fName = name def setReadOnly(self, yesNo): self.fIsReadOnly = yesNo def setTextCall(self, textCall): self.fTextCall = textCall def setValueCall(self, valueCall): self.fValueCall = valueCall def handleMouseEventPos(self, pos): if self.fIsReadOnly: return xper = float(pos.x()) / float(self.width()) value = xper * (self.fMaximum - self.fMinimum) + self.fMinimum if self.fIsInteger: value = round(value) if value < self.fMinimum: value = self.fMinimum elif value > self.fMaximum: value = self.fMaximum if self.setValue(value): self.valueChanged.emit(value) def mousePressEvent(self, event): if self.fIsReadOnly: return if event.button() == Qt.LeftButton: self.handleMouseEventPos(event.pos()) self.fLeftClickDown = True self.dragStateChanged.emit(True) else: self.fLeftClickDown = False QProgressBar.mousePressEvent(self, event) def mouseMoveEvent(self, event): if self.fIsReadOnly: return if self.fLeftClickDown: self.handleMouseEventPos(event.pos()) QProgressBar.mouseMoveEvent(self, event) def mouseReleaseEvent(self, event): if self.fIsReadOnly: return self.fLeftClickDown = False self.dragStateChanged.emit(False) QProgressBar.mouseReleaseEvent(self, event) def paintEvent(self, event): if self.fTextCall is not None: if self.fLastPaintedValue != self.fRealValue: self.fLastPaintedValue = self.fRealValue self.fCurrentPaintedText = self.fTextCall() self.setFormat("%s%s%s" % (self.fLabelPrefix, self.fCurrentPaintedText, self.fLabelSuffix)) elif self.fIsInteger: self.setFormat("%s%i%s" % (self.fLabelPrefix, int(self.fRealValue), self.fLabelSuffix)) else: self.setFormat("%s%f%s" % (self.fLabelPrefix, self.fRealValue, self.fLabelSuffix)) QProgressBar.paintEvent(self, event) # ------------------------------------------------------------------------------------------------------------ # Special SpinBox used for parameters class ParamSpinBox(QAbstractSpinBox): # signals valueChanged = pyqtSignal(float) def __init__(self, parent): QAbstractSpinBox.__init__(self, parent) self.fName = "" self.fLabelPrefix = "" self.fLabelSuffix = "" self.fMinimum = 0.0 self.fMaximum = 1.0 self.fDefault = 0.0 self.fValue = None self.fStep = 0.01 self.fStepSmall = 0.0001 self.fStepLarge = 0.1 self.fIsReadOnly = False self.fScalePoints = None self.fUseScalePoints = False self.fBar = ParamProgressBar(self) self.fBar.setContextMenuPolicy(Qt.NoContextMenu) #self.fBar.show() barPalette = self.fBar.palette() barPalette.setColor(QPalette.Window, Qt.transparent) self.fBar.setPalette(barPalette) self.fBox = None self.lineEdit().hide() self.customContextMenuRequested.connect(self.slot_showCustomMenu) self.fBar.valueChanged.connect(self.slot_progressBarValueChanged) self.dragStateChanged = self.fBar.dragStateChanged QTimer.singleShot(0, self.slot_updateProgressBarGeometry) def setDefault(self, value): value = geFixedValue(self.fName, value, self.fMinimum, self.fMaximum) self.fDefault = value def setMinimum(self, value): self.fMinimum = value self.fBar.setMinimum(value) def setMaximum(self, value): self.fMaximum = value self.fBar.setMaximum(value) def setValue(self, value): if not self.fIsReadOnly: value = geFixedValue(self.fName, value, self.fMinimum, self.fMaximum) if self.fBar.fIsInteger: value = round(value) if self.fValue == value: return False self.fValue = value self.fBar.setValue(value) if self.fUseScalePoints: self._setScalePointValue(value) self.valueChanged.emit(value) self.update() return True def setStep(self, value): if value == 0.0: self.fStep = 0.001 else: self.fStep = value if self.fStepSmall > value: self.fStepSmall = value if self.fStepLarge < value: self.fStepLarge = value self.fBar.fIsInteger = bool(self.fStepSmall == 1.0) def setStepSmall(self, value): if value == 0.0: self.fStepSmall = 0.0001 elif value > self.fStep: self.fStepSmall = self.fStep else: self.fStepSmall = value self.fBar.fIsInteger = bool(self.fStepSmall == 1.0) def setStepLarge(self, value): if value == 0.0: self.fStepLarge = 0.1 elif value < self.fStep: self.fStepLarge = self.fStep else: self.fStepLarge = value def setLabel(self, label): prefix = "" suffix = label.strip() if suffix == "(coef)": prefix = "* " suffix = "" else: suffix = " " + suffix self.fLabelPrefix = prefix self.fLabelSuffix = suffix self.fBar.setSuffixes(prefix, suffix) def setName(self, name): self.fName = name self.fBar.setName(name) def setTextCallback(self, textCall): self.fBar.setTextCall(textCall) def setValueCallback(self, valueCall): self.fBar.setValueCall(valueCall) def setReadOnly(self, yesNo): self.fIsReadOnly = yesNo self.fBar.setReadOnly(yesNo) self.setButtonSymbols(QAbstractSpinBox.UpDownArrows if yesNo else QAbstractSpinBox.NoButtons) QAbstractSpinBox.setReadOnly(self, yesNo) # FIXME use change event def setEnabled(self, yesNo): self.fBar.setEnabled(yesNo) QAbstractSpinBox.setEnabled(self, yesNo) def setScalePoints(self, scalePoints, useScalePoints): if