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1 """ Utilities for accessing the platform's clipboard.
2 """
3
4 import subprocess
5 import sys
6
7 from IPython.ipapi import TryNext
8
9
10 def win32_clipboard_get():
11 """ Get the current clipboard's text on Windows.
12
13 Requires Mark Hammond's pywin32 extensions.
14 """
15 try:
16 import win32clipboard
17 except ImportError:
18 message = ("Getting text from the clipboard requires the pywin32 "
19 "extensions: http://sourceforge.net/projects/pywin32/")
20 raise TryNext(message)
21 win32clipboard.OpenClipboard()
22 text = win32clipboard.GetClipboardData(win32clipboard.CF_TEXT)
23 # FIXME: convert \r\n to \n?
24 win32clipboard.CloseClipboard()
25 return text
26
27 def osx_clipboard_get():
28 """ Get the clipboard's text on OS X.
29 """
30 p = subprocess.Popen(['pbpaste', '-Prefer', 'ascii'],
31 stdout=subprocess.PIPE)
32 text, stderr = p.communicate()
33 # Text comes in with old Mac \r line endings. Change them to \n.
34 text = text.replace('\r', '\n')
35 return text
36
37 def tkinter_clipboard_get():
38 """ Get the clipboard's text using Tkinter.
39
40 This is the default on systems that are not Windows or OS X. It may
41 interfere with other UI toolkits and should be replaced with an
42 implementation that uses that toolkit.
43 """
44 try:
45 import Tkinter
46 except ImportError:
47 message = ("Getting text from the clipboard on this platform "
48 "requires Tkinter.")
49 raise TryNext(message)
50 root = Tkinter.Tk()
51 root.withdraw()
52 text = root.clipboard_get()
53 root.destroy()
54 return text
55
56
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@@ -1,3456 +1,3521 b''
1 1 # -*- coding: utf-8 -*-
2 2 """Magic functions for InteractiveShell.
3 3 """
4 4
5 5 #*****************************************************************************
6 6 # Copyright (C) 2001 Janko Hauser <jhauser@zscout.de> and
7 7 # Copyright (C) 2001-2006 Fernando Perez <fperez@colorado.edu>
8 8 #
9 9 # Distributed under the terms of the BSD License. The full license is in
10 10 # the file COPYING, distributed as part of this software.
11 11 #*****************************************************************************
12 12
13 13 #****************************************************************************
14 14 # Modules and globals
15 15
16 16 # Python standard modules
17 17 import __builtin__
18 18 import bdb
19 19 import inspect
20 20 import os
21 21 import pdb
22 22 import pydoc
23 23 import sys
24 24 import re
25 25 import tempfile
26 26 import time
27 27 import cPickle as pickle
28 28 import textwrap
29 29 from cStringIO import StringIO
30 30 from getopt import getopt,GetoptError
31 31 from pprint import pprint, pformat
32 32
33 33 # cProfile was added in Python2.5
34 34 try:
35 35 import cProfile as profile
36 36 import pstats
37 37 except ImportError:
38 38 # profile isn't bundled by default in Debian for license reasons
39 39 try:
40 40 import profile,pstats
41 41 except ImportError:
42 42 profile = pstats = None
43 43
44 44 # Homebrewed
45 45 import IPython
46 46 from IPython import Debugger, OInspect, wildcard
47 47 from IPython.FakeModule import FakeModule
48 48 from IPython.Itpl import Itpl, itpl, printpl,itplns
49 49 from IPython.PyColorize import Parser
50 50 from IPython.ipstruct import Struct
51 51 from IPython.macro import Macro
52 52 from IPython.genutils import *
53 53 from IPython import platutils
54 54 import IPython.generics
55 55 import IPython.ipapi
56 56 from IPython.ipapi import UsageError
57 57 from IPython.testing import decorators as testdec
58 58
59 59 #***************************************************************************
60 60 # Utility functions
61 61 def on_off(tag):
62 62 """Return an ON/OFF string for a 1/0 input. Simple utility function."""
63 63 return ['OFF','ON'][tag]
64 64
65 65 class Bunch: pass
66 66
67 67 def compress_dhist(dh):
68 68 head, tail = dh[:-10], dh[-10:]
69 69
70 70 newhead = []
71 71 done = set()
72 72 for h in head:
73 73 if h in done:
74 74 continue
75 75 newhead.append(h)
76 76 done.add(h)
77 77
78 78 return newhead + tail
79 79
80 80
81 81 #***************************************************************************
82 82 # Main class implementing Magic functionality
83 83 class Magic:
84 84 """Magic functions for InteractiveShell.
85 85
86 86 Shell functions which can be reached as %function_name. All magic
87 87 functions should accept a string, which they can parse for their own
88 88 needs. This can make some functions easier to type, eg `%cd ../`
89 89 vs. `%cd("../")`
90 90
91 91 ALL definitions MUST begin with the prefix magic_. The user won't need it
92 92 at the command line, but it is is needed in the definition. """
93 93
94 94 # class globals
95 95 auto_status = ['Automagic is OFF, % prefix IS needed for magic functions.',
96 96 'Automagic is ON, % prefix NOT needed for magic functions.']
97 97
98 98 #......................................................................
99 99 # some utility functions
100 100
101 101 def __init__(self,shell):
102 102
103 103 self.options_table = {}
104 104 if profile is None:
105 105 self.magic_prun = self.profile_missing_notice
106 106 self.shell = shell
107 107
108 108 # namespace for holding state we may need
109 109 self._magic_state = Bunch()
110 110
111 111 def profile_missing_notice(self, *args, **kwargs):
112 112 error("""\
113 113 The profile module could not be found. It has been removed from the standard
114 114 python packages because of its non-free license. To use profiling, install the
115 115 python-profiler package from non-free.""")
116 116
117 117 def default_option(self,fn,optstr):
118 118 """Make an entry in the options_table for fn, with value optstr"""
119 119
120 120 if fn not in self.lsmagic():
121 121 error("%s is not a magic function" % fn)
122 122 self.options_table[fn] = optstr
123 123
124 124 def lsmagic(self):
125 125 """Return a list of currently available magic functions.
126 126
127 127 Gives a list of the bare names after mangling (['ls','cd', ...], not
128 128 ['magic_ls','magic_cd',...]"""
129 129
130 130 # FIXME. This needs a cleanup, in the way the magics list is built.
131 131
132 132 # magics in class definition
133 133 class_magic = lambda fn: fn.startswith('magic_') and \
134 134 callable(Magic.__dict__[fn])
135 135 # in instance namespace (run-time user additions)
136 136 inst_magic = lambda fn: fn.startswith('magic_') and \
137 137 callable(self.__dict__[fn])
138 138 # and bound magics by user (so they can access self):
139 139 inst_bound_magic = lambda fn: fn.startswith('magic_') and \
140 140 callable(self.__class__.__dict__[fn])
141 141 magics = filter(class_magic,Magic.__dict__.keys()) + \
142 142 filter(inst_magic,self.__dict__.keys()) + \
143 143 filter(inst_bound_magic,self.__class__.__dict__.keys())
144 144 out = []
145 145 for fn in set(magics):
146 146 out.append(fn.replace('magic_','',1))
147 147 out.sort()
148 148 return out
149 149
150 150 def extract_input_slices(self,slices,raw=False):
151 151 """Return as a string a set of input history slices.
