golden hour
/opt/alt/python37/lib64/python3.7/idlelib
⬆️ Go Up
Upload
File/Folder
Size
Actions
CREDITS.txt
1.82 KB
Del
OK
ChangeLog
55.04 KB
Del
OK
HISTORY.txt
10.07 KB
Del
OK
Icons
-
Del
OK
NEWS.txt
47.65 KB
Del
OK
NEWS2x.txt
26.54 KB
Del
OK
README.txt
9.37 KB
Del
OK
TODO.txt
8.28 KB
Del
OK
__init__.py
396 B
Del
OK
__main__.py
159 B
Del
OK
__pycache__
-
Del
OK
autocomplete.py
8.74 KB
Del
OK
autocomplete_w.py
19.64 KB
Del
OK
autoexpand.py
3.14 KB
Del
OK
browser.py
8.12 KB
Del
OK
calltip.py
6.17 KB
Del
OK
calltip_w.py
6.99 KB
Del
OK
codecontext.py
11.06 KB
Del
OK
colorizer.py
12.69 KB
Del
OK
config-extensions.def
2.21 KB
Del
OK
config-highlight.def
2.8 KB
Del
OK
config-keys.def
10.65 KB
Del
OK
config-main.def
3.09 KB
Del
OK
config.py
37.28 KB
Del
OK
config_key.py
14.13 KB
Del
OK
configdialog.py
102.07 KB
Del
OK
debugger.py
18.66 KB
Del
OK
debugger_r.py
11.86 KB
Del
OK
debugobj.py
3.96 KB
Del
OK
debugobj_r.py
1.06 KB
Del
OK
delegator.py
1.02 KB
Del
OK
dynoption.py
1.97 KB
Del
OK
editor.py
64.08 KB
Del
OK
extend.txt
3.56 KB
Del
OK
filelist.py
3.8 KB
Del
OK
format.py
15.41 KB
Del
OK
grep.py
7.3 KB
Del
OK
help.html
60.76 KB
Del
OK
help.py
11.46 KB
Del
OK
help_about.py
8.77 KB
Del
OK
history.py
3.95 KB
Del
OK
hyperparser.py
12.58 KB
Del
OK
idle.py
454 B
Del
OK
idle.pyw
570 B
Del
OK
idle_test
-
Del
OK
iomenu.py
20.15 KB
Del
OK
macosx.py
9.44 KB
Del
OK
mainmenu.py
3.83 KB
Del
OK
multicall.py
18.21 KB
Del
OK
outwin.py
5.65 KB
Del
OK
parenmatch.py
7.04 KB
Del
OK
pathbrowser.py
3.12 KB
Del
OK
percolator.py
3.06 KB
Del
OK
pyparse.py
19.48 KB
Del
OK
pyshell.py
55.91 KB
Del
OK
query.py
14.55 KB
Del
OK
redirector.py
6.71 KB
Del
OK
replace.py
9.66 KB
Del
OK
rpc.py
20.64 KB
Del
OK
run.py
19.82 KB
Del
OK
runscript.py
8.58 KB
Del
OK
scrolledlist.py
4.36 KB
Del
OK
search.py
5.44 KB
Del
OK
searchbase.py
7.36 KB
Del
OK
searchengine.py
7.3 KB
Del
OK
sidebar.py
13.27 KB
Del
OK
squeezer.py
12.54 KB
Del
OK
stackviewer.py
4.35 KB
Del
OK
statusbar.py
1.41 KB
Del
OK
textview.py
6.65 KB
Del
OK
tooltip.py
6.41 KB
Del
OK
tree.py
15.97 KB
Del
OK
undo.py
10.79 KB
Del
OK
window.py
2.55 KB
Del
OK
zoomheight.py
4.1 KB
Del
OK
zzdummy.py
961 B
Del
OK
Edit: debugger.py
import bdb import os from tkinter import * from tkinter.ttk import Frame, Scrollbar from idlelib import macosx from idlelib.scrolledlist import ScrolledList from idlelib.window import ListedToplevel class Idb(bdb.Bdb): def __init__(self, gui): self.gui = gui # An instance of Debugger or proxy of remote. bdb.Bdb.__init__(self) def user_line(self, frame): if self.in_rpc_code(frame): self.set_step() return message = self.__frame2message(frame) try: self.gui.interaction(message, frame) except TclError: # When closing debugger window with [x] in 3.x pass def user_exception(self, frame, info): if self.in_rpc_code(frame): self.set_step() return message = self.__frame2message(frame) self.gui.interaction(message, frame, info) def in_rpc_code(self, frame): if frame.f_code.co_filename.count('rpc.py'): return True else: prev_frame = frame.f_back prev_name = prev_frame.f_code.co_filename if 'idlelib' in prev_name and 'debugger' in prev_name: # catch both idlelib/debugger.py and idlelib/debugger_r.py # on both Posix and Windows return False return self.in_rpc_code(prev_frame) def __frame2message(self, frame): code = frame.f_code filename = code.co_filename lineno = frame.f_lineno basename = os.path.basename(filename) message = "%s:%s" % (basename, lineno) if code.co_name != "?": message = "%s: %s()" % (message, code.co_name) return message class Debugger: vstack = vsource = vlocals = vglobals = None def __init__(self, pyshell, idb=None): if idb is None: idb = Idb(self) self.pyshell = pyshell self.idb = idb # If passed, a proxy of remote instance. self.frame = None self.make_gui() self.interacting = 0 self.nesting_level = 0 def run(self, *args): # Deal with the scenario where we've already got a program running # in the debugger and we want to start another. If that is the case, # our second 'run' was invoked from an event dispatched not from # the main event loop, but from the nested event loop in 'interaction' # below. So our stack