class MainWindow(QMainWindow):
""" Create the Application Main Window CLass
"""
def __init__(self):
""" Constructo FUnction
"""
QMainWindow.__init__(self)
self.setWindowTitle("Application Title Here")
self.setGeometry(300, 250, 400, 300)
self.statusLabel = QLabel('Showing Progress')
self.progressBar = QProgressBar()
self.progressBar.setMinimum(0)
self.progressBar.setMaximum(1000000)
def CreateStatusBar(self):
""" Funtion to Create Status Bar
"""
self.myStatusBar = QStatusBar()
self.progressBar.setValue(10)
self.myStatusBar.addWidget(self.statusLabel, 1)
self.myStatusBar.addWidget(self.progressBar, 2)
self.setStatusBar(self.myStatusBar)
def ShowProgress(self):
""" Function to Show Progress
"""
while self.progressBar.value() < self.progressBar.maximum():
self.progressBar.setValue(self.progressBar.value() + 1)
self.statusLabel.setText('Ready')
def _add_to_internal_dict(self, element, parent, num_row):
QueueModel._add_to_internal_dict(self, element, parent, num_row)
if element.tag == "item":
# TODO: check if file exists and if so, initialize percentage
progressbar = QProgressBar()
progressbar.setValue(0)
self.progress_bars[element] = progressbar
selected_extension = element.get("selected")
if selected_extension is None:
element.attrib["status"] = "Error: No Extension selected"
return
selected_format = element.find("format[@extension='%s']" % selected_extension)
if selected_format is None:
element.attrib["status"] = "Error: No Quality selected"
return
selected_quality = selected_format.get("selected")
option = element.find(
"format[@extension='%s']/option[@quality='%s']" % (selected_extension, selected_quality)
)
self.option_elements[element] = option
# fill remaining filename template, extension and quality shall not change within DownloadModel
mapping = dict(
title=element.get("title"),
url=element.get("url"),
host=element.get("host"),
extension=selected_extension,
quality=selected_quality,
)
element.attrib["filename"] = fill_filename_template(element.attrib["filename"], mapping)
class MainWindow(QMainWindow):
""" Our main window class
"""
def __init__(self):
QMainWindow.__init__(self)
self.setWindowTitle("Main Window")
self.setGeometry(300, 250, 400, 300)
self.statusLabel = QLabel('Showing Progress')
self.progressBar = QProgressBar()
self.progressBar.setMinimum(0)
self.progressBar.setMaximum(100)
def CreateStatusBar(self):
self.myStatusBar = QStatusBar()
self.progressBar.setValue(10)
self.myStatusBar.addWidget(self.statusLabel, 1)
self.myStatusBar.addWidget(self.progressBar, 2)
#self.myStatusBar.showMessage('Ready', 2000)
self.setStatusBar(self.myStatusBar)
def showProgress(self):
while(self.progressBar.value() < self.progressBar.maximum()):
self.progressBar.setValue(self.progressBar.value() + 10)
time.sleep(1)
self.statusLabel.setText('Ready')
class MainWindow(QMainWindow):
""" Our Main Window """
def __init__(self):
""" Constructor Fucntion
"""
QMainWindow.__init__(self)
self.setWindowTitle("Main Window")
self.setGeometry(300, 250, 400, 300)
self.statusLabel = QLabel('Showing Progress')
self.progressBar = QProgressBar()
self.progressBar.setMinimum(0)
self.progressBar.setMaximum(100)
def createStatusBar(self):
""" Function to create the status bar
"""
self.myStatusBar = QStatusBar()
self.progressBar.setValue(10)
self.myStatusBar.addWidget(self.statusLabel, 1)
self.myStatusBar.addWidget(self.progressBar, 2)
self.setStatusBar(self.myStatusBar)
def showProgress(self):
""" Function to show progress
"""
while(self.progressBar.value() < self.progressBar.maximum()):
self.progressBar.setValue(self.progressBar.value() + 10)
time.sleep(1)
self.statusLabel.setText('Ready')
class MainWindow(QMainWindow, Ui_MainWindow):
def __init__(self, parent=None):
QMainWindow.__init__(self, parent)
Ui_MainWindow.__init__(self, parent)
self.setupUi(self)
self.progressBar = QProgressBar()
self.progressBar.setMaximumWidth(100)
self.statusbar.addPermanentWidget(self.progressBar)
self.initData()
self.connects()
def connects(self):
self.checkThread.checkComplete.connect(self.updateView)
self.checkThread.versionChecked.connect(self.progressCheck)
# self.actionQuit.triggered.connect(self.close)
def initData(self):
WowPath = os.path.normpath("D:\World of Warcraft")
WowPath = os.path.join(WowPath, "Interface", "AddOns")
self.addons = getAddOnList(WowPath)
self.progressBar.setRange(0, len(self.addons))
self.progressBar.setValue(0)
self.progressBar.show()
self.a = 0
self.checkThread = QCheckThread(self.addons)
self.checkThread.start()
self.statusbar.showMessage("Checking for update")
@Slot(list)
def updateView(self, latestVersions):
self.statusbar.showMessage("Checking complete", 30000)
self.tableViewAddOn.setModel(AddOnModel(self.addons, latestVersions))
self.tableViewAddOn.resizeColumnsToContents()
self.progressBar.hide()
self.checkThread.quit()
@Slot()
def progressCheck(self):
self.progressBar.setValue(self.progressBar.value() + 1)
@Slot()
def closeEvent(self, *args, **kwargs):
self.checkThread.quit()
return QMainWindow.closeEvent(self, *args, **kwargs)
class StatusArea(QWidget):
def __init__(self, parent=None):
super(StatusArea, self).__init__(parent)
self.setStyleSheet('StatusArea {background: yellow}')
self.msg = QLabel(self)
self.file = QLabel(self)
self.progress = QProgressBar(self)
self.msg.setFont(View.labelsFont())
self.file.setFont(View.editsFont())
self.progress.setMaximum(100)
self.progress.setMinimum(0)
self.progress.setTextVisible(False)
self.progress.setStyleSheet("""
QProgressBar {
border: 2px solid grey;
border-radius: 5px;
width: 60px;
height: 10px;
}
QProgressBar::chunk {
background-color: #05B8CC;
width: 5px;
}""")
layout = QHBoxLayout()
layout.addWidget(self.msg, 0, Qt.AlignLeft)
layout.addWidget(self.file, 0, Qt.AlignLeft)
layout.addWidget(self.progress, 0, Qt.AlignRight)
self.setLayout(layout)
@Slot(str)
@Slot(str, str, str)
def setMessage(self, msg, file='', progress=None):
if not progress:
self.progress.hide()
self.progress.setValue(0)
else:
self.progress.setValue(progress)
self.progress.show()
self.msg.setText(msg)
self.file.setText(file)
def paintEvent(self, event):
p = QPainter()
p.begin(self)
p.fillRect(self.rect(), QBrush(QColor(240, 200, 0)))
p.end()
class StatusArea(QWidget):
def __init__(self, parent=None):
super(StatusArea, self).__init__(parent)
self.setStyleSheet('StatusArea {background: yellow}')
self.msg = QLabel(self)
self.file = QLabel(self)
self.progress = QProgressBar(self)
self.msg.setFont(View.labelsFont())
self.file.setFont(View.editsFont())
self.progress.setMaximum(100)
self.progress.setMinimum(0)
self.progress.setTextVisible(False)
self.progress.setStyleSheet("""
QProgressBar {
border: 2px solid grey;
border-radius: 5px;
width: 60px;
height: 10px;
}
QProgressBar::chunk {
background-color: #05B8CC;
width: 5px;
}""")
layout = QHBoxLayout()
layout.addWidget(self.msg, 0, Qt.AlignLeft)
layout.addWidget(self.file, 0, Qt.AlignLeft)
layout.addWidget(self.progress, 0, Qt.AlignRight)
self.setLayout(layout)
@Slot(str)
@Slot(str, str, str)
def setMessage(self, msg, file='', progress=None):
if not progress:
self.progress.hide()
self.progress.setValue(0)
else:
self.progress.setValue(progress)
self.progress.show()
self.msg.setText(msg)
self.file.setText(file)
def paintEvent(self, event):
p = QPainter()
p.begin(self)
p.fillRect(self.rect(), QBrush(QColor(240, 200, 0)))
p.end()
class ProgressView(QWidget): def __init__(self,progress=None,parent=None): QWidget.__init__(self,parent) self.progressBar=QProgressBar() self.abortButton=QPushButton() layout=QHBoxLayout() layout.addWidget(self.progressBar) layout.addWidget(self.abortButton) self.setLayout(layout) if progress: self.setProgress(progress) def setProgress(self,progress): self.progress=progress self.progress.progressSetup.connect(self.progressBar.setMaximum) self.progress.progressNotified.connect(self.progressBar.setValue) self.progress.progressCompleted.connect(self.progressCompleted) self.abortButton.clicked.connect(self.progress.abort) def progressCompleted(self): self.progressBar.setValue(self.progress.maximum)
class Dialog(QWidget):
def __init__(self, parent=None):
super(Dialog, self).__init__(parent)
self.setupUI()
self.setupConnection()
self.threadPool = []
self.totalUids = 0
self.finishedThreadNum = 0
self.realThreadNum = 0
self.excel = Excel()
#self.initSearchDb()
def setupUI(self):
self.pushButton = QPushButton(u"Search", self)
#self.testButton = QPushButton(u"Test", self)
self.lineEdit = QLineEdit(self)
self.textEdit = QTextEdit(self)
self.comboBox = QComboBox(self)
self.label = QLabel(u"DB:", self)
self.progressBar = QProgressBar(self)
self.progressBar.setRange(0,1)
self.textEdit.setReadOnly(True)
self.layout = QVBoxLayout()
self.topLayout = QHBoxLayout()
self.topLayout.addWidget(self.label)
self.topLayout.addWidget(self.comboBox)
self.topLayout.addWidget(self.lineEdit)
self.topLayout.addWidget(self.pushButton)
#self.topLayout.addWidget(self.testButton)
#self.testButton.clicked.connect(self.onTestButtonClicked)
self.layout.addLayout(self.topLayout)
self.layout.addWidget(self.textEdit)
self.layout.addWidget(self.progressBar)
self.setLayout(self.layout)
self.resize(600, 700)
self.setWindowTitle(u"Search Data for NCBI")
def setupConnection(self):
self.pushButton.clicked.connect(self.onButtonClicked)
def onButtonClicked(self):
if not self.lineEdit.text() or not self.comboBox.count():
QtGui.QMessageBox.information(self, u"Warning", u"Please Set the Search Field")
return
# disable button
self.pushButton.setDisabled(True)
dbName = self.comboBox.currentText()
fieldName = self.lineEdit.text()
self.log("Start searching db: %s and field: %s" % (dbName, fieldName))
# add use history to add all uids to the history server
handle = self.entrez.esearch(db=dbName, term=fieldName, usehistory='y')
record = self.entrez.read(handle)
self.log("All result count %s" % record['Count'])
self.totalUids = int(record['Count'])
# to get onnly data less than the MAX_COUNT
if self.totalUids > MAX_COUNT:
ret = QtGui.QMessageBox.question(
self,
u'Warning',
u'result count %s is too large, will only get the %s result \
continue?' % (self.totalUids, MAX_COUNT),
QtGui.QMessageBox.Ok | QtGui.QMessageBox.Cancel
)
if ret == QtGui.QMessageBox.Ok:
self.totalUids = MAX_COUNT
else:
return
#handle = self.entrez.efetch(db=dbName, id=record['IdList'], rettype='gb')
self.finishedThreadNum = 0
WebEnv = record['WebEnv']
QueryKey = record['QueryKey']
global FINISHED_COUNT
FINISHED_COUNT = 0
self.progressBar.setValue(0)
self.progressBar.setMaximum(self.totalUids)
if self.totalUids / RET_MAX_SUMMARY >= MAX_THREAD:
self.realThreadNum = MAX_THREAD
each_count = self.totalUids/MAX_THREAD
startIndex = 0
for i in range(MAX_THREAD - 1):
thread = MyThread(startIndex, each_count, dbName, fieldName, WebEnv, QueryKey)
thread.finished.connect(self.onThreadFinished)
thread.finishedCountChanged.connect(self.onFinishedCountChange)
thread.start()
self.threadPool.append(thread)
startIndex = startIndex + each_count
thread = MyThread(startIndex, (self.totalUids-startIndex+1), dbName, fieldName, WebEnv, QueryKey)
thread.finished.connect(self.onThreadFinished)
thread.finishedCountChanged.connect(self.onFinishedCountChange)
self.threadPool.append(thread)
thread.start()
else:
if self.totalUids == RET_MAX_SUMMARY:
self.realThreadNum = 1
else:
self.realThreadNum = self.totalUids/RET_MAX_SUMMARY + 1
startIndex = 0
for i in range(self.realThreadNum):
thread = MyThread(startIndex, RET_MAX_SUMMARY, dbName, fieldName, WebEnv, QueryKey)
thread.finished.connect(self.onThreadFinished)
thread.finishedCountChanged.connect(self.onFinishedCountChange)
self.threadPool.append(thread)
thread.start()
startIndex = startIndex + RET_MAX_SUMMARY
self.log("thread num: %s" % self.realThreadNum)
self.log('reading data')
self.filename = '%s_%s_output.xls' % (dbName, fieldName)
self.excel.setFilename(self.filename)
def log(self, context):
self.textEdit.append(context)
def initSearchDb(self):
self.entrez = Entrez
self.entrez.email = email
self.log("Connect to NCBI")
try:
handle = self.entrez.einfo()
except:
QtGui.QMessageBox.warning(self, u"Error", u"Error Connect the WebSite")
self.close()
record = self.entrez.read(handle)
self.log("Get NCBI DataBases:")
for name in record['DbList']:
self.log('DBName:\t%s' % name)
self.comboBox.addItems(record['DbList'])
def onThreadFinished(self):
self.finishedThreadNum = self.finishedThreadNum + 1
self.log('finished thread %s ' % self.finishedThreadNum)