152 152
153 153 Inputs:
154 154
155 155 - slices: the set of slices is given as a list of strings (like
156 156 ['1','4:8','9'], since this function is for use by magic functions
157 157 which get their arguments as strings.
158 158
159 159 Optional inputs:
160 160
161 161 - raw(False): by default, the processed input is used. If this is
162 162 true, the raw input history is used instead.
163 163
164 164 Note that slices can be called with two notations:
165 165
166 166 N:M -> standard python form, means including items N...(M-1).
167 167
168 168 N-M -> include items N..M (closed endpoint)."""
169 169
170 170 if raw:
171 171 hist = self.shell.input_hist_raw
172 172 else:
173 173 hist = self.shell.input_hist
174 174
175 175 cmds = []
176 176 for chunk in slices:
177 177 if ':' in chunk:
178 178 ini,fin = map(int,chunk.split(':'))
179 179 elif '-' in chunk:
180 180 ini,fin = map(int,chunk.split('-'))
181 181 fin += 1
182 182 else:
183 183 ini = int(chunk)
184 184 fin = ini+1
185 185 cmds.append(hist[ini:fin])
186 186 return cmds
187 187
188 188 def _ofind(self, oname, namespaces=None):
189 189 """Find an object in the available namespaces.
190 190
191 191 self._ofind(oname) -> dict with keys: found,obj,ospace,ismagic
192 192
193 193 Has special code to detect magic functions.
194 194 """
195 195
196 196 oname = oname.strip()
197 197
198 198 alias_ns = None
199 199 if namespaces is None:
200 200 # Namespaces to search in:
201 201 # Put them in a list. The order is important so that we
202 202 # find things in the same order that Python finds them.
203 203 namespaces = [ ('Interactive', self.shell.user_ns),
204 204 ('IPython internal', self.shell.internal_ns),
205 205 ('Python builtin', __builtin__.__dict__),
206 206 ('Alias', self.shell.alias_table),
207 207 ]
208 208 alias_ns = self.shell.alias_table
209 209
210 210 # initialize results to 'null'
211 211 found = 0; obj = None; ospace = None; ds = None;
212 212 ismagic = 0; isalias = 0; parent = None
213 213
214 214 # Look for the given name by splitting it in parts. If the head is
215 215 # found, then we look for all the remaining parts as members, and only
216 216 # declare success if we can find them all.
217 217 oname_parts = oname.split('.')
218 218 oname_head, oname_rest = oname_parts[0],oname_parts[1:]
219 219 for nsname,ns in namespaces:
220 220 try:
221 221 obj = ns[oname_head]
222 222 except KeyError:
223 223 continue
224 224 else:
225 225 #print 'oname_rest:', oname_rest # dbg
226 226 for part in oname_rest:
227 227 try:
228 228 parent = obj
229 229 obj = getattr(obj,part)
230 230 except:
231 231 # Blanket except b/c some badly implemented objects
232 232 # allow __getattr__ to raise exceptions other than
233 233 # AttributeError, which then crashes IPython.
234 234 break
235 235 else:
236 236 # If we finish the for loop (no break), we got all members
237 237 found = 1
238 238 ospace = nsname
239 239 if ns == alias_ns:
240 240 isalias = 1
241 241 break # namespace loop
242 242
243 243 # Try to see if it's magic
244 244 if not found:
245 245 if oname.startswith(self.shell.ESC_MAGIC):
246 246 oname = oname[1:]
247 247 obj = getattr(self,'magic_'+oname,None)
248 248 if obj is not None:
249 249 found = 1
250 250 ospace = 'IPython internal'
251 251 ismagic = 1
252 252
253 253 # Last try: special-case some literals like '', [], {}, etc:
254 254 if not found and oname_head in ["''",'""','[]','{}','()']:
255 255 obj = eval(oname_head)
256 256 found = 1
257 257 ospace = 'Interactive'
258 258
259 259 return {'found':found, 'obj':obj, 'namespace':ospace,
260 260 'ismagic':ismagic, 'isalias':isalias, 'parent':parent}
261 261
262 262 def arg_err(self,func):
263 263 """Print docstring if incorrect arguments were passed"""
264 264 print 'Error in arguments:'
265 265 print OInspect.getdoc(func)
266 266
267 267 def format_latex(self,strng):
268 268 """Format a string for latex inclusion."""
269 269
270 270 # Characters that need to be escaped for latex:
271 271 escape_re = re.compile(r'(%|_|\$|#|&)',re.MULTILINE)
272 272 # Magic command names as headers:
273 273 cmd_name_re = re.compile(r'^(%s.*?):' % self.shell.ESC_MAGIC,
274 274 re.MULTILINE)
275 275 # Magic commands
276 276 cmd_re = re.compile(r'(?P<cmd>%s.+?\b)(?!\}\}:)' % self.shell.ESC_MAGIC,
277 277 re.MULTILINE)
278 278 # Paragraph continue
279 279 par_re = re.compile(r'\\$',re.MULTILINE)
280 280
281 281 # The "\n" symbol
282 282 newline_re = re.compile(r'\\n')
283 283
284 284 # Now build the string for output:
285 285 #strng = cmd_name_re.sub(r'\n\\texttt{\\textsl{\\large \1}}:',strng)
286 286 strng = cmd_name_re.sub(r'\n\\bigskip\n\\texttt{\\textbf{ \1}}:',
287 287 strng)
288 288 strng = cmd_re.sub(r'\\texttt{\g<cmd>}',strng)
289 289 strng = par_re.sub(r'\\\\',strng)
290 290 strng = escape_re.sub(r'\\\1',strng)
291 291 strng = newline_re.sub(r'\\textbackslash{}n',strng)
292 292 return strng
293 293
294 294 def format_screen(self,strng):
295 295 """Format a string for screen printing.
296 296
297 297 This removes some latex-type format codes."""
298 298 # Paragraph continue
299 299 par_re = re.compile(r'\\$',re.MULTILINE)
300 300 strng = par_re.sub('',strng)
301 301 return strng
302 302
303 303 def parse_options(self,arg_str,opt_str,*long_opts,**kw):
304 304 """Parse options passed to an argument string.
305 305
306 306 The interface is similar to that of getopt(), but it returns back a
307 307 Struct with the options as keys and the stripped argument string still
308 308 as a string.
309 309
310 310 arg_str is quoted as a true sys.argv vector by using shlex.split.
311 311 This allows us to easily expand variables, glob files, quote
312 312 arguments, etc.
313 313
314 314 Options:
315 315 -mode: default 'string'. If given as 'list', the argument string is
316 316 returned as a list (split on whitespace) instead of a string.
317 317
318 318 -list_all: put all option values in lists. Normally only options
319 319 appearing more than once are put in a list.
320 320
321 321 -posix (True): whether to split the input line in POSIX mode or not,
322 322 as per the conventions outlined in the shlex module from the
323 323 standard library."""