looks something like this: # outer main event loop # run() # <running program with traces> # callback to debugger's interaction() # nested event loop # run() for second command # # This kind of nesting of event loops causes all kinds of problems # (see e.g. issue #24455) especially when dealing with running as a # subprocess, where there's all kinds of extra stuff happening in # there - insert a traceback.print_stack() to check it out. # # By this point, we've already called restart_subprocess() in # ScriptBinding. However, we also need to unwind the stack back to # that outer event loop. To accomplish this, we: # - return immediately from the nested run() # - abort_loop ensures the nested event loop will terminate # - the debugger's interaction routine completes normally # - the restart_subprocess() will have taken care of stopping # the running program, which will also let the outer run complete # # That leaves us back at the outer main event loop, at which point our # after event can fire, and we'll come back to this routine with a # clean stack. if self.nesting_level > 0: self.abort_loop() self.root.after(100, lambda: self.run(*args)) return try: self.interacting = 1 return self.idb.run(*args) finally: self.interacting = 0 def close(self, event=None): try: self.quit() except Exception: pass if self.interacting: self.top.bell() return if self.stackviewer: self.stackviewer.close(); self.stackviewer = None # Clean up pyshell if user clicked debugger control close widget. # (Causes a harmless extra cycle through close_debugger() if user # toggled debugger from pyshell Debug menu) self.pyshell.close_debugger() # Now close the debugger control window.... self.top.destroy() def make_gui(self): pyshell = self.pyshell self.flist = pyshell.flist self.root = root = pyshell.root self.top = top = ListedToplevel(root) self.top.wm_title("Debug Control") self.top.wm_iconname("Debug") top.wm_protocol("WM_DELETE_WINDOW", self.close) self.top.bind("<Escape>", self.close) # self.bframe = bframe = Frame(top) self.bframe.pack(anchor="w") self.buttons = bl = [] # self.bcont = b = Button(bframe, text="Go", command=self.cont) bl.append(b) self.bstep = b = Button(bframe, text="Step", command=self.step) bl.append(b) self.bnext = b = Button(bframe, text="Over", command=self.next) bl.append(b) self.bret = b = Button(bframe, text="Out", command=self.ret) bl.append(b) self.bret = b = Button(bframe, text="Quit", command=self.quit) bl.append(b) # for b in bl: b.configure(state="disabled") b.pack(side="left") # self.cframe = cframe = Frame(bframe) self.cframe.pack(side="left") # if not self.vstack: self.__class__.vstack = BooleanVar(top) self.vstack.set(1) self.bstack = Checkbutton(cframe, text="Stack", command=self.show_stack, variable=self.vstack) self.bstack.grid(row=0, column=0) if not self.vsource: self.__class__.vsource = BooleanVar(top) self.bsource = Checkbutton(cframe, text="Source", command=self.show_source, variable=self.vsource) self.bsource.grid(row=0, column=1) if not self.vlocals: self.__class__.vlocals = BooleanVar(top) self.vlocals.set(1) self.blocals = Checkbutton(cframe, text="Locals", command=self.show_locals, variable=self.vlocals) self.blocals.grid(row=1, column=0) if not self.vglobals: self.__class__.vglobals = BooleanVar(top) self.bglobals = Checkbutton(cframe, text="Globals", command=self.show_globals, variable=self.vglobals) self.bglobals.grid(row=1, column=1) # self.status = Label(top, anchor="w") self.status.pack(anchor="w") self.error = Label(top, anchor="w") self.error.pack(anchor="w", fill="x") self.errorbg = self.error.cget("background") # self.fstack = Frame(top, height=1) self.fstack.pack(expand=1, fill="both") self.flocals = Frame(top) self.flocals.pack(expand=1, fill="both") self.fglobals = Frame(top, height=1) self.fglobals.pack(expand=1, fill="both") # if self.vstack.get(): self.show_stack() if self.vlocals.get(): self.show_locals() if self.vglobals.get(): self.show_globals() def interaction(self, message, frame, info=None): self.frame = frame self.status.configure(text=message) # if info: type, value, tb = info try: m1 = type.