if(self.finishedThreadNum == self.realThreadNum):
global all_output
heads = all_output[0][0].keys()
self.excel.setHead(heads)
for values in all_output:
for value in values:
self.excel.addValues(value)
self.excel.save()
self.progressBar.setValue(int(self.totalUids))
# clear all thread
self.threadPool = []
all_output = []
self.excel.clearValues()
self.pushButton.setDisabled(False)
self.log("output to file: %s" % self.filename)
def onFinishedCountChange(self, num):
self.progressBar.setValue(num)
def onTestButtonClicked(self):
self.finishedThreadNum = 0
self.realThreadNum = 1
self.thread = MyThread(0, 10,"abd","123")
self.thread.finished.connect(self.onThreadFinished)
self.thread.startIndex()
class STMainWindow(QMainWindow):
def __init__(self):
super(STMainWindow, self).__init__()
self.createActions()
self.createMenus()
layout = QVBoxLayout()
self.tabs = QTabWidget()
self.tabs.setTabPosition(QTabWidget.West)
self.tabs.currentChanged[int].connect(self.tabChanged)
self.sessiontab = sweattrails.qt.sessiontab.SessionTab(self)
self.tabs.addTab(self.sessiontab, "Sessions")
self.tabs.addTab(sweattrails.qt.fitnesstab.FitnessTab(self),
"Fitness")
self.tabs.addTab(sweattrails.qt.profiletab.ProfileTab(self),
"Profile")
self.usertab = sweattrails.qt.usertab.UserTab(self)
self.tabs.addTab(self.usertab, "Users")
self.usertab.hide()
layout.addWidget(self.tabs)
w = QWidget(self)
w.setLayout(layout)
self.setCentralWidget(w)
self.statusmessage = QLabel()
self.statusmessage.setMinimumWidth(200)
self.statusBar().addPermanentWidget(self.statusmessage)
self.progressbar = QProgressBar()
self.progressbar.setMinimumWidth(100)
self.progressbar.setMinimum(0)
self.progressbar.setMaximum(100)
self.statusBar().addPermanentWidget(self.progressbar)
self.setWindowTitle("SweatTrails")
self.setWindowIconText("SweatTrails")
icon = QPixmap("image/sweatdrops.png")
self.setWindowIcon(QIcon(icon))
QCoreApplication.instance().refresh.connect(self.userSet)
def createActions(self):
self.switchUserAct = QAction("&Switch User", self, shortcut = "Ctrl+U", statusTip = "Switch User", triggered = self.switch_user)
self.importFileAct = QAction("&Import", self, shortcut = "Ctrl+I", statusTip = "Import Session", triggered = self.file_import)
self.downloadAct = QAction("&Download", self, shortcut = "Ctrl+D",
statusTip = "Download activities from device",
triggered = QCoreApplication.instance().download)
self.downloadAct = QAction("&Withings", self,
statusTip = "Download Withings data",
triggered = QCoreApplication.instance().withings)
self.exitAct = QAction("E&xit", self, shortcut = "Ctrl+Q", statusTip = "Exit SweatTrails", triggered = self.close)
self.aboutAct = QAction("&About", self, triggered = self.about)
self.aboutQtAct = QAction("About &Qt", self, triggered = QApplication.aboutQt)
def createMenus(self):
self.fileMenu = self.menuBar().addMenu(self.tr("&File"))
self.fileMenu.addAction(self.switchUserAct)
self.fileMenu.addSeparator()
self.fileMenu.addAction(self.importFileAct)
self.fileMenu.addAction(self.downloadAct)
self.fileMenu.addSeparator()
self.fileMenu.addAction(self.exitAct)
self.menuBar().addSeparator()
self.helpMenu = self.menuBar().addMenu("&Help")
self.helpMenu.addAction(self.aboutAct)
self.helpMenu.addAction(self.aboutQtAct)
def show(self):
super(QMainWindow, self).show()
if self.select_user():
t = sweattrails.qt.imports.BackgroundThread.get_thread()
t.jobStarted.connect(self.status_message)
t.jobFinished.connect(self.status_message)
t.jobError.connect(self.status_message)
else:
self.close()
def switch_user(self):
pass
def select_user(self):
ret = False
if QCoreApplication.instance().user:
return True
elif QCoreApplication.instance().has_users():
dialog = SelectUser(self)
dialog.select()
ret = QCoreApplication.instance().is_authenticated()
if ret:
self.refresh()
else:
dialog = CreateUser(self)
dialog.exec_()
ret = QCoreApplication.instance().is_authenticated()
if ret:
self.refresh()
return ret
#
# FILE IMPORT
#
def file_import(self):
(fileNames, _) = QFileDialog.getOpenFileNames(self,
"Open Activity File",
"",
"Activity Files (*.tcx *.fit *.csv)")
if fileNames:
QCoreApplication.instance().import_files(*fileNames)
def file_import_started(self, filename):
self.switchUserAct.setEnabled(False)
def file_imported(self, filename):
self.switchUserAct.setEnabled(True)
self.refresh()
def file_import_error(self, filename, msg):
self.switchUserAct.setEnabled(True)
self.refresh()
#
# END FILE IMPORT
#
# =====================================================================
# S I G N A L H A N D L E R S
# =====================================================================
def refresh(self):
QCoreApplication.instance().refresh.emit()
self.status_message("")
def tabChanged(self, tabix):
w = self.tabs.currentWidget()
if hasattr(w, "activate"):
w.activate(0)
if hasattr(w, "setValues"):
w.setValues()
def setSession(self, session):
self.tabs.setCurrentIndex(0)
self.sessiontab.setSession(session)
def setTab(self, tab):
t = self.tabs.currentWidget()
if t and hasattr(t, "setTab"):
t.setTab(tab)
def userSet(self):
user = QCoreApplication.instance().user
if user.is_admin():
self.usertab.show()
def status_message(self, msg, *args):
self.statusmessage.setText(msg.format(*args))
def progress_init(self, msg, *args):
self.progressbar.setValue(0)
self.status_message(msg, *args)
def progress(self, percentage):
self.progressbar.setValue(percentage)
def progress_done(self):
self.progressbar.reset()
def about(self):
QMessageBox.about(self, "About SweatTrails",
"SweatTrails is a training log application")
class SafeLock(QWidget):
def __init__(self):
super(SafeLock, self).__init__()
main_layout = QVBoxLayout(self)
self.Version = '0.5 beta'
self.s_error = "QStatusBar{color:red;font-weight:1000;}"
self.s_loop = "QStatusBar{color:black;font-weight:1000;}"
self.s_norm = "QStatusBar{color:blue;font-style:italic;"
self.s_norm += "font-weight:500;}"
self.Processing = None
self.CP = None
self.PPbar = None
self.key = None
self.DFiles = []
self.picon = r_path("images/favicon.png")
self.plogo = r_path("images/logo.png")
if name == 'nt':
self.picon = r_path("images\\favicon.png")
self.plogo = r_path("images\\logo.png")
self.icon = QIcon(self.picon)
self.logo = QIcon(self.plogo)
self.center()
self.setStyle()
self.setMW(main_layout)
self.setSB(main_layout)
self.show()
def db(self, password="******", dbname="untitled.sld", dc=True):
eng = create_engine("sqlite:///%s" % dbname,
connect_args={'check_same_thread': False})
Base = declarative_base(bind=eng)
Session = sessionmaker(bind=eng)
session = Session()
class Identifier(Base):
__tablename__ = "identifier"
id = Column(Integer, primary_key=True)
version = Column(Binary)
kvd = Column(Binary)
def __init__(self, version, kvd):
self.id = 0
self.version = version
self.kvd = kvd
class Folder(Base):
__tablename__ = 'folders'
id = Column(Integer, primary_key=True)
path = Column(Unicode)
def __init__(self, path="Empty"):
self.path = path
class File(Base):
__tablename__ = 'files'
id = Column(Integer, primary_key=True)
name = Column(String)
f_id = Column(Integer, ForeignKey('folders.id'), nullable=True)
bb = Column(Binary)
def __init__(self, name="empty", f_id=0, bb=1010):
self.name = name
self.f_id = f_id
self.bb = bb
if dc:
Base.metadata.create_all()
enc = encryptit(sha256(self.Version).digest(),
sha256(password).digest())
session.add(Identifier(enc[0], enc[1]))
session.commit()
return [eng, Base, session, File, Folder, Identifier, password]
def checkP(self, db):
try:
d = db[2].query(db[5]).filter_by(id=0).first()
if d is not None:
if isenct(self.Version, d.version, db[6], d.kvd):
return True
except:
pass
return False
def setStyle(self):
self.setMaximumWidth(410)
self.setMinimumWidth(410)
self.setMaximumHeight(370)
self.setMinimumHeight(370)
self.setWindowIcon(self.icon)
self.activateWindow()
self.setWindowTitle("safelock " + self.Version)
self.setToolTip(
u"단순히 끌어다 놓는 것으로 파일이나 폴더를 암호화하거나" +
u" .sld 파일을 복호화할 수 있습니다.")
self.setAcceptDrops(True)
self.show()
def center(self):
qrect = self.frameGeometry()
cp = QDesktopWidget().availableGeometry().center()
qrect.moveCenter(cp)
self.move(qrect.topLeft())
def setMW(self, ml):
ll = QVBoxLayout()
self.mIcon = QLabel()
self.mIcon.setAlignment(Qt.AlignCenter)
mmicon = self.logo.pixmap(250, 230, QIcon.Active, QIcon.On)
self.mIcon.setPixmap(mmicon)
self.mInst = QLabel(
# u"<center>(Drag and drop files or folders to encrypt them)<br>" +
u"<center>(마우스로 끌어다 놓으십시오)<br>" +
u"<u>최대 2GB 파일 또는 디렉토리만 가능</u></center>")
font = QFont()
font.setPointSize(13)
font.setBold(True)
font.setWeight(75)
self.fInst = QLabel('<center></center>')
self.mInst.setFont(font)
ll.addWidget(self.mIcon)
ll.addWidget(self.mInst)
ll.addWidget(self.fInst)
ml.addLayout(ll)
def setSB(self, ml):
self.statusb = QStatusBar()
ml.addWidget(self.statusb)
def modSB(self):
if self.PPbar is None:
self.PPbar = True
self.statusb.clear()
self.pbar = QProgressBar()
self.pbar.setMaximum(100)
self.pbar.setMinimum(0)
self.plabel = QLabel()
self.statusb.addWidget(self.plabel, 0.5)
self.statusb.addWidget(self.pbar, 3)
else:
self.PPbar = None
self.statusb.removeWidget(self.plabel)
self.statusb.removeWidget(self.pbar)
self.statusb.clear()
# def searchF(self, dirname):
# filelist = []
# try:
# filenames = listdir(dirname)
# for filename in filenames:
# full_filename = path.join(dirname, filename)
# if path.isdir(full_filename):
# tmplist = self.searchF(full_filename)
# for tmpfile in tmplist:
# filelist.append(tmpfile)
# else:
# tmp = full_filename.replace('\\','/')
# filelist.append(tmp)
# except PermissionError:
# pass
# return filelist
def saveFile(self, fl):
fname, _ = QFileDialog.getSaveFileName(self,
u"암호화 경로 설정",
fl,
"Safelock file (*.sld)")
if '.' in fname:
tm = fname.split('.')
tm = tm[len(tm) - 1]
if tm == "sld":
try:
if path.isfile(fname):
remove(fname)
except:
pass
return fname
if len(fname) <= 0:
return None
fname += ".sld"
try:
if path.isfile(fname):
remove(fname)
except:
pass
return fname
def extTo(self, fl):
fname = QFileDialog.getExistingDirectory(self, u"복호화 경로 설정",
fl)
if len(fname) <= 0:
return None
return fname
def getPass(self):
passwd, re = QInputDialog.getText(self, u"비밀번호", u"입력하신 비밀번호 :",
QLineEdit.Password)
if len(passwd) > 0 :
passwd2, re = QInputDialog.getText(self, u"비밀번호", u"다시한번 입력하세요 :",
QLineEdit.Password)
if passwd != passwd2:
self.errorMsg(u"비밀번호가 맞지 않습니다")
return False
else:
if not re:
return False
if len(passwd) <= 0:
return None
return passwd
else:
if not re:
return False
else:
return None
def getPass2(self):
passwd, re = QInputDialog.getText(self, u"비밀번호", u"입력하신 비밀번호 :",
QLineEdit.Password)
if not re:
return False
if len(passwd) <= 0:
return None
return passwd
def errorMsg(self, msg=u"에러 발생 !"):
QMessageBox.critical(self, "Error", msg)
return True
def aboutMsgg(self):
Amsg = u"<center>SafeLock %s " % self.Version
Amsg += u"은 Mozilla Public License 버전 2.0에 "
Amsg += u"따라 허가된 무료 오픈소스 프로젝트 입니다.<br><br>"
Amsg += u" 본 프로그램에 대한 더 많은 정보를 원하시면:<br> "
Amsg += u"<b><a href='https://github.com/mjuc4/safelock'> "
Amsg += u"https://github.com/mjuc4/safelock/ </a> </b></center>"
QMessageBox.about(self, "About", Amsg)
return True
def getSession(self):
self.eng = eng(self.password, self.dbname)
Session = sessionmaker(bind=self.eng)
self.Base = declarative_base(bind=self.eng)
self.Base.metadata.create_all()
self.session = Session()
return self.session
def dragEnterEvent(self, e):
if e.mimeData().hasUrls:
e.accept()
else:
e.ignore()
def dragMoveEvent(self, e):
if e.mimeData().hasUrls:
e.accept()
else:
e.ignore()
def dropEvent(self, e):
if e.mimeData().hasUrls:
e.setDropAction(Qt.CopyAction)
e.accept()
self.DFiles = []
for url in e.mimeData().urls():
try:
if sysname == 'darwin':
from Foundation import NSURL
fname = NSURL.URLWithString_(
url.toString()).filePathURL().path()
else:
fname = url.toLocalFile()
self.DFiles.append(fname)
except:
pass
self.dealD(self.DFiles)
else:
event.ignore()
def in_loop(self):
if self.Processing is None:
self.Processing = True
self.setAcceptDrops(False)
self.mIcon.setEnabled(False)
self.mInst.setEnabled(False)
self.fInst.setText(u"<center>| 취소는 더블 클릭 |</center>")
self.setToolTip("Double-Click anywhere to cancel")
else:
self.Processing = None
self.setAcceptDrops(True)
self.mIcon.setEnabled(True)
self.mInst.setEnabled(True)
self.fInst.setText(u"<center>| 취소는 더블 클릭 |</center>")
self.setToolTip(
u"단순히 끌어다 놓는 것으로 파일이나 폴더를 암호화하거나" +
u" .sld 파일을 복호화할 수 있습니다.")
