在函数运行时写入easygui文本框?
发布于 2021-01-29 19:19:05
我当前正在使用easygui运行脚本以接收用户输入。在命令行中运行的旧脚本仅会打印用户在命令行中需要知道的所有内容,但是我将其更改为在需要输入时在新的easygui框中输出通知。
我想要做的就是取得进展,正在运行的功能内部的每个动作,在完成时打印到文本框中。在命令行中,我只能使用print
"text"它,但无法在easygui中实时进行。目前,我正在添加一个列表,因此我有一个文本框,该文本框会在所有操作完成后显示函数的结果,但是我希望大型的文本框窗口弹出并在注释过程完成时将行打印出来。这可行吗?
这是我添加列表的方式:
result_list = []
record_str = "\n Polling has completed for 502."
result_list.append(record_str)
eg.textbox("Polling Status", "Daily polling completion status:", result_list)
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1 个回答
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我认为没有任何简单的方法可以使EasyGUI的
textbox功能完成您想要修改的模块。由于它是一个函数,而不是一个类,因此您甚至无法从中派生子类以轻松重用其代码。但是,创建一个单独的
Tkinter窗口是完全可行的,该窗口使用我在comp.lang.python新闻组的线程中一次发现的某些代码的增强版本,仅在发送文本行时显示这些文本行。原始代码旨在捕获并仅显示
stderr通常没有stderr输出句柄的GUI应用程序的输出,因此该模块名为errorwindow。但是,我对其进行了修改,以便能够将其重定向到我开发的一个基于应用程序的窗口,stderr并重定向stdout到此类窗口easygui,但是我从来没有回避重命名它或更新其中的注释以提及stdout重定向的问题。;¬)无论如何,该模块的工作方式是定义并创建一个文件类的两个实例,该实例在ed
OutputPipe时命名import,并将它们分配给通常在Python
GUI应用程序(在Windows中)的sys.stdout和sys.stderrI /
O流文件对象。当输出首先被发送到的这些任一个中,相同的模块启动为具有其单独的Python过程,和I /
O控管道与原来的处理。None``.pyw``stdin``stdout``stderr发生了很多事情,但是如果没有其他事情,只需对其进行一些研究,可能会为您提供一些有关如何使
easygui‘stextbox做自己想要的事情的想法。希望这可以帮助。注意: 发布的代码是针对Python
2.x的,如果有人感兴趣的话,我对另一个问题的回答中有一个修改后的版本可以在Python
2和3中使用。档案
errorwindow.py:# references: # https://groups.google.com/d/msg/comp.lang.python/HWPhLhXKUos/TpFeWxEE9nsJ # https://groups.google.com/d/msg/comp.lang.python/HWPhLhXKUos/eEHYAl4dH9YJ # # Here's a module to show stderr output from console-less Python # apps, and stay out of the way otherwise. I plan to make a ASPN # recipe of it, but I thought I'd run it by this group first. # # To use it, import the module. That's it. Upon import it will # assign sys.stderr. # # In the normal case, your code is perfect so nothing ever gets # written to stderr, and the module won't do much of anything. # Upon the first write to stderr, if any, the module will launch a # new process, and that process will show the stderr output in a # window. The window will live until dismissed; I hate, hate, hate # those vanishing-consoles-with-critical-information. # # The code shows some arguably-cool tricks. To fit everthing in # one file, the module runs the Python interpreter on itself; it # uses the "if __name__ == '__main__'" idiom to behave radically # differently upon import versus direct execution. It uses TkInter # for the window, but that's in a new process; it does not import # TkInter into your application. # # To try it out, save it to a file -- I call it "errorwindow.py" - # - and import it into some subsequently-incorrect code. For # example: # # import errorwindow # # a = 3 + 1 + nonesuchdefined # # should cause a window to appear, showing the traceback of a # Python NameError. # # -- # --Bryan # ---------------------------------------------------------------- # # martineau - Modified to use subprocess.Popen instead of the os.popen # which has been deprecated since Py 2.6. Changed so it # redirects both stdout and stderr. Added numerous # comments, and also inserted double quotes around paths # in case they have embedded space characters in them, as # they did on my Windows system. """ Import this module into graphical Python apps to provide a sys.stderr. No functions to call, just import it. It uses only facilities in the Python standard distribution. If nothing is ever written to stderr, then the module just sits there and stays out of your face. Upon write to stderr, it launches a new process, piping it error stream. The new process throws up a window showing the error messages. """ import subprocess import sys import thread import os if __name__ == '__main__': # when spawned as separate process # create window in which to display output # then copy stdin to the window until EOF # will happen when output is sent to each OutputPipe created from Tkinter import BOTH, END, Frame, Text, TOP, YES import tkFont import Queue queue = Queue.Queue(100) def read_stdin(app, bufsize=4096): fd = sys.stdin.fileno() # gets file descriptor read = os.read put = queue.put while True: put(read(fd, bufsize)) class Application(Frame): def __init__(self, master=None, font_size=8, text_color='#0000AA', rows=25, cols=100): Frame.