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(Die Seite wurde neu angelegt: „Kategorie:Python = dateandtime.py: Umgang mit Datum und Zeit = <pre>import datetime def main(): now = datetime.datetime.now() print(now.strftime("…“) |
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</pre> | </pre> | ||
= | = linkfinder_xml.py: XML-Auswertung = | ||
Findet die Links in einer XHTML-Anwendung | Findet die Links in einer XHTML-Anwendung | ||
<pre>import xml.etree.ElementTree | <pre>import xml.etree.ElementTree | ||
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test() | test() | ||
</pre> | </pre> | ||
= | = multiping_thread.py: Parallele Programmausführung = | ||
Ein Subnetz wird parallel mittels des externen Programms ping nach Hosts abgesucht. | Ein Subnetz wird parallel mittels des externen Programms ping nach Hosts abgesucht. | ||
<pre>import os | <pre>import os | ||
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ready.append(self) | ready.append(self) | ||
def ips(prefix="192.168"): | def ips(prefix="192.168.2"): | ||
"Generating ip addresses with a given prefix" | "Generating ip addresses with a given prefix" | ||
for node1 | for node1 in range(1, 254): | ||
yield "{:s}.{:d}".format(prefix, node1) | |||
def main(): | def main(): | ||
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main() | main() | ||
</pre> | </pre> | ||
= | = calc_gui.py: GUI mittels QT für Python = | ||
Ein GUI-Taschenrechner, der komplexe Formeln beherrscht, wie z.B. 2.777+sin(3.14/3)+log(1.99e+7) | Ein GUI-Taschenrechner, der komplexe Formeln beherrscht, wie z.B. 2.777+sin(3.14/3)+log(1.99e+7) | ||
<pre>import sys | <pre>import sys |
Version vom 28. Februar 2017, 10:49 Uhr
dateandtime.py: Umgang mit Datum und Zeit
import datetime def main(): now = datetime.datetime.now() print(now.strftime("Now is: %Y.%m.%d %H:%M:%S")) firstJan = datetime.datetime(now.date().year, 1, 1, 0, 0, 0, 0) # diff is a timedelta object: diff = now - firstJan print(firstJan.strftime("first day of the year: %Y.%m.%d %H:%M:%S")) print("the year is {:d} days and {:d} seconds old".format(diff.days, diff.seconds)) main()
linkfinder_xml.py: XML-Auswertung
Findet die Links in einer XHTML-Anwendung
import xml.etree.ElementTree import sys class LinkFinder: """Gets the links of an XHTML document and print them. """ def __init__(self): """Constructor. @param filename: name of the XHTML file to check """ self._counter = 0 def checkFile(self, filename): """Checks the links of a given XHTML file: @param filename: name of the XHTML file to check """ tree = xml.etree.ElementTree.parse(filename) root = tree.getroot() self.findLinks(root) self.findByXPath(root) #try: #except Exception as ex: #print("+++ " + str(ex)) def findLinks(self, node): if node.tag == "{http://www.w3.org/1999/xhtml}a": self.checkLink(node) elif node.tag == "{http://www.w3.org/1999/xhtml}img": self.checkImg(node) else : for child in node: self.findLinks(child) def checkLink(self, node): self._counter += 1 if "href" in node.attrib: print("{:d}: {:s}".format(self._counter, node.attrib["href"])) else: print("+++ no href in link but: " + " ".join(node.attrib)) def checkImg(self, node): self._counter += 1 print("{:d}: {:s}".format(self._counter, node.attrib["src"])) def findByXPath(self, root): print("Searching via XPath...") self._counter = 0 for node in root.findall(".//{http://www.w3.org/1999/xhtml}a"): self.checkLink(node) for node in root.findall(".//{http://www.w3.org/1999/xhtml}img"): self.checkImg(node) def main(argv): checker = LinkFinder() name = argv[1] if len(argv) > 1 else "example.xhtml" checker.checkFile(name) if __name__ == "__main__": main(sys.argv)
config_regexpr.py: Anwendung von regulären Ausdrücken
Mit Hilfe von reg. Ausdrücken werden Konfigurationsdateien im *.ini-Format eingelesen.