def dealD(self, files):
def tpp(inp):
a = path.basename(inp)
return inp.replace(a, '')
if len(files) < 1:
return False
elif len(files) >= 1:
if len(files) == 1:
tf = files[0].split('.')
tf = tf[len(tf) - 1]
if tf == 'sld':
pw = self.getPass2()
if pw is None:
self.errorMsg(u"비밀번호 입력하십쇼!")
return False
elif not pw:
return False
if not self.checkP(self.db(sha256(pw).digest(), files[0],
dc=False)):
self.errorMsg(
u"비밀번호가 맞지 않습니다. 다시 시도하세요")
return False
else:
fold = self.extTo(tpp(files[0]))
if fold is not None:
self.CP = fold
self.in_loop()
self.P = DecryptTH(fold, self.db(pw,
files[0],
dc=False),
sha256(pw).digest())
self.P.start()
self.P.somesignal.connect(self.handleStatusMessage)
self.P.setTerminationEnabled(True)
return True
pw = self.getPass()
if pw is None:
self.errorMsg(u"비밀번호 입력하십시오 !")
elif not pw:
pass
else:
fil = self.saveFile(tpp(files[0]))
if fil is not None:
if path.isfile(fil):
try:
remove(fil)
except:
pass
self.CP = fil
self.in_loop()
self.P = EncryptTH(files, self.db(pw, fil),
sha256(pw).digest())
self.P.start()
self.P.somesignal.connect(self.handleStatusMessage)
self.P.setTerminationEnabled(True)
return True
@Slot(object)
def handleStatusMessage(self, message):
self.statusb.setStyleSheet(self.s_loop)
def getIT(f, o):
return int((f / o) * 100)
mm = message.split('/')
if mm[len(mm) - 1] == '%':
if self.PPbar is None:
self.modSB()
self.pbar.setValue(getIT(int(mm[0]), int(mm[1])))
self.setWindowTitle("Processing : " + str(getIT(int(mm[0]),
int(mm[1]))) + "%")
self.plabel.setText(mm[0] + '/' + mm[1])
else:
self.unsetCursor()
if self.PPbar is not None:
self.modSB()
if message[:7] == '# Error':
if self.Processing:
self.in_loop()
self.statusb.setStyleSheet(self.s_error)
self.cleanup()
elif message[:6] == '# Stop':
self.statusb.setStyleSheet(self.s_error)
elif message[:6] == '# Done':
if self.Processing:
self.in_loop()
self.statusb.setStyleSheet(self.s_norm)
if message.find('encrypted')>=0 :
QMessageBox.question(None,'success',"Encrypted succes")
else:
QMessageBox.question(None,'success',"Decrypted succes")
elif message == "# Loading":
self.setCursor(Qt.BusyCursor)
self.statusb.setStyleSheet(self.s_norm)
self.setWindowTitle('safelock ' + self.Version)
self.statusb.showMessage(message)
def mousePressEvent(self, event):
if event.type() == QEvent.Type.MouseButtonDblClick:
if self.Processing is None:
self.aboutMsgg()
else:
self.closeEvent()
def closeEvent(self, event=None):
if self.Processing is not None:
if event is not None:
r = QMessageBox.question(
self,
"Making sure",
"Are you sure you want to exit, during an active" +
" process ?",
QMessageBox.Yes | QMessageBox.No)
else:
r = QMessageBox.question(
self,
"Making sure",
"Are you sure, you to cancel ?",
QMessageBox.Yes | QMessageBox.No)
if r == QMessageBox.Yes:
self.P.stop()
self.cleanup()
if event is not None:
self.in_loop()
event.accept()
else:
self.in_loop()
else:
if event is not None:
event.ignore()
else:
if self.CP is not None:
try:
if path.isfile(self.CP + '-journal'):
remove(self.CP + '-journal')
except:
pass
if event is not None:
event.accept()
def cleanup(self):
if self.CP is not None:
try:
if path.isfile(self.CP + '-journal'):
remove(self.CP + '-journal')
if path.isfile(self.CP):
remove(self.CP)
except:
pass
class SpiderTab(QWidget):
"""Has handlers for spider data and events. It houses the results table of the
spider, controls for the spider and progress indication
It implicitly conforms to IEventHandler interface"""
TIMER_CHECK_INTERVAL = 3000
favicon_received = Signal(str) # send the url or path to the handler, which should be the tab widget
stop_spider_signal = Signal(int)
became_current = Signal(bool) # tell the table it has become active. it's an interesting property for producers!
def __init__(self, parent=None, **kwargs):
super(SpiderTab, self).__init__(parent)
self._event_queue = None
self._data_queue = None
self._engine = None
self._favicon_received = False
self._spider_id = None
self._item_count = 0
self.setContextMenuPolicy(Qt.ContextMenuPolicy.DefaultContextMenu)
self.initInterface(kwargs)
self._context_menu = None
self._setupContextMenu()
self.became_current.connect(self._set_table_activity)
self._queue_check_timer = QTimer()
self._queue_check_timer.setInterval(self.TIMER_CHECK_INTERVAL)
self._queue_check_timer.timeout.connect(self._checkQueues)
self._queue_check_timer.start()
def initInterface(self, kwargs):
layout = QGridLayout()
self._data_table = SearchTable(name=kwargs.get("name"))
self._progress_spider = QProgressBar()
self._label_count = QLabel(self.tr("0 items scraped"))
# make it a busy indicator. you don't know when it'll finish
self._progress_spider.setMinimum(0); self._progress_spider.setMaximum(0)
self._progress_spider.setTextVisible(False)
self._btn_stop_spider = QPushButton(self.tr("Stop Spider"))
self._btn_stop_spider.clicked.connect(self.stop_spider)
row = 0; col = 0;
layout.addWidget(self._data_table, row, col, 1, 4)
row += 1;
layout.addWidget(self._progress_spider, row, col, 1, 1)
col += 1
layout.addWidget(self._label_count, row, col, 1, 2)
col += 2
layout.addWidget(self._btn_stop_spider, row, col, 1, 1)
self.setLayout(layout)
def _setupContextMenu(self):
from visualscrape.lib.data import ActionStore
self._context_menu = QMenu(self)
# get the export action from the action store
action_store = ActionStore.get_instance()
for action in action_store:
if action.get_name() == "export":
export_action = action
break
self._context_menu.addAction(export_action)
def export_table(self):
export_dialog = ExportDialog()
export_dialog.exec_()
export_info = export_dialog.data()
if export_info:
data = self._data_table.get_visible_data()
FileExporter.export(data, self._data_table.name.lower(), export_info.location, export_info.format)
def set_event_queue(self, eq):
self._event_queue = eq
def set_data_queue(self, dq):
self._data_queue = dq
def stop_spider(self):
if self._spider_id is None: # do not stop the the spider before receiving data
pass
else:
if self._queue_check_timer.isActive():
confirm_stop = QMessageBox(self)
confirm_stop.setIcon(QMessageBox.Warning)
confirm_stop.setStandardButtons(QMessageBox.Yes | QMessageBox.No)
confirm_stop.setText(self.tr("Scraping process still running"))
confirm_stop.setDetailedText(self.tr("Are you sure you want to stop it?"))
confirm_stop.setWindowTitle(self.tr("Spider still running"))
ret = confirm_stop.exec_()
if ret == QMessageBox.Yes:
self.stop_spider_signal.emit(self._spider_id)
return True
else: return False # I won't whip you if you stop it accidentally
else: return True # already over
def configure_searchlineedit(self, lineEdit):
self._data_table.configure_search_lineedit(lineEdit)
def _checkQueues(self):
while not self._event_queue.empty():
event = self._event_queue.get(block=False, timeout=0)
if isinstance(event, SpiderClosed):
self._queue_check_timer.stop()
self._progress_spider.setMinimum(0)
self._progress_spider.setMaximum(100)
self._progress_spider.setValue(100)
self._btn_stop_spider.setEnabled(False)
while not self._data_queue.empty():
item = self._data_queue.get(block=False, timeout=0)
if not self._favicon_received: # the first item on the data queue should be the favicon
favicon_data = item["images"][0]
self.favicon_received.emit(favicon_data["path"]) # note that icons are not guaranteed to have a path. Not everybody wants to save images
self._favicon_received = True
self._spider_id = item["_id"]
else:
item.pop("_id") # the table has nothing to do with spider ids
self._data_table.addItem(item)
self._item_count += 1
self._label_count.setText(self.tr("{0:n} items scraped".format(self._item_count)))
def _set_table_activity(self, state):
self._data_table.set_active(state)
class SafeLock(QWidget):
def __init__(self):
super(SafeLock, self).__init__()
main_layout = QVBoxLayout(self)
self.Version = '0.5 beta'
self.s_error = "QStatusBar{color:red;font-weight:1000;}"
self.s_loop = "QStatusBar{color:black;font-weight:1000;}"
self.s_norm = "QStatusBar{color:blue;font-style:italic;"
self.s_norm += "font-weight:500;}"
self.Processing = None
self.CP = None
self.PPbar = None
self.key = None
self.DFiles = []
self.picon = r_path("images/favicon.png")
self.plogo = r_path("images/logo.png")
if name == 'nt':
self.picon = r_path("images\\favicon.png")
self.plogo = r_path("images\\logo.png")
self.icon = QIcon(self.picon)
self.logo = QIcon(self.plogo)
self.center()
self.setStyle()
self.setMW(main_layout)
self.setSB(main_layout)
self.show()
def db(self, password="******", dbname="untitled.sld", dc=True):
eng = create_engine("sqlite:///%s" % dbname,
connect_args={'check_same_thread': False})
Base = declarative_base(bind=eng)
Session = sessionmaker(bind=eng)
session = Session()
class Identifier(Base):
__tablename__ = "identifier"
id = Column(Integer, primary_key=True)
version = Column(Binary)
kvd = Column(Binary)
def __init__(self, version, kvd):
self.id = 0
self.version = version
self.kvd = kvd
class Folder(Base):
__tablename__ = 'folders'
id = Column(Integer, primary_key=True)
path = Column(String)
def __init__(self, path="Empty"):
self.path = path
class File(Base):
__tablename__ = 'files'
id = Column(Integer, primary_key=True)
name = Column(String)
f_id = Column(Integer, ForeignKey('folders.id'), nullable=True)
bb = Column(Binary)
def __init__(self, name="empty", f_id=0, bb=1010):
self.name = name
self.f_id = f_id
self.bb = bb
if dc:
Base.metadata.create_all()
enc = encryptit(
sha256(self.Version).digest(),
sha256(password).digest())
session.add(Identifier(enc[0], enc[1]))
session.commit()
return [eng, Base, session, File, Folder, Identifier, password]
def checkP(self, db):
try:
d = db[2].query(db[5]).filter_by(id=0).first()
if d is not None:
if isenct(self.Version, d.version, db[6], d.kvd):
return True
except:
pass
return False
def setStyle(self):
self.setMaximumWidth(410)
self.setMinimumWidth(410)
self.setMaximumHeight(370)
self.setMinimumHeight(370)
self.setWindowIcon(self.icon)
self.activateWindow()
self.setWindowTitle("safelock " + self.Version)
self.setToolTip("Just drag and drop any files or folders" +
" to ecrypt or a .sld file to decrypt")
self.setAcceptDrops(True)
self.show()
def center(self):
qrect = self.frameGeometry()
cp = QDesktopWidget().availableGeometry().center()
qrect.moveCenter(cp)
self.move(qrect.topLeft())
def setMW(self, ml):
ll = QVBoxLayout()
self.mIcon = QLabel()
self.mIcon.setAlignment(Qt.AlignCenter)
mmicon = self.logo.pixmap(250, 230, QIcon.Active, QIcon.On)
self.mIcon.setPixmap(mmicon)
self.mInst = QLabel(
"<center>(Drag and drop files or folders to encrypt them)<br>" +
"(Drap and drop .sld file to decrypt it)<br>" +
"<u>2GB max single file size to encrypt</u></center>")
font = QFont()
font.setPointSize(13)
font.setBold(True)
font.setWeight(75)
self.fInst = QLabel('<center>| Double-Click for about |</center>')
self.mInst.setFont(font)
ll.addWidget(self.mIcon)
ll.addWidget(self.mInst)
ll.addWidget(self.fInst)
ml.addLayout(ll)
def setSB(self, ml):
self.statusb = QStatusBar()
ml.addWidget(self.statusb)
def modSB(self):
if self.PPbar is None:
self.PPbar = True
self.statusb.clear()
self.pbar = QProgressBar()
self.pbar.setMaximum(100)
self.pbar.setMinimum(0)
self.plabel = QLabel()
self.statusb.addWidget(self.plabel, 0.5)
self.statusb.addWidget(self.pbar, 3)
else:
self.PPbar = None
self.statusb.removeWidget(self.plabel)
self.statusb.removeWidget(self.pbar)
self.statusb.clear()
def saveFile(self, fl):
fname, _ = QFileDialog.getSaveFileName(self, "Save encrypted file", fl,
"Safelock file (*.sld)")
if '.' in fname:
tm = fname.split('.')