__init__(self, master) # argv[0]: name of this script (not used) # argv[1]: name of script that imported this module # argv[2]: name of redirected stream (optional) if len(sys.argv) < 3: title = "Output Stream from %s" % (sys.argv[1],) else: title = "Output Stream '%s' from %s" % (sys.argv[2], sys.argv[1]) self.master.title(title) self.pack(fill=BOTH, expand=YES) font = tkFont.Font(family='Courier', size=font_size) width = font.measure(' '*(cols+1)) height = font.metrics('linespace')*(rows+1) self.configure(width=width, height=height) self.pack_propagate(0) # force frame to be configured size self.logwidget = Text(self, font=font) self.logwidget.pack(side=TOP, fill=BOTH, expand=YES) # Disallow key entry, but allow copy with <Control-c> self.logwidget.bind('<Key>', lambda x: 'break') self.logwidget.bind('<Control-c>', lambda x: None) self.logwidget.configure(foreground=text_color) #self.logwidget.insert(END, '==== Start of Output Stream ====\n\n') #self.logwidget.see(END) self.after(200, self.start_thread, ()) def start_thread(self, _): thread.start_new_thread(read_stdin, (self,)) self.after(200, self.check_q, ()) def check_q(self, _): log = self.logwidget log_insert = log.insert log_see = log.see queue_get_nowait = queue.get_nowait go = True while go: try: data = queue_get_nowait() if not data: data = '[EOF]' go = False log_insert(END, data) log_see(END) except Queue.Empty: self.after(200, self.check_q, ()) go = False app = Application() app.mainloop() else: # when module is first imported import traceback class OutputPipe(object): def __init__(self, name=''): self.lock = thread.allocate_lock() self.name = name def __getattr__(self, attr): if attr == 'pipe': # pipe attribute hasn't been created yet # launch this module as a separate process to display any output # it receives. # Note: It's important to put double quotes around everything in case # they have embedded space characters. command = '"%s" "%s" "%s" "%s"' % (sys.executable, # command __file__, # argv[0] os.path.basename(sys.argv[0]), # argv[1] self.name) # argv[2] # sample command and arg values on receiving end: # E:\Program Files\Python\python[w].exe # command # H:\PythonLib\TestScripts\PyRemindWrk\errorwindow.py # argv[0] # errorwindow.py # argv[1] # stderr # argv[2] # execute this script as __main__ with a stdin PIPE for sending output to it try: # had to make stdout and stderr PIPEs too, to make it work with pythonw.exe self.pipe = subprocess.Popen(command, bufsize=0, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE).stdin except Exception: # output exception info to a file since this module isn't working exc_type, exc_value, exc_traceback = sys.exc_info() msg = ('%r exception in %s\n' % (exc_type.__name__, os.path.basename(__file__))) with open('exc_info.txt', 'wt') as info: info.write('msg:' + msg) traceback.print_exc(file=info) sys.exit('fatal error occurred spawning output process') return super(OutputPipe, self).__getattribute__(attr) def write(self, data): with self.lock: self.pipe.write(data) # 1st reference to pipe attr will cause it to be created # redirect standard output streams in the process importing the module sys.stderr = OutputPipe('stderr') sys.stdout = OutputPipe('stdout')