324 324
325 325 # inject default options at the beginning of the input line
326 326 caller = sys._getframe(1).f_code.co_name.replace('magic_','')
327 327 arg_str = '%s %s' % (self.options_table.get(caller,''),arg_str)
328 328
329 329 mode = kw.get('mode','string')
330 330 if mode not in ['string','list']:
331 331 raise ValueError,'incorrect mode given: %s' % mode
332 332 # Get options
333 333 list_all = kw.get('list_all',0)
334 334 posix = kw.get('posix',True)
335 335
336 336 # Check if we have more than one argument to warrant extra processing:
337 337 odict = {} # Dictionary with options
338 338 args = arg_str.split()
339 339 if len(args) >= 1:
340 340 # If the list of inputs only has 0 or 1 thing in it, there's no
341 341 # need to look for options
342 342 argv = arg_split(arg_str,posix)
343 343 # Do regular option processing
344 344 try:
345 345 opts,args = getopt(argv,opt_str,*long_opts)
346 346 except GetoptError,e:
347 347 raise UsageError('%s ( allowed: "%s" %s)' % (e.msg,opt_str,
348 348 " ".join(long_opts)))
349 349 for o,a in opts:
350 350 if o.startswith('--'):
351 351 o = o[2:]
352 352 else:
353 353 o = o[1:]
354 354 try:
355 355 odict[o].append(a)
356 356 except AttributeError:
357 357 odict[o] = [odict[o],a]
358 358 except KeyError:
359 359 if list_all:
360 360 odict[o] = [a]
361 361 else:
362 362 odict[o] = a
363 363
364 364 # Prepare opts,args for return
365 365 opts = Struct(odict)
366 366 if mode == 'string':
367 367 args = ' '.join(args)
368 368
369 369 return opts,args
370 370
371 371 #......................................................................
372 372 # And now the actual magic functions
373 373
374 374 # Functions for IPython shell work (vars,funcs, config, etc)
375 375 def magic_lsmagic(self, parameter_s = ''):
376 376 """List currently available magic functions."""
377 377 mesc = self.shell.ESC_MAGIC
378 378 print 'Available magic functions:\n'+mesc+\
379 379 (' '+mesc).join(self.lsmagic())
380 380 print '\n' + Magic.auto_status[self.shell.rc.automagic]
381 381 return None
382 382
383 383 def magic_magic(self, parameter_s = ''):
384 384 """Print information about the magic function system.
385 385
386 386 Supported formats: -latex, -brief, -rest
387 387 """
388 388
389 389 mode = ''
390 390 try:
391 391 if parameter_s.split()[0] == '-latex':
392 392 mode = 'latex'
393 393 if parameter_s.split()[0] == '-brief':
394 394 mode = 'brief'
395 395 if parameter_s.split()[0] == '-rest':
396 396 mode = 'rest'
397 397 rest_docs = []
398 398 except:
399 399 pass
400 400
401 401 magic_docs = []
402 402 for fname in self.lsmagic():
403 403 mname = 'magic_' + fname
404 404 for space in (Magic,self,self.__class__):
405 405 try:
406 406 fn = space.__dict__[mname]
407 407 except KeyError:
408 408 pass
409 409 else:
410 410 break
411 411 if mode == 'brief':
412 412 # only first line
413 413 if fn.__doc__:
414 414 fndoc = fn.__doc__.split('\n',1)[0]
415 415 else:
416 416 fndoc = 'No documentation'
417 417 else:
418 418 if fn.__doc__:
419 419 fndoc = fn.__doc__.rstrip()
420 420 else:
421 421 fndoc = 'No documentation'
422 422
423 423
424 424 if mode == 'rest':
425 425 rest_docs.append('**%s%s**::\n\n\t%s\n\n' %(self.shell.ESC_MAGIC,
426 426 fname,fndoc))
427 427
428 428 else:
429 429 magic_docs.append('%s%s:\n\t%s\n' %(self.shell.ESC_MAGIC,
430 430 fname,fndoc))
431 431
432 432 magic_docs = ''.join(magic_docs)
433 433
434 434 if mode == 'rest':
435 435 return "".join(rest_docs)
436 436
437 437 if mode == 'latex':
438 438 print self.format_latex(magic_docs)
439 439 return
440 440 else:
441 441 magic_docs = self.format_screen(magic_docs)
442 442 if mode == 'brief':
443 443 return magic_docs
444 444
445 445 outmsg = """
446 446 IPython's 'magic' functions
447 447 ===========================
448 448
449 449 The magic function system provides a series of functions which allow you to
450 450 control the behavior of IPython itself, plus a lot of system-type
451 451 features. All these functions are prefixed with a % character, but parameters
452 452 are given without parentheses or quotes.
453 453
454 454 NOTE: If you have 'automagic' enabled (via the command line option or with the
455 455 %automagic function), you don't need to type in the % explicitly. By default,
456 456 IPython ships with automagic on, so you should only rarely need the % escape.
457 457
458 458 Example: typing '%cd mydir' (without the quotes) changes you working directory
459 459 to 'mydir', if it exists.
460 460
461 461 You can define your own magic functions to extend the system. See the supplied
462 462 ipythonrc and example-magic.py files for details (in your ipython
463 463 configuration directory, typically $HOME/.ipython/).
464 464
465 465 You can also define your own aliased names for magic functions. In your
466 466 ipythonrc file, placing a line like:
467 467
468 468 execute __IPYTHON__.magic_pf = __IPYTHON__.magic_profile
469 469
470 470 will define %pf as a new name for %profile.
471 471
472 472 You can also call magics in code using the ipmagic() function, which IPython
473 473 automatically adds to the builtin namespace. Type 'ipmagic?' for details.
474 474
475 475 For a list of the available magic functions, use %lsmagic. For a description
476 476 of any of them, type %magic_name?, e.g. '%cd?'.
477 477
478 478 Currently the magic system has the following functions:\n"""
479 479
480 480 mesc = self.shell.ESC_MAGIC
481 481 outmsg = ("%s\n%s\n\nSummary of magic functions (from %slsmagic):"
482 482 "\n\n%s%s\n\n%s" % (outmsg,
483 483 magic_docs,mesc,mesc,
484 484 (' '+mesc).join(self.lsmagic()),
485 485 Magic.auto_status[self.shell.rc.automagic] ) )
486 486
487 487 page(outmsg,screen_lines=self.shell.rc.screen_length)
488 488
489 489
490 490 def magic_autoindent(self, parameter_s = ''):
491 491 """Toggle autoindent on/off (if available)."""
492 492
493 493 self.shell.set_autoindent()
494 494 print "Automatic indentation is:",['OFF','ON'][self.shell.autoindent]
495 495
496 496
497 497 def magic_automagic(self, parameter_s = ''):
498 498 """Make magic functions callable without having to type the initial %.
499 499
500 500 Without argumentsl toggles on/off (when off, you must call it as
501 501 %automagic, of course). With arguments it sets the value, and you can
502 502 use any of (case insensitive):
503 503
504 504 - on,1,True: to activate
505 505
506 506 - off,0,False: to deactivate.
507 507
508 508 Note that magic functions have lowest priority, so if there's a
509 509 variable whose name collides with that of a magic fn, automagic won't
510 510 work for that function (you get the variable instead). However, if you
511 511 delete the variable (del var), the previously shadowed magic function
512 512 becomes visible to automagic again."""
513 513
514 514 rc = self.shell.rc
515 515 arg = parameter_s.lower()
516 516 if parameter_s in ('on','1','true'):
517 517 rc.automagic = True
518 518 elif parameter_s in ('off','0','false'):
519 519 rc.automagic = False
520 520 else:
521 521 rc.automagic = not rc.automagic
522 522 print '\n' + Magic.auto_status[rc.automagic]
523 523
524 524 @testdec.skip_doctest
525 525 def magic_autocall(self, parameter_s = ''):
526 526 """Make functions callable without having to type parentheses.
