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Add Nik Tautenhahns igrid extension. (igrid is a wxPython-based...
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1 # -*- coding: iso-8859-1 -*-
2
3 import ipipe, os, webbrowser, urllib
4 import wx
5 import wx.grid, wx.html
6
7 try:
8 sorted
9 except NameError:
10 from ipipe import sorted
11
12
13 __all__ = ["igrid"]
14
15
16 class IGridRenderer(wx.grid.PyGridCellRenderer):
17 """
18 This is a custom renderer for our IGridGrid
19 """
20 def __init__(self, table):
21 self.maxchars = 200
22 self.table = table
23 self.colormap = (
24 ( 0, 0, 0),
25 (174, 0, 0),
26 ( 0, 174, 0),
27 (174, 174, 0),
28 ( 0, 0, 174),
29 (174, 0, 174),
30 ( 0, 174, 174),
31 ( 64, 64, 64)
32 )
33
34 wx.grid.PyGridCellRenderer.__init__(self)
35
36 def _getvalue(self, row, col):
37 try:
38 value = self.table.displayattrs[col].value(self.table.items[row])
39 (align, width, text) = ipipe.xformat(value, "cell", self.maxchars)
40 except Exception, exc:
41 (align, width, text) = ipipe.xformat(exc, "cell", self.maxchars)
42 return (align, text)
43
44 def GetBestSize(self, grid, attr, dc, row, col):
45 text = grid.GetCellValue(row, col)
46 (align, text) = self._getvalue(row, col)
47 dc.SetFont(attr.GetFont())
48 (w, h) = dc.GetTextExtent(str(text))
49 return wx.Size(min(w+2, 600), h+2) # add border
50
51 def Draw(self, grid, attr, dc, rect, row, col, isSelected):
52 """
53 Takes care of drawing everything in the cell; aligns the text
54 """
55 text = grid.GetCellValue(row, col)
56 (align, text) = self._getvalue(row, col)
57 if isSelected:
58 bg = grid.GetSelectionBackground()
59 else:
60 bg = ["white", (240, 240, 240)][row%2]
61 dc.SetTextBackground(bg)
62 dc.SetBrush(wx.Brush(bg, wx.SOLID))
63 dc.SetPen(wx.TRANSPARENT_PEN)
64 dc.SetFont(attr.GetFont())
65 dc.DrawRectangleRect(rect)
66 dc.SetClippingRect(rect)
67 # Format the text
68 if align == -1: # left alignment
69 (width, height) = dc.GetTextExtent(str(text))
70 x = rect[0]+1
71 y = rect[1]+0.5*(rect[3]-height)
72
73 for (style, part) in text:
74 if isSelected:
75 fg = grid.GetSelectionForeground()
76 else:
77 fg = self.colormap[style.fg]
78 dc.SetTextForeground(fg)
79 (w, h) = dc.GetTextExtent(part)
80 dc.DrawText(part, x, y)
81 x += w
82 elif align == 0: # center alignment
83 (width, height) = dc.GetTextExtent(str(text))
84 x = rect[0]+0.5*(rect[2]-width)
85 y = rect[1]+0.5*(rect[3]-height)
86 for (style, part) in text:
87 if isSelected:
88 fg = grid.GetSelectionForeground()
89 else:
90 fg = self.colormap[style.fg]
91 dc.SetTextForeground(fg)
92 (w, h) = dc.GetTextExtent(part)
93 dc.DrawText(part, x, y)
94 x += w
95 else: # right alignment
96 (width, height) = dc.GetTextExtent(str(text))
97 x = rect[0]+rect[2]-1
98 y = rect[1]+0.5*(rect[3]-height)
99 for (style, part) in reversed(text):
100 (w, h) = dc.GetTextExtent(part)
101 x -= w
102 if isSelected:
103 fg = grid.GetSelectionForeground()
104 else:
105 fg = self.colormap[style.fg]
106 dc.SetTextForeground(fg)
107 dc.DrawText(part, x, y)
108 dc.DestroyClippingRegion()
109
110 def Clone(self):
111 return IGridRenderer(self.table)
112
113
114 class IGridTable(wx.grid.PyGridTableBase):
115 # The data table for the ``IGridGrid``. Some dirty tricks were used here:
116 # ``GetValue()`` does not get any values (or at least it does not return
117 # anything, accessing the values is done by the renderer)
118 # but rather tries to fetch the objects which were requested into the table.
119 # General behaviour is: Fetch the first X objects. If the user scrolls down
120 # to the last object another bunch of X objects is fetched (if possible)
121 def __init__(self, input, fontsize, *attrs):
122 wx.grid.PyGridTableBase.__init__(self)
123 self.input = input
124 self.iterator = ipipe.xiter(input)
125 self.items = []
126 self.hiddenattrs = []
127 self.attrs = attrs
128 self.displayattrs = []
129 self.fetch(1)
130 self.sizing = False
131 self.fontsize = fontsize
132
133 def GetAttr(self, *args):
134 attr = wx.grid.GridCellAttr()
135 attr.SetFont(wx.Font(self.fontsize, wx.TELETYPE, wx.NORMAL, wx.NORMAL))
136 return attr
137
138 def GetNumberRows(self):
139 return len(self.items)
140
141 def GetNumberCols(self):
142 return len(self.displayattrs)
143
144 def GetColLabelValue(self, col):
145 if col < len(self.displayattrs):
146 return self.displayattrs[col].name()
147 else:
148 return ""
149
150 def GetRowLabelValue(self, row):
151 return str(row)
152
153 def IsEmptyCell(self, row, col):
154 return False
155
156 def fetch(self, count):
157 # Try to fill ``self.items`` with at least ``count`` objects.
158 have = len(self.items)
159 work = False
160 while self.iterator is not None and have < count:
161 try:
162 item = self.iterator.next()
163 except StopIteration:
164 self.iterator = None
165 break
166 except (KeyboardInterrupt, SystemExit):
167 raise
168 except Exception, exc:
169 have += 1
170 self.items.append(exc)
171 work = True
172 self.iterator = None
173 break
174 else:
175 have += 1
176 self.items.append(item)
177 work = True
178 if work:
179 self.calcdisplayattrs()
180
181 def calcdisplayattrs(self):
182 # Calculate which attributes are available from the objects that are
183 # currently visible on screen (and store it in ``self.displayattrs``)
184 attrs = set()
185 self.displayattrs = []
186 if self.attrs:
187 # If the browser object specifies a fixed list of attributes,
188 # simply use it (removing hidden attributes).
189 for attr in self.attrs:
190 attr = ipipe.upgradexattr(attr)
191 if attr not in attrs and attr not in self.hiddenattrs:
192 self.displayattrs.append(attr)
193 attrs.add(attr)
194 else:
195 endy = len(self.items)
196 for i in xrange(endy):
197 for attr in ipipe.xattrs(self.items[i]):
198 attr = ipipe.upgradexattr(attr)
199 if attr not in attrs and attr not in self.hiddenattrs:
200 self.displayattrs.append(attr)
201 attrs.add(attr)
202
203 def GetValue(self, row, col):
204 # some kind of dummy-function: does not return anything but "";
205 # (The value isn't use anyway)
206 # its main task is to trigger the fetch of new objects
207 had_cols = self.displayattrs[:]
208 had_rows = len(self.items)
209 if row == had_rows - 1 and self.iterator is not None and not self.sizing:
210 self.fetch(row + 20)
211 have_rows = len(self.items)
212 have_cols = len(self.displayattrs)
213 if have_rows > had_rows:
214 msg = wx.grid.GridTableMessage(self, wx.grid.GRIDTABLE_NOTIFY_ROWS_APPENDED, have_rows - had_rows)
215 self.GetView().ProcessTableMessage(msg)
216 self.sizing = True
217 self.GetView().AutoSizeColumns(False)
218 self.sizing = False
219 if row >= have_rows:
220 return ""
221 if self.displayattrs != had_cols:
222 msg = wx.grid.GridTableMessage(self, wx.grid.GRIDTABLE_NOTIFY_COLS_APPENDED, have_cols - len(had_cols))
223 self.GetView().ProcessTableMessage(msg)
224 return ""
225
226 def SetValue(self, row, col, value):
227 pass
228
229
230 class IGridGrid(wx.grid.Grid):
231 # The actual grid
232 # all methods for selecting/sorting/picking/... data are implemented here
233 def __init__(self, panel, input, *attrs):
234 wx.grid.Grid.__init__(self, panel)
235 fontsize = 9
236 self.input = input
237 self.table = IGridTable(self.input, fontsize, *attrs)
238 self.SetTable(self.table, True)
239 self.SetSelectionMode(wx.grid.Grid.wxGridSelectRows)
240 self.SetDefaultRenderer(IGridRenderer(self.table))
241 self.EnableEditing(False)
242 self.Bind(wx.EVT_KEY_DOWN, self.key_pressed)
243 self.Bind(wx.grid.EVT_GRID_CELL_LEFT_DCLICK, self.cell_doubleclicked)
244 self.Bind(wx.grid.EVT_GRID_LABEL_LEFT_DCLICK, self.label_doubleclicked)
245 self.Bind(wx.grid.EVT_GRID_LABEL_LEFT_CLICK, self.on_label_leftclick)
246 self.Bind(wx.grid.EVT_GRID_RANGE_SELECT, self._on_selected_range)
247 self.Bind(wx.grid.EVT_GRID_SELECT_CELL, self._on_selected_cell)
248 self.current_selection = set()
249 self.maxchars = 200
250
251 def on_label_leftclick(self, event):
252 event.Skip()
253
254 def error_output(self, text):
255 wx.Bell()
256 frame = self.GetParent().GetParent().GetParent()
257 frame.SetStatusText(text)
258
259 def _on_selected_range(self, event):
260 # Internal update to the selection tracking lists
261 if event.Selecting():
262 # adding to the list...
263 self.current_selection.update(xrange(event.GetTopRow(), event.GetBottomRow()+1))
264 else:
265 # removal from list
266 for index in xrange( event.GetTopRow(), event.GetBottomRow()+1):
267 self.current_selection.discard(index)
268 event.Skip()
269
270 def _on_selected_cell(self, event):
271 # Internal update to the selection tracking list
272 self.current_selection = set([event.GetRow()])
273 event.Skip()
274
275 def sort(self, key, reverse=False):
276 """
277 Sort the current list of items using the key function ``key``. If
278 ``reverse`` is true the sort order is reversed.
