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Direktori : /proc/thread-self/root/opt/cloudlinux/venv/lib64/python3.11/site-packages/guppy/heapy/ |
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from tkinter import * import tkinter.filedialog import tkinter.messagebox from guppy.etc.Descriptor import property_nondata class MyVar(StringVar): _default = 0.0 def set(self, value): StringVar.set(self, '%.2g' % value) suffixes = ('', 'K', 'M', 'G', 'T') def sizestring(value): value = float(value) sign = 1 if value < 0: sign = -1 value = - value i = 0 while value > 99999: value /= 1000 i += 1 s = str(int(round(value)))+suffixes[i] if s.endswith('000'+suffixes[i]): s = str(int(round(value/1000)))+suffixes[i+1] if sign == -1: s = '-' + s return s def percentstring(value): a = abs(value) if 10 <= a <= 9999: return '%d' % round(value) elif 0.01 <= a <= 10: return '%.2g' % value elif a <= 1e-10: return '0' else: return '%.0e' % value def stringsize(s): if s.isdigit(): return int(s) suf = s[-1:].upper() mult = 1000 for su in suffixes[1:]: if su == suf: break mult *= 1000 else: raise ValueError return int(s[:-1])*mult class Menu(Menu): # A fix for the .delete() method in Menu. # To delete commands defined in the menu items deleted. # Also changed the comment: INDEX2 is actually INCLUDED. def delete(self, index1, index2=None): """Delete menu items between INDEX1 and INDEX2 (included).""" if index2 is None: index2 = index1 # First find out what entries have defined commands. cmds = [] for i in range(self.index(index1), self.index(index2)+1): c = str(self.entrycget(i, 'command')) if c in self._tclCommands: # I don't want to delete the command already, since it # seems mystical to do that while the entry is not yet deleted. cmds.append(c) # Delete the menu entries. self.tk.call(self._w, 'delete', index1, index2) # Now that the menu entries have been deleted, # we can delete their commands. for c in cmds: self.deletecommand(c) class SizeVar(StringVar): _default = 0.0 def set(self, value): self._value = value s = sizestring(value) StringVar.set(self, s) class ValueLabel(Label): def __init__(self, *args, **kwds): kwds['width'] = 10 Label.__init__(self, *args, **kwds) class ClickButton(Button): # Button that runs the command directly at the click, not at release. # And has auto-repeat. def __init__(self, master, command, firstdelay=500, thendelay=150, **kwds): Button.__init__(self, master, **kwds) self._command = command self._firstdelay = firstdelay self._thendelay = thendelay self.bind('<Button-1>', self._event_button) self.bind('<ButtonRelease-1>', self._event_release) def _event_button(self, event=None): self._command() if event is not None: delay = self._firstdelay else: delay = self._thendelay self._after = self.after(delay, self._event_button) def _event_release(self, event): self.after_cancel(self._after) del self._after class Stats: def __init__(self, mod, fn=None): self.mod = mod self.os = mod.os self.hashlib = mod.hashlib self.fn = fn def clear_cache(self): # It is intended to be transparently # automagically reopened when needed. self.stats = None del self.stats def get_stats(self): self.open(self.fn) return self.stats stats = property_nondata(get_stats) def collect(self): if not self.fn: return 0, 0 stat = self.os.stat(self.fn) if stat == self.laststat: return len(self), 0 with open(self.fn) as f: str = f.read(self.lastfilesize) md5 = self.hashlib.md5(str.encode('utf-8')) digest = md5.digest() if digest == self.lastdigest: numoldstats = len(self) else: self.loadstr(str, reset=1) numoldstats = 0 str = f.read() self.laststat = self.os.fstat(f.fileno()) self.lastfilesize = self.laststat.st_size md5.update(str.encode('utf-8')) self.lastdigest = md5.digest() self.loadstr(str) numnewstats = len(self.stats)-numoldstats return numoldstats, numnewstats def open(self, fn): if not fn: self.len_stats = 0 self.stats = [] self.max_size = 0 self.fn = fn return with open(fn) as f: str = f.read() lastdigest = self.hashlib.md5(str.encode('utf-8')).digest() laststat = self.os.fstat(f.fileno()) self.loadstr(str, reset=1) # Update these only if there was no exception so far. self.fn = fn self.lastdigest = lastdigest self.laststat = laststat self.lastfilesize = laststat.st_size def loadstr(self, str, reset=0): stats = [] lines = str.split('\n') del str linesiter = iter(lines) max_size = 0 while 1: try: st = self.mod.Use.load(linesiter) except StopIteration: break stats.append(st) if st.size > max_size: max_size = st.size # Only update self if there were no exception so far if reset: self.stats = [] self.max_size = 0 self.max_size = max(self.max_size, max_size) self.stats.extend(stats) self.len_stats = len(self.stats) def __getitem__(self, idx): return self.stats[idx] def __len__(self): try: return self.len_stats except AttributeError: self.len_stats = len(self.stats) return self.len_stats def get_max_size(self): return self.max_size class ProfileRow: kindwidth = 30 def __init__(self, master, row, usecolor=1): self.master = master self.row = row if usecolor: colbg = Frame(master=master, bg='black', width=1, borderwidth=1, relief=GROOVE) self.color = Label(master=colbg, bg='white', width=1, borderwidth=1, relief=GROOVE) self.color.grid(row=0, column=0) colbg.grid(row=row, column=0, sticky=NW) self.rsizevar = SizeVar() self.rsize = Label( master=master, textvariable=self.rsizevar, width=6, anchor=E) self.rpercentvar = StringVar() # BBIntVar() self.rpercent = Label( master=master, textvariable=self.rpercentvar, width=3, anchor=E) self.dsizevar = SizeVar() self.dsize = Label( master=master, textvariable=self.dsizevar, width=6, anchor=E) self.dpercentvar = StringVar() # BBIntVar() self.dpercent = Label( master=master, textvariable=self.dpercentvar, width=3, anchor=E) self.kindvar = StringVar() self.kind = Label(master=master, textvariable=self.kindvar, anchor=NW, width=self.kindwidth, justify=LEFT) self.rsize.grid(row=row, column=1, sticky=NE) self.rpercent.grid(row=row, column=2, sticky=NE) self.dsize.grid(row=row, column=3, sticky=NE) self.dpercent.grid(row=row, column=4, sticky=NE) self.kind.grid(row=row, column=5, sticky=NW) def set_color_size_percent_kind(self, color, rsize, rpercent, dsize, dpercent, kind): self.set_color(color) if color is not None: self.set_color(color) self.rsizevar.set(rsize) if rpercent is None: rpercent = '' else: rpercent = str(int(round(rpercent))) self.rpercentvar.set(rpercent) self.dsizevar.set(dsize) dpercent = str(int(round(dpercent))) self.dpercentvar.set(dpercent) self.set_kind(kind) def set_color(self, color): self.color.configure(bg=color) def set_kind(self, kind): self.kindtext = kind if len(kind) > self.kindwidth: import textwrap kind = textwrap.fill(kind, width=self.kindwidth) self.kindvar.set(kind) def clear(self): self.set_color_size_percent_kind(self.master['bg'], 0, 0, 0, 0, '--') class AxisControl: scale_table = [1, 2, 5] while scale_table[-1] < 1e12: scale_table.append(scale_table[-3] * 10) def __init__(self, master, name, range, grid, unit, rangecommand, gridcommand, autocommand=None ): small = 0 self.name = name self.unit = unit self.range = range self.rangecommand = rangecommand self.frame = frame = Frame(master, borderwidth=2, relief=GROOVE) self.rangevar = SizeVar() self.rangevar.set(range) rangeval = Entry(master=self.frame, # anchor=E, width=4, textvar=self.rangevar, #font=('fixed', '16', 'bold'), #font=('terminal', '16', 'bold'), #font=('terminal', '14'), font=('fixed', '14'), # bg='black',fg='yellow' bg='#fdd' ) rangeval.bind('<KeyPress-Return>', self.event_range_enter) namelabel = Menubutton(frame, text=name, relief='raised', anchor=W) namemenu = Menu(namelabel) namelabel['menu'] = namemenu if autocommand: self.autovar = BooleanVar() self.autovar.set(True) namemenu.add_checkbutton( # autobutton = Checkbutton(frame, label='Auto', variable=self.autovar, command=autocommand, # relief=RAISED ) autobutton = Checkbutton(frame, text='Auto', variable=self.autovar, command=autocommand, relief=RAISED ) else: self.autovar = None if gridcommand: self.gridvar = BooleanVar() self.gridvar.set(grid) namemenu.add_checkbutton( label='Grid', variable=self.gridvar, command=lambda: gridcommand(self.gridvar.get()), ) gridbutton = Checkbutton(frame, text='Grid', variable=self.gridvar, command=lambda: gridcommand( self.gridvar.get()), relief=RAISED ) rangelabel = Label(frame, text='Range') if name == 'Y' and small: padx = 5 pady = 0 else: padx = 3 pady = 3 ud = Frame(frame) rangeup = ClickButton(ud, text='+', pady=pady, padx=padx, font=('fixed', 8), command=lambda: self.range_button(1)) rangedown = ClickButton(ud, text='-', pady=pady, padx=padx, font=('fixed', 8), command=lambda: self.range_button(-1)) rangedown.grid(row=0, column=0) rangeup.grid(row=0, column=1) row = 0 if small and name == 'Y': namelabel.grid(row=0, rowspan=1, column=0) rangeup.grid(row=0, column=1, sticky=W) autobutton.grid(row=1, column=0) rangedown.grid(row=1, column=1, sticky=W) rangeval.grid(row=2, column=0, columnspan=2, sticky=W, padx=3, pady=3) elif small and name == 'X': namelabel.grid(row=0, column=0) rangeval.grid(row=0, column=1, sticky=W, padx=3, pady=3) rangedown.grid(row=0, column=2, sticky=W) rangeup.grid(row=0, column=3, sticky=W) else: namelabel.grid(row=row, column=0, sticky=N+W, ipadx=0, ipady=0, padx=2, pady=2) rangelabel.grid(row=row, column=1, sticky=W) ud.grid(row=row, column=2, padx=2) row += 1 if gridcommand: gridbutton.grid(row=row, column=0, sticky=W) rangeval.grid(row=row, column=1, padx=3, pady=3) if autocommand: pass autobutton.grid(row=row, column=2) def cmd_range(self): pass def event_range_enter(self, event): str = self.rangevar.get() try: rng = stringsize(str) if rng not in self.scale_table: if not 1 <= rng <= self.scale_table[-1]: raise ValueError except ValueError: self.frame.bell() self.errorbox("""\ Invalid range entry. It should be a positive integer with an optional multiplier: K, M, G, or T (1000, 1e6, 1e9, 1e12) Maximum range is 1T.""") self.rangevar.set(self.range) else: if self.autovar: self.autovar.set(False) self.setrange(rng) def auto_command(self): pass def errorbox(self, msg): tkinter.messagebox.showerror(master=self.frame, message=msg) def fit(self, range): range = self.scale_by_table(range) self.setrange(range) def range_button(self, d): if self.autovar: self.autovar.set(False) self.range_change(d) def range_change(self, d): range = self.range srange = self.scale_by_table(range) if srange > range: if d > 0: d -= 1 i = self.scale_table.index(srange) i += d if i >= len(self.scale_table): i = len(self.scale_table) - 1 if i < 0: i = 0 self.setrange(self.scale_table[i]) def setrange(self, range): if range != self.range: self.range = range self.rangevar.set(range) self.rangecommand(range) def scale_by_table(self, s): # Return the scale from table that is higher or equal to s for ts in self.scale_table: if ts >= s: return ts return self.scale_table[-1] WM = 1 class Marker: def __init__(self, d, tag, name, pos, poscommand=None): self.d = d self.tag = tag self.name = name self.xmarker = pos self.butdown = 0 self.ocursor = d.ocursor self.cursor = self.ocursor self.poscommand = None self.intpos = None self.moving = 0 self.selected = 0 self.entered = 0 self.butdownselected = 0 self.motion_id = None self.create() def bind(self, sequence, function): tag = self.tag self.d.drawingarea.tag_bind(tag, sequence, function) if WM: self.xlabel.bind(sequence, function) else: self.d.xmarks.tag_bind(tag, sequence, function) def coords(self, canx): self.d.drawingarea.coords(self.tag, canx, 0, canx, -int(self.d.boty)) self.d.xmarks.coords(self.tag, canx, 10) def create(self): tag = self.tag text = self.name pos = 0 self.d.drawingarea.create_line(pos, 0, pos, 20-self.d.boty, stipple='gray12', width=4, tags=(tag,)) if WM: label = self.xlabel = Label( self.d.xmarks, text=text, padx=2, pady=2, relief=RAISED) self.d.xmarks.create_window(pos, 0, window=label, tags=(tag,)) else: self.d.xmarks.create_text(pos, 0, text=text, tags=(tag,)) self.bind('<Button-1>', self.event_button_1) self.bind('<ButtonRelease-1>', self.event_button_1_release) self.bind('<Enter>', self.event_enter) self.bind('<Leave>', self.event_leave) self.d.drawingarea.bind('<Enter>', self.event_enter_movearea, add='+') self.d.drawingarea.bind( '<Button-1>', self.event_button_1_movearea, add='+') def event_button_1(self, event): self.butdown = 1 if self.selected: self.butdownselected = 1 if self.moving: self.event_stop_move(event) else: self.butdownselected = 0 self.has_moved = 0 self.event_selected(event) self.event_start_move(event) def event_button_1_movearea(self, event): if not self.entered: self.event_deselected(event) def event_button_1_release(self, event): self.butdown = 0 if self.has_moved == self.butdownselected: if self.selected: if self.moving and not (self.disloy <= event.y_root < self.dishiy): self.event_stop_move(None) self.setcursor(self.ocursor) else: self.setcursor(self.ocursor) return self.event_deselected(event) def event_deselected(self, event): if self.selected: self.selected = 0 self.xlabel['relief'] = RAISED if self.moving: self.event_stop_move(event) def event_enter(self, event): self.entered = 1 if not self.moving: if self.selected: self.event_start_move(event) else: self.setcursor('hand2') def event_enter_movearea(self, event): if self.selected and not self.moving: self.event_start_move(event) def event_leave(self, event): self.entered = 0 if not self.moving: self.setcursor(self.ocursor) elif not (self.fraloy <= event.y_root < self.frahiy): pass def event_motion(self, event): self.has_moved = 1 inside = (self.fraloy <= event.y_root < self.frahiy) if inside != self.inside: self.inside = inside if not inside: self.out_event = event self.event_stop_move(None) if self.butdown: self.setcursor('circle') self.d.bind_motion(self.event_motion_downout) else: self.in_event = event #self.delta += self.out_event.x_root - event.x_root self.event_start_move(event) return if inside: self.moved(event) self.setxvars() def event_motion_downout(self, event): # We don't get an enter while button is pressed down # Emulate an enter if we detect entering inside = (self.fraloy <= event.y_root < self.frahiy) if inside: self.d.unbind_motion(self.event_motion_downout) self.event_enter_movearea(event) def event_selected(self, event): for m in self.d.marks: m.event_deselected(event) self.selected = 1 self.xlabel['relief'] = SUNKEN def event_start_move(self, event): self.moving = 1 self.fralox = self.d.frame.winfo_rootx() self.frahix = self.fralox + self.d.frame.winfo_width() self.fraloy = self.d.frame.winfo_rooty() self.frahiy = self.fraloy + self.d.frame.winfo_height() self.dislox = self.d.drawingarea.winfo_rootx() self.dishix = self.dislox + self.d.drawingarea.winfo_width() self.disloy = self.d.drawingarea.winfo_rooty() self.dishiy = self.disloy + self.d.drawingarea.winfo_height() self.down_event = event self.prev_event = event self.down_xmarker = self.xmarker self.down_xvfrac = self.d.drawingarea.xview()[0] self.inside = 1 self.delta = 0 self.lift() self.motion_id = self.d.bind_motion(self.event_motion) self.moved(event) def event_stop_move(self, event): assert self.moving self.moving = 0 self.d.unbind_motion(self.motion_id) if event is not None: self.moved(event) self.setxvars() if self.entered and not self.selected: self.setcursor('hand2') else: self.setcursor(self.ocursor) def lift(self): self.d.xmarks.tag_raise(self.tag) if WM: self.xlabel.lift() self.d.drawingarea.tag_raise(self.tag) def move(self, sample): canx = self.d.canxscaled(sample) self.d.xview_pos(canx) self.coords(canx) self.xmarker = sample self.lift() def moved(self, event): curx = event.x_root cury = event.y_root prevx = self.prev_event.x_root if prevx > self.dishix and curx < self.dishix: prevx = self.dishix elif prevx < self.dislox and curx > self.dislox: prevx = self.dislox markx = self.d.canxscaled(self.xmarker) - \ self.d.drawingarea.canvasx(0) + self.dislox dx = curx - prevx l = r = 1 if self.xmarker >= self.d.numstats-1: r = 0 if self.xmarker <= 0: l = 0 stop = 0 # Should we allow to move it back or not # if it is at an endpoint? # Here we don't move it at all, to make marker pos correspond # more closely with mouse position. if ((r == 0 and curx > markx) or (l == 0 and curx < markx)): l = r = 0 if self.butdown: if curx > self.dishix: l = 0 elif curx < self.dislox: r = 0 else: if not (self.dislox <= curx < self.dishix and self.disloy <= cury < self.dishiy): l = r = 0 stop = 1 if l and r: self.setcursor('sb_h_double_arrow') elif