# -*- coding: utf-8 -*- """ This module exists to smooth out some of the differences between PySide and PyQt4: * Automatically import either PyQt4 or PySide depending on availability * Allow to import QtCore/QtGui pyqtgraph.Qt without specifying which Qt wrapper you want to use. * Declare QtCore.Signal, .Slot in PyQt4 * Declare loadUiType function for Pyside """ import os, sys, re, time, subprocess, warnings from .python2_3 import asUnicode PYSIDE = 'PySide' PYSIDE2 = 'PySide2' PYQT4 = 'PyQt4' PYQT5 = 'PyQt5' QT_LIB = os.getenv('PYQTGRAPH_QT_LIB') ## Automatically determine which Qt package to use (unless specified by ## environment variable). ## This is done by first checking to see whether one of the libraries ## is already imported. If not, then attempt to import PyQt4, then PySide. if QT_LIB is None: libOrder = [PYQT4, PYSIDE, PYQT5, PYSIDE2] for lib in libOrder: if lib in sys.modules: QT_LIB = lib break if QT_LIB is None: for lib in libOrder: try: __import__(lib) QT_LIB = lib break except ImportError: pass if QT_LIB is None: raise Exception("PyQtGraph requires one of PyQt4, PyQt5, PySide or PySide2; none of these packages could be imported.") class FailedImport(object): """Used to defer ImportErrors until we are sure the module is needed. """ def __init__(self, err): self.err = err def __getattr__(self, attr): raise self.err def _isQObjectAlive(obj): """An approximation of PyQt's isQObjectAlive(). """ try: if hasattr(obj, 'parent'): obj.parent() elif hasattr(obj, 'parentItem'): obj.parentItem() else: raise Exception("Cannot determine whether Qt object %s is still alive." % obj) except RuntimeError: return False else: return True # Make a loadUiType function like PyQt has # Credit: # http://stackoverflow.com/questions/4442286/python-code-genration-with-pyside-uic/14195313#14195313 class _StringIO(object): """Alternative to built-in StringIO needed to circumvent unicode/ascii issues""" def __init__(self): self.data = [] def write(self, data): self.data.append(data) def getvalue(self): return ''.join(map(asUnicode, self.data)).encode('utf8') def _loadUiType(uiFile): """ PySide lacks a "loadUiType" command like PyQt4's, so we have to convert the ui file to py code in-memory first and then execute it in a special frame to retrieve the form_class. from stackoverflow: http://stackoverflow.com/a/14195313/3781327 seems like this might also be a legitimate solution, but I'm not sure how to make PyQt4 and pyside look the same... http://stackoverflow.com/a/8717832 """ if QT_LIB == "PYSIDE": import pysideuic else: try: import pyside2uic as pysideuic except ImportError: # later vserions of pyside2 have dropped pysideuic; use the uic binary instead. pysideuic = None # get class names from ui file import xml.etree.ElementTree as xml parsed = xml.parse(uiFile) widget_class = parsed.find('widget').get('class') form_class = parsed.find('class').text # convert ui file to python code if pysideuic is None: pyside2version = tuple(map(int, PySide2.__version__.split("."))) if pyside2version >= (5, 14) and pyside2version < (5, 14, 2, 2): warnings.warn('For UI compilation, it is recommended to upgrade to PySide >= 5.15') uipy = subprocess.check_output(['pyside2-uic', uiFile]) else: o = _StringIO() with open(uiFile, 'r') as f: pysideuic.compileUi(f, o, indent=0) uipy = o.getvalue() # exceute python code pyc = compile(uipy, '', 'exec') frame = {} exec(pyc, frame) # fetch the base_class and form class based on their type in the xml from designer form_class = frame['Ui_%s'%form_class] base_class = eval('QtGui.%s'%widget_class) return form_class, base_class if QT_LIB == PYSIDE: from PySide import QtGui, QtCore try: from PySide import QtOpenGL except ImportError as err: QtOpenGL = FailedImport(err) try: from PySide import QtSvg except ImportError as err: QtSvg = FailedImport(err) try: from PySide import QtTest except ImportError as err: QtTest = FailedImport(err) try: from PySide import shiboken isQObjectAlive = shiboken.isValid except ImportError: # use approximate version isQObjectAlive = _isQObjectAlive import PySide VERSION_INFO = 'PySide ' + PySide.__version__ + ' Qt ' + QtCore.__version__ elif QT_LIB == PYQT4: from PyQt4 import QtGui, QtCore, uic try: from PyQt4 import QtSvg except ImportError as err: QtSvg = FailedImport(err) try: from PyQt4 import QtOpenGL except ImportError as err: QtOpenGL = FailedImport(err) try: from PyQt4 import QtTest except ImportError as err: QtTest = FailedImport(err) VERSION_INFO = 'PyQt4 ' + QtCore.PYQT_VERSION_STR + ' Qt ' + QtCore.QT_VERSION_STR elif QT_LIB == PYQT5: # We're using PyQt5 which has a different structure so we're going to use a shim to # recreate the Qt4 structure for Qt5 from PyQt5 import QtGui, QtCore, QtWidgets, uic # PyQt5, starting in v5.5, calls qAbort when an exception is raised inside # a slot. To maintain backward compatibility (and sanity for interactive # users), we install a global exception hook to override this behavior. ver = QtCore.PYQT_VERSION_STR.split('.') if int(ver[1]) >= 5: if sys.excepthook == sys.