tm = tm[len(tm) - 1]
if tm == "sld":
try:
if path.isfile(fname):
remove(fname)
except:
pass
return fname
if len(fname) <= 0:
return None
fname += ".sld"
try:
if path.isfile(fname):
remove(fname)
except:
pass
return fname
def extTo(self, fl):
fname = QFileDialog.getExistingDirectory(self, "Extract files to", fl)
if len(fname) <= 0:
return None
return fname
def getPass(self):
passwd, re = QInputDialog.getText(self, "Password", "Enter password :"******"Something went wrong !"):
QMessageBox.critical(self, "Error", msg)
return True
def aboutMsgg(self):
Amsg = "<center>All credit reserved to the author of "
Amsg += "safelock %s " % self.Version
Amsg += ", This work is a free, open-source project licensed "
Amsg += " under Mozilla Public License version 2.0 . <br><br>"
Amsg += " visit for more info or report:<br> "
Amsg += "<b><a href='https://safe-lock.github.io'> "
Amsg += "https://safe-lock.github.io/ </a> </b></center>"
QMessageBox.about(self, "About", Amsg)
return True
def getSession(self):
self.eng = eng(self.password, self.dbname)
Session = sessionmaker(bind=self.eng)
self.Base = declarative_base(bind=self.eng)
self.Base.metadata.create_all()
self.session = Session()
return self.session
def dragEnterEvent(self, e):
if e.mimeData().hasUrls:
e.accept()
else:
e.ignore()
def dragMoveEvent(self, e):
if e.mimeData().hasUrls:
e.accept()
else:
e.ignore()
def dropEvent(self, e):
if e.mimeData().hasUrls:
e.setDropAction(Qt.CopyAction)
e.accept()
self.DFiles = []
for url in e.mimeData().urls():
try:
if sysname == 'darwin':
from Foundation import NSURL
fname = NSURL.URLWithString_(
url.toString()).filePathURL().path()
else:
fname = url.toLocalFile()
self.DFiles.append(fname)
except:
pass
self.dealD(self.DFiles)
else:
event.ignore()
def in_loop(self):
if self.Processing is None:
self.Processing = True
self.setAcceptDrops(False)
self.mIcon.setEnabled(False)
self.mInst.setEnabled(False)
self.fInst.setText("<center>| Double-Click to cancel |</center>")
self.setToolTip("Double-Click anywhere to cancel")
else:
self.Processing = None
self.setAcceptDrops(True)
self.mIcon.setEnabled(True)
self.mInst.setEnabled(True)
self.fInst.setText("<center>| Double-Click for about |</center>")
self.setToolTip("Just drag and drop any files or folders" +
" to ecrypt or a .sld file to decrypt")
def dealD(self, files):
def tpp(inp):
a = path.basename(inp)
return inp.replace(a, '')
if len(files) < 1:
return False
elif len(files) >= 1:
if len(files) == 1:
tf = files[0].split('.')
tf = tf[len(tf) - 1]
if tf == 'sld':
pw = self.getPass()
if pw is None:
self.errorMsg("You can't set an empty password !")
return False
elif not pw:
return False
if not self.checkP(
self.db(sha256(pw).digest(), files[0], dc=False)):
self.errorMsg("Wrong password entered, try again.")
return False
else:
fold = self.extTo(tpp(files[0]))
if fold is not None:
self.CP = fold
self.in_loop()
self.P = DecryptTH(fold,
self.db(pw, files[0], dc=False),
sha256(pw).digest())
self.P.start()
self.P.somesignal.connect(self.handleStatusMessage)
self.P.setTerminationEnabled(True)
return True
pw = self.getPass()
if pw is None:
self.errorMsg("You can't set an empty password !")
elif not pw:
pass
else:
fil = self.saveFile(tpp(files[0]))
if fil is not None:
if path.isfile(fil):
try:
remove(fil)
except:
pass
self.CP = fil
self.in_loop()
self.P = EncryptTH(files, self.db(pw, fil),
sha256(pw).digest())
self.P.start()
self.P.somesignal.connect(self.handleStatusMessage)
self.P.setTerminationEnabled(True)
return True
@Slot(object)
def handleStatusMessage(self, message):
self.statusb.setStyleSheet(self.s_loop)
def getIT(f, o):
return int((f / o) * 100)
mm = message.split('/')
if mm[len(mm) - 1] == '%':
if self.PPbar is None:
self.modSB()
self.pbar.setValue(getIT(int(mm[0]), int(mm[1])))
self.setWindowTitle("Processing : " +
str(getIT(int(mm[0]), int(mm[1]))) + "%")
self.plabel.setText(mm[0] + '/' + mm[1])
else:
self.unsetCursor()
if self.PPbar is not None:
self.modSB()
if message[:7] == '# Error':
if self.Processing:
self.in_loop()
self.statusb.setStyleSheet(self.s_error)
self.cleanup()
elif message[:6] == '# Stop':
self.statusb.setStyleSheet(self.s_error)
elif message[:6] == '# Done':
if self.Processing:
self.in_loop()
self.statusb.setStyleSheet(self.s_norm)
elif message == "# Loading":
self.setCursor(Qt.BusyCursor)
self.statusb.setStyleSheet(self.s_norm)
self.setWindowTitle('safelock ' + self.Version)
self.statusb.showMessage(message)
def mousePressEvent(self, event):
if event.type() == QEvent.Type.MouseButtonDblClick:
if self.Processing is None:
self.aboutMsgg()
else:
self.closeEvent()
def closeEvent(self, event=None):
if self.Processing is not None:
if event is not None:
r = QMessageBox.question(
self, "Making sure",
"Are you sure you want to exit, during an active" +
" process ?", QMessageBox.Yes | QMessageBox.No)
else:
r = QMessageBox.question(self, "Making sure",
"Are you sure, you to cancel ?",
QMessageBox.Yes | QMessageBox.No)
if r == QMessageBox.Yes:
self.P.stop()
self.cleanup()
if event is not None:
self.in_loop()
event.accept()
else:
self.in_loop()
else:
if event is not None:
event.ignore()
else:
if self.CP is not None:
try:
if path.isfile(self.CP + '-journal'):
remove(self.CP + '-journal')
except:
pass
if event is not None:
event.accept()
def cleanup(self):
if self.CP is not None:
try:
if path.isfile(self.CP + '-journal'):
remove(self.CP + '-journal')
if path.isfile(self.CP):
remove(self.CP)
except:
pass
class MainWindow(QMainWindow):
"""Fenêtre principale du programme"""
def __init__(self):
QMainWindow.__init__(self)
self.setWindowTitle("Main Window")
self.setGeometry(300, 250, 400, 300)
self.setWindowIcon(QIcon('Stock/appicon.png'))
def setupComponent(self):
"""Initialise l'ensemble des éléments de l'application"""
self.setupStatusBar()
self.setupZoneText()
self.setupMenu()
self.setupToolBar()
def setupStatusBar(self):
"""Ajoute une barre de status"""
self.progressBar = QProgressBar()
self.statusLabel = QLabel('Progression ...')
self.progressBar.setMaximum(100)
self.progressBar.setMinimum(0)
self.statusBar = QStatusBar()
# # Affiche un message durant 2 sec après ouverture de l'application
# self.statusBar.showMessage('Please Wait ...', 2000)
self.progressBar.setValue(10)
self.statusBar.addWidget(self.statusLabel, 1)
self.statusBar.addWidget(self.progressBar, 2)
self.setStatusBar(self.statusBar)
def setupZoneText(self):
"""Ajout du widget central (zone de texte)"""
self.textEdit = QTextEdit()
self.setCentralWidget(self.textEdit)
def setupMenu(self):
"""Ajout de menus contextuels"""
self.createActions()
self.createMenu()
self.fileMenu.addAction(self.newAction)
self.fileMenu.addSeparator()
self.fileMenu.addAction(self.exitAction)
self.editMenu.addAction(self.copyAction)
self.editMenu.addSeparator()
self.editMenu.addAction(self.pasteAction)
self.helpMenu.addAction(self.aboutAction)
def setupToolBar(self):
"""Ajout de la barre d'outils"""
self.mainToolBar = self.addToolBar('Main')
self.mainToolBar.addAction(self.newAction)
self.mainToolBar.addSeparator()
self.mainToolBar.addAction(self.copyAction)
self.mainToolBar.addAction(self.pasteAction)
def showProgress(self):
"""Avancement de la barre de progression"""
while self.progressBar.value() < self.progressBar.maximum():
self.progressBar.setValue(self.progressBar.value() + 10)
time.sleep(1 / 10)
# self.statusBar.showMessage('Ready', 2000)
self.statusLabel.setText('Ready !!')
def createMenu(self):
"""Création de la barre de menu avec 3 menus"""
self.fileMenu = self.menuBar().addMenu('&Fichier')
self.editMenu = self.menuBar().addMenu('&Edition')
self.helpMenu = self.menuBar().addMenu('&About')
def createActions(self):
"""Création des différentes actions du menu
'&' permet de surligner une lettre pour acès rapide Alt+lettre
'shortcut' permet de définir le raccourci de l'action du menu
'statusTip' permet de modifier l'affichage dans la barre de status
'triggered' permet de définir l'action à réaliser"""
self.newAction = QAction('&New',
self,
shortcut=QKeySequence.New,
statusTip="Créer un nouveau fichier",
triggered=self.newFile)
self.exitAction = QAction('&Exit',
self,
shortcut="Ctrl+Q",
statusTip="Quitter l'application",
triggered=self.exitFile)
self.copyAction = QAction('&Copy',
self,
shortcut="Ctrl+C",
statusTip="Copier",
triggered=self.textEdit.copy)
self.pasteAction = QAction('&Paste',
self,
shortcut="Ctrl+V",
statusTip="Coller",
triggered=self.textEdit.paste)
self.aboutAction = QAction('&About',
self,
statusTip="Infos à propos de l'éditeur",
triggered=self.aboutHelp)
def newFile(self):
"""Efface le contenu du widget de text"""
self.textEdit.setText('')
def exitFile(self):
"""Ferme le programme"""
self.close()
def aboutHelp(self):
"""Affiche des renseignements sur le logiciel"""
QMessageBox.about(self, "About this application",
"Just a simple text editor using Menu Bar")
class HighwaySimulatorGui(QMainWindow):
def __init__(self):
super(HighwaySimulatorGui, self).__init__()
centralTab = QTabWidget()
mainWidget = QWidget()
self.resultsWidget = HighwayAnalyzeWidget()
centralTab.addTab(mainWidget, 'Run')
centralTab.addTab(self.resultsWidget, 'Analyze')
self.setCentralWidget(centralTab)
centralLayout = QVBoxLayout()
#centralLayout.setSpacing(0)
centralLayout.setAlignment(Qt.AlignTop)
gridWidget = QWidget()
gridLayout = QGridLayout()
gridLayout.setSpacing(0)
gridWidget.setLayout(gridLayout)
mainWidget.setLayout(centralLayout)
self.options = dict()
# GENERAL
generalGroup = QGroupBox('General Settings')
generalGroup.setLayout(QVBoxLayout())
generalGroup.layout().setSpacing(0)
self.pathOption = SimpleOption('path','Output Path','/home/thomas/Dropbox/Keio/research/results/')
generalGroup.layout().addWidget(self.pathOption)
self.scenarioOption = SimpleComboboxOption('scenario','Scenario',1, False, 'vanet-highway-test-thomas','vanet-highway-scenario2')
self.scenarioOption.combo.currentIndexChanged[int].connect(self.scenarioChanged)
generalGroup.layout().addWidget(self.scenarioOption)
self.options['time'] = SimpleSpinOption('time','Simulation Time (sec.)',1500,True)
self.options['time'].setRange(0,3000)
self.options['mix'] = SimpleSpinOption('mix','Percentage of cars compare to trucks (%)',80,True)
self.options['mix'].setRange(0,100)
self.options['gap'] = SimpleSpinOption('gap','Average Gap (m.)',5)
self.options['gap'].setRange(1,2000)
self.options['lane'] = SimpleSpinOption('lane','Number of Lanes',2,True)
self.options['lane'].setRange(2,4)
self.options['spl'] = SimpleSpinOption('spl','Speed Limit (km/h)',130,True)
self.options['spl'].setRange(1,200)
for widget in ('time','mix','gap','lane','spl'):
generalGroup.layout().addWidget(self.options[widget])
gridLayout.addWidget(generalGroup,0,0)
# TRAFFIC
trafficGroup = QGroupBox('Traffic Settings')
trafficGroup.setLayout(QVBoxLayout())
trafficGroup.layout().setSpacing(0)
# m/s = (km/h)*1000/3600
self.options['vel1'] = SimpleSpinOption('vel1','Average Speed (km/h)',105,True)
self.options['vel1'].setRange(5,150)
self.options['dis'] = SimpleComboboxOption('dis','Speed Distribution Model',3, False, 'Uniform','Exponential','Normal','Log Normal')
self.options['spstd'] = SimpleSpinOption('spstd','Speed Distribution Variance',1.0)
self.options['spstd'].setRange(0,50)
self.options['flow1'] = SimpleSpinOption('flow1','Traffic Flow Mean (veh/s)',1.0)
self.options['flow1'].setRange(0.1,50.0)
self.options['std1'] = SimpleSpinOption('std1','Traffic Flow Variance',0.8)
self.options['std1'].setRange(0.1,50.0)
self.options['maxflow'] = SimpleSpinOption('maxflow','Traffic Maximum Flow (veh/s)',5)
self.options['maxflow'].setRange(0.1,50.0)
# Scenar 2
self.options['avgdist'] = SimpleSpinOption('avgdist','Average Distance (m)',100)
self.options['avgdist'].setRange(1,10000)
self.options['avgspeed'] = SimpleSpinOption('avgspeed','Average Speed (km/h)',105)
self.options['avgspeed'].setRange(1,10000)
self.options['despeed'] = SimpleSpinOption('despeed','Desired Speed (km/h)',130)
self.options['despeed'].setRange(1,10000)
self.options['ambumaxspeed'] = SimpleSpinOption('ambumaxspeed','Ambu Max Speed (km/h)',165)
self.options['ambumaxspeed'].setRange(1,10000)
self.options['ambuinitspeed'] = SimpleSpinOption('ambuinitspeed','Ambu Initial Speed (km/h)',130)
self.options['ambuinitspeed'].setRange(1,10000)
for widget in ('vel1','dis','spstd','flow1','std1','maxflow',
'avgdist', 'avgspeed', 'despeed', 'ambumaxspeed', 'ambuinitspeed'):
trafficGroup.layout().addWidget(self.options[widget])
self.scenarioChanged(self.scenarioOption.combo.currentIndex())
gridLayout.addWidget(trafficGroup,0,1)
# VANET
vanetGroup = QGroupBox('VANET Settings')
vanetGroup.setLayout(QVBoxLayout())
vanetGroup.layout().setSpacing(0)
# self.options['prate'] = SimpleSpinOption('prate','Penetration Rate of VANET (%)',100,True)
# self.options['prate'].setRange(0,100)
self.options['prate'] = 0 # start with 0
self.options['pw'] = SimpleSpinOption('pw','Transmission Power (dBm)',21.5)
self.options['pw'].setRange(10,50)
#for widget in ('prate','pw'):
for widget in ('pw',):
vanetGroup.layout().addWidget(self.options[widget])
gridLayout.addWidget(vanetGroup,1,0)
# BATCH SETTINGS
batchGroup = QGroupBox("Batch Settings")
batchGroup.setLayout(QVBoxLayout())
self.gapPrateOption = SimpleSpinOption('gapPrate', 'VANET percentage rate gap', 10, integer=True)
self.sameSimuTimesOption = SimpleSpinOption('sameSimuTimes', 'How many times the same simulation', 100, integer=True)
batchGroup.layout().setSpacing(0)
batchGroup.layout().addWidget(self.gapPrateOption)
batchGroup.layout().addWidget(self.sameSimuTimesOption)
gridLayout.addWidget(batchGroup,1,1)
# START SIMU
centralLayout.addWidget(gridWidget)
self.startButton = QPushButton('START')
self.startButton.clicked.connect(self.startSimu)
centralLayout.addWidget(self.startButton)
self.progressBar = QProgressBar()
centralLayout.addWidget(self.progressBar)
self.shutdownWhenDone = QCheckBox('Shutdown when done')
self.actionWhenDone = QComboBox()
self.actionWhenDone.addItems(['When finished... do nothing', 'When finished... shutdown the computer', 'When finished... Re-run the simulations!'])