l: self.setcursor('sb_left_arrow') if dx > 0: dx = 0 elif r: self.setcursor('sb_right_arrow') if dx < 0: dx = 0 else: self.setcursor('dot') dx = 0 self.prev_event = event sample = self.d.limitx(self.xmarker + dx / self.d.xscale) canx = self.d.canxscaled(sample) self.d.xview_pos(canx) self.coords(canx) self.xmarker = sample if stop and self.moving: self.event_stop_move(None) def set(self): canx = self.d.canxscaled(self.xmarker) self.coords(canx) self.lift() def set_poscommand(self, command): self.poscommand = command self.intpos = None def setcursor(self, cursor): if cursor != self.cursor: self.xlabel['cursor'] = cursor self.cursor = cursor self.d.setcursor(cursor) def setxvars(self): if self.poscommand: intpos = int(round(self.xmarker)) if intpos != self.intpos: self.intpos = intpos self.poscommand(intpos) class Display: orgwidth = 300 orgheight = 300 minwidth = 30 minheight = 30 def __init__(self, master, scale_table, numkindrows, getkindcolor, xrange=100, yrange=100, xgrid=False, ygrid=False, graphtype='Bars', statype='Size', ): self.master = master self.scale_table = scale_table self.numkindrows = numkindrows self.getkindcolor = getkindcolor self.xrange = xrange self.yrange = yrange self.xgrid = xgrid self.ygrid = ygrid self.var_xgrid = BooleanVar() self.var_xgrid.set(xgrid) self.var_ygrid = BooleanVar() self.var_ygrid.set(ygrid) self.graphtype = graphtype self.statype = statype self.numstats = 0 self.ymaxs = [] self.ymins = [] self.ymax = 1 # To get around problems with dynamic unbinding / unbinding of motion, # I handle it myself. in the bind_motion method using the following. self.bound_motions = {} self.event_motion_id = None # self.frame = frame = Frame(master, borderwidth=3, relief=SUNKEN, # relief=GROOVE, # background='green' ) #self.frame = frame = Frame(master,background='green') bordercolor = '#ccc' screencolor = '#e0e0e0' xscrollincrement = 1 frame = Frame(self.frame) frame.grid(row=0, column=0) #move = Frame(frame, height=10,width=10,background='red', relief=RAISED) #move = Button(self.frame, height=10,width=10,background='red') self.drawingarea = C = Canvas(frame, width=self.orgwidth, height=self.orgheight, xscrollincrement=xscrollincrement, # background='black', background=screencolor, bd=0, xscrollcommand=self.xscrollbar_set, # confine=False, ) #self.yctrlframe = Frame(frame, borderwidth=2,relief=GROOVE) self.yscrollbar = Scrollbar(frame, orient=VERTICAL, width=10) # self.yscrollbar['command']=self.drawingarea.yview #self.drawingarea['yscrollcommand'] = self.yscrollbar_set # self.yscrollbar.pack(side=RIGHT,fill=Y) #self.yctrlframe.grid(row = 0, column = 0,sticky=N+S,padx=3,pady=3) self.xaxis = Canvas(frame, width=C['width'], height=20, xscrollincrement=xscrollincrement, bd=0, background=bordercolor, #xscrollcommand = self.xscrollbar_set # confine=False, ) self.xmarks = Canvas(frame, width=C['width'], height=20, xscrollincrement=xscrollincrement, bd=0, background=bordercolor, #xscrollcommand = self.xscrollbar_set # confine=False, ) self.yaxis = Canvas(frame, height=C['height'], width=50, bd=0, background=bordercolor, ) self.xscrollbar = Scrollbar(frame, orient=HORIZONTAL, command=self.drawingarea_xview, width=12, background=bordercolor, ) xy = Canvas(frame, width=50, height=20, bd=0, background=bordercolor, ) var_yrange = SizeVar() self.var_yrange = var_yrange row = 0 Label(frame, textvar=var_yrange, bd=0, relief=FLAT, background=bordercolor).grid( row=row, column=0, sticky=W+E+N+S) self.xscrollbar.grid(row=row, column=1, sticky=E+W) row += 1 self.yunit = Label(frame, text='Bytes', bd=0, relief=FLAT, background=bordercolor) self.yunit.grid( row=row, column=0, sticky=W+E+N+S) self.xmarks.grid(row=row, column=1, sticky=W+E+N) row += 1 self.yaxis.grid(row=row, column=0) C.grid(row=row, column=1, sticky=W+E) row += 1 xy.grid(row=row, column=0) self.xaxis.grid(row=row, column=1, sticky=W+E+N) self.botx = float(C['width']) self.boty = float(C['height']) self.chdim = self.getchdim() self.canx0 = 0 self.tmax = 0 self.xscale = self.botx / self.xrange self.yscale = self.boty / self.yrange self.xi0 = None xy.create_line(0, 2, 44, 2) xy.create_line(49, 6, 49, 22) xy.create_text(25, 14, text='Sample') self.setscrollregion() self.ocursor = self.drawingarea['cursor'] self.cursor = self.ocursor self.marks = [] def bind_motion(self, function): if self.event_motion_id == None: self.event_motion_id = self.frame.bind_all( '<Motion>', self.event_motion, add='+') self.bound_motions[function] = self.bound_motions.get(function, 0) + 1 return function def event_motion(self, event): for f in list(self.bound_motions.keys()): f(event) def unbind_motion(self, funcid): n = self.bound_motions[funcid] - 1 if n == 0: del self.bound_motions[funcid] else: self.bound_motions[funcid] = n def new_xmarker(self, name=None, pos=0): tag = 'M%d' % len(self.marks) if name is None: name = tag m = Marker(self, tag, name, pos) self.marks.append(m) return m def canxscaled(self, x): return x * self.xscale + self.canx0 def canyscaled(self, y): return - y * self.yscale def cmd_xgrid(self): self.xgrid = self.var_xgrid.get() self.drawxaxis() def cmd_ygrid(self): self.ygrid = self.var_ygrid.get() self.drawyaxis() def cmd_yrange_auto(self): self.ymax = None self.yrange_auto() def limitx(self, x): lo = 0 hi = max(0, self.numstats-1) if x < lo: return lo if x > hi: return hi return x def resize(self, dx, dy): x = self.botx + dx y = self.boty + dy if x < self.minwidth: x = self.minwidth dx = x - self.botx if y < self.minheight: y = self.minheight dy = y - self.boty xv = self.drawingarea.xview() yv = self.drawingarea.yview() self.drawingarea.configure(width=x, height=y) self.xaxis.configure(width=x) self.xmarks.configure(width=x) self.yaxis.configure(height=y) xscale = float(x) / self.xrange yscale = float(y) / self.yrange xscaleorg = self.drawingarea.canvasx(0) yscaleorg = 0 xq = xscale / self.xscale yq = yscale / self.yscale self.drawingarea.scale("all", xscaleorg, yscaleorg, xq, yq) #self.drawingarea.scale("barsep",xscaleorg, yscaleorg, xq, yq) #self.drawingarea.scale("xmarker",xscaleorg, yscaleorg, xq, yq) self.canx0 = xscaleorg + (self.canx0 - xscaleorg) * xq self.botx = x self.boty = y self.xscale = xscale self.yscale = yscale self.drawxaxis() self.drawyaxis() self.setscrollregion() # If the size changed much, the canvas may scroll though it shouldn't. # Notes 11 and 26 Oct 2005 . # I save the current scroll position. # The caller has to call the .moveback() method some time later. self.wantedpos = xv[0] return dx, dy def moveback(self): self.frame.update_idletasks() self.xview(MOVETO, self.wantedpos) def draw(): self.drawxaxis() self.drawyaxis() def draw_stat(self, idx, stat): graphtype = self.graphtype statype = self.statype rows = stat.get_rows_n_and_other(self.numkindrows, statype) if statype == 'Size': kindval = dict([(r.name, r.size) for r in rows]) else: kindval = dict([(r.name, r.count) for r in rows]) order = [r.name for r in rows] order.reverse() lastkindval = self.lastkindval self.lastkindval = kindval C = self.drawingarea yscale = self.yscale xscale = self.xscale x0 = idx * xscale - 0.5 * xscale + self.canx0 x1 = x0 + xscale ymax = 0 ymin = 0 y = 0 bw = 0.05*xscale ocolor = None for k in order: dy = kindval.get(k, 0) if not dy: continue color = self.getkindcolor(k) if graphtype == 'Bars': line = C.create_rectangle(x0+bw, -y*yscale, x1-bw, -(y+dy)*yscale, fill=color, outline=color, width=0, tags=("a",)) if color == ocolor: C.create_line(x0, -(y)*yscale, x1, -(y)*yscale, fill='black', tags=('barsep',)) ocolor = color y += dy elif graphtype == 'Lines': if dy > ymax: ymax = dy elif dy < ymin: ymin = dy y0 = lastkindval.get(k) if y0 is None: y0 = dy x00 = x0 else: x00 = x0 - 0.4 * xscale C.create_line(x00, - y0 * yscale, x1 - 0.6 * xscale, - dy * yscale, fill=color, tags=('a',)) C.create_line(x1 - 0.6 * xscale, - dy * yscale, x1 - 0.4 * xscale, - dy * yscale, fill=color, width=4, tags=('a',)) if graphtype == 'Bars': if y > ymax: ymax = y elif y < ymin: ymin = y assert idx == len(self.ymaxs) == len(self.ymins) self.ymaxs.append(ymax) self.ymins.append(ymin) if idx > self.tmax: self.tmax = idx def drawingarea_xview(self, cmd, what, unit=None): if cmd == 'scroll' and unit == 'units': what = int(max(2, self.xscale)*int(what)) self.xview(cmd, what, unit) def setcursor(self, cursor): if cursor != self.cursor: self.drawingarea['cursor'] = cursor self.master['cursor'] = cursor self.cursor = cursor def xmarkers_set(self): for m in self.marks: m.set() def xview(self, *args): if not args: return self.drawingarea.xview() self.drawingarea.xview(*args) self.xaxis.xview(*args) self.xmarks.xview(*args) def xview_moveto(self, fraction): self.xview(MOVETO, fraction) def xview_pos(self, pos, fraction=None, leftmargin=5, rightmargin=5): # Scroll canvas view, if necessary, so that something # (eg an x marker) at canvas position pos will be visible # with minimum specified margin at left and right. # Scroll relative to fraction; default is current xview position. if fraction is None: fraction = self.xview()[0] x1, y1, x2, y2 = self.scrollregion cc = x1 + fraction * (x2 - x1) xm = pos - cc lo = leftmargin hi = self.botx - rightmargin if xm < lo: dx = xm - lo xm = lo elif xm >= hi: dx = (xm - hi) xm = hi else: dx = 0 r = fraction + dx / float(x2 - x1) self.xview_moveto(r) def drawxaxis(self): scale_table = self.scale_table self.xaxis.delete('all') self.drawingarea.delete('xgrid') x1, y1, x2, y2 = self.scrollregion chdx, chdy = self.chdim i = 0 while (scale_table[i] * self.xscale < min(5, len(str(scale_table[i] * self.tmax))) * chdx): i += 1 self.xstep = scale_table[i] divisuf = ( (1000000000000, '%dT'), (1000000000, '%dG'), (1000000, '%dM'), (1000, '%dK'), (1, '%d') ) for divi, form in divisuf: if self.xstep >= divi: break self.xdivi = divi self.xform = form self.xi0 = 0 self.updatexaxis() def updatexaxis(self): chdx, chdy = self.chdim step = self.xstep gridon = self.xgrid for i in range(self.xi0, self.tmax+step, step): x = self.canx0 + i*self.xscale self.xaxis.create_line(x, 0, x, 4) if gridon: self.drawingarea.create_line(x, 0, x, -self.boty, tags=('xgrid',), width=2, stipple="gray25") text = self.xform % (i / self.xdivi) self.xaxis.create_text(x, chdy, text=text) self.xaxis.create_line(self.canx0 + self.xi0 * self.xscale, 1, x+self.xscale, 1) self.xi0 = i self.xmarkers_set() def drawyaxis(self): gridon = self.ygrid self.yaxis.delete('all') self.drawingarea.delete('ygrid') chdx, chdy = self.getchdim() width = int(self.yaxis['width']) i = 0 maxval = self.yrange while (self.scale_table[i] * self.yscale < 1.5 * chdy): i += 1 step = self.scale_table[i] divisuf = ( (1000000000000, '%4dT'), (1000000000, '%4dG'), (1000000, '%4dM'), (1000, '%4dK'), (1, '%5d') ) for divi, form in divisuf: if step >= divi: break for i in range(0, maxval+step, step): y = - i*self.yscale self.yaxis.create_line(width-3, y, width-1, y) if gridon: self.drawingarea.create_line(self.scrollregion[0], y, self.scrollregion[2], y, stipple="gray25", tags=('ygrid',)) text = form % (i / divi) self.yaxis.create_text(chdx*2.5, y-0.5*chdy, text=text) #self.yaxis.create_text(chdx*2.5, 0.5*chdy, text='bytes') self.yaxis.create_line(width-1, 0, width-1, -self.boty) self.xmarkers_set() def getchdim(self): ch = self.xaxis.create_text(0, 0, text='0') x1, y1, x2, y2 = self.xaxis.bbox(ch) self.xaxis.delete(ch) chdx = abs(x2 - x1) chdy = abs(y2 - y1) return chdx, chdy def load_stats(self, stats): ocursor = self.frame.winfo_toplevel()['cursor'] try: self.frame.winfo_toplevel()['cursor'] = 'watch' self.frame.update() self.numstats = len(stats) self.lastkindval = {} self.tmax = 0 self.ymax = None self.ymaxs = [] self.ymins = [] C = self.drawingarea C.delete('barsep') C.delete('a') for (i, st) in enumerate(stats): self.draw_stat(i, st) try: self.drawingarea.tag_raise('barsep', 'a') except TclError: pass # May be 'tagOrId "a" doesn't match any items' if empty! self.drawxaxis() self.drawyaxis() self.xmarkers_set() self.yrange_auto() finally: self.frame.winfo_toplevel()['cursor'] = ocursor def add_stats(self, stats): for (i, st) in enumerate(stats): self.draw_stat(i+self.numstats, st) self.numstats += len(stats) self.updatexaxis() self.setscrollregion() def setxgrid(self, grid): self.xgrid = grid self.drawxaxis() def setygrid(self, grid): self.ygrid = grid self.drawyaxis() def setgraphtype(self, gmode, stats): graphtype, statype = gmode.split(' ') if graphtype != self.graphtype or statype != self.statype: self.graphtype = graphtype self.statype = statype if statype == 'Size': self.yunit['text'] = 'Bytes' elif statype == 'Count': self.yunit['text'] = 'Objects' else: raise ValueError self.load_stats(stats) def setscrollregion(self): C = self.drawingarea botx = self.botx x1 = self.canx0 x2 = self.tmax * self.xscale + self.canx0 x1extra = botx / 2 + 2 # max(5, self.xscale*0.5) x2extra = botx / 2 + 2 # max(5, self.xscale*0.5) x1 -= x1extra x2 += x2extra y1 = 1-self.boty y2 = 1 self.scrollregion = (x1, y1, x2, y2) C.configure(scrollregion=self.scrollregion) self.xaxis.configure(scrollregion=(x1, 0, x2, 10)) self.xmarks.configure(scrollregion=(x1, 0, x2, 20)) self.yaxis.configure(scrollregion=(0, y1, 20, y2)) self.drawingarea.yview(MOVETO, 0.0) def setxrange(self, xrange): dxrange = self.xrange / float(xrange) self.xrange = xrange xscaleorg = self.drawingarea.canvasx(self.botx/2) self.drawingarea.scale("a", xscaleorg, 0, dxrange, 1.0) self.drawingarea.scale("barsep", xscaleorg, 0, dxrange, 1.0) self.canx0 = xscaleorg + (self.canx0 - xscaleorg) * dxrange self.xscale = self.botx / float(self.xrange) self.setxscrollincrement(max(2, self.xscale)) self.drawxaxis() self.setscrollregion() def setxscrollincrement(self, dx): return self.drawingarea.configure(xscrollincrement=dx) self.xaxis.configure(xscrollincrement=dx) self.xmarks.configure(xscrollincrement=dx) def setyrange(self, yrange): dyrange = float(self.yrange) / yrange self.yrange = yrange self.var_yrange.set(yrange) self.drawingarea.scale("a", 0, 0, 1.0, dyrange) self.drawingarea.scale("barsep", 0, 0, 1.0, dyrange) self.yscale = float(self.boty) / self.yrange self.drawingarea.yview(MOVETO, 0.0) self.drawyaxis() def xscrollbar_set(self, first, last): self.xscrollbar.set(first, last) self.yrange_auto() def yrange_auto(self, force=0): if force or self.ycontrol.autovar.get(): lo = max(0, int(0.5+(self.drawingarea.canvasx(0) - self.canx0) / self.xscale)) hi = min(len(self.ymaxs), int(1.5+(self.drawingarea.canvasx(self.botx) - self.canx0) / self.xscale)) if lo == hi: ymax = 1 else: ymax = max(self.ymaxs[lo:hi]) if ymax != self.ymax: self.ymax = ymax self.ycontrol.fit(ymax) class MarkerControl: def __init__(self, master, marker, setcommand=lambda: 0 ): self.sample = 0 self.numsamples = 0 self.setcommand = setcommand self.marker = marker self.name = marker.name sf = self.frame = Frame(master, borderwidth=2, relief=GROOVE) self.samplevar = SizeVar() Label(sf, text='%s sample' % marker.name).grid(row=0, column=0) Label(sf, textvariable=self.samplevar, font=('terminal', '16', 'bold'), bg='black', fg='yellow' ).grid(row=1, column=0, padx=3, pady=3) ClickButton(sf, text='-', pady=0, padx=5, command=lambda: self.changesample(-1)).grid(row=0, column=1, sticky=E) ClickButton(sf, text='+', pady=0, padx=5, command=lambda: self.changesample(1)).grid(row=0, column=2, sticky=W) self.trackingvar = BooleanVar() self.trackbutton = Checkbutton( sf, text='Track', padx=5, variable=self.trackingvar, relief=RAISED, command=self.settracking, indicatoron=1, ) self.trackbutton.grid(row=1, column=1, columnspan=2) def changesample(self, d): sample = self.sample + d if 0 <= sample < self.numsamples: self.setmarker(sample) def setmarker(self, sample): self.marker.move(sample) self.setsample(sample) def setnumsamples(self, num): self.numsamples = num if self.trackingvar.get() or self.sample >= self.numsamples: self.setmarker(max(0, self.numsamples-1)) def setsample(self, sample): self.sample = sample self.samplevar.set(sample) self.setcommand() def settracking(self, tracking=None): if tracking is not None: self.trackingvar.set(tracking) else: tracking = self.trackingvar.get() if tracking: self.setmarker(max(0, self.numsamples-1)) class Window: def __init__(self, app, frame, windowmenu=None): self.app = app self.frame = frame self.windowmenu = windowmenu self.wtitle = frame.title() self._is_destroyed = 0 # Binding to <destroy> didnt work well: # frame.bind('<Destroy>', self.event_destroy, add='+') # I give up. I modify .destroy of frame argument