279 """
280 row = self.GetGridCursorRow()
281 col = self.GetGridCursorCol()
282 curitem = self.table.items[row] # Remember where the cursor is now
283 # Sort items
284 def realkey(item):
285 return key(item)
286 try:
287 self.table.items = ipipe.deque(sorted(self.table.items, key=realkey, reverse=reverse))
288 except TypeError, exc:
289 self.error_output("Exception encountered: %s" % exc)
290 return
291 # Find out where the object under the cursor went
292 for (i, item) in enumerate(self.table.items):
293 if item is curitem:
294 self.SetGridCursor(i,col)
295 self.MakeCellVisible(i,col)
296 self.Refresh()
297
298 def sortattrasc(self):
299 """
300 Sort in ascending order; sorting criteria is the current attribute
301 """
302 col = self.GetGridCursorCol()
303 attr = self.table.displayattrs[col]
304 frame = self.GetParent().GetParent().GetParent()
305 if attr is ipipe.noitem:
306 self.error_output("no column under cursor")
307 return
308 frame.SetStatusText("sort by %s (ascending)" % attr.name())
309 def key(item):
310 try:
311 return attr.value(item)
312 except (KeyboardInterrupt, SystemExit):
313 raise
314 except Exception:
315 return None
316 self.sort(key)
317
318 def sortattrdesc(self):
319 """
320 Sort in descending order; sorting criteria is the current attribute
321 """
322 col = self.GetGridCursorCol()
323 attr = self.table.displayattrs[col]
324 frame = self.GetParent().GetParent().GetParent()
325 if attr is ipipe.noitem:
326 self.error_output("no column under cursor")
327 return
328 frame.SetStatusText("sort by %s (descending)" % attr.name())
329 def key(item):
330 try:
331 return attr.value(item)
332 except (KeyboardInterrupt, SystemExit):
333 raise
334 except Exception:
335 return None
336 self.sort(key, reverse=True)
337
338 def label_doubleclicked(self, event):
339 row = event.GetRow()
340 col = event.GetCol()
341 if col == -1:
342 self.enter(row)
343
344 def _getvalue(self, row, col):
345 """
346 Gets the text which is displayed at ``(row, col)``
347 """
348 try:
349 value = self.table.displayattrs[col].value(self.table.items[row])
350 (align, width, text) = ipipe.xformat(value, "cell", self.maxchars)
351 except IndexError:
352 raise IndexError
353 except Exception, exc:
354 (align, width, text) = ipipe.xformat(exc, "cell", self.maxchars)
355 return text
356
357 def search(self, searchtext, startrow=0, startcol=0, search_forward=True):
358 """
359 search for ``searchtext``, starting in ``(startrow, startcol)``;
360 if ``search_forward`` is true the direction is "forward"
361 """
362 row = startrow
363 searchtext = searchtext.lower()
364 if search_forward:
365 while True:
366 for col in xrange(startcol, self.table.GetNumberCols()):
367 try:
368 foo = self.table.GetValue(row, col)
369 text = self._getvalue(row, col)
370 if searchtext in text.string().lower():
371 self.SetGridCursor(row, col)
372 self.MakeCellVisible(row, col)
373 return
374 except IndexError:
375 return
376 startcol = 0
377 row += 1
378 else:
379 while True:
380 for col in xrange(startcol, -1, -1):
381 try:
382 foo = self.table.GetValue(row, col)
383 text = self._getvalue(row, col)
384 if searchtext in text.string().lower():
385 self.SetGridCursor(row, col)
386 self.MakeCellVisible(row, col)
387 return
388 except IndexError:
389 return
390 startcol = self.table.GetNumberCols()-1
391 row -= 1
392
393 def key_pressed(self, event):
394 """
395 Maps pressed keys to functions
396 """
397 frame = self.GetParent().GetParent().GetParent()
398 frame.SetStatusText("")
399 sh = event.ShiftDown()
400 ctrl = event.ControlDown()
401
402 keycode = event.GetKeyCode()
403 if keycode == ord("P"):
404 row = self.GetGridCursorRow()
405 if event.ShiftDown():
406 col = self.GetGridCursorCol()
407 self.pickattr(row, col)
408 else:
409 self.pick(row)
410 elif keycode == ord("M"):
411 if ctrl:
412 col = self.GetGridCursorCol()
413 self.pickrowsattr(sorted(self.current_selection), col)
414 else:
415 self.pickrows(sorted(self.current_selection))
416 elif keycode in (wx.WXK_BACK, wx.WXK_DELETE, ord("X")) and not (ctrl or sh):
417 self.delete_current_notebook()
418 elif keycode == ord("E") and not (ctrl or sh):
419 row = self.GetGridCursorRow()
420 self.enter(row)
421 elif keycode == ord("E") and sh and not ctrl:
422 row = self.GetGridCursorRow()
423 col = self.GetGridCursorCol()
424 self.enterattr(row, col)
425 elif keycode == ord("E") and ctrl:
426 row = self.GetGridCursorRow()
427 self.SetGridCursor(row, self.GetNumberCols()-1)
428 elif keycode == wx.WXK_HOME or (keycode == ord("A") and ctrl):
429 row = self.GetGridCursorRow()
430 self.SetGridCursor(row, 0)
431 elif keycode == ord("C") and sh:
432 col = self.GetGridCursorCol()
433 attr = self.table.displayattrs[col]
434 returnobj = []
435 for i in xrange(self.GetNumberRows()):
436 returnobj.append(self.table.displayattrs[col].value(self.table.items[i]))
437 self.quit(returnobj)
438 elif keycode in (wx.WXK_ESCAPE, ord("Q")) and not (ctrl or sh):
439 self.quit()
440 elif keycode == ord("<"):
441 row = self.GetGridCursorRow()
442 col = self.GetGridCursorCol()
443 if not event.ShiftDown():
444 newcol = col - 1
445 if newcol >= 0:
446 self.SetGridCursor(row, col - 1)
447 else:
448 newcol = col + 1
449 if newcol < self.GetNumberCols():
450 self.SetGridCursor(row, col + 1)
451 elif keycode == ord("D"):
452 col = self.GetGridCursorCol()
453 row = self.GetGridCursorRow()
454 if not sh:
455 self.detail(row, col)
456 else:
457 self.detail_attr(row, col)
458 elif keycode == ord("F") and ctrl:
459 frame.enter_searchtext(event)
460 elif keycode == wx.WXK_F3:
461 if sh:
462 frame.find_previous(event)
463 else:
464 frame.find_next(event)
465 elif keycode == ord("V"):
466 if sh:
467 self.sortattrdesc()
468 else:
469 self.sortattrasc()
470 else:
471 event.Skip()
472
473 def delete_current_notebook(self):
474 """
475 deletes the current notebook tab
476 """
477 panel = self.GetParent()
478 nb = panel.GetParent()
479 current = nb.GetSelection()
480 count = nb.GetPageCount()
481 if count > 1:
482 for i in xrange(count-1, current-1, -1):
483 nb.DeletePage(i)
484 nb.GetCurrentPage().grid.SetFocus()
485 else:
486 frame = nb.GetParent()
487 frame.SetStatusText("This is the last level!")
488
489 def _doenter(self, value, *attrs):
490 """
491 "enter" a special item resulting in a new notebook tab
492 """
493 panel = self.GetParent()
494 nb = panel.GetParent()
495 frame = nb.GetParent()
496 current = nb.GetSelection()
497 count = nb.GetPageCount()
498 try: # if we want to enter something non-iterable, e.g. a function
499 if current + 1 == count and value is not self.input: # we have an event in the last tab
500 frame._add_notebook(value, *attrs)
501 elif value != self.input: # we have to delete all tabs newer than [panel] first
502 for i in xrange(count-1, current, -1): # some tabs don't close if we don't close in *reverse* order
503 nb.DeletePage(i)
504 frame._add_notebook(value)
505 except TypeError, exc:
506 if exc.__class__.__module__ == "exceptions":
507 msg = "%s: %s" % (exc.__class__.__name__, exc)
508 else:
509 msg = "%s.%s: %s" % (exc.__class__.__module__, exc.__class__.__name__, exc)
510 frame.SetStatusText(msg)
511
512 def enterattr(self, row, col):
513 try:
514 attr = self.table.displayattrs[col]
515 value = attr.value(self.table.items[row])
516 except Exception, exc:
517 self.error_output(str(exc))
518 else:
519 self._doenter(value)
520
521 def enter(self, row):
522 try:
523 value = self.table.items[row]
524 except Exception, exc:
525 self.error_output(str(exc))
526 else:
527 self._doenter(value)
528
529 def detail(self, row, col):
530 """
531 shows a detail-view of the current cell
532 """
533 try:
534 attr = self.table.displayattrs[col]
535 item = self.table.items[row]
536 except Exception, exc:
537 self.error_output(str(exc))
538 else:
539 attrs = [ipipe.AttributeDetail(item, attr) for attr in ipipe.xattrs(item, "detail")]
540 self._doenter(attrs)
541
542 def detail_attr(self, row, col):
543 try:
544 attr = self.table.displayattrs[col]
545 item = attr.value(self.table.items[row])
546 except Exception, exc:
547 self.error_output(str(exc))
548 else:
549 attrs = [ipipe.AttributeDetail(item, attr) for attr in ipipe.xattrs(item, "detail")]
550 self._doenter(attrs)
551
552 def quit(self, returnobj=None):
553 """
554 quit
555 """
556 frame = self.GetParent().GetParent().GetParent()
557 frame.parent.returnobj = returnobj
558 frame.Close()
559 frame.Destroy()
560
561 def cell_doubleclicked(self, event):
562 self.enterattr(event.GetRow(), event.GetCol())
563
564 def pick(self, row):
565 """
566 pick a single row and return to the IPython prompt
567 """
568 try:
569 value = self.table.items[row]
570 except Exception, exc:
571 self.error_output(str(exc))
572 else:
573 self.quit(value)
574
575 def pickrows(self, rows):
576 """
577 pick multiple rows and return to the IPython prompt
578 """
579 try:
580 value = [self.table.items[row] for row in rows]
581 except Exception, exc:
582 self.error_output(str(exc))
583 else:
584 self.quit(value)
585
586 def pickrowsattr(self, rows, col):
587 """"
588 pick one column from multiple rows
589 """
590 values = []
591 try:
592 attr = self.table.displayattrs[col]
593 for row in rows:
594 try:
595 values.append(attr.value(self.table.items[row]))
596 except (SystemExit, KeyboardInterrupt):
597 raise
598 except Exception:
599 raise #pass
600 except Exception, exc:
601 self.error_output(str(exc))
602 else:
603 self.quit(values)
604
605 def pickattr(self, row, col):
606 try:
607 attr = self.table.displayattrs[col]
608 value = attr.value(self.table.items[row])
609 except Exception, exc:
610 self.error_output(str(exc))
611 else:
612 self.quit(value)
613
614
615 class IGridPanel(wx.Panel):
616 # Each IGridPanel contains an IGridGrid
617 def __init__(self, parent, input, *attrs):
618 wx.Panel.__init__(self, parent, -1)
619 self.grid = IGridGrid(self, input, *attrs)
620 sizer = wx.BoxSizer(wx.VERTICAL)
621 sizer.Add(self.grid, proportion=1, flag=wx.EXPAND | wx.ALL, border=10)
622 self.SetSizer(sizer)
623 sizer.Fit(self)
624 sizer.SetSizeHints(self)
625
626
627 class IGridHTMLHelp(wx.Frame):
628 def __init__(self, parent, title, filename, size):
629 wx.Frame.__init__(self, parent, -1, title, size=size)
630 html = wx.html.HtmlWindow(self)
631 if "gtk2" in wx.PlatformInfo:
632 html.SetStandardFonts()
633 html.LoadFile(filename)
634
635
636 class IGridFrame(wx.Frame):
637 maxtitlelen = 30
638
639 def __init__(self, parent, input):
640 wx.Frame.__init__(self, None, title="IGrid", size=(640, 480))
641 self.menubar = wx.MenuBar()
642 self.menucounter = 100
643 self.m_help = wx.Menu()
644 self.m_search = wx.Menu()
645 self.m_sort = wx.Menu()
646 self.notebook = wx.Notebook(self, -1, style=0)
647 self.statusbar = self.CreateStatusBar(1, wx.ST_SIZEGRIP)
648 self.parent = parent
649 self._add_notebook(input)
650 self.Bind(wx.EVT_CLOSE, self.OnCloseWindow)
651 self.makemenu(self.m_sort, "&Sort (asc)", "Sort ascending", self.sortasc)
652 self.makemenu(self.m_sort, "Sort (&desc)", "Sort descending", self.sortdesc)
653 self.makemenu(self.m_help, "&Help", "Help", self.display_help)
654 self.makemenu(self.m_help, "&Show help in browser", "Show help in browser", self.display_help_in_browser)
655 self.makemenu(self.m_search, "&Find text", "Find text", self.enter_searchtext)
656 self.makemenu(self.m_search, "Find by &expression", "Find by expression", self.enter_searchexpression)
657 self.makemenu(self.m_search, "Find &next", "Find next", self.find_next)
658 self.makemenu(self.m_search, "Find &previous", "Find previous", self.find_previous)
659 self.menubar.Append(self.m_search, "&Find")
660 self.menubar.Append(self.m_sort, "&Sort")
661 self.menubar.Append(self.m_help, "&Help")
662 self.SetMenuBar(self.menubar)
663 self.searchtext = ""
664
665 def sortasc(self, event):
666 grid = self.notebook.GetPage(self.notebook.GetSelection()).grid
667 grid.sortattrasc()
668
669 def sortdesc(self, event):
670 grid = self.notebook.GetPage(self.notebook.GetSelection()).grid
671 grid.sortattrdesc()
672
673 def find_previous(self, event):
674 """
675 find previous occurrences
676 """
677 if self.searchtext:
678 grid = self.notebook.GetPage(self.notebook.GetSelection()).grid
679 row = grid.GetGridCursorRow()
680 col = grid.GetGridCursorCol()
681 if col-1 >= 0:
682 grid.search(self.searchtext, row, col-1, False)
683 else:
684 grid.search(self.searchtext, row-1, grid.table.GetNumberCols()-1, False)
685 else:
686 self.enter_searchtext(event)
687
688 def find_next(self, event):
689 """
690 find the next occurrence
691 """
692 if self.searchtext:
693 grid = self.notebook.GetPage(self.notebook.GetSelection()).grid
694 row = grid.GetGridCursorRow()
695 col = grid.GetGridCursorCol()
696 if col+1 < grid.table.GetNumberCols():
697 grid.search(self.searchtext, row, col+1)
698 else:
699 grid.search(self.searchtext, row+1, 0)
700 else:
701 self.enter_searchtext(event)
702
703 def display_help(self, event):
704 """
705 Display a help dialog
706 """
707 filename = os.path.join(os.path.dirname(__file__), "help.html")
708 frm = IGridHTMLHelp(None, title="Help", filename=filename, size=wx.Size(600,400))
709 frm.Show()
710
711 def display_help_in_browser(self, event):
712 """
713 Show the help-HTML in a browser (as a ``HtmlWindow`` does not understand
714 CSS this looks better)
715 """
716 filename = urllib.pathname2url(os.path.abspath(os.path.join(os.path.dirname(__file__), "help.html")))
717 if not filename.startswith("file"):
718 filename = "file:" + filename
719 webbrowser.open(filename, new=1, autoraise=True)
720
721 def enter_searchexpression(self, event):
722 pass
723
724 def makemenu(self, menu, label, help, cmd):
725 menu.Append(self.menucounter, label, help)
726 self.Bind(wx.EVT_MENU, cmd, id=self.menucounter)
727 self.menucounter += 1
728
729 def _add_notebook(self, input, *attrs):
730 # Adds another notebook which has the starting object ``input``
731 panel = IGridPanel(self.notebook, input, *attrs)
732 text = str(ipipe.xformat(input, "header", self.maxtitlelen)[2])
733 if len(text) >= self.maxtitlelen:
734 text = text[:self.maxtitlelen].rstrip(".") + "..."
735 self.notebook.AddPage(panel, text, True)
736 panel.grid.SetFocus()
737 self.Layout()
738
739 def OnCloseWindow(self, event):
740 self.Destroy()
741
742 def enter_searchtext(self, event):
743 # Displays a dialog asking for the searchtext
744 dlg = wx.TextEntryDialog(self, "Find:", "Find in list")
745 if dlg.ShowModal() == wx.ID_OK:
746 self.searchtext = dlg.GetValue()
747 self.notebook.GetPage(self.notebook.GetSelection()).grid.search(self.searchtext, 0, 0)
748 dlg.Destroy()
749
750
751 class igrid(ipipe.Display):
752 """
753 This is a wx-based display object that can be used instead of ``ibrowse``
754 (which is curses-based) or ``idump`` (which simply does a print).