self.actionWhenDone.setCurrentIndex(int(QSettings().value('actionWhenDone', 0)))
centralLayout.addWidget(self.actionWhenDone)
self.infoLabel = QLabel()
centralLayout.addWidget(self.infoLabel)
# LOG
self.logText = QTextBrowser()
self.logText.setFont(QFont('Century Gothic', 7))
centralLayout.addWidget(self.logText)
self.setWindowTitle('Nishimura Lab | Highway Simulation')
#self.resize(520,len(self.options)*60+100)
#self.resultFile = open('/home/thomas/Dropbox/Keio/research/results/summary.txt', 'a')
#self.resultFile = os.path.join(self.pathOption.getValue(), 'summary.txt')
self.logFile = os.path.join(self.pathOption.getValue(), 'results_'+os.uname()[1]+'.log')
@Slot(int)
def scenarioChanged(self, index):
#print index
scenar1options = ['gap', 'vel1', 'dis', 'flow1', 'std1','spstd', 'maxflow']
scenar2options = ['avgdist', 'avgspeed', 'despeed', 'ambumaxspeed', 'ambuinitspeed']
if index==0: # first scenario
scenar1 = True
scenar2 = False
else:
scenar1 = False
scenar2 = True
for option in scenar1options:
self.options[option].setVisible(scenar1)
for option in scenar2options:
self.options[option].setVisible(scenar2)
def log(self, txt):
toLog = '%s | %s' % (datetime.now(), txt)
with open(self.logFile, 'a') as logFile:
logFile.write(toLog+'\n')
self.logText.append(toLog)
def blockUi(self):
self.startButton.setEnabled(False)
self.scenarioOption.setEnabled(False)
for option in self.options:
if option!='prate':
self.options[option].setEnabled(False)
def releaseUi(self):
self.startButton.setEnabled(True)
self.scenarioOption.setEnabled(True)
self.startButton.setText('START')
for option in self.options:
if option!='prate':
self.options[option].setEnabled(True)
def startSimu(self):
self.log("=== SIMULATIONS START ===")
self.logText.clear()
self.startTime = datetime.now()
self.simulations = []
#self.nextPrate = 0
self.gapPrate = self.gapPrateOption.getValue()
self.sameSimuTimes = self.sameSimuTimesOption.getValue()
#self.nextSimu = 0
self.blockUi()
self.simulationsDone = 0
#output = self.pathOption.getValue() + dateToFilename(d) + '_results.txt'
pRate = 0
self.simulationsTotal = 0
# print 'sameSimuTimes: %d'%self.sameSimuTimes
# print 'gapPrate: %d'%self.gapPrate
while pRate <= 100:
simu = 0
self.options['prate'] = pRate
while simu<self.sameSimuTimes:
waf = WafThread(self.options, self.pathOption.getValue(), self.scenarioOption.getName())
waf.setAutoDelete(True)
waf.simuDone.connect(self.wafDone)
self.simulations.append(waf)
QThreadPool.globalInstance().start(waf)
self.simulationsTotal += 1
simu += 1
pRate += self.gapPrate
runningSimulations = 'Running %d Simulations...' % self.simulationsTotal
self.startButton.setText(runningSimulations)
self.log(runningSimulations)
self.progressBar.setRange(0,self.simulationsTotal)
self.progressBar.setValue(0)
# 300 seconds per task average
roughTime = self.simulationsTotal*self.resultsWidget.averageSimulationTime/QThreadPool.globalInstance().maxThreadCount()
self.infoLabel.setText('Rough time estimation: %s' % formatTimeLeft(roughTime))
@Slot(str)
def wafDone(self, outputPath):
#print 'thread done!\nReceived:'
self.simulationsDone += 1
simulationsLeft = self.simulationsTotal-self.simulationsDone
with open(outputPath,'r') as out:
r = json.loads(out.read())
out.close()
if 'timeToReachDest' in r['results']:
try:
result = "%3.3d\t%f" % (int(r['settings']['prate']),float(r['results']['timeToReachDest']))
except TypeError, e:
result = 'PYTHON ERROR: %s | File: %s' % (e, outputPath)
print result
print r
else:
class OtpOperations(object):
def __init__(self):
self.verbose = True
self.address_increment_disable_reg = REGISTERS_BY_OFFSET_DICT[ADDRESS_AUTO_INCREMENT_ADDR]
self.supervisor_disable_reg = REGISTERS_BY_OFFSET_DICT[SUPERVISOR_DISABLE_ADDR]
self.supervisor_state_reg = REGISTERS_BY_OFFSET_DICT[SUPERVISOR_STATE_ADDR]
self.regulator_poc_reg = REGISTERS_BY_OFFSET_DICT[REGULATOR_POC_ADDR]
self.otp_addr_reg = REGISTERS_BY_OFFSET_DICT[OTP_A_ADDR]
self.otp_d_reg = REGISTERS_BY_OFFSET_DICT[OTP_D_ADDR]
self.otp_q_reg = REGISTERS_BY_OFFSET_DICT[OTP_Q_ADDR]
self.otp_ctl_reg = REGISTERS_BY_OFFSET_DICT[OTP_CTL_ADDR]
self.vg_ctl_reg = REGISTERS_BY_OFFSET_DICT[VG_CTL_ADDR]
self.vg_mpp_reg = REGISTERS_BY_OFFSET_DICT[VG_MPP_ADDR]
self.vg_mrr_h_reg = REGISTERS_BY_OFFSET_DICT[VG_MRR_H_ADDR]
self.vg_mrr_l_reg = REGISTERS_BY_OFFSET_DICT[VG_MRR_L_ADDR]
self.OTP_bytes=[]
self.regulator_trim_reg = REGISTERS_BY_OFFSET_DICT[BYTE003]
def loadWindow(self,wind):
self.window=QMainWindow()
self.window=wind
self.progressBar=QProgressBar(self.window)
self.progressBar.setGeometry(600, 660, 150, 15)
def otp_disable(self):
self.vg_ctl_reg.set_and_upload(0x00)
self.otp_ctl_reg.set_and_upload(0x00)
return
def otp_operations_preps_are_complete(self, forcing=False):
# first, check that the supervisor is disabled
success, readback, log_string, log_color = self.supervisor_disable_reg.download_and_overwrite()
if (readback & SUPERVISOR_DISABLE) == 0x00:
UI.log('supervisor is not disabled', Qt.red)
if not forcing:
UI.log('....aborting!', Qt.red)
return False
else:
UI.log('....override is ON', Qt.red)
UI.log('....continuing!', Qt.red)
# then, get the supervisor state, REG1 POC, and REG3 POC
success, readback, log_string, log_color = self.supervisor_state_reg.download_and_overwrite()
if (readback & SUPERVISOR_STATE) != 0x00:
UI.log('supervisor is ACTIVE!', Qt.red)
if not forcing:
UI.log('....aborting!', Qt.red)
return False
else:
UI.log('....override is ON', Qt.red)
UI.log('....continuing!', Qt.red)
# then, get the regulator POC bits
success, readback, log_string, log_color = self.regulator_poc_reg.download_and_overwrite()
if (readback & REGULATOR_POC) != 0x00:
UI.log('at least one regulator is POWERED-DOWN', Qt.red)
if not forcing:
UI.log('....aborting!', Qt.red)
return False
else:
UI.log('....override is ON', Qt.red)
UI.log('....continuing!', Qt.red)
# finally, set the regulator voltage if required
self.regulator_trim_reg.set_and_upload(VREG_SETUP)
return True
def otp_read_setup(self, vg_mrr):
self.vg_mrr_h_reg.set_and_upload(0x00)
self.vg_mrr_l_reg.set_and_upload(vg_mrr & 0xFF)
self.vg_ctl_reg.set_and_upload(VG_DBEN | VG_VRREN)
self.otp_ctl_reg.set_and_upload(CK_ONESHOT_EN | OTP_TEST_EN | OTP_SEL)
return
def otp_write_setup(self):
self.vg_mpp_reg.set_and_upload(0x00)
self.vg_mrr_h_reg.set_and_upload(0x00)
self.vg_mrr_l_reg.set_and_upload(VRR0 & 0xFF)
self.vg_ctl_reg.set_and_upload(VG_VRREN | VG_VPPEN) # note read voltage must be enabled even for write
self.otp_ctl_reg.set_and_upload(OTP_VCC_EXT_EN | OTP_TEST_EN | OTP_SEL)
self.otp_ctl_reg.set_and_upload(OTP_VCC_EXT_EN | OTP_TEST_EN | OTP_WE | OTP_SEL)
return
def otp_write_clk_180(self):
# print "write_180"
data_otp_ck_high = (OTP_VCC_EXT_EN | OTP_TEST_EN | OTP_WE | OTP_SEL | OTP_CK)
data_otp_ck_low = (OTP_VCC_EXT_EN | OTP_TEST_EN | OTP_WE | OTP_SEL)
databytes = [data_otp_ck_high, data_otp_ck_low, ]
UI.process_events()
# time.sleep(2)
SERIAL_CHANNELS.current_channel.smbus_block_write(OTP_CTL_ADDR, databytes)
return
def otp_write_clk_2000(self):
# print "write_2000"
data_otp_ck_high = (OTP_VCC_EXT_EN | OTP_TEST_EN | OTP_WE | OTP_SEL | OTP_CK)
data_otp_ck_low = (OTP_VCC_EXT_EN | OTP_TEST_EN | OTP_WE | OTP_SEL)
databytes = []
for i in range(10):
databytes.append(data_otp_ck_high)
databytes.append(data_otp_ck_low)
UI.process_events()
# time.sleep(2)
SERIAL_CHANNELS.current_channel.smbus_block_write(OTP_CTL_ADDR, databytes)
return
def otp_read_atom(self, offset):
"""
otp_setup_for_read must be first called with the correct VG_MRR voltage
"""
self.otp_addr_reg.set_and_upload(offset & 0x7F)
self.otp_ctl_reg.set_and_upload(CK_ONESHOT_EN | OTP_TEST_EN | OTP_SEL | OTP_CK)
self.otp_ctl_reg.set_and_upload(CK_ONESHOT_EN | OTP_TEST_EN | OTP_SEL)
success, readback, log_strng, log_color = self.otp_q_reg.download_and_overwrite()
return success, readback, log_strng, log_color
def otp_read_range(self, read_range=None, forcing=False, overwrite_queue=False):
"""
check the supervisor and regulator states, then if they are OK,
iterate on a read of all OTP registers of the device
"""
UI.process_events()
self.OTP_bytes[:]=[]
if not self.otp_operations_preps_are_complete(forcing=forcing):
return
# setup the OTP for reading
UI.log('enabling OTP for read')
self.otp_read_setup(VRR0) # use "normal" read voltage
UI.progressBar.setVisible(True)
UI.progressBar.setMinimum(0)
UI.progressBar.setMaximum(len(OTPBYTES_BY_OFFSET_DICT))
count = 0
UI.progressBar.setValue(count)
self.progressBar.setVisible(True)
self.progressBar.setMinimum(0)
self.progressBar.setMaximum(len(OTPBYTES_BY_OFFSET_DICT))
count = 0
self.progressBar.setValue(count)
UI.process_events()
# loop over the range of registers, reading both "banks" or versions
UI.log('reading device OTP')
if read_range is None:
working_read_range = range(0x00, 0x80)
else:
working_read_range = read_range
for offset in working_read_range:
otp_reg = OTPBYTES_BY_OFFSET_DICT[offset]
count += 1
if (count % 5) == 0:
UI.progressBar.setValue(count)
self.progressBar.setValue(count)
UI.process_events()
success, readback, log_strng, log_color = self.otp_read_atom(offset)
if success:
otp_reg.current_active_val = readback
readback_string = number_to_hex_string(readback, 2)
otp_reg.active_hex_item.setText(readback_string)
if overwrite_queue:
otp_reg.update_bits_from_readback(readback)
string = "offset=" + number_to_hex_string(offset, 2) + " / data=" + number_to_hex_string(readback, 2)
self.OTP_bytes.append(number_to_hex_string(readback, 2))
UI.log(string)
else:
UI.log(log_strng, log_color)
self.otp_disable()
UI.log('OTP read finished')
UI.progressBar.setVisible(False)
self.progressBar.setVisible(False)
return
def otp_write_one_byte_from_queue_atom(self, offset, bit_position_list):
bits_programmed = []
# offset should already be in this register, but just to be sure
self.otp_addr_reg.set_and_upload(offset)
for bit_pos in bit_position_list:
# set the data bit at the correct position (all others 0)
# and program the bit for 180 us
self.otp_d_reg.set_and_upload(2**bit_pos & 0xFF) # DATA = 8-bit one hot value
self.otp_write_setup()
self.otp_write_clk_180()
count = 1
bit_programmed = False
while count < 10:
# read the byte using VRR1, and check the bit which was just programmed
self.otp_read_setup(VRR1)
success, readback, log_strng, log_color = self.otp_read_atom(offset)
if readback & 2**bit_pos != 0:
read_passed = True
else:
read_passed = False