instead. self.old_destroy = frame.destroy frame.destroy = self.new_destroy def new_destroy(self): if self._is_destroyed: return self._is_destroyed = 1 self.app.del_window(self) try: self.old_destroy() except TclError: # This may happen at closing last window # because exit destroys the root when it sees all windows were closed. # So I ignore it. pass def title(self, title): self.frame.title(title) self.frame.iconname(title) self.wtitle = title self.app.chg_window(self) def wakeup(self): frame = self.frame try: if frame.wm_state() == "iconic": frame.wm_deiconify() frame.tkraise() # I don't think I want .focus_set: it behaved strange in X at least. # frame.focus_set() except TclError: # This can happen when the window menu was torn off. # Simply ignore it. pass class WindowMenu: def __init__(self, frame, variable): self.button = Menubutton(frame, text='Window') self.menu = Menu(self.button) self.button['menu'] = self.menu self.variable = variable self.wmap = {} def add_window(self, window): self.menu.add_radiobutton( command=window.wakeup, label='%d %s' % (window.wid, window.wtitle), value=window.wid, variable=self.variable) self.wmap[window.wid] = self.menu.index(END) def chg_window(self, window): self.menu.delete(self.wmap[window.wid]) self.menu.insert_radiobutton( self.wmap[window.wid], command=window.wakeup, label='%d %s' % (window.wid, window.wtitle), value=window.wid, variable=self.variable) def del_window(self, window): idx = self.wmap[window.wid] del self.wmap[window.wid] try: self.menu.delete(idx) except TclError: # This can happen if the menu was destroyed before its contents. # Simply ignore it. pass for wid in list(self.wmap.keys()): if self.wmap[wid] > idx: self.wmap[wid] -= 1 class ProfileApp: def __init__(self, mod): self.mod = mod root = Tk() self.root = root root.withdraw() self.windows = {} self.windowmenus = {} self.var_window = IntVar(root) def add_window(self, window): window.wid = max([0]+list(self.windows.keys()))+1 self.windows[window.wid] = window wm = getattr(window, 'windowmenu', None) if wm: self.windowmenus[window.wid] = wm for w in list(self.windows.values()): if w is not window: wm.add_window(w) for wm in list(self.windowmenus.values()): wm.add_window(window) self.var_window.set(window.wid) window.frame.bind('<FocusIn>', lambda event: self.var_window.set(window.wid), add='+') window.frame.bind('<Deactivate>', lambda event: self.var_window.set(0), add='+') def add_window_frame(self, frame, windowmenu=None): w = Window(self, frame, windowmenu) self.add_window(w) return w def chg_window(self, window): for wm in list(self.windowmenus.values()): wm.chg_window(window) def del_window(self, window): wid = window.wid if getattr(window, 'windowmenu', None): del self.windowmenus[wid] del self.windows[wid] for wm in list(self.windowmenus.values()): wm.del_window(window) if not self.windows: self.exit() def exit(self): try: self.root.destroy() except TclError: pass self.root.quit() def mainloop(self): return self.root.mainloop() def new_profile_browser(self, filename): return ProfileBrowser(self, filename) class PaneDiv: def __init__(self, master, movecommand): self.frame = frame = Frame(master) self.movecommand = movecommand self.butsize = bs = 6 bc = self.butcent = bs / 2 + 3 h = 10 self.top = Canvas( frame, width=10, height=h, ) self.top.create_line( bc, 0, bc, h, fill='#808080', width=1) self.top.create_line( bc+1, 0, bc+1, h, fill='white', width=1) self.rsbut = Canvas( frame, cursor='crosshair', width=self.butsize, height=self.butsize, relief=RAISED, bd=2 ) self.bot = Canvas( frame, width=10, height=300, bd=0 ) self.top.grid(row=0, column=0, sticky=N) self.rsbut.grid(row=1, column=0, sticky=N) self.bot.grid(row=2, column=0, sticky=N) self.rsbut.bind('<Button-1>', self.but_down) self.rsbut.bind('<ButtonRelease-1>', self.but_up) def but_down(self, event): self.down_event = event self.rsbut.configure(relief=SUNKEN) def but_up(self, event): self.rsbut.configure(relief=RAISED) dx = event.x - self.down_event.x self.movecommand(dx) def setheight(self, height): h = height - 18 self.bot['height'] = h bc = self.butcent self.bot.create_line( bc, 0, bc, h, fill='#808080', width=1) self.bot.create_line( bc+1, 0, bc+1, h, fill='white', width=1) class TableFrame: def __init__(self, graph, master, numkindrows, samplevar): self.graph = graph self.mod = graph.mod frame = self.frame = Frame(master, borderwidth=2, relief=GROOVE) row = 0 self.marktime = StringVar() self.totsizevar = SizeVar() self.sampler = StringVar() self.sampler.set('R') fr = Frame(frame) # For header om = OptionMenu(fr, self.sampler, 'R', 'L', 'R-L') om.grid(row=0, column=0, sticky=W) Label(fr, text='Sample').grid(row=0, column=1, sticky=W) Label(fr, textvariable=samplevar, background='black', foreground='yellow', ).grid(row=0, column=2, sticky=W, pady=3) Label(fr, text='at').grid(row=0, column=3, sticky=W) Label(fr, textvariable=self.marktime).grid( row=0, column=4, sticky=W) Label(fr, text='Total size = ').grid( row=1, column=0, columnspan=3, sticky=W) Label(fr, textvar=self.totsizevar).grid( row=1, column=3, columnspan=2, sticky=W) fr.grid(row=row, column=0, sticky=W) row += 1 orow = row tb = Frame(frame) row = 0 Label(tb, text="").grid(row=row, column=0) Label(tb, text="R", ).grid(row=row, column=1, sticky=E) Label(tb, text="%R").grid(row=row, column=2, sticky=E) Label(tb, text="R-L", ).grid(row=row, column=3, sticky=E) Label(tb, text="%L").grid(row=row, column=4, sticky=E) Label(tb, text="Kind").grid(row=row, column=5, sticky=W) row += 1 self.profrows = [] self.totrow = ProfileRow(tb, row) self.profrows.append(self.totrow) row += 1 for i in range(numkindrows+1): profrow = ProfileRow(tb, row) self.profrows.append(profrow) row += 1 row = orow tb.grid(row=row, column=0, sticky=W) # for next.. row += 1 self.totresize = 0 self.kindwidth = ProfileRow.kindwidth def resize(self, dx, dy): dx = int(dx) self.totresize += dx charresize, extra = divmod(self.totresize, 7) newwidth = ProfileRow.kindwidth + charresize oldwidth = self.profrows[0].kind['width'] if newwidth < 10: newwidth = 10 dx = (newwidth - oldwidth) * 7 + extra for pr in self.profrows: pr.kind['width'] = newwidth pr.kindwidth = newwidth pr.kind['padx'] = extra / 2 import textwrap kindtext = textwrap.fill(pr.kindtext, width=pr.kindwidth) pr.set_kind(pr.kindtext) return dx, dy def update(self, lsamp, rsamp): self.marktime.set(self.mod.time.asctime( self.mod.time.localtime(rsamp.stat.timemade))) return for pr in self.profrows: pr.clear() rdiv = float(rsamp.stat.size) ldiv = float(lsamp.stat.size) self.totrow.set_color_size_percent_kind( None, rsamp.stat.size, 100.0, rsamp.stat.size - lsamp.stat.size, (rsamp.stat.size - lsamp.stat.size) * 100.0 / ldiv, '<Total>' ) for i, r in enumerate(rsamp.rows): l = lsamp.kindrows[r.name] self.profrows[i+1].set_color_size_percent_kind( self.graph.getkindcolor(r.name), r.size, r.size * 100.0 / rdiv, r.size - l.size, (r.size - l.size) * 100.0 / ldiv, r.name) class ColSpec: def __init__(self, tf, header, width, pos, render, idx=()): self.tf = tf self.header = header self.name = header self.width = width self.pos = pos self.render = render self.idx = idx def align(self, text): sp = ' '*(self.width - len(text)) if self.pos == LEFT: text = text + sp elif self.pos == RIGHT: text = sp[:-1] + text + ' ' else: assert 0 assert len(text) == self.width return text class TableFrame: def __init__(self, graph, master): self.graph = graph self.mod = graph.mod frame = self.frame = Frame( master, borderwidth=3, relief=SUNKEN ) self.colspecs = {} self.colwidths = [] def defcol(names, width, pos, put, idxfunc=lambda x: ()): if callable(put): put = [put]*len(names) self.colwidths.append(width) for name, put in zip(names, put): spec = ColSpec(self, name, width, pos, put, idxfunc(name)) self.colspecs[name] = spec defcol(('A', 'B'), 2, LEFT, self.putcolor, lambda x: x) defcol(('Size', 'Count'), 7, RIGHT, [self.putsize, self.putcount]) defcol(('%A:Tot', '%B:Tot'), 7, RIGHT, self.putpercent, lambda name: name[1]) defcol(('B-A', 'A-B', 'Cumul'), 7, RIGHT, [self.putdiff, self.putdiff, self.putcumul], lambda name: [(), name.split('-')]['-' in name]) defcol(('%A:Tot', '%B:Tot'), 7, RIGHT, self.putpercent, lambda name: name[1]) defcol(('Kind',), 