527 527
528 528 Usage:
529 529
530 530 %autocall [mode]
531 531
532 532 The mode can be one of: 0->Off, 1->Smart, 2->Full. If not given, the
533 533 value is toggled on and off (remembering the previous state).
534 534
535 535 In more detail, these values mean:
536 536
537 537 0 -> fully disabled
538 538
539 539 1 -> active, but do not apply if there are no arguments on the line.
540 540
541 541 In this mode, you get:
542 542
543 543 In [1]: callable
544 544 Out[1]: <built-in function callable>
545 545
546 546 In [2]: callable 'hello'
547 547 ------> callable('hello')
548 548 Out[2]: False
549 549
550 550 2 -> Active always. Even if no arguments are present, the callable
551 551 object is called:
552 552
553 553 In [2]: float
554 554 ------> float()
555 555 Out[2]: 0.0
556 556
557 557 Note that even with autocall off, you can still use '/' at the start of
558 558 a line to treat the first argument on the command line as a function
559 559 and add parentheses to it:
560 560
561 561 In [8]: /str 43
562 562 ------> str(43)
563 563 Out[8]: '43'
564 564
565 565 # all-random (note for auto-testing)
566 566 """
567 567
568 568 rc = self.shell.rc
569 569
570 570 if parameter_s:
571 571 arg = int(parameter_s)
572 572 else:
573 573 arg = 'toggle'
574 574
575 575 if not arg in (0,1,2,'toggle'):
576 576 error('Valid modes: (0->Off, 1->Smart, 2->Full')
577 577 return
578 578
579 579 if arg in (0,1,2):
580 580 rc.autocall = arg
581 581 else: # toggle
582 582 if rc.autocall:
583 583 self._magic_state.autocall_save = rc.autocall
584 584 rc.autocall = 0
585 585 else:
586 586 try:
587 587 rc.autocall = self._magic_state.autocall_save
588 588 except AttributeError:
589 589 rc.autocall = self._magic_state.autocall_save = 1
590 590
591 591 print "Automatic calling is:",['OFF','Smart','Full'][rc.autocall]
592 592
593 593 def magic_system_verbose(self, parameter_s = ''):
594 594 """Set verbose printing of system calls.
595 595
596 596 If called without an argument, act as a toggle"""
597 597
598 598 if parameter_s:
599 599 val = bool(eval(parameter_s))
600 600 else:
601 601 val = None
602 602
603 603 self.shell.rc_set_toggle('system_verbose',val)
604 604 print "System verbose printing is:",\
605 605 ['OFF','ON'][self.shell.rc.system_verbose]
606 606
607 607
608 608 def magic_page(self, parameter_s=''):
609 609 """Pretty print the object and display it through a pager.
610 610
611 611 %page [options] OBJECT
612 612
613 613 If no object is given, use _ (last output).
614 614
615 615 Options:
616 616
617 617 -r: page str(object), don't pretty-print it."""
618 618
619 619 # After a function contributed by Olivier Aubert, slightly modified.
620 620
621 621 # Process options/args
622 622 opts,args = self.parse_options(parameter_s,'r')
623 623 raw = 'r' in opts
624 624
625 625 oname = args and args or '_'
626 626 info = self._ofind(oname)
627 627 if info['found']:
628 628 txt = (raw and str or pformat)( info['obj'] )
629 629 page(txt)
630 630 else:
631 631 print 'Object `%s` not found' % oname
632 632
633 633 def magic_profile(self, parameter_s=''):
634 634 """Print your currently active IPyhton profile."""
635 635 if self.shell.rc.profile:
636 636 printpl('Current IPython profile: $self.shell.rc.profile.')
637 637 else:
638 638 print 'No profile active.'
639 639
640 640 def magic_pinfo(self, parameter_s='', namespaces=None):
641 641 """Provide detailed information about an object.
642 642
643 643 '%pinfo object' is just a synonym for object? or ?object."""
644 644
645 645 #print 'pinfo par: <%s>' % parameter_s # dbg
646 646
647 647
648 648 # detail_level: 0 -> obj? , 1 -> obj??
649 649 detail_level = 0
650 650 # We need to detect if we got called as 'pinfo pinfo foo', which can
651 651 # happen if the user types 'pinfo foo?' at the cmd line.
652 652 pinfo,qmark1,oname,qmark2 = \
653 653 re.match('(pinfo )?(\?*)(.*?)(\??$)',parameter_s).groups()
654 654 if pinfo or qmark1 or qmark2:
655 655 detail_level = 1
656 656 if "*" in oname:
657 657 self.magic_psearch(oname)
658 658 else:
659 659 self._inspect('pinfo', oname, detail_level=detail_level,
660 660 namespaces=namespaces)
661 661
662 662 def magic_pdef(self, parameter_s='', namespaces=None):
663 663 """Print the definition header for any callable object.
664 664
665 665 If the object is a class, print the constructor information."""
666 666 self._inspect('pdef',parameter_s, namespaces)
667 667
668 668 def magic_pdoc(self, parameter_s='', namespaces=None):
669 669 """Print the docstring for an object.
670 670
671 671 If the given object is a class, it will print both the class and the
672 672 constructor docstrings."""
673 673 self._inspect('pdoc',parameter_s, namespaces)
674 674
675 675 def magic_psource(self, parameter_s='', namespaces=None):
676 676 """Print (or run through pager) the source code for an object."""
677 677 self._inspect('psource',parameter_s, namespaces)
678 678
679 679 def magic_pfile(self, parameter_s=''):
680 680 """Print (or run through pager) the file where an object is defined.
681 681
682 682 The file opens at the line where the object definition begins. IPython
683 683 will honor the environment variable PAGER if set, and otherwise will
684 684 do its best to print the file in a convenient form.
685 685
686 686 If the given argument is not an object currently defined, IPython will
687 687 try to interpret it as a filename (automatically adding a .py extension
688 688 if needed). You can thus use %pfile as a syntax highlighting code
689 689 viewer."""
690 690
691 691 # first interpret argument as an object name
692 692 out = self._inspect('pfile',parameter_s)
693 693 # if not, try the input as a filename
694 694 if out == 'not found':
695 695 try:
696 696 filename = get_py_filename(parameter_s)
697 697 except IOError,msg:
698 698 print msg
699 699 return
700 700 page(self.shell.inspector.format(file(filename).read()))
701 701
702 702 def _inspect(self,meth,oname,namespaces=None,**kw):
703 703 """Generic interface to the inspector system.
704 704
705 705 This function is meant to be called by pdef, pdoc & friends."""
706 706
707 707 #oname = oname.strip()
708 708 #print '1- oname: <%r>' % oname # dbg
709 709 try:
710 710 oname = oname.strip().encode('ascii')
711 711 #print '2- oname: <%r>' % oname # dbg
712 712 except UnicodeEncodeError:
713 713 print 'Python identifiers can only contain ascii characters.'
714 714 return 'not found'
715 715
716 716 info = Struct(self._ofind(oname, namespaces))
717 717
718 718 if info.found:
719 719 try:
720 720 IPython.generics.inspect_object(info.obj)
721 721 return
722 722 except IPython.ipapi.TryNext:
723 723 pass
724 724 # Get the docstring of the class property if it exists.
725 725 path = oname.split('.')
726 726 root = '.'.join(path[:-1])
727 727 if info.parent is not None:
728 728 try:
729 729 target = getattr(info.parent, '__class__')
730 730 # The object belongs to a class instance.
731 731 try:
732 732 target = getattr(target, path[-1])
733 733 # The class defines the object.
