# -*- coding: utf-8 -*- from pyqtgraph.Qt import QtGui, QtCore from pyqtgraph.SignalProxy import SignalProxy import pyqtgraph.functions as fn from math import log from decimal import Decimal as D ## Use decimal to avoid accumulating floating-point errors from decimal import * import weakref __all__ = ['SpinBox'] class SpinBox(QtGui.QAbstractSpinBox): """ **Bases:** QtGui.QAbstractSpinBox QSpinBox widget on steroids. Allows selection of numerical value, with extra features: - SI prefix notation (eg, automatically display "300 mV" instead of "0.003 V") - Float values with linear and decimal stepping (1-9, 10-90, 100-900, etc.) - Option for unbounded values - Delayed signals (allows multiple rapid changes with only one change signal) ============================= ============================================== **Signals:** valueChanged(value) Same as QSpinBox; emitted every time the value has changed. sigValueChanged(self) Emitted when value has changed, but also combines multiple rapid changes into one signal (eg, when rolling the mouse wheel). sigValueChanging(self, value) Emitted immediately for all value changes. ============================= ============================================== """ ## There's a PyQt bug that leaks a reference to the ## QLineEdit returned from QAbstractSpinBox.lineEdit() ## This makes it possible to crash the entire program ## by making accesses to the LineEdit after the spinBox has been deleted. ## I have no idea how to get around this.. valueChanged = QtCore.Signal(object) # (value) for compatibility with QSpinBox sigValueChanged = QtCore.Signal(object) # (self) sigValueChanging = QtCore.Signal(object, object) # (self, value) sent immediately; no delay. def __init__(self, parent=None, value=0.0, **kwargs): """ ============== ======================================================================== **Arguments:** parent Sets the parent widget for this SpinBox (optional) value (float/int) initial value bounds (min,max) Minimum and maximum values allowed in the SpinBox. Either may be None to leave the value unbounded. suffix (str) suffix (units) to display after the numerical value siPrefix (bool) If True, then an SI prefix is automatically prepended to the units and the value is scaled accordingly. For example, if value=0.003 and suffix='V', then the SpinBox will display "300 mV" (but a call to SpinBox.value will still return 0.003). step (float) The size of a single step. This is used when clicking the up/ down arrows, when rolling the mouse wheel, or when pressing keyboard arrows while the widget has keyboard focus. Note that the interpretation of this value is different when specifying the 'dec' argument. dec (bool) If True, then the step value will be adjusted to match the current size of the variable (for example, a value of 15 might step in increments of 1 whereas a value of 1500 would step in increments of 100). In this case, the 'step' argument is interpreted *relative* to the current value. The most common 'step' values when dec=True are 0.1, 0.2, 0.5, and 1.0. minStep (float) When dec=True, this specifies the minimum allowable step size. int (bool) if True, the value is forced to integer type decimals (int) Number of decimal values to display ============== ======================================================================== """ QtGui.QAbstractSpinBox.__init__(self, parent) self.lastValEmitted = None self.lastText = '' self.textValid = True ## If false, we draw a red border self.setMinimumWidth(0) self.setMaximumHeight(20) self.setSizePolicy(QtGui.QSizePolicy.Expanding, QtGui.QSizePolicy.Preferred) self.opts = { 'bounds': [None, None], ## Log scaling options #### Log mode is no longer supported. #'step': 0.1, #'minStep': 0.001, #'log': True, #'dec': False, ## decimal scaling option - example #'step': 0.1, #'minStep': .001, #'log': False, #'dec': True, ## normal arithmetic step 'step': D('0.01'), ## if 'dec' is false, the spinBox steps by 'step' every time ## if 'dec' is True, the step size is relative to the value ## 'step' needs to be an integral divisor of ten, ie 'step'*n=10 for some integer value of n (but only if dec is True) 'log': False, 'dec': False, ## if true, does decimal stepping. ie from 1-10 it steps by 'step', from 10 to 100 it steps by 10*'step', etc. ## if true, minStep must be set in order to cross zero. 