755 """
756 def display(self):
757 self.returnobj = None
758 app = wx.App()
759 self.frame = IGridFrame(self, self.input)
760 self.frame.Show()
761 app.SetTopWindow(self.frame)
762 self.frame.Raise()
763 app.MainLoop()
764 return self.returnobj
Show file before | Show file after | Hide comments
@@ -1,2146 +1,2153 b''
1 1 # -*- coding: iso-8859-1 -*-
2 2
3 3 """
4 4 ``ipipe`` provides classes to be used in an interactive Python session. Doing a
5 5 ``from ipipe import *`` is the preferred way to do this. The name of all
6 6 objects imported this way starts with ``i`` to minimize collisions.
7 7
8 8 ``ipipe`` supports "pipeline expressions", which is something resembling Unix
9 9 pipes. An example is:
10 10
11 11 >>> ienv | isort("key.lower()")
12 12
13 13 This gives a listing of all environment variables sorted by name.
14 14
15 15
16 16 There are three types of objects in a pipeline expression:
17 17
18 18 * ``Table``s: These objects produce items. Examples are ``ils`` (listing the
19 19 current directory, ``ienv`` (listing environment variables), ``ipwd`` (listing
20 20 user accounts) and ``igrp`` (listing user groups). A ``Table`` must be the
21 21 first object in a pipe expression.
22 22
23 23 * ``Pipe``s: These objects sit in the middle of a pipe expression. They
24 24 transform the input in some way (e.g. filtering or sorting it). Examples are:
25 25 ``ifilter`` (which filters the input pipe), ``isort`` (which sorts the input
26 26 pipe) and ``ieval`` (which evaluates a function or expression for each object
27 27 in the input pipe).
28 28
29 29 * ``Display``s: These objects can be put as the last object in a pipeline
30 30 expression. There are responsible for displaying the result of the pipeline
31 31 expression. If a pipeline expression doesn't end in a display object a default
32 32 display objects will be used. One example is ``ibrowse`` which is a ``curses``
33 33 based browser.
34 34
35 35
36 36 Adding support for pipeline expressions to your own objects can be done through
37 37 three extensions points (all of them optional):
38 38
39 39 * An object that will be displayed as a row by a ``Display`` object should
40 40 implement the method ``__xattrs__(self, mode)`` method or register an
41 41 implementation of the generic function ``xattrs``. For more info see ``xattrs``.
42 42
43 43 * When an object ``foo`` is displayed by a ``Display`` object, the generic
44 44 function ``xrepr`` is used.
45 45
46 46 * Objects that can be iterated by ``Pipe``s must iterable. For special cases,
47 47 where iteration for display is different than the normal iteration a special
48 48 implementation can be registered with the generic function ``xiter``. This makes
49 49 it possible to use dictionaries and modules in pipeline expressions, for example:
50 50
51 51 >>> import sys
52 52 >>> sys | ifilter("isinstance(value, int)") | idump
53 53 key |value
54 54 api_version| 1012
55 55 dllhandle | 503316480
56 56 hexversion | 33817328
57 57 maxint |2147483647
58 58 maxunicode | 65535
59 59 >>> sys.modules | ifilter("_.value is not None") | isort("_.key.lower()")
60 60 ...
61 61
62 62 Note: The expression strings passed to ``ifilter()`` and ``isort()`` can
63 63 refer to the object to be filtered or sorted via the variable ``_`` and to any
64 64 of the attributes of the object, i.e.:
65 65
66 66 >>> sys.modules | ifilter("_.value is not None") | isort("_.key.lower()")
67 67
68 68 does the same as
69 69
70 70 >>> sys.modules | ifilter("value is not None") | isort("key.lower()")
71 71
72 72 In addition to expression strings, it's possible to pass callables (taking
73 73 the object as an argument) to ``ifilter()``, ``isort()`` and ``ieval()``:
74 74
75 75 >>> sys | ifilter(lambda _:isinstance(_.value, int)) \
76 76 ... | ieval(lambda _: (_.key, hex(_.value))) | idump
77 77 0 |1
78 78 api_version|0x3f4
79 79 dllhandle |0x1e000000
80 80 hexversion |0x20402f0
81 81 maxint |0x7fffffff
82 82 maxunicode |0xffff
83 83 """
84 84
85 85 import sys, os, os.path, stat, glob, new, csv, datetime, types
86 86 import itertools, mimetypes
87 87
88 88 try: # Python 2.3 compatibility
89 89 import collections
90 90 except ImportError:
91 91 deque = list
92 92 else:
93 93 deque = collections.deque
94 94
95 95 try: # Python 2.3 compatibility
96 96 set
97 97 except NameError:
98 98 import sets
99 99 set = sets.Set
100 100
101 101 try: # Python 2.3 compatibility
102 102 sorted
103 103 except NameError:
104 104 def sorted(iterator, key=None, reverse=False):
105 105 items = list(iterator)
106 106 if key is not None:
107 107 items.sort(lambda i1, i2: cmp(key(i1), key(i2)))
108 108 else:
109 109 items.sort()
110 110 if reverse:
111 111 items.reverse()
112 112 return items
113 113
114 114 try:
115 115 import pwd
116 116 except ImportError:
117 117 pwd = None
118 118
119 119 try:
120 120 import grp
121 121 except ImportError:
122 122 grp = None
123 123
124 124 from IPython.external import simplegeneric
125 125
126 126 import path
127 127 try:
128 128 from IPython import genutils, ipapi
129 129 except ImportError:
130 130 genutils = None
131 131 ipapi = None
132 132
133 133 import astyle
134 134
135 135
136 136 __all__ = [
137 137 "ifile", "ils", "iglob", "iwalk", "ipwdentry", "ipwd", "igrpentry", "igrp",
138 138 "icsv", "ix", "ichain", "isort", "ifilter", "ieval", "ienum", "ienv",
139 139 "idump", "iless"
140 140 ]
141 141
142 142
143 143 os.stat_float_times(True) # enable microseconds
144 144
145 145
146 146 class AttrNamespace(object):
147 147 """
148 148 Helper class that is used for providing a namespace for evaluating
149 149 expressions containing attribute names of an object.
150 150 """
151 151 def __init__(self, wrapped):
152 152 self.wrapped = wrapped
153 153
154 154 def __getitem__(self, name):
155 155 if name == "_":
156 156 return self.wrapped
157 157 try:
158 158 return getattr(self.wrapped, name)
159 159 except AttributeError:
160 160 raise KeyError(name)
161 161
162 162 # Python 2.3 compatibility
163 163 # use eval workaround to find out which names are used in the
164 164 # eval string and put them into the locals. This works for most
165 165 # normal uses case, bizarre ones like accessing the locals()
166 166 # will fail
167 167 try:
168 168 eval("_", None, AttrNamespace(None))
169 169 except TypeError:
170 170 real_eval = eval
171 171 def eval(codestring, _globals, _locals):
172 172 """
173 173 eval(source[, globals[, locals]]) -> value
174 174
175 175 Evaluate the source in the context of globals and locals.
176 176 The source may be a string representing a Python expression
177 177 or a code object as returned by compile().
178 178 The globals must be a dictionary and locals can be any mappping.
179 179
180 180 This function is a workaround for the shortcomings of
181 181 Python 2.3's eval.
182 182 """
183 183
184 184 if isinstance(codestring, basestring):
185 185 code = compile(codestring, "_eval", "eval")
186 186 else:
187 187 code = codestring
188 188 newlocals = {}
189 189 for name in code.co_names:
190 190 try:
191 191 newlocals[name] = _locals[name]
192 192 except KeyError:
193 193 pass
194 194 return real_eval(code, _globals, newlocals)
195 195
196 196
197 197 noitem = object()
198 198
199 199
200 200 def item(iterator, index, default=noitem):
201 201 """
202 202 Return the ``index``th item from the iterator ``iterator``.
203 203 ``index`` must be an integer (negative integers are relative to the
204 204 end (i.e. the last items produced by the iterator)).
205 205
206 206 If ``default`` is given, this will be the default value when
207 207 the iterator doesn't contain an item at this position. Otherwise an
208 208 ``IndexError`` will be raised.
209 209
210 210 Note that using this function will partially or totally exhaust the
211 211 iterator.
212 212 """
213 213 i = index
214 214 if i>=0:
215 215 for item in iterator:
216 216 if not i:
217 217 return item
218 218 i -= 1
219 219 else:
220 220 i = -index
221 221 cache = deque()
222 222 for item in iterator:
223 223 cache.append(item)
224 224 if len(cache)>i:
225 225 cache.popleft()
226 226 if len(cache)==i:
227 227 return cache.popleft()
228 228 if default is noitem:
229 229 raise IndexError(index)
230 230 else:
231 231 return default
232 232
233 233
234 234 def getglobals(g):
235 235 """
236 236 Return the global namespace that is used for expression strings in
237 237 ``ifilter`` and others. This is ``g`` or (if ``g`` is ``None``) IPython's
238 238 user namespace.
239 239 """
240 240 if g is None:
241 241 if ipapi is not None:
242 242 api = ipapi.get()
243 243 if api is not None:
244 244 return api.user_ns
245 245 return globals()
246 246 return g
247 247
248 248
249 249 class Descriptor(object):
250 250 """
251 251 A ``Descriptor`` object is used for describing the attributes of objects.
252 252 """
253 253 def __hash__(self):
254 254 return hash(self.__class__) ^ hash(self.key())
255 255
256 256 def __eq__(self, other):
257 257 return self.__class__ is other.__class__ and self.key() == other.key()
258 258
259 259 def __ne__(self, other):
260 260 return self.__class__ is not other.__class__ or self.key() != other.key()
261 261
262 262 def key(self):
263 263 pass
264 264
265 265 def name(self):
266 266 """
267 267 Return the name of this attribute for display by a ``Display`` object
268 268 (e.g. as a column title).
269 269 """
270 270 key = self.key()
271 271 if key is None:
272 272 return "_"
273 273 return str(key)
274 274
275 275 def attrtype(self, obj):
276 276 """
277 277 Return the type of this attribute (i.e. something like "attribute" or
278 278 "method").
279 279 """
280 280
281 281 def valuetype(self, obj):
282 282 """
283 283 Return the type of this attribute value of the object ``obj``.
284 284 """
285 285
286 286 def value(self, obj):
287 287 """
288 288 Return the value of this attribute of the object ``obj``.
289 289 """
290 290
291 291 def doc(self, obj):
292 292 """
293 293 Return the documentation for this attribute.
294 294 """
295 295
296 296 def shortdoc(self, obj):
297 297 """
298 298 Return a short documentation for this attribute (defaulting to the
299 299 first line).
300 300 """
301 301 doc = self.doc(obj)
302 302 if doc is not None:
303 303 doc = doc.strip().splitlines()[0].strip()
304 304 return doc
305 305
306 306 def iter(self, obj):
307 307 """
308 308 Return an iterator for this attribute of the object ``obj``.
309 309 """
310 310 return xiter(self.value(obj))
311 311
312 312
313 313 class SelfDescriptor(Descriptor):
314 314 """
315 315 A ``SelfDescriptor`` describes the object itself.
316 316 """
317 317 def key(self):
318 318 return None
319 319
320 320 def attrtype(self, obj):
321 321 return "self"
322 322
323 323 def valuetype(self, obj):
324 324 return type(obj)
325 325
326 326 def value(self, obj):
327 327 return obj
328 328
329 329 def __repr__(self):
330 330 return "Self"
331 331
332 332 selfdescriptor = SelfDescriptor() # there's no need for more than one
333 333
334 334
335 335 class AttributeDescriptor(Descriptor):
336 336 """
337 337 An ``AttributeDescriptor`` describes a simple attribute of an object.
338 338 """
339 339 __slots__ = ("_name", "_doc")
340 340
341 341 def __init__(self, name, doc=None):
342 342 self._name = name
343 343 self._doc = doc
344 344
345 345 def key(self):
346 346 return self._name
347 347
348 348 def doc(self, obj):
349 349 return self._doc
350 350
351 351 def attrtype(self, obj):
352 352 return "attr"
353 353
354 354 def valuetype(self, obj):
355 355 return type(getattr(obj, self._name))
356 356
357 357 def value(self, obj):
358 358 return getattr(obj, self._name)
359 359
360 360 def __repr__(self):
361 361 if self._doc is None:
362 362 return "Attribute(%r)" % self._name
363 363 else:
364 364 return "Attribute(%r, %r)" % (self._name, self._doc)
365 365
366 366
367 367 class IndexDescriptor(Descriptor):
368 368 """
369 369 An ``IndexDescriptor`` describes an "attribute" of an object that is fetched
370 370 via ``__getitem__``.
371 371 """
372 372 __slots__ = ("_index",)
373 373
374 374 def __init__(self, index):
375 375 self._index = index
376 376
377 377 def key(self):
378 378 return self._index
379 379
380 380 def attrtype(self, obj):
381 381 return "item"
382 382
383 383 def valuetype(self, obj):
384 384 return type(obj[self._index])
385 385
386 386 def value(self, obj):
387 387 return obj[self._index]
388 388
389 389 def __repr__(self):
390 390 return "Index(%r)" % self._index
391 391
392 392
393 393 class MethodDescriptor(Descriptor):
394 394 """
395 395 A ``MethodDescriptor`` describes a method of an object that can be called
396 396 without argument. Note that this method shouldn't change the object.
397 397 """
398 398 __slots__ = ("_name", "_doc")
399 399
400 400 def __init__(self, name, doc=None):
401 401 self._name = name
402 402 self._doc = doc
403 403
404 404 def key(self):
405 405 return self._name
406 406
407 407 def doc(self, obj):
408 408 if self._doc is None:
409 409 return getattr(obj, self._name).__doc__
410 410 return self._doc
411 411
412 412 def attrtype(self, obj):
413 413 return "method"
414 414
415 415 def valuetype(self, obj):
416 416 return type(self.value(obj))
417 417
418 418 def value(self, obj):
419 419 return getattr(obj, self._name)()
420 420
421 421 def __repr__(self):
422 422 if self._doc is None:
423 423 return "Method(%r)" % self._name
424 424 else:
425 425 return "Method(%r, %r)" % (self._name, self._doc)
426 426
427 427
428 428 class IterAttributeDescriptor(Descriptor):
429 429 """
430 430 An ``IterAttributeDescriptor`` works like an ``AttributeDescriptor`` but
431 431 doesn't return an attribute values (because this value might be e.g. a large
432 432 list).