if read_passed and count > 1:
bit_programmed = True
break
# program the bit for 2000 us
self.otp_write_setup()
self.otp_write_clk_2000()
count += 1
# read the byte using VRR2, and check the bit which was just programmed
self.otp_read_setup(VRR2)
success, readback, log_strng, log_color = self.otp_read_atom(offset)
if readback & 2**bit_pos != 0:
bit_programmed = True
break
bits_programmed.append(bit_programmed)
UI.log("count="+str(count))
self.otp_disable()
return bits_programmed
def otp_write_range(self, write_rng, forcing=False):
"""
check the supervisor and regulator states, then if they are OK,
iterate on a write of all OTP registers in the bank chosen
"""
errorFlag=False
if not self.otp_operations_preps_are_complete(forcing=forcing):
return
# for OTP write, we need to make sure that the auto-increment bit is DISABLED
success, readback, log_string, log_color = self.address_increment_disable_reg.download_and_overwrite()
if (readback & ADDRESS_AUTO_INCREMENT_DISABLE) == 0x00:
UI.log("address auto-increment bit is not set....setting it")
self.address_increment_disable_reg.set_and_upload(readback | ADDRESS_AUTO_INCREMENT_DISABLE)
if (readback & ADDRESS_AUTO_INCREMENT_DISABLE) == 0x00:
UI.log('address auto-increment bit is not disabled', Qt.red)
UI.log('....aborting!', Qt.red)
return
UI.progressBar.setVisible(True)
UI.progressBar.setMinimum(0)
UI.progressBar.setMaximum(len(OTPBYTES_BY_OFFSET_DICT))
count = 0
UI.progressBar.setValue(count)
UI.process_events()
progress_count = 0
self.progressBar.setVisible(True)
self.progressBar.setMinimum(0)
self.progressBar.setMaximum(len(OTPBYTES_BY_OFFSET_DICT))
count = 0
self.progressBar.setValue(count)
for offset in write_rng:
# get the data to be written
# get the write data
otp_reg = OTPBYTES_BY_OFFSET_DICT[offset]
write_data = otp_reg.current_queue_val
# get the current OTP contents, reading the OTP with vrr0 (normal)
self.otp_read_setup(VRR0)
success, readback, log_strng, log_color = self.otp_read_atom(offset)
# put that readback into the OTP register table (or not)
if success:
otp_reg.current_active_val = readback
readback_string = number_to_hex_string(readback, 2)
otp_reg.active_hex_item.setText(readback_string)
else:
UI.log(log_strng, log_color)
break
# make a list of the bits that have to be written
# OTP starts out as a zero, so we don't have to program 0's,
# and we write only 1's where the OTP is not already a 1
failed = False
bit_position_list = []
for i in range(8):
if (write_data & 2**i) != 0 and (readback & 2**i) == 0:
bit_position_list.append(i)
if (write_data & 2**i) == 0 and (readback & 2**i) != 0:
UI.log("OTP bit #"+str(i)+"cannot be UNset", Qt.red)
failed = True
break
if failed:
string = "OTP write halted"
UI.log(string, Qt.red)
errorFlag=True
break
string = "writing offset=" + str(offset) + ", bits=["
for bit_position in bit_position_list:
string += str(bit_position) + ","
string += "]"
UI.log(string)
bits_programmed = self.otp_write_one_byte_from_queue_atom(offset, bit_position_list)
if not all(bits_programmed):
string = "OTP write failed"
errorFlag=True
UI.log(string, Qt.red)
break
progress_count += 1
if (progress_count % 5) == 0:
UI.progressBar.setValue(progress_count)
self.progressBar.setValue(progress_count)
UI.process_events()
UI.log('disabling OTP write mode')
self.otp_disable()
UI.log('OTP write finished')
UI.progressBar.setVisible(False)
self.progressBar.setVisible(False)
if errorFlag==True:
return 0
return 1
class MyMDIApp(QMainWindow):
def __init__(self):
super(MyMDIApp, self).__init__()
self.setGeometry(50, 40, 1200, 960)
# self.setAcceptDrops(True)
self.filelist = []
# ====================================
# UIの生成
# ====================================
# :: MDIワークスペースのインスタンス化
self.workspace = QWorkspace()
self.workspace.setWindowTitle("Simple WorkSpace Exmaple")
# :: lite_listview
self.lite_listview = LiteListView()
self.lite_listview.addItems(["abc", "def", "ghi", "jkl"])
self.lite_listview.resize(150, 300)
self.workspace.addWindow(self.lite_listview)
# :: ボタンs
layout = QHBoxLayout()
self.btn_ana = QPushButton("Analysis")
self.btn_plot = QPushButton("Plot")
self.btn_save = QPushButton("Save")
layout.addWidget(self.btn_ana)
layout.addWidget(self.btn_plot)
layout.addWidget(self.btn_save)
self.btn_wid = QWidget()
self.btn_wid.setWindowTitle("Feauters Analysis")
self.btn_wid.setLayout(layout)
self.workspace.addWindow(self.btn_wid)
# :: Figure.FigureImapctAndHarmonic
# : FIH用FigureCanvasグラフオブジェクト
self.fig_impandharm = FigureImapctAndHarmonic()
self.fig_impandharm.setWindowTitle("Figure Impact & Harmonic")
self.workspace.addWindow(self.fig_impandharm)
self.fig_impandharm.close()
# : 以下コントローラ
layout2 = QHBoxLayout()
self.fih_label = QLabel()
self.fih_label.setText(self.tr("Impact & Harm"))
self.fih_btn_ana = QPushButton("Analysis")
self.fih_btn_plot = QPushButton("Plot")
self.fih_btn_save = QPushButton("Save")
layout2.addWidget(self.fih_label)
layout2.addWidget(self.fih_btn_ana)
layout2.addWidget(self.fih_btn_plot)
layout2.addWidget(self.fih_btn_save)
self.btn_wid2 = QWidget()
self.btn_wid2.setWindowTitle("Imapct & Harm")
self.btn_wid2.setLayout(layout2)
self.workspace.addWindow(self.btn_wid2)
self.fih_btn_ana.clicked.connect(self.run_FIH_analysis)
self.fih_btn_plot.clicked.connect(self.run_FIH_plot)
self.fih_btn_save.clicked.connect(self.fig_impandharm.save)
# :: キャンバス
self.sig_canvas = SignalDataCanvas()
# self.sig_canvas.setWindowTitle(self.tr(u"特徴量グラフ"))
self.sig_canvas.setWindowTitle(u"特徴量グラフ")
self.workspace.addWindow(self.sig_canvas)
self.sig_canvas.close()
# :: ステータスバー
self.myStatusBar = QStatusBar()
self.setStatusBar(self.myStatusBar)
self.myStatusBar.showMessage('Ready', 1000)
# :: プログラスバー
self.progressBar = QProgressBar()
self.myStatusBar.addPermanentWidget(self.progressBar)
self.progressBar.reset()
self.progressBar.setVisible(False)
self.progressBar.setValue(0)
# :: MainWidgetに追加
# self.workspace.tile()
self.setCentralWidget(self.workspace)
self.setCSS()
# ====================================
# シグナルスロットのコネクト
# ====================================
# lite_listview
self.lite_listview.fileDropped.connect(self.set_filelist)
self.lite_listview.clicked.connect(self.file_selected)
# Analysisボタンで解析実行
self.btn_ana.clicked.connect(self.run_analysis)
self.btn_plot.clicked.connect(self.run_plot)
# *****************************************************
# ファイルインプット用スロット
# *****************************************************
@Slot()
def file_selected(self, index):
"""listviewがクリックされたときの動作"""
selected_stritem = index.data(Qt.DisplayRole)
s = "Clicked[%d] : %r" % (index.row(), selected_stritem)
self.flush(s)
@Slot()
def set_filelist(self, file_list):
self.filelist = file_list
self.flush("Load File List")
# *****************************************************
# Window2: インパクト音&自由振動音解析用
# *****************************************************
@Slot()
def run_FIH_analysis(self):
"""解析データの受け渡し用中間スロット"""
self.flush("> (QThread) run analysis")
self.p2 = thread_analysis_imp_and_hrm()
self.p2.set_option(self.filelist)
self.p2.progress.connect(self.progress)
self.p2.start()
@Slot()
def run_FIH_plot(self):
res = self.p2.get_result()
self.fig_impandharm.plot(resuls=res)
pass
# *****************************************************
# Window1: 全データ統計解析用
# *****************************************************
@Slot()
def run_analysis(self):
"""特徴量算出アルゴリズム実行"""
self.flush("> (QThread) run analysis")
self.p = thProcess()
self.p.set_option(self.filelist)
self.p.progress.connect(self.progress)
self.p.start()
@Slot()
def run_plot(self):
"""特徴量マップの表示"""
# ; データ取得
# res = array(self.result)
res = array(self.p.get_result())
# :
canvas = BubleChartCanvas()
self.workspace.addWindow(canvas)
canvas.show()
# グラフプロット
names = [os.path.basename(p) for p in self.filelist]
canvas.bubbleplot(xdata=res[:, 0], data=res[:, 1], names=names)
canvas.set_xlabel("Katasa").set_ylabel("Matomari").canvas_update()
# *****************************************************
# 共通関数
# *****************************************************
def flush(self, s, ms=1):
maxlen = 50
if len(s) > maxlen:
s = s[:10] + "..." + s[-maxlen:]
self.myStatusBar.showMessage(s, ms * 1000)
def progress(self, value=None):
if value < 0:
self.progressBar.reset()
self.progressBar.setVisible(False)
if value >= 0:
self.progressBar.setVisible(True)
self.progressBar.setValue(value)
def setCSS(self):
"""cssを読みこんでセット """
with open(CSS_PATH, "r") as f:
self.setStyleSheet("".join(f.readlines()))
class MainWindow(QMainWindow):
"""Fenêtre principale du programme"""
def __init__(self):
QMainWindow.__init__(self)
self.setWindowTitle("Main Window")
self.setGeometry(300, 250, 400, 300)
self.setWindowIcon(QIcon('Stock/appicon.png'))
def setupComponent(self):
"""Initialise l'ensemble des éléments de l'application"""
self.setupStatusBar()
self.setupZoneText()
self.setupMenu()
self.setupToolBar()
def setupStatusBar(self):
"""Ajoute une barre de status"""
self.progressBar = QProgressBar()
self.statusLabel = QLabel('Progression ...')
self.progressBar.setMaximum(100)
self.progressBar.setMinimum(0)
self.statusBar = QStatusBar()
# # Affiche un message durant 2 sec après ouverture de l'application
# self.statusBar.showMessage('Please Wait ...', 2000)
self.progressBar.setValue(10)
self.statusBar.addWidget(self.statusLabel, 1)
self.statusBar.addWidget(self.progressBar, 2)
self.setStatusBar(self.statusBar)
def setupZoneText(self):
"""Ajout du widget central (zone de texte)"""
self.textEdit = QTextEdit()
self.setCentralWidget(self.textEdit)
def setupMenu(self):
"""Ajout de menus contextuels"""
self.createActions()
self.createMenu()
self.fileMenu.addAction(self.newAction)
self.fileMenu.addSeparator()
self.fileMenu.addAction(self.exitAction)
self.editMenu.addAction(self.copyAction)
self.editMenu.addSeparator()
self.editMenu.addAction(self.pasteAction)
self.helpMenu.addAction(self.aboutAction)
def setupToolBar(self):
"""Ajout de la barre d'outils"""
self.mainToolBar = self.addToolBar('Main')
self.mainToolBar.addAction(self.newAction)
self.mainToolBar.addSeparator()
self.mainToolBar.addAction(self.copyAction)
self.mainToolBar.addAction(self.pasteAction)
def showProgress(self):
"""Avancement de la barre de progression"""
while self.progressBar.value() < self.progressBar.maximum():
self.progressBar.setValue(self.progressBar.value() + 10)
time.sleep(1/10)
# self.statusBar.showMessage('Ready', 2000)
self.statusLabel.setText('Ready !!')