20, LEFT, self.putkind) width = 0 for w in self.colwidths: width += w self.totxresize = 0 self.totyresize = 0 self.kindcol = self.colspecs['Kind'] self.orgkindwidth = self.kindcol.width self.widthbeforekind = width - self.orgkindwidth self.minkindwidth = 10 self.mintextheight = 2 width += 1 self.width = self.orgwidth = width wrap = NONE cursor = master['cursor'] relief = FLAT self.minpadx = 3 self.tothead = Text( frame, width=width, wrap=wrap, background='#ccc', height=2, padx=self.minpadx, relief=relief, cursor=cursor, ) self.rowhead = Text( frame, width=width, wrap=wrap, background='#ccc', height=1, padx=self.minpadx, relief=relief, cursor=cursor, ) self.tsframe = Frame(frame) self.textminpady = 2 self.text = Text( self.tsframe, width=width, wrap=wrap, height=21, background='#e0e0e0', relief=relief, takefocus=0, cursor=cursor, padx=self.minpadx, pady=self.textminpady, ) self.scrollbar = Scrollbar( self.tsframe, width=10, orient=VERTICAL, command=self.text.yview ) self.scrollbar_totwidth = int( self.scrollbar['width']) + 6 # width + padding self.uses_scrollbar = 0 self.auto_scrollbar = 1 self.orgtextheight = int(self.text['height']) padx = 0 pady = 0 self.tothead.pack(anchor=N+W, padx=padx, pady=pady) self.rowhead.pack(anchor=N+W, padx=padx, pady=pady) self.text.pack(side=LEFT, anchor=N+W, padx=padx, pady=pady) self.tsframe.pack(anchor=N+W, padx=padx, pady=pady) def setchdim(self): self.text.update() self.chdx = float(self.text.winfo_width()) / self.width self.chdy = float(self.text.winfo_height()) / self.orgtextheight self.chdx = int(round(self.chdx)) self.chdy = int(round(self.chdy)) self.pixwidth = self.width * self.chdx self.pixheight = self.width * self.chdy def putcolor(self, col): if self.colorow.name == '<Total>': text = col.align(' ') color = '#e0e0e0' else: color = self.graph.getkindcolor(self.colorow.name), text = col.align('@') self.text.insert('end', text, (color,)) self.text.tag_config(color, foreground=color, background='#e0e0e0', font=('terminal', '12', 'bold'),) def putcount(self, col): self.valmode = 'Count' count = self.colorow.count self.cumulval += count self.putval(col, count) def putsize(self, col): self.valmode = 'Size' size = self.colorow.size self.cumulval += size self.putval(col, size) def putval(self, col, val): self.curval = val self.ap(col.align(sizestring(val))) def putpercent(self, col): a = self.statbyname[col.idx] if self.valmode == 'Count': ref = a.count elif self.valmode == 'Size': ref = a.size if ref: ps = percentstring(self.curval * 100.0 / ref) else: ps = '---' self.ap(col.align(ps)) def putdiff(self, col): a, b = self.rowbyname[col.idx[0]], self.rowbyname[col.idx[1]] if self.valmode == 'Count': a, b = a.count, b.count elif self.valmode == 'Size': a, b = a.size, b.size self.putval(col, a - b) def putcumul(self, col): self.putval(col, self.cumulval) def putkind(self, col): # Must be last! import textwrap wraplines = textwrap.wrap(self.colorow.name, width=col.width) self.ap(col.align(wraplines[0])) if len(wraplines) > 1: initial = '\n'+' '*(self.widthbeforekind) for line in wraplines[1:]: self.ap(initial+col.align(line)) def setmode(self, mode, numkindrows): self.mode = mode self.numkindrows = numkindrows self.mcontrols = self.graph.mcontrolbyname self.stats = self.graph.stats self.cols = [self.colspecs[x.strip()] for x in mode.split(' ') if x.strip()] self.controlnames = {} name = self.cols[0].idx self.colorcontrol = self.mcontrols[name] self.controlnames[name] = 1 self.controls = [self.colorcontrol] self.lastidxs = [None] for i, co in enumerate(self.cols): idx = co.idx if not isinstance(idx, (tuple, list)): idx = (idx,) for idx in idx: if idx not in self.controlnames: self.controls.append(self.mcontrols[idx]) self.controlnames[idx] = 1 self.lastidxs.append(None) def setscrollbar(self, sb): if sb == self.uses_scrollbar: return self.uses_scrollbar = sb w = self.scrollbar_totwidth if sb: self.resize(-w, 0, setscrollbar=0) self.scrollbar.pack(side=LEFT, fill=Y) self.text['yscrollcommand'] = self.scrollbar.set else: self.resize(w, 0, setscrollbar=0) self.scrollbar.pack_forget() self.text['yscrollcommand'] = None def update_simple(self, lsamp, rsamp): t = self.text t.delete('1.0', '100.0') t.insert('1.0', str(rsamp.stat)) def update(self, force=0, setscrollbar=1): stats = self.stats idxs = [max(0, min(control.sample, len(stats)-1)) for control in self.controls] if (idxs == self.lastidxs) and not force: return self.lastidxs = idxs self.text['state'] = self.tothead['state'] = self.rowhead['state'] = NORMAL self.text.delete('1.0', END) self.tothead.delete('1.0', END) self.rowhead.delete('1.0', END) if not stats: self.tothead.insert('end', '-- No Sample --') self.text['state'] = self.tothead['state'] = self.rowhead['state'] = DISABLED return self.statbyname = {} statbyidx = [] for i, control in enumerate(self.controls): stat = stats[idxs[i]] statbyidx.append(stat) self.statbyname[control.name] = stat samps = self.samps = [ Sample(self.mod, statbyidx[0], self.controls[0].marker.name, idxs[0], numkindrows=self.numkindrows, statype=self.graph.display.statype )] self.colorsamp = samps[0] if len(self.controls) > 1: samps.append(Sample(self.mod, statbyidx[1], self.controls[1].marker.name, idxs[1], relative=samps[0])) self.relsamp = samps[1] t = self.tothead n = max([len(str(samp.index)) for samp in samps]) for samp in samps: t.insert('end', 'Sample %s: ' % samp.name) t.insert('end', ('%%%dd' % n) % samp.index, ('index',)) t.insert('end', ' at %s\n' % (samp.datetime)) t.tag_configure('index', background='#e0e0e0') t = self.rowhead self.sizes = [float(samp.stat.size) for samp in samps] for col in self.cols: t.insert('end', col.align(col.header), ('header',)) t.insert('end', '\n') t = self.text self.ap = lambda text: t.insert('end', text) self.colorow = Row(samps[0].count, samps[0].size, '<Total>') self.rowbyname = self.statbyname self.cumulval = 0 for col in self.cols: col.render(col) self.ap('\n\n') self.cumulval = 0 for i, a in enumerate(samps[0].rows): self.colorow = a if len(samps) > 1: self.rowbyname = { samps[0].name: a, samps[1].name: samps[1].kindrows[a.name] } for col in self.cols: col.render(col) self.ap('\n') if setscrollbar and self.auto_scrollbar: numrows = int(self.text.index('end').split('.')[0])-2 h = int(self.text['height']) needs_scrollbar = numrows > h if needs_scrollbar != self.uses_scrollbar: self.setscrollbar(needs_scrollbar) self.text['state'] = self.tothead['state'] = self.rowhead['state'] = DISABLED def resize(self, dx, dy, setscrollbar=1): dx = int(dx) oldwidth = self.pixwidth newwidth = self.pixwidth + dx if newwidth < self.chdx * 2: newwidth = self.chdx * 2 self.pixwidth = newwidth dx = newwidth - oldwidth charwidth, extra = divmod(newwidth, self.chdx) self.kindcol.width = max( charwidth - self.widthbeforekind - 1, self.minkindwidth) self.totxresize += dx for t in (self.tothead, self.rowhead, self.text): t['width'] = charwidth t['padx'] = self.minpadx + extra / 2 dy = int(dy) rowresize, extra = divmod(self.totyresize + dy, self.chdy) newheight = self.orgtextheight + rowresize oldheight = int(self.text['height']) if newheight < self.mintextheight: newheight = self.mintextheight dy = (newheight - oldheight) * self.chdy + extra self.totyresize += dy self.text['height'] = newheight self.text['pady'] = self.textminpady + extra / 2 self.update(force=1, setscrollbar=1) return dx, dy class Filler: def __init__(self, master): self.frame = self.can = Canvas( master, # background='blue', width=0, height=0) def getsize(self): return int(self.can['width']), int(self.can['height']), def setsize(self, w, h): self.can.configure( width=w, height=h ) def resize(self, dw, dh): w, h = self.getsize() self.setsize(max(0, w + dw), max(0, h + dh)) class Row: def __init__(self, count, size, name): self.count = count self.size = size self.name = name class Sample: def __init__(self, mod, stat, name, index, numkindrows=None, statype='Size', relative=None): self.stat = stat self.size = stat.size self.count = stat.count self.name = name self.index = index self.datetime = mod.time.asctime(mod.time.localtime(stat.timemade)) self.kindrows = {} if numkindrows is not None: rows = stat.get_rows_n_and_other(numkindrows, statype) for r in rows: self.kindrows[r.name] = r else: kinds = [] oidx = None for row in relative.rows: if row.name == '<Other>': oidx = len(kinds) continue else: kinds.append(row.name) rows = stat.get_rows_of_kinds(kinds) size = 0 count = 0 for i, row in enumerate(rows): kind = kinds[i] if row is None: row = Row(0, 0, kind) self.kindrows[kind] = row size += row.size count += row.count if oidx is not None: other = Row(stat.count - count, stat.size - size, '<Other>') rows[oidx:oidx] = [other] self.kindrows['<Other>'] = other self.rows = rows class ProfileBrowser: colors = ("red", "green", "blue", "yellow", "magenta", "cyan", 'white') numkindrows = 10 def __init__(self, app, filename): self.inited = 0 self.app = app self.mod = mod = app.mod self.master = master = app.root if filename: filename = mod.path.abspath(filename) self.initialdir = mod.path.dirname(filename) else: self.initialdir = mod.os.getcwd() self.frame = frame = Toplevel( master, # background='#bbb' ) #frame['cursor'] = 'umbrella' # frame.resizable(True,True) self.menubar = Frame(self.frame, relief=RAISED, bd=2) self.filebutton = Menubutton(self.menubar, text='File') self.filemenu = Menu(self.filebutton) self.filebutton['menu'] = self.filemenu self.filemenu.add_command( label='New Profile Browser', command=self.cmd_new) self.filemenu.add_command(label='Open Profile', command=self.cmd_open) self.filemenu.add_command(label='Close Window', command=self.cmd_close) self.filemenu.add_command( label='Clear Cache', command=self.cmd_clear_cache) self.filemenu.add_command(label='Exit', command=self.cmd_exit) self.panebutton = Menubutton(self.menubar, text='Pane') self.panemenu = Menu(self.panebutton) self.panebutton['menu'] = self.panemenu choices = [ ('Bars', 'Lines'), ('Size', 'Count'), ] self.graphtypevar = StringVar() self.graphbutton = self.modechooser( self.menubar, 'Graph', choices, self.graphtypevar, self.cmd_graphtype) choices = [ ('A', 'B'), ('Size', 'Count'), ('%A:Tot', '%B:Tot'), ('Cumul', 'A-B', 'B-A'), ('%A:Tot', '%B:Tot'), ('Kind',), ] self.var_tablemode = StringVar() self.tablebutton = Menubutton(self.menubar, text='Table') self.tablemenu = Menu(self.tablebutton) self.tablebutton['menu'] = self.tablemenu self.headermenu = Menu(self.tablebutton, title='Table header') self.addmodechooser( self.headermenu, choices, self.var_tablemode, self.cmd_tablemode ) self.tablemenu.add_cascade(label='Header', menu=self.headermenu) self.var_tablescrollbar = StringVar() self.tablescrollbarmenu = Menu( self.tablebutton, title='Table scrollbar') self.addmodechooser( self.tablescrollbarmenu, [('Auto', 'On', 'Off')], self.var_tablescrollbar, self.cmd_tablescrollbar ) self.tablemenu.add_cascade( label='Scrollbar', menu=self.tablescrollbarmenu) self.windowmenu = WindowMenu(self.menubar, self.app.var_window) self.window = app.add_window_frame(self.frame, self.windowmenu) self.helpbutton = Menubutton(self.menubar, text='Help') self.helpmenu = Menu(self.helpbutton) self.helpbutton['menu'] = self.helpmenu self.helpmenu.add_command(label='About', command=self.cmd_about) self.helpmenu.add_command(label='Help', command=self.cmd_help) self.ctrlframe = Frame( self.frame, bd=2, relief=GROOVE, # background='#999', ) self.exitbutton = Button(self.ctrlframe, text='Exit', command=self.cmd_exit, background='red') self.set_filename(filename) self.id_collect = None self.collecting = IntVar() self.collecting.set(0) self.collectbutton = Checkbutton(self.ctrlframe, text='Collect', variable=self.collecting, command=self.cmd_collect, relief=RAISED) self.stats = Stats(self.mod) self.disptab = Frame(self.frame, # relief=SUNKEN, # bd=3 ) self.display = Display(self.disptab, scale_table=AxisControl.scale_table, numkindrows=self.numkindrows, getkindcolor=self.getkindcolor, ) self.xcontrol = AxisControl(self.ctrlframe, name='X', range=self.display.xrange, grid=self.display.xgrid, unit='samples', rangecommand=self.display.setxrange, gridcommand=self.display.setxgrid ) self.ycontrol = AxisControl(self.ctrlframe, name='Y', range=self.display.yrange, grid=self.display.ygrid, unit='bytes', rangecommand=self.display.setyrange, gridcommand=self.display.setygrid, autocommand=self.display.cmd_yrange_auto ) self.display.xcontrol = self.xcontrol self.display.ycontrol = self.ycontrol self.mcontrols = [] self.mcontrolbyname = {} for name in ('A', 'B'): marker = self.display.new_xmarker(name) control = MarkerControl( self.ctrlframe, marker, self.update_tableframe) marker.set_poscommand(control.setsample) self.mcontrols.append(control) self.mcontrolbyname[name] = control self.var_showcontrol = BooleanVar() self.var_showcontrol.set(1) self.panemenu.add_checkbutton( label='Show Control Panel', variable=self.var_showcontrol, command=self.cmd_showcontrol) self.var_showgraph = BooleanVar() self.var_showgraph.set(1) self.panemenu.add_checkbutton( label='Show Graph', variable=self.var_showgraph, command=self.cmd_showgraph) self.var_showtable = BooleanVar() self.var_showtable.set(1) self.panemenu.add_checkbutton( label='Show Table', variable=self.var_showtable, command=self.cmd_showtable) tf = self.tf = TableFrame(self, self.disptab) d_t = self.d_t = PaneDiv(self.disptab, movecommand=self.cmd_dt_moved) self.xcontrol.frame.grid(row=0, column=0, padx=3, pady=3, sticky=W) self.ycontrol.frame.grid(row=1, column=0, padx=3, pady=3) self.mcontrols[0].frame.grid( row=0, column=1, columnspan=1, sticky=W, padx=3, pady=3) self.mcontrols[1].frame.grid( row=1, column=1, columnspan=1, sticky=W, padx=3, pady=3) self.exitbutton.grid(row=0, column=2, padx=3, pady=3) self.collectbutton.grid(row=0, column=3, padx=3, pady=3) self.filler = Filler(self.frame) self.filebutton.pack(side=LEFT) self.panebutton.pack(side=LEFT) self.graphbutton.pack(side=LEFT) self.tablebutton.pack(side=LEFT) self.windowmenu.button.pack(side=LEFT) self.helpbutton.pack(side=LEFT) self.menubar.grid(column=0, columnspan=4, sticky=N+W+E) self.gridmain() frame.bind('<Map>', self.event_map) self.tf.setmode(self.var_tablemode.get(), self.numkindrows) self.load_filename(filename) d_t.frame.update_idletasks() d_t.setheight(max(self.display.frame.winfo_height(), tf.frame.winfo_height())) d_t.frame.update_idletasks() self.minsize = (500, 400) self.maxsize = (self.frame.winfo_screenwidth(), self.frame.winfo_screenheight()) minsizes = { # (ctrl, disp, tab) : (width, height) (0, 0, 0): (270, 25), (1, 0, 0): (363, 61), (0, 1, 0): (270, 131), (1, 1, 0): (270, 131), } self.setusergeometry() def initfinal(): self.tf.setchdim() rx = self.frame.winfo_rootx() + self.frame.winfo_width() self.tf_wanted_margin = rx - \ (self.tf.frame.winfo_rootx() + self.tf.frame.winfo_width()) self.lastw = self.frame.winfo_width() self.lasth = self.frame.winfo_height() self.in_configure = 0 frame.bind('<Configure>', self.event_configure) self.inited = 1 initfinal() # self.frame.after_idle(initfinal) def cmd_about(self): self.cmd_help('about') def cmd_help(self, pickname='help'): os = self.mod.os ocursor = self.frame.winfo_toplevel()['cursor'] try: self.frame.winfo_toplevel()['cursor'] = 'watch' self.frame.update() m = self.mod.Text.gsltextviewer( self.frame, inpickle=getattr(self.mod.pbhelp, pickname) # htmloutfile='/tmp/x.html', ) self.app.add_window_frame(m) finally: self.frame.winfo_toplevel()['cursor'] = ocursor def cmd_clear_cache(self): self.stats.clear_cache() def cmd_close(self): self.frame.destroy() def cmd_collect(self, *args): # self.afterfunc() # self.frame.after(1, self.afterfunc) # Turn on button first.?? if self.collecting.get(): self.event_collect() else: if self.id_collect is not None: self.frame.after_cancel(self.id_collect) self.id_collect = None def event_collect(self): o, n = self.stats.collect() if n: if o != self.display.numstats: self.display.load_stats(self.stats) else: st = self.stats[-n:] self.display.add_stats(st) for c in self.mcontrols: c.setnumsamples(len(self.stats)) self.id_collect = self.frame.after(1000, self.event_collect) def cmd_dt_moved(self, dx): # The division between display and table panes moved. # Disable configure event handling while we are resizing. self.in_configure += 1 # Right x position of enclosing frame rx = self.frame.winfo_rootx() + self.frame.winfo_width() # Right margin between pane divider and enclosing window mx = rx - (self.d_t.frame.winfo_rootx() + self.d_t.frame.winfo_width()) # Don't