len(scalePoints) == 0: self.fScalePoints = None self.fUseScalePoints = False return self.fScalePoints = scalePoints self.fUseScalePoints = useScalePoints if not useScalePoints: return # Hide ProgressBar and create a ComboBox self.fBar.close() self.fBox = QComboBox(self) self.fBox.setContextMenuPolicy(Qt.NoContextMenu) #self.fBox.show() self.slot_updateProgressBarGeometry() # Add items, sorted boxItemValues = [] for scalePoint in scalePoints: value = scalePoint['value'] if self.fStep == 1.0: label = "%i - %s" % (int(value), scalePoint['label']) else: label = "%f - %s" % (value, scalePoint['label']) if len(boxItemValues) == 0: self.fBox.addItem(label) boxItemValues.append(value) else: if value < boxItemValues[0]: self.fBox.insertItem(0, label) boxItemValues.insert(0, value) elif value > boxItemValues[-1]: self.fBox.addItem(label) boxItemValues.append(value) else: for index in range(len(boxItemValues)): if value >= boxItemValues[index]: self.fBox.insertItem(index+1, label) boxItemValues.insert(index+1, value) break if self.fValue is not None: self._setScalePointValue(self.fValue) self.fBox.currentIndexChanged['QString'].connect(self.slot_comboBoxIndexChanged) def setToolTip(self, text): self.fBar.setToolTip(text) QAbstractSpinBox.setToolTip(self, text) def stepBy(self, steps): if steps == 0 or self.fValue is None: return value = self.fValue + (self.fStep * steps) if value < self.fMinimum: value = self.fMinimum elif value > self.fMaximum: value = self.fMaximum self.setValue(value) def stepEnabled(self): if self.fIsReadOnly or self.fValue is None: return QAbstractSpinBox.StepNone if self.fValue <= self.fMinimum: return QAbstractSpinBox.StepUpEnabled if self.fValue >= self.fMaximum: return QAbstractSpinBox.StepDownEnabled return (QAbstractSpinBox.StepUpEnabled | QAbstractSpinBox.StepDownEnabled) def updateAll(self): self.update() self.fBar.update() if self.fBox is not None: self.fBox.update() def resizeEvent(self, event): QAbstractSpinBox.resizeEvent(self, event) self.slot_updateProgressBarGeometry() @pyqtSlot(str) def slot_comboBoxIndexChanged(self, boxText): if self.fIsReadOnly: return value = float(boxText.split(" - ", 1)[0]) lastScaleValue = self.fScalePoints[-1]['value'] if value == lastScaleValue: value = self.fMaximum self.setValue(value) @pyqtSlot(float) def slot_progressBarValueChanged(self, value): if self.fIsReadOnly: return if value <= self.fMinimum: realValue = self.fMinimum elif value >= self.fMaximum: realValue = self.fMaximum else: curStep = int((value - self.fMinimum) / self.fStep + 0.5) realValue = self.fMinimum + (self.fStep * curStep) if realValue < self.fMinimum: realValue = self.fMinimum elif realValue > self.fMaximum: realValue = self.fMaximum self.setValue(realValue) @pyqtSlot() def slot_showCustomMenu(self): clipboard = QApplication.instance().clipboard() pasteText = clipboard.text() pasteValue = None if pasteText: try: pasteValue = float(pasteText) except: pass menu = QMenu(self) actReset = menu.addAction(self.tr("Reset (%f)" % self.fDefault)) actRandom = menu.addAction(self.tr("Random")) menu.addSeparator() actCopy = menu.addAction(self.tr("Copy (%f)" % self.fValue)) if pasteValue is None: actPaste = menu.addAction(self.tr("Paste")) actPaste.setEnabled(False) else: actPaste = menu.addAction(self.tr("Paste (%f)" % pasteValue)) menu.addSeparator() actSet = menu.addAction(self.tr("Set value...")) if self.fIsReadOnly: actReset.setEnabled(False) actRandom.setEnabled(False) actPaste.setEnabled(False) actSet.setEnabled(False) actSel = menu.exec_(QCursor.pos()) if actSel == actReset: self.setValue(self.fDefault) elif actSel == actRandom: value = random() * (self.fMaximum - self.fMinimum) + self.fMinimum self.setValue(value) elif actSel == actCopy: clipboard.setText("%f" % self.fValue) elif actSel == actPaste: self.setValue(pasteValue) elif actSel == actSet: dialog = CustomInputDialog(self, self.fName, self.fValue, self.fMinimum, self.fMaximum, self.fStep, self.fStepSmall, self.fScalePoints, self.fLabelPrefix, self.fLabelSuffix) if dialog.exec_(): value = dialog.returnValue() self.setValue(value) @pyqtSlot() def slot_updateProgressBarGeometry(self): geometry = self.lineEdit().geometry() dx = geometry.x()-1 dy = geometry.y()-1 geometry.adjust(-dx, -dy, dx, dy) self.fBar.setGeometry(geometry) if self.fUseScalePoints: self.fBox.setGeometry(geometry) def _getNearestScalePoint(self, realValue): finalValue = 0.0 for i in range(len(self.fScalePoints)): scaleValue = self.fScalePoints[i]["value"] if i == 0: finalValue = scaleValue else: srange1 = abs(realValue - scaleValue) srange2 = abs(realValue - finalValue) if srange2 > srange1: finalValue = scaleValue return finalValue def _setScalePointValue(self, value): value = self._getNearestScalePoint(value) for i in range(self.fBox.count()): if float(self.fBox.itemText(i).split(" - ", 1)[0]) == value: self.fBox.setCurrentIndex(i) break