734 734 if isinstance(target, property):
735 735 oname = root + '.__class__.' + path[-1]
736 736 info = Struct(self._ofind(oname))
737 737 except AttributeError: pass
738 738 except AttributeError: pass
739 739
740 740 pmethod = getattr(self.shell.inspector,meth)
741 741 formatter = info.ismagic and self.format_screen or None
742 742 if meth == 'pdoc':
743 743 pmethod(info.obj,oname,formatter)
744 744 elif meth == 'pinfo':
745 745 pmethod(info.obj,oname,formatter,info,**kw)
746 746 else:
747 747 pmethod(info.obj,oname)
748 748 else:
749 749 print 'Object `%s` not found.' % oname
750 750 return 'not found' # so callers can take other action
751 751
752 752 def magic_psearch(self, parameter_s=''):
753 753 """Search for object in namespaces by wildcard.
754 754
755 755 %psearch [options] PATTERN [OBJECT TYPE]
756 756
757 757 Note: ? can be used as a synonym for %psearch, at the beginning or at
758 758 the end: both a*? and ?a* are equivalent to '%psearch a*'. Still, the
759 759 rest of the command line must be unchanged (options come first), so
760 760 for example the following forms are equivalent
761 761
762 762 %psearch -i a* function
763 763 -i a* function?
764 764 ?-i a* function
765 765
766 766 Arguments:
767 767
768 768 PATTERN
769 769
770 770 where PATTERN is a string containing * as a wildcard similar to its
771 771 use in a shell. The pattern is matched in all namespaces on the
772 772 search path. By default objects starting with a single _ are not
773 773 matched, many IPython generated objects have a single
774 774 underscore. The default is case insensitive matching. Matching is
775 775 also done on the attributes of objects and not only on the objects
776 776 in a module.
777 777
778 778 [OBJECT TYPE]
779 779
780 780 Is the name of a python type from the types module. The name is
781 781 given in lowercase without the ending type, ex. StringType is
782 782 written string. By adding a type here only objects matching the
783 783 given type are matched. Using all here makes the pattern match all
784 784 types (this is the default).
785 785
786 786 Options:
787 787
788 788 -a: makes the pattern match even objects whose names start with a
789 789 single underscore. These names are normally ommitted from the
790 790 search.
791 791
792 792 -i/-c: make the pattern case insensitive/sensitive. If neither of
793 793 these options is given, the default is read from your ipythonrc
794 794 file. The option name which sets this value is
795 795 'wildcards_case_sensitive'. If this option is not specified in your
796 796 ipythonrc file, IPython's internal default is to do a case sensitive
797 797 search.
798 798
799 799 -e/-s NAMESPACE: exclude/search a given namespace. The pattern you
800 800 specifiy can be searched in any of the following namespaces:
801 801 'builtin', 'user', 'user_global','internal', 'alias', where
802 802 'builtin' and 'user' are the search defaults. Note that you should
803 803 not use quotes when specifying namespaces.
804 804
805 805 'Builtin' contains the python module builtin, 'user' contains all
806 806 user data, 'alias' only contain the shell aliases and no python
807 807 objects, 'internal' contains objects used by IPython. The
808 808 'user_global' namespace is only used by embedded IPython instances,
809 809 and it contains module-level globals. You can add namespaces to the
810 810 search with -s or exclude them with -e (these options can be given
811 811 more than once).
812 812
813 813 Examples:
814 814
815 815 %psearch a* -> objects beginning with an a
816 816 %psearch -e builtin a* -> objects NOT in the builtin space starting in a
817 817 %psearch a* function -> all functions beginning with an a
818 818 %psearch re.e* -> objects beginning with an e in module re
819 819 %psearch r*.e* -> objects that start with e in modules starting in r
820 820 %psearch r*.* string -> all strings in modules beginning with r
821 821
822 822 Case sensitve search:
823 823
824 824 %psearch -c a* list all object beginning with lower case a
825 825
826 826 Show objects beginning with a single _:
827 827
828 828 %psearch -a _* list objects beginning with a single underscore"""
829 829 try:
830 830 parameter_s = parameter_s.encode('ascii')
831 831 except UnicodeEncodeError:
832 832 print 'Python identifiers can only contain ascii characters.'
833 833 return
834 834
835 835 # default namespaces to be searched
836 836 def_search = ['user','builtin']
837 837
838 838 # Process options/args
839 839 opts,args = self.parse_options(parameter_s,'cias:e:',list_all=True)
840 840 opt = opts.get
841 841 shell = self.shell
842 842 psearch = shell.inspector.psearch
843 843
844 844 # select case options
845 845 if opts.has_key('i'):
846 846 ignore_case = True
847 847 elif opts.has_key('c'):
848 848 ignore_case = False
849 849 else:
850 850 ignore_case = not shell.rc.wildcards_case_sensitive
851 851
852 852 # Build list of namespaces to search from user options
853 853 def_search.extend(opt('s',[]))
854 854 ns_exclude = ns_exclude=opt('e',[])
855 855 ns_search = [nm for nm in def_search if nm not in ns_exclude]
856 856
857 857 # Call the actual search
858 858 try:
859 859 psearch(args,shell.ns_table,ns_search,
860 860 show_all=opt('a'),ignore_case=ignore_case)
861 861 except:
862 862 shell.showtraceback()
863 863
864 864 def magic_who_ls(self, parameter_s=''):
865 865 """Return a sorted list of all interactive variables.
866 866
867 867 If arguments are given, only variables of types matching these
868 868 arguments are returned."""
869 869
870 870 user_ns = self.shell.user_ns
871 871 internal_ns = self.shell.internal_ns
872 872 user_config_ns = self.shell.user_config_ns
873 873 out = []
874 874 typelist = parameter_s.split()
875 875
876 876 for i in user_ns:
877 877 if not (i.startswith('_') or i.startswith('_i')) \
878 878 and not (i in internal_ns or i in user_config_ns):
879 879 if typelist:
880 880 if type(user_ns[i]).__name__ in typelist:
881 881 out.append(i)
882 882 else:
883 883 out.append(i)
884 884 out.sort()
885 885 return out
886 886
887 887 def magic_who(self, parameter_s=''):
888 888 """Print all interactive variables, with some minimal formatting.
889 889
890 890 If any arguments are given, only variables whose type matches one of
891 891 these are printed. For example:
892 892
893 893 %who function str
894 894
895 895 will only list functions and strings, excluding all other types of
896 896 variables. To find the proper type names, simply use type(var) at a
897 897 command line to see how python prints type names. For example:
898 898
899 899 In [1]: type('hello')\\
900 900 Out[1]: <type 'str'>
901 901
902 902 indicates that the type name for strings is 'str'.
903 903
904 904 %who always excludes executed names loaded through your configuration
905 905 file and things which are internal to IPython.
906 906
907 907 This is deliberate, as typically you may load many modules and the
908 908 purpose of %who is to show you only what you've manually defined."""
909 909
910 910 varlist = self.magic_who_ls(parameter_s)
911 911 if not varlist:
912 912 if parameter_s:
913 913 print 'No variables match your requested type.'
914 914 else:
915 915 print 'Interactive namespace is empty.'
916 916 return
917 917
918 918 # if we have variables, move on...
919 919 count = 0
920 920 for i in varlist:
921 921 print i+'\t',
922 922 count += 1
923 923 if count > 8:
924 924 count = 0
925 925 print
926 926 print
927 927
928 928 def magic_whos(self, parameter_s=''):
929 929 """Like %who, but gives some extra information about each variable.