433 433 """
434 434 __slots__ = ("_name", "_doc")
435 435
436 436 def __init__(self, name, doc=None):
437 437 self._name = name
438 438 self._doc = doc
439 439
440 440 def key(self):
441 441 return self._name
442 442
443 443 def doc(self, obj):
444 444 return self._doc
445 445
446 446 def attrtype(self, obj):
447 447 return "iter"
448 448
449 449 def valuetype(self, obj):
450 450 return noitem
451 451
452 452 def value(self, obj):
453 453 return noitem
454 454
455 455 def iter(self, obj):
456 456 return xiter(getattr(obj, self._name))
457 457
458 458 def __repr__(self):
459 459 if self._doc is None:
460 460 return "IterAttribute(%r)" % self._name
461 461 else:
462 462 return "IterAttribute(%r, %r)" % (self._name, self._doc)
463 463
464 464
465 465 class IterMethodDescriptor(Descriptor):
466 466 """
467 467 An ``IterMethodDescriptor`` works like an ``MethodDescriptor`` but doesn't
468 468 return an attribute values (because this value might be e.g. a large list).
469 469 """
470 470 __slots__ = ("_name", "_doc")
471 471
472 472 def __init__(self, name, doc=None):
473 473 self._name = name
474 474 self._doc = doc
475 475
476 476 def key(self):
477 477 return self._name
478 478
479 479 def doc(self, obj):
480 480 if self._doc is None:
481 481 return getattr(obj, self._name).__doc__
482 482 return self._doc
483 483
484 484 def attrtype(self, obj):
485 485 return "itermethod"
486 486
487 487 def valuetype(self, obj):
488 488 return noitem
489 489
490 490 def value(self, obj):
491 491 return noitem
492 492
493 493 def iter(self, obj):
494 494 return xiter(getattr(obj, self._name)())
495 495
496 496 def __repr__(self):
497 497 if self._doc is None:
498 498 return "IterMethod(%r)" % self._name
499 499 else:
500 500 return "IterMethod(%r, %r)" % (self._name, self._doc)
501 501
502 502
503 503 class FunctionDescriptor(Descriptor):
504 504 """
505 505 A ``FunctionDescriptor`` turns a function into a descriptor. The function
506 506 will be called with the object to get the type and value of the attribute.
507 507 """
508 508 __slots__ = ("_function", "_name", "_doc")
509 509
510 510 def __init__(self, function, name=None, doc=None):
511 511 self._function = function
512 512 self._name = name
513 513 self._doc = doc
514 514
515 515 def key(self):
516 516 return self._function
517 517
518 518 def name(self):
519 519 if self._name is not None:
520 520 return self._name
521 521 return getattr(self._function, "__xname__", self._function.__name__)
522 522
523 523 def doc(self, obj):
524 524 if self._doc is None:
525 525 return self._function.__doc__
526 526 return self._doc
527 527
528 528 def attrtype(self, obj):
529 529 return "function"
530 530
531 531 def valuetype(self, obj):
532 532 return type(self._function(obj))
533 533
534 534 def value(self, obj):
535 535 return self._function(obj)
536 536
537 537 def __repr__(self):
538 538 if self._doc is None:
539 539 return "Function(%r)" % self._name
540 540 else:
541 541 return "Function(%r, %r)" % (self._name, self._doc)
542 542
543 543
544 544 class Table(object):
545 545 """
546 546 A ``Table`` is an object that produces items (just like a normal Python
547 547 iterator/generator does) and can be used as the first object in a pipeline
548 548 expression. The displayhook will open the default browser for such an object
549 549 (instead of simply printing the ``repr()`` result).
550 550 """
551 551
552 552 # We want to support ``foo`` and ``foo()`` in pipeline expression:
553 553 # So we implement the required operators (``|`` and ``+``) in the metaclass,
554 554 # instantiate the class and forward the operator to the instance
555 555 class __metaclass__(type):
556 556 def __iter__(self):
557 557 return iter(self())
558 558
559 559 def __or__(self, other):
560 560 return self() | other
561 561
562 562 def __add__(self, other):
563 563 return self() + other
564 564
565 565 def __radd__(self, other):
566 566 return other + self()
567 567
568 568 def __getitem__(self, index):
569 569 return self()[index]
570 570
571 571 def __getitem__(self, index):
572 572 return item(self, index)
573 573
574 574 def __contains__(self, item):
575 575 for haveitem in self:
576 576 if item == haveitem:
577 577 return True
578 578 return False
579 579
580 580 def __or__(self, other):
581 581 # autoinstantiate right hand side
582 582 if isinstance(other, type) and issubclass(other, (Table, Display)):
583 583 other = other()
584 584 # treat simple strings and functions as ``ieval`` instances
585 585 elif not isinstance(other, Display) and not isinstance(other, Table):
586 586 other = ieval(other)
587 587 # forward operations to the right hand side
588 588 return other.__ror__(self)
589 589
590 590 def __add__(self, other):
591 591 # autoinstantiate right hand side
592 592 if isinstance(other, type) and issubclass(other, Table):
593 593 other = other()
594 594 return ichain(self, other)
595 595
596 596 def __radd__(self, other):
597 597 # autoinstantiate left hand side
598 598 if isinstance(other, type) and issubclass(other, Table):
599 599 other = other()
600 600 return ichain(other, self)
601 601
602 602
603 603 class Pipe(Table):
604 604 """
605 605 A ``Pipe`` is an object that can be used in a pipeline expression. It
606 606 processes the objects it gets from its input ``Table``/``Pipe``. Note that
607 607 a ``Pipe`` object can't be used as the first object in a pipeline
608 608 expression, as it doesn't produces items itself.
609 609 """
610 610 class __metaclass__(Table.__metaclass__):
611 611 def __ror__(self, input):
612 612 return input | self()
613 613
614 614 def __ror__(self, input):
615 615 # autoinstantiate left hand side
616 616 if isinstance(input, type) and issubclass(input, Table):
617 617 input = input()
618 618 self.input = input
619 619 return self
620 620
621 621
622 622 def xrepr(item, mode="default"):
623 623 """
624 624 Generic function that adds color output and different display modes to ``repr``.
625 625
626 626 The result of an ``xrepr`` call is iterable and consists of ``(style, string)``
627 627 tuples. The ``style`` in this tuple must be a ``Style`` object from the
628 628 ``astring`` module. To reconfigure the output the first yielded tuple can be
629 629 a ``(aligment, full)`` tuple instead of a ``(style, string)`` tuple.
630 630 ``alignment`` can be -1 for left aligned, 0 for centered and 1 for right
631 631 aligned (the default is left alignment). ``full`` is a boolean that specifies
632 632 whether the complete output must be displayed or the ``Display`` object is
633 633 allowed to stop output after enough text has been produced (e.g. a syntax
634 634 highlighted text line would use ``True``, but for a large data structure
635 635 (i.e. a nested list, tuple or dictionary) ``False`` would be used).
636 636 The default is full output.
637 637
638 638 There are four different possible values for ``mode`` depending on where
639 639 the ``Display`` object will display ``item``:
640 640
641 641 * ``"header"``: ``item`` will be displayed in a header line (this is used by
642 642 ``ibrowse``).
643 643 * ``"footer"``: ``item`` will be displayed in a footer line (this is used by
644 644 ``ibrowse``).
645 645 * ``"cell"``: ``item`` will be displayed in a table cell/list.
646 646 * ``"default"``: default mode. If an ``xrepr`` implementation recursively
647 647 outputs objects, ``"default"`` must be passed in the recursive calls to
648 648 ``xrepr``.
649 649
650 650 If no implementation is registered for ``item``, ``xrepr`` will try the
651 651 ``__xrepr__`` method on ``item``. If ``item`` doesn't have an ``__xrepr__``
652 652 method it falls back to ``repr``/``__repr__`` for all modes.
653 653 """
654 654 try:
655 655 func = item.__xrepr__
656 656 except AttributeError:
657 657 yield (astyle.style_default, repr(item))
658 658 else:
659 659 try:
660 660 for x in func(mode):
661 661 yield x
662 662 except (KeyboardInterrupt, SystemExit):
663 663 raise
664 664 except Exception:
665 665 yield (astyle.style_default, repr(item))
666 666 xrepr = simplegeneric.generic(xrepr)
667 667
668 668
669 669 def xrepr_none(self, mode="default"):
670 670 yield (astyle.style_type_none, repr(self))
671 671 xrepr.when_object(None)(xrepr_none)
672 672
673 673
674 674 def xrepr_noitem(self, mode="default"):
675 675 yield (2, True)
676 676 yield (astyle.style_nodata, "<?>")
677 677 xrepr.when_object(noitem)(xrepr_noitem)
678 678
679 679
680 680 def xrepr_bool(self, mode="default"):
681 681 yield (astyle.style_type_bool, repr(self))
682 682 xrepr.when_type(bool)(xrepr_bool)
683 683
684 684
685 685 def xrepr_str(self, mode="default"):
686 686 if mode == "cell":
687 687 yield (astyle.style_default, repr(self.expandtabs(tab))[1:-1])
688 688 else:
689 689 yield (astyle.style_default, repr(self))
690 690 xrepr.when_type(str)(xrepr_str)
691 691
692 692
693 693 def xrepr_unicode(self, mode="default"):
694 694 if mode == "cell":
695 695 yield (astyle.style_default, repr(self.expandtabs(tab))[2:-1])
696 696 else:
697 697 yield (astyle.style_default, repr(self))
698 698 xrepr.when_type(unicode)(xrepr_unicode)
699 699
700 700
701 701 def xrepr_number(self, mode="default"):
702 702 yield (1, True)
703 703 yield (astyle.style_type_number, repr(self))
704 704 xrepr.when_type(int)(xrepr_number)
705 705 xrepr.when_type(long)(xrepr_number)
706 706 xrepr.when_type(float)(xrepr_number)
707 707
708 708
709 709 def xrepr_complex(self, mode="default"):
710 710 yield (astyle.style_type_number, repr(self))
711 711 xrepr.when_type(complex)(xrepr_number)
712 712
713 713
714 714 def xrepr_datetime(self, mode="default"):
715 715 if mode == "cell":
716 716 # Don't use strftime() here, as this requires year >= 1900
717 717 yield (astyle.style_type_datetime,
718 718 "%04d-%02d-%02d %02d:%02d:%02d.%06d" % \
719 719 (self.year, self.month, self.day,
720 720 self.hour, self.minute, self.second,
721 721 self.microsecond),
722 722 )
723 723 else:
724 724 yield (astyle.style_type_datetime, repr(self))
725 725 xrepr.when_type(datetime.datetime)(xrepr_datetime)
726 726
727 727
728 728 def xrepr_date(self, mode="default"):
729 729 if mode == "cell":
730 730 yield (astyle.style_type_datetime,
731 731 "%04d-%02d-%02d" % (self.year, self.month, self.day))
732 732 else:
733 733 yield (astyle.style_type_datetime, repr(self))
734 734 xrepr.when_type(datetime.date)(xrepr_date)
735 735
736 736
737 737 def xrepr_time(self, mode="default"):
738 738 if mode == "cell":
739 739 yield (astyle.style_type_datetime,
740 740 "%02d:%02d:%02d.%06d" % \
741 741 (self.hour, self.minute, self.second, self.microsecond))
742 742 else:
743 743 yield (astyle.style_type_datetime, repr(self))
744 744 xrepr.when_type(datetime.time)(xrepr_time)
745 745
746 746
747 747 def xrepr_timedelta(self, mode="default"):
748 748 yield (astyle.style_type_datetime, repr(self))
749 749 xrepr.when_type(datetime.timedelta)(xrepr_timedelta)
750 750
751 751
752 752 def xrepr_type(self, mode="default"):
753 753 if self.__module__ == "__builtin__":
754 754 yield (astyle.style_type_type, self.__name__)
755 755 else:
756 756 yield (astyle.style_type_type, "%s.%s" % (self.__module__, self.__name__))
757 757 xrepr.when_type(type)(xrepr_type)
758 758
759 759
760 760 def xrepr_exception(self, mode="default"):
761 761 if self.__class__.__module__ == "exceptions":
762 762 classname = self.__class__.__name__
763 763 else:
764 764 classname = "%s.%s" % \
765 765 (self.__class__.__module__, self.__class__.__name__)
766 766 if mode == "header" or mode == "footer":
767 767 yield (astyle.style_error, "%s: %s" % (classname, self))
768 768 else:
769 769 yield (astyle.style_error, classname)
770 770 xrepr.when_type(Exception)(xrepr_exception)
771 771
772 772
773 773 def xrepr_listtuple(self, mode="default"):
774 774 if mode == "header" or mode == "footer":
775 775 if self.__class__.__module__ == "__builtin__":
776 776 classname = self.__class__.__name__
777 777 else:
778 778 classname = "%s.%s" % \
779 779 (self.__class__.__module__,self.__class__.__name__)
780 780 yield (astyle.style_default,
781 781 "<%s object with %d items at 0x%x>" % \
782 782 (classname, len(self), id(self)))
783 783 else:
784 784 yield (-1, False)
785 785 if isinstance(self, list):
786 786 yield (astyle.style_default, "[")
787 787 end = "]"
788 788 else:
789 789 yield (astyle.style_default, "(")
790 790 end = ")"
791 791 for (i, subself) in enumerate(self):
792 792 if i:
793 793 yield (astyle.style_default, ", ")
794 794 for part in xrepr(subself, "default"):
795 795 yield part
796 796 yield (astyle.style_default, end)
797 797 xrepr.when_type(list)(xrepr_listtuple)
798 798 xrepr.when_type(tuple)(xrepr_listtuple)
799 799
800 800
801 801 def xrepr_dict(self, mode="default"):
802 802 if mode == "header" or mode == "footer":
803 803 if self.__class__.__module__ == "__builtin__":
804 804 classname = self.__class__.__name__
805 805 else:
806 806 classname = "%s.%s" % \
807 807 (self.__class__.__module__,self.__class__.__name__)
808 808 yield (astyle.style_default,
809 809 "<%s object with %d items at 0x%x>" % \
810 810 (classname, len(self), id(self)))
811 811 else:
812 812 yield (-1, False)
813 813 if isinstance(self, dict):
814 814 yield (astyle.style_default, "{")
815 815 end = "}"
816 816 else:
817 817 yield (astyle.style_default, "dictproxy((")
818 818 end = "})"
819 819 for (i, (key, value)) in enumerate(self.iteritems()):
820 820 if i:
821 821 yield (astyle.style_default, ", ")
822 822 for part in xrepr(key, "default"):
823 823 yield part
824 824 yield (astyle.style_default, ": ")
825 825 for part in xrepr(value, "default"):
826 826 yield part
827 827 yield (astyle.style_default, end)
828 828 xrepr.when_type(dict)(xrepr_dict)
829 829 xrepr.when_type(types.DictProxyType)(xrepr_dict)
830 830
831 831
832 832 def upgradexattr(attr):
833 833 """
834 834 Convert an attribute descriptor string to a real descriptor object.