__excepthook__: sys_excepthook = sys.excepthook def pyqt5_qabort_override(*args, **kwds): return sys_excepthook(*args, **kwds) sys.excepthook = pyqt5_qabort_override try: from PyQt5 import QtSvg except ImportError as err: QtSvg = FailedImport(err) try: from PyQt5 import QtOpenGL except ImportError as err: QtOpenGL = FailedImport(err) try: from PyQt5 import QtTest QtTest.QTest.qWaitForWindowShown = QtTest.QTest.qWaitForWindowExposed except ImportError as err: QtTest = FailedImport(err) VERSION_INFO = 'PyQt5 ' + QtCore.PYQT_VERSION_STR + ' Qt ' + QtCore.QT_VERSION_STR elif QT_LIB == PYSIDE2: from PySide2 import QtGui, QtCore, QtWidgets try: from PySide2 import QtSvg except ImportError as err: QtSvg = FailedImport(err) try: from PySide2 import QtOpenGL except ImportError as err: QtOpenGL = FailedImport(err) try: from PySide2 import QtTest QtTest.QTest.qWaitForWindowShown = QtTest.QTest.qWaitForWindowExposed except ImportError as err: QtTest = FailedImport(err) try: import shiboken2 isQObjectAlive = shiboken2.isValid except ImportError: # use approximate version isQObjectAlive = _isQObjectAlive import PySide2 VERSION_INFO = 'PySide2 ' + PySide2.__version__ + ' Qt ' + QtCore.__version__ else: raise ValueError("Invalid Qt lib '%s'" % QT_LIB) # common to PyQt5 and PySide2 if QT_LIB in [PYQT5, PYSIDE2]: # We're using Qt5 which has a different structure so we're going to use a shim to # recreate the Qt4 structure __QGraphicsItem_scale = QtWidgets.QGraphicsItem.scale def scale(self, *args): if args: sx, sy = args tr = self.transform() tr.scale(sx, sy) self.setTransform(tr) else: return __QGraphicsItem_scale(self) QtWidgets.QGraphicsItem.scale = scale def rotate(self, angle): tr = self.transform() tr.rotate(angle) self.setTransform(tr) QtWidgets.QGraphicsItem.rotate = rotate def translate(self, dx, dy): tr = self.transform() tr.translate(dx, dy) self.setTransform(tr) QtWidgets.QGraphicsItem.translate = translate def setMargin(self, i): self.setContentsMargins(i, i, i, i) QtWidgets.QGridLayout.setMargin = setMargin def setResizeMode(self, *args): self.setSectionResizeMode(*args) QtWidgets.QHeaderView.setResizeMode = setResizeMode QtGui.QApplication = QtWidgets.QApplication QtGui.QGraphicsScene = QtWidgets.QGraphicsScene QtGui.QGraphicsObject = QtWidgets.QGraphicsObject QtGui.QGraphicsWidget = QtWidgets.QGraphicsWidget QtGui.QApplication.setGraphicsSystem = None # Import all QtWidgets objects into QtGui for o in dir(QtWidgets): if o.startswith('Q'): setattr(QtGui, o, getattr(QtWidgets,o) ) # Common to PySide and PySide2 if QT_LIB in [PYSIDE, PYSIDE2]: QtVersion = QtCore.__version__ loadUiType = _loadUiType # PySide does not implement qWait if not isinstance(QtTest, FailedImport): if not hasattr(QtTest.QTest, 'qWait'): @staticmethod def qWait(msec): start = time.time() QtGui.QApplication.processEvents() while time.time() < start + msec * 0.001: QtGui.QApplication.processEvents() QtTest.QTest.qWait = qWait # Common to PyQt4 and 5 if QT_LIB in [PYQT4, PYQT5]: QtVersion = QtCore.QT_VERSION_STR try: from PyQt5 import sip except ImportError: import sip def isQObjectAlive(obj): return not sip.isdeleted(obj) loadUiType = uic.loadUiType QtCore.Signal = QtCore.pyqtSignal # USE_XXX variables are deprecated USE_PYSIDE = QT_LIB == PYSIDE USE_PYQT4 = QT_LIB == PYQT4 USE_PYQT5 = QT_LIB == PYQT5 ## Make sure we have Qt >= 4.7 versionReq = [4, 7] m = re.match(r'(\d+)\.(\d+).*', QtVersion) if m is not None and list(map(int, m.groups())) < versionReq: print(list(map(int, m.groups()))) raise Exception('pyqtgraph requires Qt version >= %d.%d (your version is %s)' % (versionReq[0], versionReq[1], QtVersion)) class App(QtGui.QApplication): def __init__(self, *args, **kwargs): super(App, self).__init__(*args, **kwargs) if QT_LIB in ['PyQt5', 'PySide2']: # qt4 does not have paletteChanged signal! self.paletteChanged.connect(self.onPaletteChange) self.onPaletteChange(self.palette()) def onPaletteChange(self, palette): if QT_LIB in ['PyQt4', 'PySide']: # Qt4 this is a QString color = str(palette.base().color().name()) else: # Qt5 has this as a str color = palette.base().color().name() self.dark_mode = color.lower() != "#ffffff" QAPP = None def mkQApp(name=None): """ Creates new QApplication or returns current instance if existing. ============== ======================================================== **Arguments:** name (str) Application name, passed to Qt ============== ======================================================== """ global QAPP QAPP = QtGui.QApplication.instance() if QAPP is None: QAPP = App(sys.argv or ["pyqtgraph"]) if name is not None: QAPP.setApplicationName(name) return QAPP