930 930
931 931 The same type filtering of %who can be applied here.
932 932
933 933 For all variables, the type is printed. Additionally it prints:
934 934
935 935 - For {},[],(): their length.
936 936
937 937 - For numpy and Numeric arrays, a summary with shape, number of
938 938 elements, typecode and size in memory.
939 939
940 940 - Everything else: a string representation, snipping their middle if
941 941 too long."""
942 942
943 943 varnames = self.magic_who_ls(parameter_s)
944 944 if not varnames:
945 945 if parameter_s:
946 946 print 'No variables match your requested type.'
947 947 else:
948 948 print 'Interactive namespace is empty.'
949 949 return
950 950
951 951 # if we have variables, move on...
952 952
953 953 # for these types, show len() instead of data:
954 954 seq_types = [types.DictType,types.ListType,types.TupleType]
955 955
956 956 # for numpy/Numeric arrays, display summary info
957 957 try:
958 958 import numpy
959 959 except ImportError:
960 960 ndarray_type = None
961 961 else:
962 962 ndarray_type = numpy.ndarray.__name__
963 963 try:
964 964 import Numeric
965 965 except ImportError:
966 966 array_type = None
967 967 else:
968 968 array_type = Numeric.ArrayType.__name__
969 969
970 970 # Find all variable names and types so we can figure out column sizes
971 971 def get_vars(i):
972 972 return self.shell.user_ns[i]
973 973
974 974 # some types are well known and can be shorter
975 975 abbrevs = {'IPython.macro.Macro' : 'Macro'}
976 976 def type_name(v):
977 977 tn = type(v).__name__
978 978 return abbrevs.get(tn,tn)
979 979
980 980 varlist = map(get_vars,varnames)
981 981
982 982 typelist = []
983 983 for vv in varlist:
984 984 tt = type_name(vv)
985 985
986 986 if tt=='instance':
987 987 typelist.append( abbrevs.get(str(vv.__class__),
988 988 str(vv.__class__)))
989 989 else:
990 990 typelist.append(tt)
991 991
992 992 # column labels and # of spaces as separator
993 993 varlabel = 'Variable'
994 994 typelabel = 'Type'
995 995 datalabel = 'Data/Info'
996 996 colsep = 3
997 997 # variable format strings
998 998 vformat = "$vname.ljust(varwidth)$vtype.ljust(typewidth)"
999 999 vfmt_short = '$vstr[:25]<...>$vstr[-25:]'
1000 1000 aformat = "%s: %s elems, type `%s`, %s bytes"
1001 1001 # find the size of the columns to format the output nicely
1002 1002 varwidth = max(max(map(len,varnames)), len(varlabel)) + colsep
1003 1003 typewidth = max(max(map(len,typelist)), len(typelabel)) + colsep
1004 1004 # table header
1005 1005 print varlabel.ljust(varwidth) + typelabel.ljust(typewidth) + \
1006 1006 ' '+datalabel+'\n' + '-'*(varwidth+typewidth+len(datalabel)+1)
1007 1007 # and the table itself
1008 1008 kb = 1024
1009 1009 Mb = 1048576 # kb**2
1010 1010 for vname,var,vtype in zip(varnames,varlist,typelist):
1011 1011 print itpl(vformat),
1012 1012 if vtype in seq_types:
1013 1013 print len(var)
1014 1014 elif vtype in [array_type,ndarray_type]:
1015 1015 vshape = str(var.shape).replace(',','').replace(' ','x')[1:-1]
1016 1016 if vtype==ndarray_type:
1017 1017 # numpy
1018 1018 vsize = var.size
1019 1019 vbytes = vsize*var.itemsize
1020 1020 vdtype = var.dtype
1021 1021 else:
1022 1022 # Numeric
1023 1023 vsize = Numeric.size(var)
1024 1024 vbytes = vsize*var.itemsize()
1025 1025 vdtype = var.typecode()
1026 1026
1027 1027 if vbytes < 100000:
1028 1028 print aformat % (vshape,vsize,vdtype,vbytes)
1029 1029 else:
1030 1030 print aformat % (vshape,vsize,vdtype,vbytes),
1031 1031 if vbytes < Mb:
1032 1032 print '(%s kb)' % (vbytes/kb,)
1033 1033 else:
1034 1034 print '(%s Mb)' % (vbytes/Mb,)
1035 1035 else:
1036 1036 try:
1037 1037 vstr = str(var)
1038 1038 except UnicodeEncodeError:
1039 1039 vstr = unicode(var).encode(sys.getdefaultencoding(),
1040 1040 'backslashreplace')
1041 1041 vstr = vstr.replace('\n','\\n')
1042 1042 if len(vstr) < 50:
1043 1043 print vstr
1044 1044 else:
1045 1045 printpl(vfmt_short)
1046 1046
1047 1047 def magic_reset(self, parameter_s=''):
1048 1048 """Resets the namespace by removing all names defined by the user.
1049 1049
1050 1050 Input/Output history are left around in case you need them.
1051 1051
1052 1052 Parameters
1053 1053 ----------
1054 1054 -y : force reset without asking for confirmation.
1055 1055
1056 1056 Examples
1057 1057 --------
1058 1058 In [6]: a = 1
1059 1059
1060 1060 In [7]: a
1061 1061 Out[7]: 1
1062 1062
1063 1063 In [8]: 'a' in _ip.user_ns
1064 1064 Out[8]: True
1065 1065
1066 1066 In [9]: %reset -f
1067 1067
1068 1068 In [10]: 'a' in _ip.user_ns
1069 1069 Out[10]: False
1070 1070 """
1071 1071
1072 1072 if parameter_s == '-f':
1073 1073 ans = True
1074 1074 else:
1075 1075 ans = self.shell.ask_yes_no(
1076 1076 "Once deleted, variables cannot be recovered. Proceed (y/[n])? ")
1077 1077 if not ans:
1078 1078 print 'Nothing done.'
1079 1079 return
1080 1080 user_ns = self.shell.user_ns
1081 1081 for i in self.magic_who_ls():
1082 1082 del(user_ns[i])
1083 1083
1084 1084 # Also flush the private list of module references kept for script
1085 1085 # execution protection
1086 1086 self.shell.clear_main_mod_cache()
1087 1087
1088 1088 def magic_logstart(self,parameter_s=''):
1089 1089 """Start logging anywhere in a session.
1090 1090
1091 1091 %logstart [-o|-r|-t] [log_name [log_mode]]
1092 1092
1093 1093 If no name is given, it defaults to a file named 'ipython_log.py' in your
1094 1094 current directory, in 'rotate' mode (see below).
1095 1095
1096 1096 '%logstart name' saves to file 'name' in 'backup' mode. It saves your
1097 1097 history up to that point and then continues logging.
1098 1098
1099 1099 %logstart takes a second optional parameter: logging mode. This can be one
1100 1100 of (note that the modes are given unquoted):\\
1101 1101 append: well, that says it.\\
1102 1102 backup: rename (if exists) to name~ and start name.\\
1103 1103 global: single logfile in your home dir, appended to.\\
1104 1104 over : overwrite existing log.\\
1105 1105 rotate: create rotating logs name.1~, name.2~, etc.