835 835
836 836 If attr already is a descriptor object return if unmodified. A
837 837 ``SelfDescriptor`` will be returned if ``attr`` is ``None``. ``"foo"``
838 838 returns an ``AttributeDescriptor`` for the attribute named ``"foo"``.
839 839 ``"foo()"`` returns a ``MethodDescriptor`` for the method named ``"foo"``.
840 840 ``"-foo"`` will return an ``IterAttributeDescriptor`` for the attribute
841 841 named ``"foo"`` and ``"-foo()"`` will return an ``IterMethodDescriptor``
842 842 for the method named ``"foo"``. Furthermore integer will return the appropriate
843 843 ``IndexDescriptor`` and callables will return a ``FunctionDescriptor``.
844 844 """
845 845 if attr is None:
846 846 return selfdescriptor
847 847 elif isinstance(attr, Descriptor):
848 848 return attr
849 849 elif isinstance(attr, str):
850 850 if attr.endswith("()"):
851 851 if attr.startswith("-"):
852 852 return IterMethodDescriptor(attr[1:-2])
853 853 else:
854 854 return MethodDescriptor(attr[:-2])
855 855 else:
856 856 if attr.startswith("-"):
857 857 return IterAttributeDescriptor(attr[1:])
858 858 else:
859 859 return AttributeDescriptor(attr)
860 860 elif isinstance(attr, (int, long)):
861 861 return IndexDescriptor(attr)
862 862 elif callable(attr):
863 863 return FunctionDescriptor(attr)
864 864 else:
865 865 raise TypeError("can't handle descriptor %r" % attr)
866 866
867 867
868 868 def xattrs(item, mode="default"):
869 869 """
870 870 Generic function that returns an iterable of attribute descriptors
871 871 to be used for displaying the attributes ob the object ``item`` in display
872 872 mode ``mode``.
873 873
874 874 There are two possible modes:
875 875
876 876 * ``"detail"``: The ``Display`` object wants to display a detailed list
877 877 of the object attributes.
878 878 * ``"default"``: The ``Display`` object wants to display the object in a
879 879 list view.
880 880
881 881 If no implementation is registered for the object ``item`` ``xattrs`` falls
882 882 back to trying the ``__xattrs__`` method of the object. If this doesn't
883 883 exist either, ``dir(item)`` is used for ``"detail"`` mode and ``(None,)``
884 884 for ``"default"`` mode.
885 885
886 886 The implementation must yield attribute descriptor (see the class
887 887 ``Descriptor`` for more info). The ``__xattrs__`` method may also return
888 888 attribute descriptor string (and ``None``) which will be converted to real
889 889 descriptors by ``upgradexattr()``.
890 890 """
891 891 try:
892 892 func = item.__xattrs__
893 893 except AttributeError:
894 894 if mode == "detail":
895 895 for attrname in dir(item):
896 896 yield AttributeDescriptor(attrname)
897 897 else:
898 898 yield selfdescriptor
899 899 else:
900 900 for attr in func(mode):
901 901 yield upgradexattr(attr)
902 902 xattrs = simplegeneric.generic(xattrs)
903 903
904 904
905 905 def xattrs_complex(self, mode="default"):
906 906 if mode == "detail":
907 907 return (AttributeDescriptor("real"), AttributeDescriptor("imag"))
908 908 return (selfdescriptor,)
909 909 xattrs.when_type(complex)(xattrs_complex)
910 910
911 911
912 912 def _isdict(item):
913 913 try:
914 914 itermeth = item.__class__.__iter__
915 915 except (AttributeError, TypeError):
916 916 return False
917 917 return itermeth is dict.__iter__ or itermeth is types.DictProxyType.__iter__
918 918
919 919
920 920 def _isstr(item):
921 921 if not isinstance(item, basestring):
922 922 return False
923 923 try:
924 924 itermeth = item.__class__.__iter__
925 925 except AttributeError:
926 926 return True
927 927 return False # ``__iter__`` has been redefined
928 928
929 929
930 930 def xiter(item):
931 931 """
932 932 Generic function that implements iteration for pipeline expression. If no
933 933 implementation is registered for ``item`` ``xiter`` falls back to ``iter``.
934 934 """
935 935 try:
936 936 func = item.__xiter__
937 937 except AttributeError:
938 938 if _isdict(item):
939 939 def items(item):
940 940 fields = ("key", "value")
941 941 for (key, value) in item.iteritems():
942 942 yield Fields(fields, key=key, value=value)
943 943 return items(item)
944 944 elif isinstance(item, new.module):
945 945 def items(item):
946 946 fields = ("key", "value")
947 947 for key in sorted(item.__dict__):
948 948 yield Fields(fields, key=key, value=getattr(item, key))
949 949 return items(item)
950 950 elif _isstr(item):
951 951 if not item:
952 952 raise ValueError("can't enter empty string")
953 953 lines = item.splitlines()
954 954 if len(lines) == 1:
955 955 def iterone(item):
956 956 yield item
957 957 return iterone(item)
958 958 else:
959 959 return iter(lines)
960 960 return iter(item)
961 961 else:
962 962 return iter(func()) # iter() just to be safe
963 963 xiter = simplegeneric.generic(xiter)
964 964
965 965
966 966 class ichain(Pipe):
967 967 """
968 968 Chains multiple ``Table``s into one.
969 969 """
970 970
971 971 def __init__(self, *iters):
972 972 self.iters = iters
973 973
974 974 def __iter__(self):
975 975 return itertools.chain(*self.iters)
976 976
977 977 def __xrepr__(self, mode="default"):
978 978 if mode == "header" or mode == "footer":
979 979 for (i, item) in enumerate(self.iters):
980 980 if i:
981 981 yield (astyle.style_default, "+")
982 982 if isinstance(item, Pipe):
983 983 yield (astyle.style_default, "(")
984 984 for part in xrepr(item, mode):
985 985 yield part
986 986 if isinstance(item, Pipe):
987 987 yield (astyle.style_default, ")")
988 988 else:
989 989 yield (astyle.style_default, repr(self))
990 990
991 991 def __repr__(self):
992 992 args = ", ".join([repr(it) for it in self.iters])
993 993 return "%s.%s(%s)" % \
994 994 (self.__class__.__module__, self.__class__.__name__, args)
995 995
996 996
997 997 class ifile(path.path):
998 998 """
999 999 file (or directory) object.
1000 1000 """
1001 1001
1002 1002 def getmode(self):
1003 1003 return self.stat().st_mode
1004 1004 mode = property(getmode, None, None, "Access mode")
1005 1005
1006 1006 def gettype(self):
1007 1007 data = [
1008 1008 (stat.S_ISREG, "file"),
1009 1009 (stat.S_ISDIR, "dir"),
1010 1010 (stat.S_ISCHR, "chardev"),
1011 1011 (stat.S_ISBLK, "blockdev"),
1012 1012 (stat.S_ISFIFO, "fifo"),
1013 1013 (stat.S_ISLNK, "symlink"),
1014 1014 (stat.S_ISSOCK,"socket"),
1015 1015 ]
1016 1016 lstat = self.lstat()
1017 1017 if lstat is not None:
1018 1018 types = set([text for (func, text) in data if func(lstat.st_mode)])
1019 1019 else:
1020 1020 types = set()
1021 1021 m = self.mode
1022 1022 types.update([text for (func, text) in data if func(m)])
1023 1023 return ", ".join(types)
1024 1024 type = property(gettype, None, None, "file type (file, directory, link, etc.)")
1025 1025
1026 1026 def getmodestr(self):
1027 1027 m = self.mode
1028 1028 data = [
1029 1029 (stat.S_IRUSR, "-r"),
1030 1030 (stat.S_IWUSR, "-w"),
1031 1031 (stat.S_IXUSR, "-x"),
1032 1032 (stat.S_IRGRP, "-r"),
1033 1033 (stat.S_IWGRP, "-w"),
1034 1034 (stat.S_IXGRP, "-x"),
1035 1035 (stat.S_IROTH, "-r"),
1036 1036 (stat.S_IWOTH, "-w"),
1037 1037 (stat.S_IXOTH, "-x"),
1038 1038 ]
1039 1039 return "".join([text[bool(m&bit)] for (bit, text) in data])
1040 1040
1041 1041 modestr = property(getmodestr, None, None, "Access mode as string")
1042 1042
1043 1043 def getblocks(self):
1044 1044 return self.stat().st_blocks
1045 1045 blocks = property(getblocks, None, None, "File size in blocks")
1046 1046
1047 1047 def getblksize(self):
1048 1048 return self.stat().st_blksize
1049 1049 blksize = property(getblksize, None, None, "Filesystem block size")
1050 1050
1051 1051 def getdev(self):
1052 1052 return self.stat().st_dev
1053 1053 dev = property(getdev)
1054 1054
1055 1055 def getnlink(self):
1056 1056 return self.stat().st_nlink
1057 1057 nlink = property(getnlink, None, None, "Number of links")
1058 1058
1059 1059 def getuid(self):
1060 1060 return self.stat().st_uid
1061 1061 uid = property(getuid, None, None, "User id of file owner")
1062 1062
1063 1063 def getgid(self):
1064 1064 return self.stat().st_gid
1065 1065 gid = property(getgid, None, None, "Group id of file owner")
1066 1066
1067 1067 def getowner(self):
1068 1068 stat = self.stat()
1069 1069 try:
1070 1070 return pwd.getpwuid(stat.st_uid).pw_name
1071 1071 except KeyError:
1072 1072 return stat.st_uid
1073 1073 owner = property(getowner, None, None, "Owner name (or id)")
1074 1074
1075 1075 def getgroup(self):
1076 1076 stat = self.stat()
1077 1077 try:
1078 1078 return grp.getgrgid(stat.st_gid).gr_name
1079 1079 except KeyError:
1080 1080 return stat.st_gid
1081 1081 group = property(getgroup, None, None, "Group name (or id)")
1082 1082
1083 1083 def getadate(self):
1084 1084 return datetime.datetime.utcfromtimestamp(self.atime)
1085 1085 adate = property(getadate, None, None, "Access date")
1086 1086
1087 1087 def getcdate(self):
1088 1088 return datetime.datetime.utcfromtimestamp(self.ctime)
1089 1089 cdate = property(getcdate, None, None, "Creation date")
1090 1090
1091 1091 def getmdate(self):
1092 1092 return datetime.datetime.utcfromtimestamp(self.mtime)
1093 1093 mdate = property(getmdate, None, None, "Modification date")
1094 1094
1095 1095 def mimetype(self):
1096 1096 """
1097 1097 Return MIME type guessed from the extension.
1098 1098 """
1099 1099 return mimetypes.guess_type(self.basename())[0]
1100 1100
1101 1101 def encoding(self):
1102 1102 """
1103 1103 Return guessed compression (like "compress" or "gzip").