def createMenu(self):
"""Création de la barre de menu avec 3 menus"""
self.fileMenu = self.menuBar().addMenu('&Fichier')
self.editMenu = self.menuBar().addMenu('&Edition')
self.helpMenu = self.menuBar().addMenu('&About')
def createActions(self):
"""Création des différentes actions du menu
'&' permet de surligner une lettre pour acès rapide Alt+lettre
'shortcut' permet de définir le raccourci de l'action du menu
'statusTip' permet de modifier l'affichage dans la barre de status
'triggered' permet de définir l'action à réaliser"""
self.newAction = QAction('&New', self, shortcut=QKeySequence.New,
statusTip="Créer un nouveau fichier",
triggered=self.newFile)
self.exitAction = QAction('&Exit', self, shortcut="Ctrl+Q",
statusTip="Quitter l'application",
triggered=self.exitFile)
self.copyAction = QAction('&Copy', self, shortcut="Ctrl+C",
statusTip="Copier",
triggered=self.textEdit.copy)
self.pasteAction = QAction('&Paste', self, shortcut="Ctrl+V",
statusTip="Coller",
triggered=self.textEdit.paste)
self.aboutAction = QAction('&About', self,
statusTip="Infos à propos de l'éditeur",
triggered=self.aboutHelp)
def newFile(self):
"""Efface le contenu du widget de text"""
self.textEdit.setText('')
def exitFile(self):
"""Ferme le programme"""
self.close()
def aboutHelp(self):
"""Affiche des renseignements sur le logiciel"""
QMessageBox.about(self, "About this application",
"Just a simple text editor using Menu Bar")
class TransferPanel(QWidget):
'''
Transfer Panel
This Panel is the main dialog box for the Dive Computer Transfer GUI
'''
def __init__(self, parent=None):
super(TransferPanel, self).__init__(parent)
self._logbook = None
self._logbookName = 'None'
self._logbookPath = None
self._createLayout()
self._readSettings()
self.setWindowTitle(self.tr('DC Transfer - %s') % self._logbookName)
def _createLayout(self):
'Create the Widget Layout'
self._txtLogbook = QLineEdit()
self._txtLogbook.setReadOnly(True)
self._lblLogbook = QLabel(self.tr('&Logbook File:'))
self._lblLogbook.setBuddy(self._txtLogbook)
self._btnBrowse = QPushButton('...')
self._btnBrowse.clicked.connect(self._btnBrowseClicked)
self._btnBrowse.setStyleSheet('QPushButton { min-width: 24px; max-width: 24px; }')
self._btnBrowse.setToolTip(self.tr('Browse for a Logbook'))
self._cbxComputer = QComboBox()
self._lblComputer = QLabel(self.tr('Dive &Computer:'))
self._lblComputer.setBuddy(self._cbxComputer)
self._btnAddComputer = QPushButton(QPixmap(':/icons/list-add.png'), self.tr(''))
self._btnAddComputer.setStyleSheet('QPushButton { min-width: 24px; min-height: 24; max-width: 24px; max-height: 24; }')
self._btnAddComputer.clicked.connect(self._btnAddComputerClicked)
self._btnRemoveComputer = QPushButton(QPixmap(':/icons/list-remove.png'), self.tr(''))
self._btnRemoveComputer.setStyleSheet('QPushButton { min-width: 24px; min-height: 24; max-width: 24px; max-height: 24; }')
self._btnRemoveComputer.clicked.connect(self._btnRemoveComputerClicked)
hbox = QHBoxLayout()
hbox.addWidget(self._btnAddComputer)
hbox.addWidget(self._btnRemoveComputer)
gbox = QGridLayout()
gbox.addWidget(self._lblLogbook, 0, 0)
gbox.addWidget(self._txtLogbook, 0, 1)
gbox.addWidget(self._btnBrowse, 0, 2)
gbox.addWidget(self._lblComputer, 1, 0)
gbox.addWidget(self._cbxComputer, 1, 1)
gbox.addLayout(hbox, 1, 2)
gbox.setColumnStretch(1, 1)
self._pbTransfer = QProgressBar()
self._pbTransfer.reset()
self._txtStatus = QTextEdit()
self._txtStatus.setReadOnly(True)
self._btnTransfer = QPushButton(self.tr('&Transfer Dives'))
self._btnTransfer.clicked.connect(self._btnTransferClicked)
self._btnExit = QPushButton(self.tr('E&xit'))
self._btnExit.clicked.connect(self.close)
hbox = QHBoxLayout()
hbox.addWidget(self._btnTransfer)
hbox.addStretch()
hbox.addWidget(self._btnExit)
vbox = QVBoxLayout()
vbox.addLayout(gbox)
vbox.addWidget(self._pbTransfer)
vbox.addWidget(self._txtStatus)
vbox.addLayout(hbox)
self.setLayout(vbox)
def _closeLogbook(self):
'Close the current Logbook'
if self._logbook is None:
return
self._logbook = None
self._logbookName = 'None'
self._logbookPath = None
self._txtLogbook.clear()
self._cbxComputer.setModel(None)
self._writeSettings()
self.setWindowTitle(self.tr('DC Transfer - %s') % self._logbookName)
def _openLogbook(self, path):
'Open an existing Logbook'
if self._logbook is not None:
self._closeLogbook()
if not os.path.exists(path):
QMessageBox.critical(self, self.tr('Missing Logbook'),
self.tr('Logbook File "%s" does not exist.') % path)
return
#TODO: Handle a Schema Upgrade in a user-friendly manner
self._logbook = Logbook(path, auto_update=False)
self._logbookName = os.path.basename(path)
self._logbookPath = path
self._txtLogbook.setText(self._logbookPath)
self._cbxComputer.setModel(DiveComputersModel(self._logbook))
self._writeSettings()
self.setWindowTitle(self.tr('DC Transfer - %s') % self._logbookName)
def _readSettings(self):
'Read main window settings from the configuration'
settings = QSettings()
settings.beginGroup('MainWindow')
max = settings.value('max')
size = settings.value('size')
pos = settings.value('pos')
file = settings.value('file')
settings.endGroup()
# Size and Position the Main Window
if size is not None:
self.resize(size)
if pos is not None:
self.move(pos)
# HAX because QVariant is not exposed in PySide and the default
# coercion to string is just stupid
if max is not None and (max == 'true'):
self.showMaximized()
# Open the Logbook
if file is not None:
self._openLogbook(file)
def _writeSettings(self):
'Write settings to the configuration'
settings = QSettings()
settings.beginGroup('MainWindow')
settings.setValue('pos', self.pos())
settings.setValue('size', self.size())
settings.setValue('max', self.isMaximized())
settings.setValue('file', self._logbookPath)
settings.endGroup()
def closeEvent(self, e):
'Intercept an OnClose event'
self._writeSettings()
e.accept()
#--------------------------------------------------------------------------
# Slots
@QtCore.Slot()
def _btnAddComputerClicked(self):
'Add a Dive Computer'
dc = AddDiveComputerWizard.RunWizard(self)
if dc is not None:
self._logbook.session.add(dc)
self._logbook.session.commit()
self._cbxComputer.model().reload()
self._cbxComputer.setCurrentIndex(self._cbxComputer.findText(dc.name))
@QtCore.Slot()
def _btnRemoveComputerClicked(self):
'Remove a Dive Computer'
idx = self._cbxComputer.currentIndex()
dc = self._cbxComputer.itemData(idx, Qt.UserRole+0)
if QMessageBox.question(self, self.tr('Delete Dive Computer?'),
self.tr('Are you sure you want to delete "%s"?') % dc.name,
QMessageBox.Yes | QMessageBox.No, QMessageBox.Yes) == QMessageBox.Yes:
self._logbook.session.delete(dc)
self._logbook.session.commit()
self._cbxComputer.model().reload()
@QtCore.Slot()
def _btnBrowseClicked(self):
'Browse for a Logbook File'
if self._logbook is not None:
dir = os.path.dirname(self._logbookPath)
else:
dir = os.path.expanduser('~')
fn = QFileDialog.getOpenFileName(self,
caption=self.tr('Select a Logbook file'), dir=dir,
filter='Logbook Files (*.lbk);;All Files(*.*)')[0]
if fn == '':
return
if not os.path.exists(fn):
if QMessageBox.question(self, self.tr('Create new Logbook?'),
self.tr('Logbook "%s" does not exist. Would you like to create it?') % os.path.basename(fn),
QMessageBox.Yes | QMessageBox.No, QMessageBox.Yes) != QMessageBox.Yes:
return
Logbook.Create(fn)
self._openLogbook(fn)
@QtCore.Slot()
def _btnTransferClicked(self):
'Transfer Dives'
idx = self._cbxComputer.currentIndex()
dc = self._cbxComputer.itemData(idx, Qt.UserRole+0)
if self._logbook.session.dirty:
print "Flushing dirty session"
self._logbook.rollback()
self._txtLogbook.setEnabled(False)
self._btnBrowse.setEnabled(False)
self._cbxComputer.setEnabled(False)
self._btnAddComputer.setEnabled(False)
self._btnRemoveComputer.setEnabled(False)
self._btnTransfer.setEnabled(False)
self._btnExit.setEnabled(False)
self._txtStatus.clear()
thread = QThread(self)
#FIXME: ZOMG HAX: Garbage Collector will eat TransferWorker when moveToThread is called
#NOTE: Qt.QueuedConnection is important...
self.worker = None
self.worker = TransferWorker(dc)
thread.started.connect(self.worker.start, Qt.QueuedConnection)
self.worker.moveToThread(thread)
self.worker.finished.connect(self._transferFinished, Qt.QueuedConnection)
self.worker.finished.connect(self.worker.deleteLater, Qt.QueuedConnection)
self.worker.finished.connect(thread.deleteLater, Qt.QueuedConnection)
self.worker.progress.connect(self._transferProgress, Qt.QueuedConnection)
self.worker.started.connect(self._transferStart, Qt.QueuedConnection)
self.worker.status.connect(self._transferStatus, Qt.QueuedConnection)
thread.start()
@QtCore.Slot(str)
def _transferStatus(self, msg):
'Transfer Status Message'
self._txtStatus.append(msg)
@QtCore.Slot(int)
def _transferStart(self, nBytes):
'Transfer Thread Stated'
if nBytes > 0:
self._pbTransfer.setMaximum(nBytes)
else:
self._pbTransfer.setMaximum(100)
self._pbTransfer.reset()
@QtCore.Slot(int)
def _transferProgress(self, nTransferred):
'Transfer Thread Progress Event'
self._pbTransfer.setValue(nTransferred)
@QtCore.Slot(models.Dive)
def _transferParsed(self, dive):
'Transfer Thread Parsed Dive'
self._logbook.session.add(dive)
@QtCore.Slot()
def _transferFinished(self):
'Transfer Thread Finished'
self._logbook.session.commit()
self._txtLogbook.setEnabled(True)
self._btnBrowse.setEnabled(True)
self._cbxComputer.setEnabled(True)
self._btnAddComputer.setEnabled(True)
self._btnRemoveComputer.setEnabled(True)
self._btnTransfer.setEnabled(True)
self._btnExit.setEnabled(True)
class ProgressBarService(QObject):
"""
This service is initialized with a status bar upon which it sets
a progress bar. Consumers of the service can then show/hide
the progress bar and set values.
The __new__ method is overridden to make this class a singleton.
Every time it is instantiated somewhere in code, the same instance will be
returned. In this way, it can serve like a static class.
@param statusbar: The status bar on which to display progress.
@type statusbar: QStatusBar (I think)
@since: 2010-03-02
"""
__author__ = "Moritz Wade"
__contact__ = "*****@*****.**"
__copyright__ = "Zuse Institute Berlin 2010"
_instance = None
def __new__(cls, *args, **kwargs
): # making this a Singleton, always returns the same instance
if not cls._instance:
cls._instance = super(ProgressBarService,
cls).__new__(cls, *args, **kwargs)
return cls._instance
def __init__(self, parent=None, statusBarService=None):
"""
Creates a QProgressBar and adds it to the given status bar (for
threads that can provide accurate progress information).
Note: The status bar can either be a QStatusBar or the StatusBarService. In the default
BioPARKIN use, it is the StatusBarService instance.
@todo: A throbber is created and also added to the status bar (for
threads that can only provide start/stop information).
"""
# super(ProgressBarService, self).__init__(parent) # done in __new__
if statusBarService is not None:
self.statusBarService = statusBarService
self.progressBar = QProgressBar(None) # used for showing progress
self.progressBarMutex = QMutex()
self.progressBar.hide()
self.statusBarService.addPermanentWidget(self.progressBar)
self.progressRunning = False
self.throbber = QLabel()
self.throbberRunning = False
self.throbberMutex = QMutex()
self.statusBarService.addPermanentWidget(self.throbber)
self.throbber.show()
self.throbber.hide()
throbberImage = QMovie(":/images/Spinning_wheel_throbber.gif",
parent=self.throbber)
throbberImage.setScaledSize(QSize(24, 24))
throbberImage.setCacheMode(QMovie.CacheAll)
throbberImage.start()
self.throbber.setMovie(throbberImage)
self.throbber.setFixedSize(24, 24)
def getStatusBar(self):
"""
Gets the internal status bar (or StatusBarService)
"""
return self.statusBarService
def connect_to_thread(self, thread):
"""
Connects standard BioParkinThreadBase SIGNALs to update methods.