'int': False, ## Set True to force value to be integer 'suffix': '', 'siPrefix': False, ## Set to True to display numbers with SI prefix (ie, 100pA instead of 1e-10A) 'delayUntilEditFinished': True, ## do not send signals until text editing has finished ## for compatibility with QDoubleSpinBox and QSpinBox 'decimals': 2 } self.decOpts = ['step', 'minStep'] self.val = D(asUnicode(value)) ## Value is precise decimal. Ordinary math not allowed. self.updateText() self.skipValidate = False self.setCorrectionMode(self.CorrectToPreviousValue) self.setKeyboardTracking(False) self.setOpts(**kwargs) self.editingFinished.connect(self.editingFinishedEvent) self.proxy = SignalProxy(self.sigValueChanging, slot=self.delayedChange) ##lots of config options, just gonna stuff 'em all in here rather than do the get/set crap. def setOpts(self, **opts): """ Changes the behavior of the SpinBox. Accepts most of the arguments allowed in :func:`__init__ `. """ for k in opts: if k == 'bounds': #print opts[k] self.setMinimum(opts[k][0], update=False) self.setMaximum(opts[k][1], update=False) #for i in [0,1]: #if opts[k][i] is None: #self.opts[k][i] = None #else: #self.opts[k][i] = D(unicode(opts[k][i])) elif k in ['step', 'minStep']: self.opts[k] = D(asUnicode(opts[k])) elif k == 'value': pass ## don't set value until bounds have been set else: self.opts[k] = opts[k] if 'value' in opts: self.setValue(opts['value']) ## If bounds have changed, update value to match if 'bounds' in opts and 'value' not in opts: self.setValue() ## sanity checks: if self.opts['int']: if 'step' in opts: step = opts['step'] if int(step) != step: raise Exception('Integer SpinBox must have integer step size.') else: self.opts['step'] = int(self.opts['step']) if 'minStep' in opts: step = opts['minStep'] if int(step) != step: raise Exception('Integer SpinBox must have integer minStep size.') else: ms = int(self.opts.get('minStep', 1)) if ms < 1: ms = 1 self.opts['minStep'] = ms self.updateText() def setMaximum(self, m, update=True): """Set the maximum allowed value (or None for no limit)""" if m is not None: m = D(asUnicode(m)) self.opts['bounds'][1] = m if update: self.setValue() def setMinimum(self, m, update=True): """Set the minimum allowed value (or None for no limit)""" if m is not None: m = D(asUnicode(m)) self.opts['bounds'][0] = m if update: self.setValue() def setPrefix(self, p): self.setOpts(prefix=p) def setRange(self, r0, r1): self.setOpts(bounds = [r0,r1]) def setProperty(self, prop, val): ## for QSpinBox compatibility if prop == 'value': #if type(val) is QtCore.QVariant: #val = val.toDouble()[0] self.setValue(val) else: print("Warning: SpinBox.setProperty('%s', ..) not supported." % prop) def setSuffix(self, suf): self.setOpts(suffix=suf) def setSingleStep(self, step): self.setOpts(step=step) def setDecimals(self, decimals): self.setOpts(decimals=decimals) def value(self): """ Return the value of this SpinBox. """ if self.opts['int']: return int(self.val) else: return float(self.val) def setValue(self, value=None, update=True, delaySignal=False): """ Set the value of this spin. If the value is out of bounds, it will be clipped to the nearest boundary. If the spin is integer type, the value will be coerced to int. Returns the actual value set. If value is None, then the current value is used (this is for resetting the value after bounds, etc. have changed) """ if value is None: value = self.value() bounds = self.opts['bounds'] if bounds[0] is not None and value < bounds[0]: value = bounds[0] if bounds[1] is