1104 1104 """
1105 1105 return mimetypes.guess_type(self.basename())[1]
1106 1106
1107 1107 def __repr__(self):
1108 1108 return "ifile(%s)" % path._base.__repr__(self)
1109 1109
1110 1110 if sys.platform == "win32":
1111 1111 defaultattrs = (None, "type", "size", "modestr", "mdate")
1112 1112 else:
1113 1113 defaultattrs = (None, "type", "size", "modestr", "owner", "group", "mdate")
1114 1114
1115 1115 def __xattrs__(self, mode="default"):
1116 1116 if mode == "detail":
1117 1117 return (
1118 1118 "name",
1119 1119 "basename()",
1120 1120 "abspath()",
1121 1121 "realpath()",
1122 1122 "type",
1123 1123 "mode",
1124 1124 "modestr",
1125 1125 "stat()",
1126 1126 "lstat()",
1127 1127 "uid",
1128 1128 "gid",
1129 1129 "owner",
1130 1130 "group",
1131 1131 "dev",
1132 1132 "nlink",
1133 1133 "ctime",
1134 1134 "mtime",
1135 1135 "atime",
1136 1136 "cdate",
1137 1137 "mdate",
1138 1138 "adate",
1139 1139 "size",
1140 1140 "blocks",
1141 1141 "blksize",
1142 1142 "isdir()",
1143 1143 "islink()",
1144 1144 "mimetype()",
1145 1145 "encoding()",
1146 1146 "-listdir()",
1147 1147 "-dirs()",
1148 1148 "-files()",
1149 1149 "-walk()",
1150 1150 "-walkdirs()",
1151 1151 "-walkfiles()",
1152 1152 )
1153 1153 else:
1154 1154 return self.defaultattrs
1155 1155
1156 1156
1157 1157 def xiter_ifile(self):
1158 1158 if self.isdir():
1159 1159 yield (self / os.pardir).abspath()
1160 1160 for child in sorted(self.listdir()):
1161 1161 yield child
1162 1162 else:
1163 1163 f = self.open("rb")
1164 1164 for line in f:
1165 1165 yield line
1166 1166 f.close()
1167 1167 xiter.when_type(ifile)(xiter_ifile)
1168 1168
1169 1169
1170 1170 # We need to implement ``xrepr`` for ``ifile`` as a generic function, because
1171 1171 # otherwise ``xrepr_str`` would kick in.
1172 1172 def xrepr_ifile(self, mode="default"):
1173 1173 try:
1174 1174 if self.isdir():
1175 1175 name = "idir"
1176 1176 style = astyle.style_dir
1177 1177 else:
1178 1178 name = "ifile"
1179 1179 style = astyle.style_file
1180 1180 except IOError:
1181 1181 name = "ifile"
1182 1182 style = astyle.style_default
1183 1183 if mode == "cell" or mode in "header" or mode == "footer":
1184 1184 abspath = repr(path._base(self.normpath()))
1185 1185 if abspath.startswith("u"):
1186 1186 abspath = abspath[2:-1]
1187 1187 else:
1188 1188 abspath = abspath[1:-1]
1189 1189 if mode == "cell":
1190 1190 yield (style, abspath)
1191 1191 else:
1192 1192 yield (style, "%s(%s)" % (name, abspath))
1193 1193 else:
1194 1194 yield (style, repr(self))
1195 1195 xrepr.when_type(ifile)(xrepr_ifile)
1196 1196
1197 1197
1198 1198 class ils(Table):
1199 1199 """
1200 1200 List the current (or a specified) directory.
1201 1201
1202 1202 Examples:
1203 1203
1204 1204 >>> ils
1205 1205 >>> ils("/usr/local/lib/python2.4")
1206 1206 >>> ils("~")
1207 1207 """
1208 1208 def __init__(self, base=os.curdir, dirs=True, files=True):
1209 1209 self.base = os.path.expanduser(base)
1210 1210 self.dirs = dirs
1211 1211 self.files = files
1212 1212
1213 1213 def __iter__(self):
1214 1214 base = ifile(self.base)
1215 1215 yield (base / os.pardir).abspath()
1216 1216 for child in base.listdir():
1217 1217 if self.dirs:
1218 1218 if self.files:
1219 1219 yield child
1220 1220 else:
1221 1221 if child.isdir():
1222 1222 yield child
1223 1223 elif self.files:
1224 1224 if not child.isdir():
1225 1225 yield child
1226 1226
1227 1227 def __xrepr__(self, mode="default"):
1228 1228 return xrepr(ifile(self.base), mode)
1229 1229
1230 1230 def __repr__(self):
1231 1231 return "%s.%s(%r)" % \
1232 1232 (self.__class__.__module__, self.__class__.__name__, self.base)
1233 1233
1234 1234
1235 1235 class iglob(Table):
1236 1236 """
1237 1237 List all files and directories matching a specified pattern.
1238 1238 (See ``glob.glob()`` for more info.).
1239 1239
1240 1240 Examples:
1241 1241
1242 1242 >>> iglob("*.py")
1243 1243 """
1244 1244 def __init__(self, glob):
1245 1245 self.glob = glob
1246 1246
1247 1247 def __iter__(self):
1248 1248 for name in glob.glob(self.glob):
1249 1249 yield ifile(name)
1250 1250
1251 1251 def __xrepr__(self, mode="default"):
1252 1252 if mode == "header" or mode == "footer" or mode == "cell":
1253 1253 yield (astyle.style_default,
1254 1254 "%s(%r)" % (self.__class__.__name__, self.glob))
1255 1255 else:
1256 1256 yield (astyle.style_default, repr(self))
1257 1257
1258 1258 def __repr__(self):
1259 1259 return "%s.%s(%r)" % \
1260 1260 (self.__class__.__module__, self.__class__.__name__, self.glob)
1261 1261
1262 1262
1263 1263 class iwalk(Table):
1264 1264 """
1265 1265 List all files and directories in a directory and it's subdirectory.
1266 1266
1267 1267 >>> iwalk
1268 1268 >>> iwalk("/usr/local/lib/python2.4")
1269 1269 >>> iwalk("~")
1270 1270 """
1271 1271 def __init__(self, base=os.curdir, dirs=True, files=True):
1272 1272 self.base = os.path.expanduser(base)
1273 1273 self.dirs = dirs
1274 1274 self.files = files
1275 1275
1276 1276 def __iter__(self):
1277 1277 for (dirpath, dirnames, filenames) in os.walk(self.base):
1278 1278 if self.dirs:
1279 1279 for name in sorted(dirnames):
1280 1280 yield ifile(os.path.join(dirpath, name))
1281 1281 if self.files:
1282 1282 for name in sorted(filenames):
1283 1283 yield ifile(os.path.join(dirpath, name))
1284 1284
1285 1285 def __xrepr__(self, mode="default"):
1286 1286 if mode == "header" or mode == "footer" or mode == "cell":
1287 1287 yield (astyle.style_default,
1288 1288 "%s(%r)" % (self.__class__.__name__, self.base))
1289 1289 else:
1290 1290 yield (astyle.style_default, repr(self))
1291 1291
1292 1292 def __repr__(self):
1293 1293 return "%s.%s(%r)" % \
1294 1294 (self.__class__.__module__, self.__class__.__name__, self.base)
1295 1295
1296 1296
1297 1297 class ipwdentry(object):
1298 1298 """
1299 1299 ``ipwdentry`` objects encapsulate entries in the Unix user account and
1300 1300 password database.
1301 1301 """
1302 1302 def __init__(self, id):
1303 1303 self._id = id
1304 1304 self._entry = None
1305 1305
1306 1306 def __eq__(self, other):
1307 1307 return self.__class__ is other.__class__ and self._id == other._id
1308 1308
1309 1309 def __ne__(self, other):
1310 1310 return self.__class__ is not other.__class__ or self._id != other._id
1311 1311
1312 1312 def _getentry(self):
1313 1313 if self._entry is None:
1314 1314 if isinstance(self._id, basestring):
1315 1315 self._entry = pwd.getpwnam(self._id)
1316 1316 else:
1317 1317 self._entry = pwd.getpwuid(self._id)
1318 1318 return self._entry
1319 1319
1320 1320 def getname(self):
1321 1321 if isinstance(self._id, basestring):
1322 1322 return self._id
1323 1323 else:
1324 1324 return self._getentry().pw_name
1325 1325 name = property(getname, None, None, "User name")
1326 1326
1327 1327 def getpasswd(self):
1328 1328 return self._getentry().pw_passwd
1329 1329 passwd = property(getpasswd, None, None, "Password")
1330 1330
1331 1331 def getuid(self):
1332 1332 if isinstance(self._id, basestring):
1333 1333 return self._getentry().pw_uid
1334 1334 else:
1335 1335 return self._id
1336 1336 uid = property(getuid, None, None, "User id")
1337 1337
1338 1338 def getgid(self):
1339 1339 return self._getentry().pw_gid
1340 1340 gid = property(getgid, None, None, "Primary group id")
1341 1341
1342 1342 def getgroup(self):
1343 1343 return igrpentry(self.gid)
1344 1344 group = property(getgroup, None, None, "Group")
1345 1345
1346 1346 def getgecos(self):
1347 1347 return self._getentry().pw_gecos
1348 1348 gecos = property(getgecos, None, None, "Information (e.g. full user name)")
1349 1349
1350 1350 def getdir(self):
1351 1351 return self._getentry().pw_dir
1352 1352 dir = property(getdir, None, None, "$HOME directory")
1353 1353
1354 1354 def getshell(self):
1355 1355 return self._getentry().pw_shell
1356 1356 shell = property(getshell, None, None, "Login shell")
1357 1357
1358 1358 def __xattrs__(self, mode="default"):
1359 1359 return ("name", "passwd", "uid", "gid", "gecos", "dir", "shell")
1360 1360
1361 1361 def __repr__(self):
1362 1362 return "%s.%s(%r)" % \
1363 1363 (self.__class__.__module__, self.__class__.__name__, self._id)
1364 1364
1365 1365
1366 1366 class ipwd(Table):
1367 1367 """
1368 1368 List all entries in the Unix user account and password database.
1369 1369
1370 1370 Example:
1371 1371
1372 1372 >>> ipwd | isort("uid")
1373 1373 """
1374 1374 def __iter__(self):
1375 1375 for entry in pwd.getpwall():
1376 1376 yield ipwdentry(entry.pw_name)
1377 1377
1378 1378 def __xrepr__(self, mode="default"):
1379 1379 if mode == "header" or mode == "footer" or mode == "cell":
1380 1380 yield (astyle.style_default, "%s()" % self.__class__.__name__)
1381 1381 else:
1382 1382 yield (astyle.style_default, repr(self))
1383 1383
1384 1384
1385 1385 class igrpentry(object):
1386 1386 """
1387 1387 ``igrpentry`` objects encapsulate entries in the Unix group database.
1388 1388 """
1389 1389 def __init__(self, id):
1390 1390 self._id = id
1391 1391 self._entry = None
1392 1392
1393 1393 def __eq__(self, other):
1394 1394 return self.__class__ is other.__class__ and self._id == other._id
1395 1395
1396 1396 def __ne__(self, other):
1397 1397 return self.__class__ is not other.__class__ or self._id != other._id
1398 1398
1399 1399 def _getentry(self):
1400 1400 if self._entry is None:
1401 1401 if isinstance(self._id, basestring):
1402 1402 self._entry = grp.getgrnam(self._id)
1403 1403 else:
1404 1404 self._entry = grp.getgrgid(self._id)
1405 1405 return self._entry
1406 1406
1407 1407 def getname(self):
1408 1408 if isinstance(self._id, basestring):
1409 1409 return self._id
1410 1410 else:
1411 1411 return self._getentry().gr_name
1412 1412 name = property(getname, None, None, "Group name")
1413 1413
1414 1414 def getpasswd(self):
1415 1415 return self._getentry().gr_passwd
1416 1416 passwd = property(getpasswd, None, None, "Password")
1417 1417
1418 1418 def getgid(self):
1419 1419 if isinstance(self._id, basestring):
1420 1420 return self._getentry().gr_gid
1421 1421 else:
1422 1422 return self._id
1423 1423 gid = property(getgid, None, None, "Group id")
1424 1424
1425 1425 def getmem(self):
1426 1426 return self._getentry().gr_mem
1427 1427 mem = property(getmem, None, None, "Members")
1428 1428
1429 1429 def __xattrs__(self, mode="default"):
1430 1430 return ("name", "passwd", "gid", "mem")
1431 1431
1432 1432 def __xrepr__(self, mode="default"):
1433 1433 if mode == "header" or mode == "footer" or mode == "cell":
1434 1434 yield (astyle.style_default, "group ")
1435 1435 try:
1436 1436 yield (astyle.style_default, self.name)
1437 1437 except KeyError:
1438 1438 if isinstance(self._id, basestring):
1439 1439 yield (astyle.style_default, self.name_id)
1440 1440 else:
1441 1441 yield (astyle.style_type_number, str(self._id))
1442 1442 else:
1443 1443 yield (astyle.style_default, repr(self))
1444 1444
1445 1445 def __iter__(self):
1446 1446 for member in self.mem:
1447 1447 yield ipwdentry(member)
1448 1448
1449 1449 def __repr__(self):
1450 1450 return "%s.%s(%r)" % \
1451 1451 (self.__class__.__module__, self.__class__.__name__, self._id)
1452 1452
1453 1453
1454 1454 class igrp(Table):
1455 1455 """
1456 1456 This ``Table`` lists all entries in the Unix group database.