__name__ except AttributeError: m1 = "%s" % str(type) if value is not None: try: m1 = "%s: %s" % (m1, str(value)) except: pass bg = "yellow" else: m1 = "" tb = None bg = self.errorbg self.error.configure(text=m1, background=bg) # sv = self.stackviewer if sv: stack, i = self.idb.get_stack(self.frame, tb) sv.load_stack(stack, i) # self.show_variables(1) # if self.vsource.get(): self.sync_source_line() # for b in self.buttons: b.configure(state="normal") # self.top.wakeup() # Nested main loop: Tkinter's main loop is not reentrant, so use # Tcl's vwait facility, which reenters the event loop until an # event handler sets the variable we're waiting on self.nesting_level += 1 self.root.tk.call('vwait', '::idledebugwait') self.nesting_level -= 1 # for b in self.buttons: b.configure(state="disabled") self.status.configure(text="") self.error.configure(text="", background=self.errorbg) self.frame = None def sync_source_line(self): frame = self.frame if not frame: return filename, lineno = self.__frame2fileline(frame) if filename[:1] + filename[-1:] != "<>" and os.path.exists(filename): self.flist.gotofileline(filename, lineno) def __frame2fileline(self, frame): code = frame.f_code filename = code.co_filename lineno = frame.f_lineno return filename, lineno def cont(self): self.idb.set_continue() self.abort_loop() def step(self): self.idb.set_step() self.abort_loop() def next(self): self.idb.set_next(self.frame) self.abort_loop() def ret(self): self.idb.set_return(self.frame) self.abort_loop() def quit(self): self.idb.set_quit() self.abort_loop() def abort_loop(self): self.root.tk.call('set', '::idledebugwait', '1') stackviewer = None def show_stack(self): if not self.stackviewer and self.vstack.get(): self.stackviewer = sv = StackViewer(self.fstack, self.flist, self) if self.frame: stack, i = self.idb.get_stack(self.frame, None) sv.load_stack(stack, i) else: sv = self.stackviewer if sv and not self.vstack.get(): self.stackviewer = None sv.close() self.fstack['height'] = 1 def show_source(self): if self.vsource.get(): self.sync_source_line() def show_frame(self, stackitem): self.frame = stackitem[0] # lineno is stackitem[1] self.show_variables() localsviewer = None globalsviewer = None def show_locals(self): lv = self.localsviewer if self.vlocals.get(): if not lv: self.localsviewer = NamespaceViewer(self.flocals, "Locals") else: if lv: self.localsviewer = None lv.close() self.flocals['height'] = 1 self.show_variables() def show_globals(self): gv = self.globalsviewer if self.vglobals.get(): if not gv: self.globalsviewer = NamespaceViewer(self.fglobals, "Globals") else: if gv: self.globalsviewer = None gv.close() self.fglobals['height'] = 1 self.show_variables() def show_variables(self, force=0): lv = self.localsviewer gv = self.globalsviewer frame = self.frame if not frame: ldict = gdict = None else: ldict = frame.f_locals gdict = frame.f_globals if lv and gv and ldict is gdict: ldict = None if lv: lv.load_dict(ldict, force, self.pyshell.interp.rpcclt) if gv: gv.load_dict(gdict, force, self.pyshell.interp.rpcclt) def set_breakpoint_here(self, filename, lineno): self.idb.set_break(filename, lineno) def clear_breakpoint_here(self, filename, lineno): self.idb.clear_break(filename, lineno) def clear_file_breaks(self, filename): self.idb.clear_all_file_breaks(filename) def load_breakpoints(self): "Load PyShellEditorWindow breakpoints into subprocess debugger" for editwin in self.pyshell.flist.inversedict: filename = editwin.io.filename try: for lineno in editwin.breakpoints: self.set_breakpoint_here(filename, lineno) except AttributeError: continue class StackViewer(ScrolledList): def __init__(self, master, flist, gui): if macosx.isAquaTk(): # At least on with the stock AquaTk version on OSX 10.4 you'll # get a shaking GUI that eventually kills IDLE if the width # argument is specified. ScrolledList.__init__(self, master) else: ScrolledList.