not None and value > bounds[1]: value = bounds[1] if self.opts['int']: value = int(value) value = D(asUnicode(value)) if value == self.val: return prev = self.val self.val = value if update: self.updateText(prev=prev) self.sigValueChanging.emit(self, float(self.val)) ## change will be emitted in 300ms if there are no subsequent changes. if not delaySignal: self.emitChanged() return value def emitChanged(self): self.lastValEmitted = self.val self.valueChanged.emit(float(self.val)) self.sigValueChanged.emit(self) def delayedChange(self): try: if self.val != self.lastValEmitted: self.emitChanged() except RuntimeError: pass ## This can happen if we try to handle a delayed signal after someone else has already deleted the underlying C++ object. def widgetGroupInterface(self): return (self.valueChanged, SpinBox.value, SpinBox.setValue) def sizeHint(self): return QtCore.QSize(120, 0) def stepEnabled(self): return self.StepUpEnabled | self.StepDownEnabled #def fixup(self, *args): #print "fixup:", args def stepBy(self, n): n = D(int(n)) ## n must be integral number of steps. s = [D(-1), D(1)][n >= 0] ## determine sign of step val = self.val for i in range(abs(n)): if self.opts['log']: raise Exception("Log mode no longer supported.") # step = abs(val) * self.opts['step'] # if 'minStep' in self.opts: # step = max(step, self.opts['minStep']) # val += step * s if self.opts['dec']: if val == 0: step = self.opts['minStep'] exp = None else: vs = [D(-1), D(1)][val >= 0] #exp = D(int(abs(val*(D('1.01')**(s*vs))).log10())) fudge = D('1.01')**(s*vs) ## fudge factor. at some places, the step size depends on the step sign. exp = abs(val * fudge).log10().quantize(1, ROUND_FLOOR) step = self.opts['step'] * D(10)**exp if 'minStep' in self.opts: step = max(step, self.opts['minStep']) val += s * step #print "Exp:", exp, "step", step, "val", val else: val += s*self.opts['step'] if 'minStep' in self.opts and abs(val) < self.opts['minStep']: val = D(0) self.setValue(val, delaySignal=True) ## note all steps (arrow buttons, wheel, up/down keys..) emit delayed signals only. def valueInRange(self, value): bounds = self.opts['bounds'] if bounds[0] is not None and value < bounds[0]: return False if bounds[1] is not None and value > bounds[1]: return False if self.opts.get('int', False): if int(value) != value: return False return True def updateText(self, prev=None): #print "Update text." self.skipValidate = True if self.opts['siPrefix']: if self.val == 0 and prev is not None: (s, p) = fn.siScale(prev) txt = "0.0 %s%s" % (p, self.opts['suffix']) else: txt = fn.siFormat(float(self.val), suffix=self.opts['suffix']) else: txt = '%g%s' % (self.val , self.opts['suffix']) self.lineEdit().setText(txt) self.lastText = txt self.skipValidate = False def validate(self, strn, pos): if self.skipValidate: #print "skip validate" #self.textValid = False ret = QtGui.QValidator.Acceptable else: try: ## first make sure we didn't mess with the suffix suff = self.opts.get('suffix', '') if len(suff) > 0 and asUnicode(strn)[-len(suff):] != suff: #print '"%s" != "%s"' % (unicode(strn)[-len(suff):], suff) ret = QtGui.QValidator.Invalid ## next see if we actually have an interpretable value else: val = self.interpret() if val is False: #print "can't interpret" #self.setStyleSheet('SpinBox {border: 2px solid #C55;}') #self.textValid = False ret = QtGui.QValidator.Intermediate else: if self.valueInRange(val): if not self.opts['delayUntilEditFinished']: self.setValue(val, update=False) #print " OK:", self.val #self.setStyleSheet('') #self.textValid = True ret = QtGui.QValidator.Acceptable else: ret = QtGui.QValidator.Intermediate except: #print " BAD" #import sys #sys.excepthook(*sys.exc_info()) #self.textValid = False #self.setStyleSheet('SpinBox {border: 2px solid #C55;}') ret = QtGui.QValidator.Intermediate ## draw / clear border if ret == QtGui.QValidator.Intermediate: self.textValid = False elif ret == QtGui.QValidator.Acceptable: self.textValid = True ## note: if text is invalid, we don't change the textValid flag ## since the text will be forced to its previous state anyway self.update() ## support 2 different pyqt APIs. Bleh. if hasattr(QtCore, 'QString'): return (ret, pos) else: return (ret, strn, pos) def paintEvent(self, ev): QtGui.QAbstractSpinBox.paintEvent(self, ev) ## draw red border if text is invalid if not self.textValid: p = QtGui.QPainter(self) p.setRenderHint(p.Antialiasing) p.setPen(fn.mkPen((200,50,50), width=2)) p.drawRoundedRect(self.rect().adjusted(2, 2, -2, -2), 4, 4) p.end() def interpret(self): """Return value of text. Return False if text is invalid, raise exception if text is intermediate""" strn = self.lineEdit().text() suf = self.opts['suffix'] if len(suf) > 0: if strn[-len(suf):] != suf: return False #raise Exception("Units are invalid.") strn = strn[:-len(suf)] try: val = fn.siEval(strn) except: #sys.excepthook(*sys.exc_info()) #print "invalid" return False #print val return val #def interpretText(self, strn=None): #print "Interpret:", strn #if strn is None: #strn = self.lineEdit().text() #self.setValue(siEval(strn), update=False) ##QtGui.QAbstractSpinBox.interpretText(self) def editingFinishedEvent(self): """Edit has finished; set value.""" #print "Edit finished." if asUnicode(self.lineEdit().text()) == self.lastText: #print "no text change." return try: val = self.interpret() except: return if val is False: #print "value invalid:", str(self.lineEdit().text()) return if val == self.val: #print "no value change:", val, self.val return self.setValue(val, delaySignal=False) ## allow text update so that values are reformatted pretty-like #def textChanged(self): #print "Text changed." ### Drop-in replacement for SpinBox; just for crash-testing #class SpinBox(QtGui.QDoubleSpinBox): #valueChanged = QtCore.Signal(object) # (value) for compatibility with QSpinBox #sigValueChanged = QtCore.Signal(object) # (self) #sigValueChanging = QtCore.Signal(object) # (value) #def __init__(self, parent=None, *args, **kargs): #QtGui.QSpinBox.__init__(self, parent) #def __getattr__(self, attr): #return lambda *args, **kargs: None #def widgetGroupInterface(self): #return (self.valueChanged, SpinBox.value, SpinBox.setValue) if __name__ == '__main__': import sys app = QtGui.QApplication([]) def valueChanged(sb): #sb = QtCore.QObject.sender() print(str(sb) + " valueChanged: %s" % str(sb.value())) def valueChanging(sb, value): #sb = QtCore.QObject.sender() print(str(sb) + " valueChanging: %s" % str(sb.value())) def mkWin(): win = QtGui.QMainWindow() g = QtGui.QFormLayout() w = QtGui.QWidget() w.setLayout(g) win.setCentralWidget(w) s1 = SpinBox(value=5, step=0.1, bounds=[-1.5, None], suffix='units') t1 = QtGui.QLineEdit() g.addRow(s1, t1) s2 = SpinBox(value=10e-6, dec=True, step=0.1, minStep=1e-6, suffix='A', siPrefix=True) t2 = QtGui.QLineEdit() g.addRow(s2, t2) s3 = SpinBox(value=1000, dec=True, step=0.5, minStep=1e-6, bounds=[1, 1e9], suffix='Hz', siPrefix=True) t3 = QtGui.QLineEdit() g.addRow(s3, t3) s4 = SpinBox(int=True, dec=True, step=1, minStep=1, bounds=[-10, 1000]) t4 = QtGui.QLineEdit() g.addRow(s4, t4) win.show() import sys for sb in [s1, s2, s3,s4]: #QtCore.QObject.connect(sb, QtCore.SIGNAL('valueChanged(double)'), lambda v: sys.stdout.write(str(sb) + " valueChanged\n")) #QtCore.QObject.connect(sb, QtCore.SIGNAL('editingFinished()'), lambda: sys.stdout.write(str(sb) + " editingFinished\n")) sb.sigValueChanged.connect(valueChanged) sb.sigValueChanging.connect(valueChanging) sb.editingFinished.connect(lambda: sys.stdout.write(str(sb) + " editingFinished\n")) return win, w, [s1, s2, s3, s4] a = mkWin() def test(n=100): for i in range(n): win, w, sb = mkWin() for s in sb: w.setParent(None) s.setParent(None) s.valueChanged.disconnect() s.editingFinished.disconnect() ## Start Qt event loop unless running in interactive mode. if sys.flags.interactive != 1: app.exec_()