1106 1106
1107 1107 Options:
1108 1108
1109 1109 -o: log also IPython's output. In this mode, all commands which
1110 1110 generate an Out[NN] prompt are recorded to the logfile, right after
1111 1111 their corresponding input line. The output lines are always
1112 1112 prepended with a '#[Out]# ' marker, so that the log remains valid
1113 1113 Python code.
1114 1114
1115 1115 Since this marker is always the same, filtering only the output from
1116 1116 a log is very easy, using for example a simple awk call:
1117 1117
1118 1118 awk -F'#\\[Out\\]# ' '{if($2) {print $2}}' ipython_log.py
1119 1119
1120 1120 -r: log 'raw' input. Normally, IPython's logs contain the processed
1121 1121 input, so that user lines are logged in their final form, converted
1122 1122 into valid Python. For example, %Exit is logged as
1123 1123 '_ip.magic("Exit"). If the -r flag is given, all input is logged
1124 1124 exactly as typed, with no transformations applied.
1125 1125
1126 1126 -t: put timestamps before each input line logged (these are put in
1127 1127 comments)."""
1128 1128
1129 1129 opts,par = self.parse_options(parameter_s,'ort')
1130 1130 log_output = 'o' in opts
1131 1131 log_raw_input = 'r' in opts
1132 1132 timestamp = 't' in opts
1133 1133
1134 1134 rc = self.shell.rc
1135 1135 logger = self.shell.logger
1136 1136
1137 1137 # if no args are given, the defaults set in the logger constructor by
1138 1138 # ipytohn remain valid
1139 1139 if par:
1140 1140 try:
1141 1141 logfname,logmode = par.split()
1142 1142 except:
1143 1143 logfname = par
1144 1144 logmode = 'backup'
1145 1145 else:
1146 1146 logfname = logger.logfname
1147 1147 logmode = logger.logmode
1148 1148 # put logfname into rc struct as if it had been called on the command
1149 1149 # line, so it ends up saved in the log header Save it in case we need
1150 1150 # to restore it...
1151 1151 old_logfile = rc.opts.get('logfile','')
1152 1152 if logfname:
1153 1153 logfname = os.path.expanduser(logfname)
1154 1154 rc.opts.logfile = logfname
1155 1155 loghead = self.shell.loghead_tpl % (rc.opts,rc.args)
1156 1156 try:
1157 1157 started = logger.logstart(logfname,loghead,logmode,
1158 1158 log_output,timestamp,log_raw_input)
1159 1159 except:
1160 1160 rc.opts.logfile = old_logfile
1161 1161 warn("Couldn't start log: %s" % sys.exc_info()[1])
1162 1162 else:
1163 1163 # log input history up to this point, optionally interleaving
1164 1164 # output if requested
1165 1165
1166 1166 if timestamp:
1167 1167 # disable timestamping for the previous history, since we've
1168 1168 # lost those already (no time machine here).
1169 1169 logger.timestamp = False
1170 1170
1171 1171 if log_raw_input:
1172 1172 input_hist = self.shell.input_hist_raw
1173 1173 else:
1174 1174 input_hist = self.shell.input_hist
1175 1175
1176 1176 if log_output:
1177 1177 log_write = logger.log_write
1178 1178 output_hist = self.shell.output_hist
1179 1179 for n in range(1,len(input_hist)-1):
1180 1180 log_write(input_hist[n].rstrip())
1181 1181 if n in output_hist:
1182 1182 log_write(repr(output_hist[n]),'output')
1183 1183 else:
1184 1184 logger.log_write(input_hist[1:])
1185 1185 if timestamp:
1186 1186 # re-enable timestamping
1187 1187 logger.timestamp = True
1188 1188
1189 1189 print ('Activating auto-logging. '
1190 1190 'Current session state plus future input saved.')
1191 1191 logger.logstate()
1192 1192
1193 1193 def magic_logstop(self,parameter_s=''):
1194 1194 """Fully stop logging and close log file.
1195 1195
1196 1196 In order to start logging again, a new %logstart call needs to be made,
1197 1197 possibly (though not necessarily) with a new filename, mode and other
1198 1198 options."""
1199 1199 self.logger.logstop()
1200 1200
1201 1201 def magic_logoff(self,parameter_s=''):
1202 1202 """Temporarily stop logging.
1203 1203
1204 1204 You must have previously started logging."""
1205 1205 self.shell.logger.switch_log(0)
1206 1206
1207 1207 def magic_logon(self,parameter_s=''):
1208 1208 """Restart logging.
1209 1209
1210 1210 This function is for restarting logging which you've temporarily
1211 1211 stopped with %logoff. For starting logging for the first time, you
1212 1212 must use the %logstart function, which allows you to specify an
1213 1213 optional log filename."""
1214 1214
1215 1215 self.shell.logger.switch_log(1)
1216 1216
1217 1217 def magic_logstate(self,parameter_s=''):
1218 1218 """Print the status of the logging system."""
1219 1219
1220 1220 self.shell.logger.logstate()
1221 1221
1222 1222 def magic_pdb(self, parameter_s=''):
1223 1223 """Control the automatic calling of the pdb interactive debugger.
1224 1224
1225 1225 Call as '%pdb on', '%pdb 1', '%pdb off' or '%pdb 0'. If called without
1226 1226 argument it works as a toggle.
1227 1227
1228 1228 When an exception is triggered, IPython can optionally call the
1229 1229 interactive pdb debugger after the traceback printout. %pdb toggles
1230 1230 this feature on and off.
1231 1231
1232 1232 The initial state of this feature is set in your ipythonrc
1233 1233 configuration file (the variable is called 'pdb').
1234 1234
1235 1235 If you want to just activate the debugger AFTER an exception has fired,
1236 1236 without having to type '%pdb on' and rerunning your code, you can use
1237 1237 the %debug magic."""
1238 1238
1239 1239 par = parameter_s.strip().lower()
1240 1240
1241 1241 if par:
1242 1242 try:
1243 1243 new_pdb = {'off':0,'0':0,'on':1,'1':1}[par]
1244 1244 except KeyError:
1245 1245 print ('Incorrect argument. Use on/1, off/0, '
1246 1246 'or nothing for a toggle.')
1247 1247 return
1248 1248 else:
1249 1249 # toggle
1250 1250 new_pdb = not self.shell.call_pdb
1251 1251
1252 1252 # set on the shell
1253 1253 self.shell.call_pdb = new_pdb
1254 1254 print 'Automatic pdb calling has been turned',on_off(new_pdb)
1255 1255
1256 1256 def magic_debug(self, parameter_s=''):
1257 1257 """Activate the interactive debugger in post-mortem mode.
1258 1258
1259 1259 If an exception has just occurred, this lets you inspect its stack
1260 1260 frames interactively. Note that this will always work only on the last
1261 1261 traceback that occurred, so you must call this quickly after an
1262 1262 exception that you wish to inspect has fired, because if another one
1263 1263 occurs, it clobbers the previous one.
1264 1264
1265 1265 If you want IPython to automatically do this on every exception, see
1266 1266 the %pdb magic for more details.
1267 1267 """
1268 1268
1269 1269 self.shell.debugger(force=True)
1270 1270
1271 1271 @testdec.skip_doctest
1272 1272 def magic_prun(self, parameter_s ='',user_mode=1,
1273 1273 opts=None,arg_lst=None,prog_ns=None):
1274 1274
1275 1275 """Run a statement through the python code profiler.