1457 1457 """
1458 1458 def __iter__(self):
1459 1459 for entry in grp.getgrall():
1460 1460 yield igrpentry(entry.gr_name)
1461 1461
1462 1462 def __xrepr__(self, mode="default"):
1463 1463 if mode == "header" or mode == "footer":
1464 1464 yield (astyle.style_default, "%s()" % self.__class__.__name__)
1465 1465 else:
1466 1466 yield (astyle.style_default, repr(self))
1467 1467
1468 1468
1469 1469 class Fields(object):
1470 1470 def __init__(self, fieldnames, **fields):
1471 1471 self.__fieldnames = [upgradexattr(fieldname) for fieldname in fieldnames]
1472 1472 for (key, value) in fields.iteritems():
1473 1473 setattr(self, key, value)
1474 1474
1475 1475 def __xattrs__(self, mode="default"):
1476 1476 return self.__fieldnames
1477 1477
1478 1478 def __xrepr__(self, mode="default"):
1479 1479 yield (-1, False)
1480 1480 if mode == "header" or mode == "cell":
1481 1481 yield (astyle.style_default, self.__class__.__name__)
1482 1482 yield (astyle.style_default, "(")
1483 1483 for (i, f) in enumerate(self.__fieldnames):
1484 1484 if i:
1485 1485 yield (astyle.style_default, ", ")
1486 1486 yield (astyle.style_default, f.name())
1487 1487 yield (astyle.style_default, "=")
1488 1488 for part in xrepr(getattr(self, f), "default"):
1489 1489 yield part
1490 1490 yield (astyle.style_default, ")")
1491 1491 elif mode == "footer":
1492 1492 yield (astyle.style_default, self.__class__.__name__)
1493 1493 yield (astyle.style_default, "(")
1494 1494 for (i, f) in enumerate(self.__fieldnames):
1495 1495 if i:
1496 1496 yield (astyle.style_default, ", ")
1497 1497 yield (astyle.style_default, f.name())
1498 1498 yield (astyle.style_default, ")")
1499 1499 else:
1500 1500 yield (astyle.style_default, repr(self))
1501 1501
1502 1502
1503 1503 class FieldTable(Table, list):
1504 1504 def __init__(self, *fields):
1505 1505 Table.__init__(self)
1506 1506 list.__init__(self)
1507 1507 self.fields = fields
1508 1508
1509 1509 def add(self, **fields):
1510 1510 self.append(Fields(self.fields, **fields))
1511 1511
1512 1512 def __xrepr__(self, mode="default"):
1513 1513 yield (-1, False)
1514 1514 if mode == "header" or mode == "footer":
1515 1515 yield (astyle.style_default, self.__class__.__name__)
1516 1516 yield (astyle.style_default, "(")
1517 1517 for (i, f) in enumerate(self.__fieldnames):
1518 1518 if i:
1519 1519 yield (astyle.style_default, ", ")
1520 1520 yield (astyle.style_default, f)
1521 1521 yield (astyle.style_default, ")")
1522 1522 else:
1523 1523 yield (astyle.style_default, repr(self))
1524 1524
1525 1525 def __repr__(self):
1526 1526 return "<%s.%s object with fields=%r at 0x%x>" % \
1527 1527 (self.__class__.__module__, self.__class__.__name__,
1528 1528 ", ".join(map(repr, self.fields)), id(self))
1529 1529
1530 1530
1531 1531 class List(list):
1532 1532 def __xattrs__(self, mode="default"):
1533 1533 return xrange(len(self))
1534 1534
1535 1535 def __xrepr__(self, mode="default"):
1536 1536 yield (-1, False)
1537 1537 if mode == "header" or mode == "cell" or mode == "footer" or mode == "default":
1538 1538 yield (astyle.style_default, self.__class__.__name__)
1539 1539 yield (astyle.style_default, "(")
1540 1540 for (i, item) in enumerate(self):
1541 1541 if i:
1542 1542 yield (astyle.style_default, ", ")
1543 1543 for part in xrepr(item, "default"):
1544 1544 yield part
1545 1545 yield (astyle.style_default, ")")
1546 1546 else:
1547 1547 yield (astyle.style_default, repr(self))
1548 1548
1549 1549
1550 1550 class ienv(Table):
1551 1551 """
1552 1552 List environment variables.
1553 1553
1554 1554 Example:
1555 1555
1556 1556 >>> ienv
1557 1557 """
1558 1558
1559 1559 def __iter__(self):
1560 1560 fields = ("key", "value")
1561 1561 for (key, value) in os.environ.iteritems():
1562 1562 yield Fields(fields, key=key, value=value)
1563 1563
1564 1564 def __xrepr__(self, mode="default"):
1565 1565 if mode == "header" or mode == "cell":
1566 1566 yield (astyle.style_default, "%s()" % self.__class__.__name__)
1567 1567 else:
1568 1568 yield (astyle.style_default, repr(self))
1569 1569
1570 1570
1571 1571 class icsv(Pipe):
1572 1572 """
1573 1573 This ``Pipe`` lists turn the input (with must be a pipe outputting lines
1574 1574 or an ``ifile``) into lines of CVS columns.
1575 1575 """
1576 1576 def __init__(self, **csvargs):
1577 1577 """
1578 1578 Create an ``icsv`` object. ``cvsargs`` will be passed through as
1579 1579 keyword arguments to ``cvs.reader()``.
1580 1580 """
1581 1581 self.csvargs = csvargs
1582 1582
1583 1583 def __iter__(self):
1584 1584 input = self.input
1585 1585 if isinstance(input, ifile):
1586 1586 input = input.open("rb")
1587 1587 reader = csv.reader(input, **self.csvargs)
1588 1588 for line in reader:
1589 1589 yield List(line)
1590 1590
1591 1591 def __xrepr__(self, mode="default"):
1592 1592 yield (-1, False)
1593 1593 if mode == "header" or mode == "footer":
1594 1594 input = getattr(self, "input", None)
1595 1595 if input is not None:
1596 1596 for part in xrepr(input, mode):
1597 1597 yield part
1598 1598 yield (astyle.style_default, " | ")
1599 1599 yield (astyle.style_default, "%s(" % self.__class__.__name__)
1600 1600 for (i, (name, value)) in enumerate(self.csvargs.iteritems()):
1601 1601 if i:
1602 1602 yield (astyle.style_default, ", ")
1603 1603 yield (astyle.style_default, name)
1604 1604 yield (astyle.style_default, "=")
1605 1605 for part in xrepr(value, "default"):
1606 1606 yield part
1607 1607 yield (astyle.style_default, ")")
1608 1608 else:
1609 1609 yield (astyle.style_default, repr(self))
1610 1610
1611 1611 def __repr__(self):
1612 1612 args = ", ".join(["%s=%r" % item for item in self.csvargs.iteritems()])
1613 1613 return "<%s.%s %s at 0x%x>" % \
1614 1614 (self.__class__.__module__, self.__class__.__name__, args, id(self))
1615 1615
1616 1616
1617 1617 class ix(Table):
1618 1618 """
1619 1619 Execute a system command and list its output as lines
1620 1620 (similar to ``os.popen()``).
1621 1621
1622 1622 Examples:
1623 1623
1624 1624 >>> ix("ps x")
1625 1625 >>> ix("find .") | ifile
1626 1626 """
1627 1627 def __init__(self, cmd):
1628 1628 self.cmd = cmd
1629 1629 self._pipeout = None
1630 1630
1631 1631 def __iter__(self):
1632 1632 (_pipein, self._pipeout) = os.popen4(self.cmd)
1633 1633 _pipein.close()
1634 1634 for l in self._pipeout:
1635 1635 yield l.rstrip("\r\n")
1636 1636 self._pipeout.close()
1637 1637 self._pipeout = None
1638 1638
1639 1639 def __del__(self):
1640 1640 if self._pipeout is not None and not self._pipeout.closed:
1641 1641 self._pipeout.close()
1642 1642 self._pipeout = None
1643 1643
1644 1644 def __xrepr__(self, mode="default"):
1645 1645 if mode == "header" or mode == "footer":
1646 1646 yield (astyle.style_default,
1647 1647 "%s(%r)" % (self.__class__.__name__, self.cmd))
1648 1648 else:
1649 1649 yield (astyle.style_default, repr(self))
1650 1650
1651 1651 def __repr__(self):
1652 1652 return "%s.%s(%r)" % \
1653 1653 (self.__class__.__module__, self.__class__.__name__, self.cmd)
1654 1654
1655 1655
1656 1656 class ifilter(Pipe):
1657 1657 """
1658 1658 Filter an input pipe. Only objects where an expression evaluates to true
1659 1659 (and doesn't raise an exception) are listed.
1660 1660
1661 1661 Examples:
1662 1662
1663 1663 >>> ils | ifilter("_.isfile() and size>1000")
1664 1664 >>> igrp | ifilter("len(mem)")
1665 1665 >>> sys.modules | ifilter(lambda _:_.value is not None)
1666 1666 """
1667 1667
1668 1668 def __init__(self, expr, globals=None, errors="raiseifallfail"):
1669 1669 """
1670 1670 Create an ``ifilter`` object. ``expr`` can be a callable or a string
1671 1671 containing an expression. ``globals`` will be used as the global
1672 1672 namespace for calling string expressions (defaulting to IPython's
1673 1673 user namespace). ``errors`` specifies how exception during evaluation
1674 1674 of ``expr`` are handled:
1675 1675
1676 1676 * ``drop``: drop all items that have errors;
1677 1677
1678 1678 * ``keep``: keep all items that have errors;
1679 1679
1680 1680 * ``keeperror``: keep the exception of all items that have errors;
1681 1681
1682 1682 * ``raise``: raise the exception;
1683 1683
1684 1684 * ``raiseifallfail``: raise the first exception if all items have errors;
1685 1685 otherwise drop those with errors (this is the default).
1686 1686 """
1687 1687 self.expr = expr
1688 1688 self.globals = globals
1689 1689 self.errors = errors
1690 1690
1691 1691 def __iter__(self):
1692 1692 if callable(self.expr):
1693 1693 test = self.expr
1694 1694 else:
1695 1695 g = getglobals(self.globals)
1696 1696 expr = compile(self.expr, "ipipe-expression", "eval")
1697 1697 def test(item):
1698 1698 return eval(expr, g, AttrNamespace(item))
1699 1699
1700 1700 ok = 0
1701 1701 exc_info = None
1702 1702 for item in xiter(self.input):
1703 1703 try:
1704 1704 if test(item):
1705 1705 yield item
1706 1706 ok += 1
1707 1707 except (KeyboardInterrupt, SystemExit):
1708 1708 raise
1709 1709 except Exception, exc:
1710 1710 if self.errors == "drop":
1711 1711 pass # Ignore errors
1712 1712 elif self.errors == "keep":
1713 1713 yield item
1714 1714 elif self.errors == "keeperror":
1715 1715 yield exc
1716 1716 elif self.errors == "raise":
1717 1717 raise
1718 1718 elif self.errors == "raiseifallfail":
1719 1719 if exc_info is None:
1720 1720 exc_info = sys.exc_info()
1721 1721 if not ok and exc_info is not None:
1722 1722 raise exc_info[0], exc_info[1], exc_info[2]
1723 1723
1724 1724 def __xrepr__(self, mode="default"):
1725 1725 if mode == "header" or mode == "footer":
1726 1726 input = getattr(self, "input", None)
1727 1727 if input is not None:
1728 1728 for part in xrepr(input, mode):
1729 1729 yield part
1730 1730 yield (astyle.style_default, " | ")
1731 1731 yield (astyle.style_default, "%s(" % self.__class__.__name__)
1732 1732 for part in xrepr(self.expr, "default"):
1733 1733 yield part
1734 1734 yield (astyle.style_default, ")")
1735 1735 else:
1736 1736 yield (astyle.style_default, repr(self))
1737 1737
1738 1738 def __repr__(self):
1739 1739 return "<%s.%s expr=%r at 0x%x>" % \
1740 1740 (self.__class__.__module__, self.__class__.__name__,
1741 1741 self.expr, id(self))
1742 1742
1743 1743
1744 1744 class ieval(Pipe):
1745 1745 """
1746 1746 Evaluate an expression for each object in the input pipe.
1747 1747
1748 1748 Examples:
1749 1749
1750 1750 >>> ils | ieval("_.abspath()")
1751 1751 >>> sys.path | ieval(ifile)
1752 1752 """
1753 1753
1754 1754 def __init__(self, expr, globals=None, errors="raiseifallfail"):
1755 1755 """
1756 1756 Create an ``ieval`` object. ``expr`` can be a callable or a string
1757 1757 containing an expression. For the meaning of ``globals`` and
1758 1758 ``errors`` see ``ifilter``.
1759 1759 """
1760 1760 self.expr = expr
1761 1761 self.globals = globals
1762 1762 self.errors = errors
1763 1763
1764 1764 def __iter__(self):
1765 1765 if callable(self.expr):
1766 1766 do = self.expr
1767 1767 else:
1768 1768 g = getglobals(self.globals)
1769 1769 expr = compile(self.expr, "ipipe-expression", "eval")
1770 1770 def do(item):
1771 1771 return eval(expr, g, AttrNamespace(item))
1772 1772
1773 1773 ok = 0
1774 1774 exc_info = None
1775 1775 for item in xiter(self.input):
1776 1776 try:
1777 1777 yield do(item)
1778 1778 except (KeyboardInterrupt, SystemExit):
1779 1779 raise
1780 1780 except Exception, exc:
1781 1781 if self.errors == "drop":
1782 1782 pass # Ignore errors
1783 1783 elif self.errors == "keep":
1784 1784 yield item
1785 1785 elif self.errors == "keeperror":
1786 1786 yield exc
1787 1787 elif self.errors == "raise":
1788 1788 raise
1789 1789 elif self.errors == "raiseifallfail":
1790 1790 if exc_info is None:
1791 1791 exc_info = sys.exc_info()
1792 1792 if not ok and exc_info is not None:
1793 1793 raise exc_info[0], exc_info[1], exc_info[2]
1794 1794
1795 1795 def __xrepr__(self, mode="default"):
1796 1796 if mode == "header" or mode == "footer":
1797 1797 input = getattr(self, "input", None)
1798 1798 if input is not None:
1799 1799 for part in xrepr(input, mode):
1800 1800 yield part
1801 1801 yield (astyle.style_default, " | ")
1802 1802 yield (astyle.style_default, "%s(" % self.__class__.__name__)
1803 1803 for part in xrepr(self.expr, "default"):
1804 1804 yield part
1805 1805 yield (astyle.style_default, ")")
1806 1806 else:
1807 1807 yield (astyle.style_default, repr(self))
1808 1808
1809 1809 def __repr__(self):
1810 1810 return "<%s.%s expr=%r at 0x%x>" % \
1811 1811 (self.__class__.__module__, self.__class__.__name__,
1812 1812 self.expr, id(self))
1813 1813
1814 1814
1815 1815 class ienum(Pipe):
1816 1816 """
1817 1817 Enumerate the input pipe (i.e. wrap each input object in an object
1818 1818 with ``index`` and ``object`` attributes).