__init__(self, master, width=80) self.flist = flist self.gui = gui self.stack = [] def load_stack(self, stack, index=None): self.stack = stack self.clear() for i in range(len(stack)): frame, lineno = stack[i] try: modname = frame.f_globals["__name__"] except: modname = "?" code = frame.f_code filename = code.co_filename funcname = code.co_name import linecache sourceline = linecache.getline(filename, lineno) sourceline = sourceline.strip() if funcname in ("?", "", None): item = "%s, line %d: %s" % (modname, lineno, sourceline) else: item = "%s.%s(), line %d: %s" % (modname, funcname, lineno, sourceline) if i == index: item = "> " + item self.append(item) if index is not None: self.select(index) def popup_event(self, event): "override base method" if self.stack: return ScrolledList.popup_event(self, event) def fill_menu(self): "override base method" menu = self.menu menu.add_command(label="Go to source line", command=self.goto_source_line) menu.add_command(label="Show stack frame", command=self.show_stack_frame) def on_select(self, index): "override base method" if 0 <= index < len(self.stack): self.gui.show_frame(self.stack[index]) def on_double(self, index): "override base method" self.show_source(index) def goto_source_line(self): index = self.listbox.index("active") self.show_source(index) def show_stack_frame(self): index = self.listbox.index("active") if 0 <= index < len(self.stack): self.gui.show_frame(self.stack[index]) def show_source(self, index): if not (0 <= index < len(self.stack)): return frame, lineno = self.stack[index] code = frame.f_code filename = code.co_filename if os.path.isfile(filename): edit = self.flist.open(filename) if edit: edit.gotoline(lineno) class NamespaceViewer: def __init__(self, master, title, dict=None): width = 0 height = 40 if dict: height = 20*len(dict) # XXX 20 == observed height of Entry widget self.master = master self.title = title import reprlib self.repr = reprlib.Repr() self.repr.maxstring = 60 self.repr.maxother = 60 self.frame = frame = Frame(master) self.frame.pack(expand=1, fill="both") self.label = Label(frame, text=title, borderwidth=2, relief="groove") self.label.pack(fill="x") self.vbar = vbar = Scrollbar(frame, name="vbar") vbar.pack(side="right", fill="y") self.canvas = canvas = Canvas(frame, height=min(300, max(40, height)), scrollregion=(0, 0, width, height)) canvas.pack(side="left", fill="both", expand=1) vbar["command"] = canvas.yview canvas["yscrollcommand"] = vbar.set self.subframe = subframe = Frame(canvas) self.sfid = canvas.create_window(0, 0, window=subframe, anchor="nw") self.load_dict(dict) dict = -1 def load_dict(self, dict, force=0, rpc_client=None): if dict is self.dict and not force: return subframe = self.subframe frame = self.frame for c in list(subframe.children.values()): c.destroy() self.dict = None if not dict: l = Label(subframe, text="None") l.grid(row=0, column=0) else: #names = sorted(dict) ### # Because of (temporary) limitations on the dict_keys type (not yet # public or pickleable), have the subprocess to send a list of # keys, not a dict_keys object. sorted() will take a dict_keys # (no subprocess) or a list. # # There is also an obscure bug in sorted(dict) where the # interpreter gets into a loop requesting non-existing dict[0], # dict[1], dict[2], etc from the debugger_r.DictProxy. ### keys_list = dict.keys() names = sorted(keys_list) ### row = 0 for name in names: value = dict[name] svalue = self.repr.repr(value) # repr(value) # Strip extra quotes caused by calling repr on the (already) # repr'd value sent across the RPC interface: if rpc_client: svalue = svalue[1:-1] l = Label(subframe, text=name) l.grid(row=row, column=0, sticky="nw") l = Entry(subframe, width=0, borderwidth=0) l.insert(0, svalue) l.grid(row=row, column=1, sticky="nw") row = row+1 self.dict = dict # XXX Could we use a <Configure> callback for the following? subframe.update_idletasks() # Alas! width = subframe.winfo_reqwidth() height = subframe.winfo_reqheight() canvas = self.canvas self.canvas["scrollregion"] = (0, 0, width, height) if height > 300: canvas["height"] = 300 frame.pack(expand=1) else: canvas["height"] = height frame.pack(expand=0) def close(self): self.frame.destroy() if __name__ == "__main__": from unittest import main main('idlelib.idle_test.test_debugger', verbosity=2, exit=False) # TODO: htest?
Save