@param thread: Thread whose Signals to handle
@type thread: BioParkinThreadBase
"""
if thread is not None:
self.thread = thread
self.thread.startWithoutProgressSignal.connect(self.start_throbber)
self.thread.startWithProgressSignal.connect(self.start_progress)
self.thread.finishedSignal.connect(self.finish)
self.thread.progressMinimumSignal.connect(
self.setProgressBarMinimum)
self.thread.progressMaximumSignal.connect(
self.setProgressBarMaximum)
self.thread.progressValueSignal.connect(self.setProgressBarValue)
self.thread.progressTextSignal.connect(self.showMessage)
def setProgressBarMinimum(self, min):
"""
Uses a QMutexLocker to set the minimum value for the progress bar.
"""
with QMutexLocker(self.progressBarMutex):
self.progressBar.setMinimum(min)
def setProgressBarMaximum(self, max):
"""
Uses a QMutexLocker to set the maximum value for the progress bar.
"""
with QMutexLocker(self.progressBarMutex):
self.progressBar.setMaximum(max)
def setProgressBarValue(self, value):
"""
Uses a QMutexLocker to set the minimum value for the progress bar.
This also implicitely "starts" the progress, e.g. show the ProgressBar.
"""
self.progressRunning = True
with QMutexLocker(self.progressBarMutex):
self.progressBar.setValue(value)
self.progressBar.show()
def update(self, value, min=None, max=None, text=None):
"""
Updates the progress bar with the given information.
@param value: current value
@type value: int
@param min: Value that represents 0%
@type min: int
@param max: Value that represents 100%
@type max: int
@param text: Text to display on status bar
@type text: str
"""
#
self.progressRunning = True
with QMutexLocker(self.progressBarMutex):
if min and max:
self.progressBar.setRange(min, max)
self.progressBar.setValue(value)
self.progressBar.show()
if text is not None:
self.statusBarService.showMessage(text)
# @Slot("QString")
def finish(self, text=None):
"""
This is a slot. It's called when a thread emits its "finished" Signal.
The given text is posted to the status bar.
@param text: Text for status bar
@type text: str
"""
if self.progressRunning:
with QMutexLocker(self.progressBarMutex):
self.progressBar.hide()
if self.throbberRunning:
with QMutexLocker(self.throbberMutex):
self.throbber.hide()
if text is None:
self.statusBarService.showMessage("Finished", 1000)
else:
self.statusBarService.showMessage(
text, 3000) # show finish message for 3 seconds
self.thread = None # release reference to thread
def start_throbber(self, text=None):
"""
This is a slot. It starts (the progress-state-less) throbber
animation.
The given text is posted to the status bar.
@param text: Text for status bar
@type text: str
"""
with QMutexLocker(self.throbberMutex):
self.throbber.show()
self.throbberRunning = True
if text is None:
self.statusBarService.showMessage("Computing...")
else:
self.statusBarService.showMessage(text)
# @Slot("QString")
def start_progress(self, text=None):
"""
This is a slot. It starts the progress animation.
The given text is posted to the status bar.
@param text: Text for status bar
@type text: str
"""
self.progressRunning = True
with QMutexLocker(self.progressBarMutex):
self.progressBar.show()
if text is None:
self.statusBarService.showMessage("Computing...", 1000)
else:
self.statusBarService.showMessage(text)
def showMessage(self, text):
if self.statusBarService:
self.statusBarService.showMessage(text)
class ProgressBarService(QObject):
"""
This service is initialized with a status bar upon which it sets
a progress bar. Consumers of the service can then show/hide
the progress bar and set values.
The __new__ method is overridden to make this class a singleton.
Every time it is instantiated somewhere in code, the same instance will be
returned. In this way, it can serve like a static class.
@param statusbar: The status bar on which to display progress.
@type statusbar: QStatusBar (I think)
@since: 2010-03-02
"""
__author__ = "Moritz Wade"
__contact__ = "*****@*****.**"
__copyright__ = "Zuse Institute Berlin 2010"
_instance = None
def __new__(cls, *args, **kwargs): # making this a Singleton, always returns the same instance
if not cls._instance:
cls._instance = super(ProgressBarService, cls).__new__(cls, *args, **kwargs)
return cls._instance
def __init__(self, parent=None, statusBarService = None):
"""
Creates a QProgressBar and adds it to the given status bar (for
threads that can provide accurate progress information).
Note: The status bar can either be a QStatusBar or the StatusBarService. In the default
BioPARKIN use, it is the StatusBarService instance.
@todo: A throbber is created and also added to the status bar (for
threads that can only provide start/stop information).
"""
# super(ProgressBarService, self).__init__(parent) # done in __new__
if statusBarService is not None:
self.statusBarService = statusBarService
#self.progressBar = QProgressBar(self.statusBarService) # used for showing progress
self.progressBar = QProgressBar(None) # used for showing progress
self.progressBarMutex = QMutex()
self.progressBar.hide()
self.statusBarService.addPermanentWidget(self.progressBar)
self.progressRunning = False
self.throbber = QLabel()
self.throbberRunning = False
self.throbberMutex = QMutex()
self.statusBarService.addPermanentWidget(self.throbber)
self.throbber.show()
self.throbber.hide()
throbberImage = QMovie(":/images/Spinning_wheel_throbber.gif", parent=self.throbber)
throbberImage.setScaledSize(QSize(24, 24))
throbberImage.setCacheMode(QMovie.CacheAll)
throbberImage.start()
self.throbber.setMovie(throbberImage)
self.throbber.setFixedSize(24,24)
# def __call__(self):
# """
# Quick'n'dirty way to make a Singleton out of this class.
# """
# return self
# def setStatusBar(self, statusbar):
# """
# Sets the internal status bar (or StatusBarService)
# """
# self.statusbar = statusbar
def getStatusBar(self):
"""
Gets the internal status bar (or StatusBarService)
"""
return self.statusBarService
def connect_to_thread(self, thread):
"""
Connects standard BioParkinThreadBase SIGNALs to update methods.
@param thread: Thread whose Signals to handle
@type thread: BioParkinThreadBase
"""
if thread is not None:
self.thread = thread
#thread.finished.connect(self.threadFinished)
#print "in connect_to_thread"
self.thread.startWithoutProgressSignal.connect(self.start_throbber)
self.thread.startWithProgressSignal.connect(self.start_progress)
self.thread.finishedSignal.connect(self.finish)
self.thread.progressMinimumSignal.connect(self.setProgressBarMinimum)
self.thread.progressMaximumSignal.connect(self.setProgressBarMaximum)
self.thread.progressValueSignal.connect(self.setProgressBarValue)
self.thread.progressTextSignal.connect(self.showMessage)
# def threadFinished(self, bool):
# self.hide("Action finished.")
def setProgressBarMinimum(self, min):
"""
Uses a QMutexLocker to set the minimum value for the progress bar.
"""
with QMutexLocker(self.progressBarMutex):
self.progressBar.setMinimum(min)
def setProgressBarMaximum(self, max):
"""
Uses a QMutexLocker to set the maximum value for the progress bar.
"""
with QMutexLocker(self.progressBarMutex):
self.progressBar.setMaximum(max)
def setProgressBarValue(self, value):
"""
Uses a QMutexLocker to set the minimum value for the progress bar.
This also implicitely "starts" the progress, e.g. show the ProgressBar.
"""
self.progressRunning = True
with QMutexLocker(self.progressBarMutex):
self.progressBar.setValue(value)
self.progressBar.show()
def update(self, value, min=None, max=None, text = None):
"""
Updates the progress bar with the given information.
@param value: current value
@type value: int
@param min: Value that represents 0%
@type min: int
@param max: Value that represents 100%
@type max: int
@param text: Text to display on status bar
@type text: str
"""
#
self.progressRunning = True
#QApplication.processEvents()
with QMutexLocker(self.progressBarMutex):
if min and max:
self.progressBar.setRange(min, max)
self.progressBar.setValue(value)
self.progressBar.show()
if text is not None:
self.statusBarService.showMessage(text)
# @Slot("QString")
def finish(self, text = None):
"""
This is a slot. It's called when a thread emits its "finished" Signal.
The given text is posted to the status bar.
@param text: Text for status bar
@type text: str
"""
#print "in finish()"
#logging.info("Finishing Progress Service")
if self.progressRunning:
with QMutexLocker(self.progressBarMutex):
self.progressBar.hide()
if self.throbberRunning:
with QMutexLocker(self.throbberMutex):
self.throbber.hide()
if text is None:
self.statusBarService.showMessage("Finished", 1000)
else:
self.statusBarService.showMessage(text, 3000) # show finish message for 3 seconds
self.thread = None # release reference to thread
# @Slot("QString")
def start_throbber(self, text = None):
"""
This is a slot. It starts (the progress-state-less) throbber
animation.
The given text is posted to the status bar.
@param text: Text for status bar
@type text: str
"""
#print "Starting progress throbber...."
#logging.info("Starting progress throbber....")
with QMutexLocker(self.throbberMutex):
self.throbber.show()
self.throbberRunning = True
if text is None:
self.statusBarService.showMessage("Computing...")
else:
self.statusBarService.showMessage(text)
# @Slot("QString")
def start_progress(self, text = None):
"""
This is a slot. It starts the progress animation.
The given text is posted to the status bar.
@param text: Text for status bar
@type text: str
"""
self.progressRunning = True
with QMutexLocker(self.progressBarMutex):
self.progressBar.show()
if text is None:
self.statusBarService.showMessage("Computing...", 1000)
else:
self.statusBarService.showMessage(text)
def showMessage(self, text):
if self.statusBarService:
self.statusBarService.showMessage(text)
class CompareSequences(QMainWindow):
def __init__(self):
super(CompareSequences, self).__init__()
self.setWindowTitle('Compare Sequences')
self.setFixedHeight(125)
self._ledit1 = QLineEdit()
self._btn_pick_1 = QPushButton('...')
self._ledit2 = QLineEdit()
self._btn_pick_2 = QPushButton('...')
self._btn_compare = QPushButton('Compare')
self._progress_bar = QProgressBar(self.statusBar())
self._setup_ui()
self._set_connections()
def _compare(self):
self._toggle_ui()
src_one = self._ledit1.text()
src_two = self._ledit2.text()
# TODO: put in some checks for valid sequences
if not (src_one and src_two):
msg = 'Please pick proper sequences.'
print msg
nuke.message(msg)
else:
read1 = nuke.createNode('Read', inpanel=False)
read1.knob('file').fromUserText(src_one)
read2 = nuke.createNode('Read', inpanel=False)
read2.knob('file').fromUserText(src_two)
read2.setXYpos(read1.xpos() + 100, read1.ypos())
if not (read1.width() == read2.width() and read1.height() == read2.height()):
msg = 'Sequences are not the same resolution.'
print msg
nuke.message(msg)
else:
# TODO: check for same resolution
m = nuke.createNode('Merge2', inpanel=False)
m.knob('operation').setValue(6)
m.setXYpos(read1.xpos(), read2.ypos() + 100)
m.setInput(0, read1)
m.setInput(1, read2)
c = nuke.createNode('CurveTool', inpanel=False)
c.knob('operation').setValue(3)
c.knob('ROI').fromDict(
{
'x': 0,
'y': 0,
'r': read1.width(),
't': read1.height()
}
)
v = nuke.createNode('Viewer')
check = False
frame = None
first = read1.knob('first').value()
last = read1.knob('last').value()
self._progress_bar.setRange(first, last)
for i in range(first, last + 1):
self._progress_bar.setValue(i)
nuke.execute(c, i, i)
data = c.knob('maxlumapixvalue').animations()
check = False
for curve in data:
if not curve.constant():
check = True
frame = i
break
if check:
break
if not check:
msg = 'There is no difference.'
else:
msg = 'There is a difference at frame %d.' % frame
nuke.message(msg)
self._progress_bar.reset()
self._toggle_ui()
def _pick_sequence(self):
btn = self.sender()
le_btn_pair = {
self._btn_pick_1: self._ledit1,
self._btn_pick_2: self._ledit2
}
clip_path = nuke.getClipname('Pick Sequence to compare')
le_btn_pair[btn].setText(clip_path)
def _set_connections(self):
self._btn_pick_1.released.connect(self._pick_sequence)
self._btn_pick_2.released.connect(self._pick_sequence)
self._btn_compare.released.connect(self._compare)
def _setup_ui(self):
self._btn_pick_1.setFixedWidth(25)
self._btn_pick_1.setToolTip('Pick first sequence.')
self._btn_pick_2.setFixedWidth(25)
self._btn_pick_2.setToolTip('Pick second sequence.')
self._btn_compare.setToolTip('Compare sequences.')
self._progress_bar.setFixedHeight(10)
lyt_seq1 = QHBoxLayout()
lyt_seq1.addWidget(self._ledit1)
lyt_seq1.addWidget(self._btn_pick_1)
lyt_seq2 = QHBoxLayout()
lyt_seq2.addWidget(self._ledit2)
lyt_seq2.addWidget(self._btn_pick_2)
lyt_main = QVBoxLayout()
lyt_main.addLayout(lyt_seq1)
lyt_main.addLayout(lyt_seq2)
lyt_main.addWidget(self._btn_compare)
main_widget = QWidget()
main_widget.setLayout(lyt_main)
self.setCentralWidget(main_widget)
def _toggle_ui(self):
self._ledit1.setEnabled(not self._ledit1.isEnabled())
self._ledit2.setEnabled(not self._ledit2.isEnabled())
self._btn_pick_1.setEnabled(not self._btn_pick_1.isEnabled())
self._btn_pick_2.setEnabled(not self._btn_pick_2.isEnabled())
self._btn_compare.setEnabled(not self._btn_compare.isEnabled())