move pane divider outside window dx = min(dx, mx) # Right margin between table and enclosing window # before resizing mx = rx - (self.tf.frame.winfo_rootx() + self.tf.frame.winfo_width()) dx, _ = self.display.resize(dx, 0) wanted_margin = self.tf_wanted_margin # After move mx -= dx self.tf.resize(mx - wanted_margin, 0) self.display.moveback() self.in_configure -= 1 def cmd_exit(self): self.app.exit() def cmd_graphtype(self): self.display.setgraphtype(self.graphtypevar.get(), self.stats) self.cmd_tablemode() def cmd_new(self): self.app.new_profile_browser(self.filename) def cmd_open(self): op = tkinter.filedialog.Open(self.frame, # ? Should we have default extension or not?? # defaultextension='.hpy', initialdir=self.initialdir, filetypes=[('Heapy data files', '.hpy'), ('All files', '*') ] ) filename = op.show() if filename: self.load_filename(filename) def cmd_showcontrol(self): self.grid_things() def cmd_showgraph(self): if self.var_showgraph.get() and self.var_showtable.get(): self.tf.resize(-self.tf.totxresize, 0) self.display.resize(self.display.orgwidth - self.display.botx, 0) self.display.moveback() self.grid_things() cmd_showtable = cmd_showgraph def cmd_tablemode(self): self.tf.setmode(self.var_tablemode.get(), self.numkindrows) self.tf.update() def cmd_tablescrollbar(self): tf = self.tf s = self.var_tablescrollbar.get() if s == 'Auto': tf.auto_scrollbar = 1 tf.update(force=1, setscrollbar=1) elif s == 'On': tf.auto_scrollbar = 0 tf.setscrollbar(1) elif s == 'Off': tf.auto_scrollbar = 0 tf.setscrollbar(0) else: assert 0 def setusergeometry(self): # Make the geometry of the window be user-specified # This is called after Tk has determined the size # of the window needed for the initial widget configuration. # The size is not to be changed after that, other than # on user request. # I couldn't just do frame.geometry(frame.geometry()) because, # presumably, of a bug in the Tk and/or wm I am using. I hope # this works for all systems .. Notes 26 Oct 2005. self.frame.update() g = '%dx%d+%d+%d' % ( self.frame.winfo_width(), self.frame.winfo_height(), self.frame.winfo_rootx(), self.frame.winfo_rooty()) self.frame.geometry(g) def modechooser(self, frame, name, choices, cmdvar, command): button = Menubutton(frame, text=name) menu = Menu(button) button['menu'] = menu self.addmodechooser(menu, choices, cmdvar, command) return button def addmodechooser(self, menu, choices, cmdvar, command): def setcmdvar(): cmdvar.set(' '.join([v.get() for v in vars])) def cmd(): setcmdvar() command() vars = [] for ch in choices: var = StringVar() vars.append(var) var.set(ch[0]) for a in ch: menu.add_radiobutton( command=cmd, label=a, value=a, variable=var, #font=('Courier','12', 'bold'), #font=('Helvetica','12', 'bold'), columnbreak=(a == ch[0]) ) setcmdvar() def grid_things(self): ow = self.frame.winfo_width() oh = self.frame.winfo_height() self.ctrlframe.grid_forget() self.display.frame.grid_forget() self.d_t.frame.grid_forget() self.tf.frame.grid_forget() self.disptab.grid_forget() self.filler.frame.grid_forget() self.gridmain() self.frame.update_idletasks() self.sizewidgets() def gridmain(self): row = 1 c = self.var_showcontrol.get() if c: self.ctrlframe.grid(row=row, column=0, columnspan=3, padx=3, pady=3, sticky=W) row += 1 column = 0 g = self.var_showgraph.get() t = self.var_showtable.get() gt = (g, t) if g: self.display.frame.grid(row=0, column=column, sticky=N+W, padx=3, pady=3 ) column += 1 if g and t: self.d_t.frame.grid(row=0, column=column, sticky=N+W) column += 1 if t: self.tf.frame.grid(row=0, column=column, sticky=N+W, padx=3, pady=3 ) if g or t: self.disptab.grid(row=row, column=0, sticky=N+W, # padx=3,pady=3, ) row += 1 self.filler.setsize(0, 0) self.filler.frame.grid(row=row, column=3, sticky=N+W) self.frame.resizable(1, 1) def event_configure(self, event): if event.widget is not self.frame: return if not self.inited: return if self.in_configure: return curw = self.frame.winfo_width() curh = self.frame.winfo_height() if curw == self.lastw and curh == self.lasth: return self.in_configure += 1 self.lastw = curw self.lasth = curh self.sizewidgets() self.in_configure -= 1 def sizewidgets(self): self.frame.update() curw = self.frame.winfo_width() curh = self.frame.winfo_height() mbx = self.menubar.winfo_rootx() mby = self.menubar.winfo_rooty() sfs = [] if self.var_showgraph.get(): sfs.append(self.display) if self.var_showtable.get(): sfs.append(self.tf) if not sfs: sfs.append(self.filler) dys = {} didh = 0 for sf in sfs: f = sf.frame diy = f.winfo_rooty() dih = f.winfo_height() ch = diy - mby + dih dy = curh - ch - 7 didh = didh or dy dys[sf] = dy if self.var_showtable.get(): f = self.tf.frame elif self.var_showgraph.get(): f = self.display.frame else: f = self.filler.frame fx = f.winfo_rootx() fw = f.winfo_width() cw = fx - mbx + fw fdw = curw - cw - 6 if f is self.filler.frame and not self.var_showcontrol.get(): fdw = curw - self.filler.getsize()[0] - 3 if didh or fdw: if self.var_showgraph.get() and self.var_showtable.get(): dprop = float(self.display.frame.winfo_width()) dprop = dprop / (dprop + self.tf.frame.winfo_width()) dx, dy = self.display.resize(fdw * dprop, dys[self.display]) self.tf.resize(fdw - dx, dys[self.tf]) self.frame.update_idletasks() self.d_t.setheight(max(self.display.frame.winfo_height(), self.tf.frame.winfo_height())) elif self.var_showgraph.get(): self.display.resize(fdw, dys[self.display]) elif self.var_showtable.get(): self.tf.resize(fdw, dys[self.tf]) else: self.filler.resize(fdw, dys[self.filler]) self.filler.setsize(self.filler.getsize()[0], 1000) if self.var_showgraph.get(): self.display.moveback() #self.resize(dw, dh) def resize(self, dw, dh): self.display.resize(dw, dh) # self.frame.wm_geometry('') def event_map(self, event): self.frame.unbind('<Map>') self.frame.bind('<Unmap>', self.event_unmap) self.frame.lift() def event_unmap(self, event): self.frame.unbind('<Unmap>') self.frame.bind('<Map>', self.event_map) def load_filename(self, filename): ocursor = self.frame.winfo_toplevel()['cursor'] try: self.frame.winfo_toplevel()['cursor'] = 'watch' self.frame.update() if filename: filename = self.mod.path.abspath(filename) try: self.stats.open(filename) except Exception: __import__('traceback').print_exc() etype, value, tb = self.mod._root.sys.exc_info() tkinter.messagebox.showerror( master=self.frame, message=( "Error when loading\n%r:\n" % filename + "%s" % ''.join(self.mod._root.traceback.format_exception_only( etype, value))) ) else: self.display.load_stats(self.stats) for c in self.mcontrols: c.setnumsamples(len(self.stats)) # self.scontrol.trackcommand(1) self.set_filename(filename) self.xrange_fit() self.display.xview_moveto(0) self.mcontrols[1].settracking(0) self.mcontrols[0].settracking(1) self.yrange_fit() self.tf.update(force=1) if filename: self.initialdir = self.mod.path.dirname(filename) finally: self.frame.winfo_toplevel()['cursor'] = ocursor def update_tableframe(self): self.tf.update() def getkindcolor(self, kind): if kind == '<Other>': return 'black' else: return self.colors[abs(hash(kind)) % len(self.colors)] def set_filename(self, filename): self.filename = filename if not filename: filename = '<No File>' title = 'Heapy Profile Browser: %s' % filename self.window.title(title) def setnormpos(self): self.setscrollregion() if self.ymax >= self.yrange: self.yrange_fit() if self.xi0 is None: self.drawxaxis() else: self.updatexaxis() self.track() def redraw_all(self): pass def trackoff(self): self.rcontrol.settracking(0) def xrange_fit(self): self.xcontrol.fit(len(self.stats)) def yrange_fit(self): self.display.yrange_auto(force=1) class _GLUECLAMP_: _imports_ = ( '_parent:Use', '_parent:pbhelp', '_root.guppy.etc:textView', '_root:hashlib', '_root:os', '_root.os:path', '_root:time', '_root.guppy.gsl:Text', ) def pb(self, filename=None): """pb( [filename: profilefilename+]) Create a Profile Browser window. Argument filename: profilefilename+ The name of a file containing profile data. See also Heapy Profile Browser[1] Screenshot[2] References [0] heapy_Use.html#heapykinds.Use.pb [1] ProfileBrowser.html [2] pbscreen.jpg""" pa = ProfileApp(self) pa.new_profile_browser(filename) pa.mainloop() def tpg(self): self('/tmp/x.hpy')