1819 1819
1820 1820 Examples:
1821 1821
1822 1822 >>> xrange(20) | ieval("_,_*_") | ienum | ifilter("index % 2 == 0") | ieval("object")
1823 1823 """
1824 1824 def __iter__(self):
1825 1825 fields = ("index", "object")
1826 1826 for (index, object) in enumerate(xiter(self.input)):
1827 1827 yield Fields(fields, index=index, object=object)
1828 1828
1829 1829
1830 1830 class isort(Pipe):
1831 1831 """
1832 1832 Sorts the input pipe.
1833 1833
1834 1834 Examples:
1835 1835
1836 1836 >>> ils | isort("size")
1837 1837 >>> ils | isort("_.isdir(), _.lower()", reverse=True)
1838 1838 """
1839 1839
1840 1840 def __init__(self, key=None, globals=None, reverse=False):
1841 1841 """
1842 1842 Create an ``isort`` object. ``key`` can be a callable or a string
1843 1843 containing an expression (or ``None`` in which case the items
1844 1844 themselves will be sorted). If ``reverse`` is true the sort order
1845 1845 will be reversed. For the meaning of ``globals`` see ``ifilter``.
1846 1846 """
1847 1847 self.key = key
1848 1848 self.globals = globals
1849 1849 self.reverse = reverse
1850 1850
1851 1851 def __iter__(self):
1852 1852 if self.key is None:
1853 1853 items = sorted(xiter(self.input), reverse=self.reverse)
1854 1854 elif callable(self.key):
1855 1855 items = sorted(xiter(self.input), key=self.key, reverse=self.reverse)
1856 1856 else:
1857 1857 g = getglobals(self.globals)
1858 1858 key = compile(self.key, "ipipe-expression", "eval")
1859 1859 def realkey(item):
1860 1860 return eval(key, g, AttrNamespace(item))
1861 1861 items = sorted(xiter(self.input), key=realkey, reverse=self.reverse)
1862 1862 for item in items:
1863 1863 yield item
1864 1864
1865 1865 def __xrepr__(self, mode="default"):
1866 1866 if mode == "header" or mode == "footer":
1867 1867 input = getattr(self, "input", None)
1868 1868 if input is not None:
1869 1869 for part in xrepr(input, mode):
1870 1870 yield part
1871 1871 yield (astyle.style_default, " | ")
1872 1872 yield (astyle.style_default, "%s(" % self.__class__.__name__)
1873 1873 for part in xrepr(self.key, "default"):
1874 1874 yield part
1875 1875 if self.reverse:
1876 1876 yield (astyle.style_default, ", ")
1877 1877 for part in xrepr(True, "default"):
1878 1878 yield part
1879 1879 yield (astyle.style_default, ")")
1880 1880 else:
1881 1881 yield (astyle.style_default, repr(self))
1882 1882
1883 1883 def __repr__(self):
1884 1884 return "<%s.%s key=%r reverse=%r at 0x%x>" % \
1885 1885 (self.__class__.__module__, self.__class__.__name__,
1886 1886 self.key, self.reverse, id(self))
1887 1887
1888 1888
1889 1889 tab = 3 # for expandtabs()
1890 1890
1891 1891 def _format(field):
1892 1892 if isinstance(field, str):
1893 1893 text = repr(field.expandtabs(tab))[1:-1]
1894 1894 elif isinstance(field, unicode):
1895 1895 text = repr(field.expandtabs(tab))[2:-1]
1896 1896 elif isinstance(field, datetime.datetime):
1897 1897 # Don't use strftime() here, as this requires year >= 1900
1898 1898 text = "%04d-%02d-%02d %02d:%02d:%02d.%06d" % \
1899 1899 (field.year, field.month, field.day,
1900 1900 field.hour, field.minute, field.second, field.microsecond)
1901 1901 elif isinstance(field, datetime.date):
1902 1902 text = "%04d-%02d-%02d" % (field.year, field.month, field.day)
1903 1903 else:
1904 1904 text = repr(field)
1905 1905 return text
1906 1906
1907 1907
1908 1908 class Display(object):
1909 1909 class __metaclass__(type):
1910 1910 def __ror__(self, input):
1911 1911 return input | self()
1912 1912
1913 1913 def __ror__(self, input):
1914 1914 self.input = input
1915 1915 return self
1916 1916
1917 1917 def display(self):
1918 1918 pass
1919 1919
1920 1920
1921 1921 class iless(Display):
1922 1922 cmd = "less --quit-if-one-screen --LONG-PROMPT --LINE-NUMBERS --chop-long-lines --shift=8 --RAW-CONTROL-CHARS"
1923 1923
1924 1924 def display(self):
1925 1925 try:
1926 1926 pager = os.popen(self.cmd, "w")
1927 1927 try:
1928 1928 for item in xiter(self.input):
1929 1929 first = False
1930 1930 for attr in xattrs(item, "default"):
1931 1931 if first:
1932 1932 first = False
1933 1933 else:
1934 1934 pager.write(" ")
1935 1935 attr = upgradexattr(attr)
1936 1936 if not isinstance(attr, SelfDescriptor):
1937 1937 pager.write(attr.name())
1938 1938 pager.write("=")
1939 1939 pager.write(str(attr.value(item)))
1940 1940 pager.write("\n")
1941 1941 finally:
1942 1942 pager.close()
1943 1943 except Exception, exc:
1944 1944 print "%s: %s" % (exc.__class__.__name__, str(exc))
1945 1945
1946 1946
1947 1947 def xformat(value, mode, maxlength):
1948 1948 align = None
1949 1949 full = True
1950 1950 width = 0
1951 1951 text = astyle.Text()
1952 1952 for (style, part) in xrepr(value, mode):
1953 1953 # only consider the first result
1954 1954 if align is None:
1955 1955 if isinstance(style, int):
1956 1956 # (style, text) really is (alignment, stop)
1957 1957 align = style
1958 1958 full = part
1959 1959 continue
1960 1960 else:
1961 1961 align = -1
1962 1962 full = True
1963 1963 if not isinstance(style, int):
1964 1964 text.append((style, part))
1965 1965 width += len(part)
1966 1966 if width >= maxlength and not full:
1967 1967 text.append((astyle.style_ellisis, "..."))
1968 1968 width += 3
1969 1969 break
1970 1970 if align is None: # default to left alignment
1971 1971 align = -1
1972 1972 return (align, width, text)
1973 1973
1974 1974
1975 1975 class idump(Display):
1976 1976 # The approximate maximum length of a column entry
1977 1977 maxattrlength = 200
1978 1978
1979 1979 # Style for column names
1980 1980 style_header = astyle.Style.fromstr("white:black:bold")
1981 1981
1982 1982 def __init__(self, *attrs):
1983 1983 self.attrs = [upgradexattr(attr) for attr in attrs]
1984 1984 self.headerpadchar = " "
1985 1985 self.headersepchar = "|"
1986 1986 self.datapadchar = " "
1987 1987 self.datasepchar = "|"
1988 1988
1989 1989 def display(self):
1990 1990 stream = genutils.Term.cout
1991 1991 allattrs = []
1992 1992 attrset = set()
1993 1993 colwidths = {}
1994 1994 rows = []
1995 1995 for item in xiter(self.input):
1996 1996 row = {}
1997 1997 attrs = self.attrs
1998 1998 if not attrs:
1999 1999 attrs = xattrs(item, "default")
2000 2000 for attr in attrs:
2001 2001 if attr not in attrset:
2002 2002 allattrs.append(attr)
2003 2003 attrset.add(attr)
2004 2004 colwidths[attr] = len(attr.name())
2005 2005 try:
2006 2006 value = attr.value(item)
2007 2007 except (KeyboardInterrupt, SystemExit):
2008 2008 raise
2009 2009 except Exception, exc:
2010 2010 value = exc
2011 2011 (align, width, text) = xformat(value, "cell", self.maxattrlength)
2012 2012 colwidths[attr] = max(colwidths[attr], width)
2013 2013 # remember alignment, length and colored parts
2014 2014 row[attr] = (align, width, text)
2015 2015 rows.append(row)
2016 2016
2017 2017 stream.write("\n")
2018 2018 for (i, attr) in enumerate(allattrs):
2019 2019 attrname = attr.name()
2020 2020 self.style_header(attrname).write(stream)
2021 2021 spc = colwidths[attr] - len(attrname)
2022 2022 if i < len(colwidths)-1:
2023 2023 stream.write(self.headerpadchar*spc)
2024 2024 stream.write(self.headersepchar)
2025 2025 stream.write("\n")
2026 2026
2027 2027 for row in rows:
2028 2028 for (i, attr) in enumerate(allattrs):
2029 2029 (align, width, text) = row[attr]
2030 2030 spc = colwidths[attr] - width
2031 2031 if align == -1:
2032 2032 text.write(stream)
2033 2033 if i < len(colwidths)-1:
2034 2034 stream.write(self.datapadchar*spc)
2035 2035 elif align == 0:
2036 2036 spc = colwidths[attr] - width
2037 2037 spc1 = spc//2
2038 2038 spc2 = spc-spc1
2039 2039 stream.write(self.datapadchar*spc1)
2040 2040 text.write(stream)
2041 2041 if i < len(colwidths)-1:
2042 2042 stream.write(self.datapadchar*spc2)
2043 2043 else:
2044 2044 stream.write(self.datapadchar*spc)
2045 2045 text.write(stream)
2046 2046 if i < len(colwidths)-1:
2047 2047 stream.write(self.datasepchar)
2048 2048 stream.write("\n")
2049 2049
2050 2050
2051 2051 class AttributeDetail(Table):
2052 2052 """
2053 2053 ``AttributeDetail`` objects are use for displaying a detailed list of object
2054 2054 attributes.
2055 2055 """
2056 2056 def __init__(self, object, descriptor):
2057 2057 self.object = object
2058 2058 self.descriptor = descriptor
2059 2059
2060 2060 def __iter__(self):
2061 2061 return self.descriptor.iter(self.object)
2062 2062
2063 2063 def name(self):
2064 2064 return self.descriptor.name()
2065 2065
2066 2066 def attrtype(self):
2067 2067 return self.descriptor.attrtype(self.object)
2068 2068
2069 2069 def valuetype(self):
2070 2070 return self.descriptor.valuetype(self.object)
2071 2071
2072 2072 def doc(self):
2073 2073 return self.descriptor.doc(self.object)
2074 2074
2075 2075 def shortdoc(self):
2076 2076 return self.descriptor.shortdoc(self.object)
2077 2077
2078 2078 def value(self):
2079 2079 return self.descriptor.value(self.object)
2080 2080
2081 2081 def __xattrs__(self, mode="default"):
2082 2082 attrs = ("name()", "attrtype()", "valuetype()", "value()", "shortdoc()")
2083 2083 if mode == "detail":
2084 2084 attrs += ("doc()",)
2085 2085 return attrs
2086 2086
2087 2087 def __xrepr__(self, mode="default"):
2088 2088 yield (-1, True)
2089 2089 valuetype = self.valuetype()
2090 2090 if valuetype is not noitem:
2091 2091 for part in xrepr(valuetype):
2092 2092 yield part
2093 2093 yield (astyle.style_default, " ")
2094 2094 yield (astyle.style_default, self.attrtype())
2095 2095 yield (astyle.style_default, " ")
2096 2096 yield (astyle.style_default, self.name())
2097 2097 yield (astyle.style_default, " of ")
2098 2098 for part in xrepr(self.object):
2099 2099 yield part
2100 2100
2101 2101
2102 2102 try:
2103 from ibrowse import ibrowse
2103 from igrid import igrid
2104 2104 except ImportError:
2105 # No curses (probably Windows) => use ``idump`` as the default display.
2106 defaultdisplay = idump
2105 # no wx
2106 try:
2107 from ibrowse import ibrowse
2108 except ImportError:
2109 # No curses (probably Windows) => use ``idump`` as the default display.
2110 defaultdisplay = idump
2111 else:
2112 defaultdisplay = ibrowse
2113 __all__.append("ibrowse")
2107 2114 else:
2108 defaultdisplay = ibrowse
2109 __all__.append("ibrowse")
2115 defaultdisplay = igrid
2116 __all__.append("igrid")
2110 2117
2111 2118
2112 2119 # If we're running under IPython, install an IPython displayhook that
2113 2120 # returns the object from Display.display(), else install a displayhook
2114 2121 # directly as sys.displayhook
2115 2122 api = None
2116 2123 if ipapi is not None:
2117 2124 try:
2118 2125 api = ipapi.get()
2119 2126 except AttributeError:
2120 2127 pass
2121 2128
2122 2129 if api is not None:
2123 2130 def displayhook(self, obj):
2124 2131 if isinstance(obj, type) and issubclass(obj, Table):
2125 2132 obj = obj()
2126 2133 if isinstance(obj, Table):
2127 2134 obj = obj | defaultdisplay
2128 2135 if isinstance(obj, Display):
2129 2136 return obj.display()
2130 2137 else:
2131 2138 raise ipapi.TryNext
2132 2139 api.set_hook("result_display", displayhook)
2133 2140 else:
2134 2141 def installdisplayhook():
2135 2142 _originalhook = sys.displayhook
2136 2143 def displayhook(obj):
2137 2144 if isinstance(obj, type) and issubclass(obj, Table):
2138 2145 obj = obj()
2139 2146 if isinstance(obj, Table):
2140 2147 obj = obj | defaultdisplay
2141 2148 if isinstance(obj, Display):
2142 2149 return obj.display()
2143 2150 else:
2144 2151 _originalhook(obj)
2145 2152 sys.displayhook = displayhook
2146 2153 installdisplayhook()
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