import re class Config: """Manages a configuration file in the "Windows ini format". Example: [connection] ip=localhost port=6400 """ def __init__(self, filename): """Constructor. @param filename: the name of the configuration file (with path) """ self._sections = dict() self.read(filename) def read(self, filename): """Reads the configuration file and stores it in a dictionary of dictionaries @param filename: the name of the configuration file (with path) """ varExpr = re.compile(r"([\w-]+)\s*=\s*(.*)") sectionExpr = re.compile(r"\[([^\]]+)\]") lastSection = "!default!" lastDict = dict() self._sections[lastSection] = lastDict with open(filename, "r") as fp: for line in fp: matcher = sectionExpr.match(line) if matcher: section = matcher.group(1).lower() lastDict = dict() self._sections[section] = lastDict continue matcher = varExpr.match(line) if matcher: lastDict[matcher.group(1).lower()] = matcher.group(2) def valueOf(self, variable, section = "!Default!"): """Gets the value of a configuration variable. @param variable: the variable name @param section: the section of the variable @return: None: not found otherwise: the value of the variable """ rc = None section = section.lower() if section in self._sections: variable = variable.lower() dictionary = self._sections[section] if variable in dictionary: rc = dictionary[variable] return rc def test(): fn = "/tmp/test.ini" with open(fn, "w") as fp: fp.write("""[Connection] IP=localhost Port=6400 """) config = Config(fn) ip = config.valueOf("ip", "Connection") assert ip == "localhost" port = int(config.valueOf("port", "Connection")) assert port==6400 assert None == config.valueOf("ip", "x") assert None == config.valueOf("x", "Connection") if __name__ == "__main__": test()
multiping_thread.py: Parallele Programmausführung
Ein Subnetz wird parallel mittels des externen Programms ping nach Hosts abgesucht.
import os import re import threading rexpr = re.compile(r"(\d+) received") locker = threading.Lock() ready = [] class CheckIp (threading.Thread): def __init__(self, ip): threading.Thread.__init__(self) self._ip = ip self._pings = -1 def run(self): out = os.popen("ping -q -c2 "+self._ip,"r") while True: line = out.readline() if line == None: break matcher = rexpr.search(line) if matcher: self._pings = int(matcher.group(1)) if self._pings > 0: #global locker with locker: print(self._ip) global ready break ready.append(self) def ips(prefix="192.168.2"): "Generating ip addresses with a given prefix" for node1 in range(1, 254): yield "{:s}.{:d}".format(prefix, node1) def main(): threads = [] count = 0 finished = 0 for ip in ips(): count += 1 if count % 100 == 0: with locker: global ready finished += len(ready) for current in ready: current.join() ready = [] if count % 500 == 0: print "= {:d} threads started, {:d} threads finished".format(count, finished) checker = CheckIp(ip) threads.append(checker) checker.start() main()
calc_gui.py: GUI mittels QT für Python
Ein GUI-Taschenrechner, der komplexe Formeln beherrscht, wie z.B. 2.777+sin(3.14/3)+log(1.99e+7)
import sys from PyQt4.QtCore import * from PyQt4.QtGui import * from math import * class Window(QWidget): """Main window handling """ def __init__(self, parent = None): """Constructor @param parent: the window parent or <i>none</i> """ QWidget.__init__(self, parent) self.setWindowTitle(self.tr("Calculator")) self._labelFormula = QLabel(self.tr("Formula:")) self._editFormula = QLineEdit() self._editFormula.setToolTip(self.tr("Any mathematical formula like '2.777+sin(3.14/3)+log(1.99e+7)'")) self._labelResult = QLabel(self.tr("Result:")) self._labelResult2 = QLabel("") self._buttonCalc = QPushButton(self.tr("Calc")) self._buttonCalc.default = True self._listHistory = QListWidget() # Put the widgets in a layout (now they start to appear): layout = QGridLayout(self) layout.addWidget(self._labelFormula, 0, 0) layout.addWidget(self._editFormula, 0, 1) layout.addWidget(self._buttonCalc, 1, 1) layout.addWidget(self._labelResult, 2, 0) layout.addWidget(self._labelResult2, 2, 1) # addWidget(row, col, rowspan, colspan): layout.addWidget(self._listHistory, 3, 0, 2, 2) layout.setRowStretch(4, 1) self.connect(self._buttonCalc, SIGNAL("clicked()"), self.onClickCalc) def onClickCalc(self): """Event handler for the button click """ try: text = str(self._editFormula.text()) rc = str(eval(text)) self._labelResult2.setText(rc) self._listHistory.addItem(text + " = " + rc) except Exception as e: self._labelResult2.setText("+++ " + repr(e)) if __name__ == "__main__": app = QApplication(sys.argv) window = Window() # Let's resize the window: window.resize(480, 250) window.show() sys.exit(app.exec_())