1276 1276
1277 1277 Usage:
1278 1278 %prun [options] statement
1279 1279
1280 1280 The given statement (which doesn't require quote marks) is run via the
1281 1281 python profiler in a manner similar to the profile.run() function.
1282 1282 Namespaces are internally managed to work correctly; profile.run
1283 1283 cannot be used in IPython because it makes certain assumptions about
1284 1284 namespaces which do not hold under IPython.
1285 1285
1286 1286 Options:
1287 1287
1288 1288 -l <limit>: you can place restrictions on what or how much of the
1289 1289 profile gets printed. The limit value can be:
1290 1290
1291 1291 * A string: only information for function names containing this string
1292 1292 is printed.
1293 1293
1294 1294 * An integer: only these many lines are printed.
1295 1295
1296 1296 * A float (between 0 and 1): this fraction of the report is printed
1297 1297 (for example, use a limit of 0.4 to see the topmost 40% only).
1298 1298
1299 1299 You can combine several limits with repeated use of the option. For
1300 1300 example, '-l __init__ -l 5' will print only the topmost 5 lines of
1301 1301 information about class constructors.
1302 1302
1303 1303 -r: return the pstats.Stats object generated by the profiling. This
1304 1304 object has all the information about the profile in it, and you can
1305 1305 later use it for further analysis or in other functions.
1306 1306
1307 1307 -s <key>: sort profile by given key. You can provide more than one key
1308 1308 by using the option several times: '-s key1 -s key2 -s key3...'. The
1309 1309 default sorting key is 'time'.
1310 1310
1311 1311 The following is copied verbatim from the profile documentation
1312 1312 referenced below:
1313 1313
1314 1314 When more than one key is provided, additional keys are used as
1315 1315 secondary criteria when the there is equality in all keys selected
1316 1316 before them.
1317 1317
1318 1318 Abbreviations can be used for any key names, as long as the
1319 1319 abbreviation is unambiguous. The following are the keys currently
1320 1320 defined:
1321 1321
1322 1322 Valid Arg Meaning
1323 1323 "calls" call count
1324 1324 "cumulative" cumulative time
1325 1325 "file" file name
1326 1326 "module" file name
1327 1327 "pcalls" primitive call count
1328 1328 "line" line number
1329 1329 "name" function name
1330 1330 "nfl" name/file/line
1331 1331 "stdname" standard name
1332 1332 "time" internal time
1333 1333
1334 1334 Note that all sorts on statistics are in descending order (placing
1335 1335 most time consuming items first), where as name, file, and line number
1336 1336 searches are in ascending order (i.e., alphabetical). The subtle
1337 1337 distinction between "nfl" and "stdname" is that the standard name is a
1338 1338 sort of the name as printed, which means that the embedded line
1339 1339 numbers get compared in an odd way. For example, lines 3, 20, and 40
1340 1340 would (if the file names were the same) appear in the string order
1341 1341 "20" "3" and "40". In contrast, "nfl" does a numeric compare of the
1342 1342 line numbers. In fact, sort_stats("nfl") is the same as
1343 1343 sort_stats("name", "file", "line").
1344 1344
1345 1345 -T <filename>: save profile results as shown on screen to a text
1346 1346 file. The profile is still shown on screen.
1347 1347
1348 1348 -D <filename>: save (via dump_stats) profile statistics to given
1349 1349 filename. This data is in a format understod by the pstats module, and
1350 1350 is generated by a call to the dump_stats() method of profile
1351 1351 objects. The profile is still shown on screen.
1352 1352
1353 1353 If you want to run complete programs under the profiler's control, use
1354 1354 '%run -p [prof_opts] filename.py [args to program]' where prof_opts
1355 1355 contains profiler specific options as described here.
1356 1356
1357 1357 You can read the complete documentation for the profile module with::
1358 1358
1359 1359 In [1]: import profile; profile.help()
1360 1360 """
1361 1361
1362 1362 opts_def = Struct(D=[''],l=[],s=['time'],T=[''])
1363 1363 # protect user quote marks
1364 1364 parameter_s = parameter_s.replace('"',r'\"').replace("'",r"\'")
1365 1365
1366 1366 if user_mode: # regular user call
1367 1367 opts,arg_str = self.parse_options(parameter_s,'D:l:rs:T:',
1368 1368 list_all=1)
1369 1369 namespace = self.shell.user_ns
1370 1370 else: # called to run a program by %run -p
1371 1371 try:
1372 1372 filename = get_py_filename(arg_lst[0])
1373 1373 except IOError,msg:
1374 1374 error(msg)
1375 1375 return
1376 1376
1377 1377 arg_str = 'execfile(filename,prog_ns)'
1378 1378 namespace = locals()
1379 1379
1380 1380 opts.merge(opts_def)
1381 1381
1382 1382 prof = profile.Profile()
1383 1383 try:
1384 1384 prof = prof.runctx(arg_str,namespace,namespace)
1385 1385 sys_exit = ''
1386 1386 except SystemExit:
1387 1387 sys_exit = """*** SystemExit exception caught in code being profiled."""
1388 1388
1389 1389 stats = pstats.Stats(prof).strip_dirs().sort_stats(*opts.s)
1390 1390
1391 1391 lims = opts.l
1392 1392 if lims:
1393 1393 lims = [] # rebuild lims with ints/floats/strings
1394 1394 for lim in opts.l:
1395 1395 try:
1396 1396 lims.append(int(lim))
1397 1397 except ValueError:
1398 1398 try:
1399 1399 lims.append(float(lim))
1400 1400 except ValueError:
1401 1401 lims.append(lim)
1402 1402
1403 1403 # Trap output.
1404 1404 stdout_trap = StringIO()
1405 1405
1406 1406 if hasattr(stats,'stream'):
1407 1407 # In newer versions of python, the stats object has a 'stream'
1408 1408 # attribute to write into.
1409 1409 stats.stream = stdout_trap
1410 1410 stats.print_stats(*lims)
1411 1411 else:
1412 1412 # For older versions, we manually redirect stdout during printing
1413 1413 sys_stdout = sys.stdout
1414 1414 try:
1415 1415 sys.stdout = stdout_trap
1416 1416 stats.print_stats(*lims)
1417 1417 finally:
1418 1418 sys.stdout = sys_stdout
1419 1419
1420 1420 output = stdout_trap.getvalue()
1421 1421 output = output.rstrip()
1422 1422
1423 1423 page(output,screen_lines=self.shell.rc.screen_length)
1424 1424 print sys_exit,
1425 1425
1426 1426 dump_file = opts.D[0]
1427 1427 text_file = opts.T[0]
1428 1428 if dump_file:
1429 1429 prof.dump_stats(dump_file)
1430 1430 print '\n*** Profile stats marshalled to file',\
1431 1431 `dump_file`+'.',sys_exit
1432 1432 if text_file:
1433 1433 pfile = file(text_file,'w')
1434 1434 pfile.write(output)
1435 1435 pfile.close()
1436 1436 print '\n*** Profile printout saved to text file',\
1437 1437 `text_file`+'.',sys_exit
1438 1438
1439 1439 if opts.has_key('r'):
1440 1440 return stats
1441 1441 else:
1442 1442 return None
1443 1443
1444 1444 @testdec.skip_doctest
1445 1445 def magic_run(self, parameter_s ='',runner=None,
1446 1446 file_finder=get_py_filename):
1447 1447 """Run the named file inside IPython as a program.
1448 1448
1449 1449 Usage:\\
1450 1450 %run [-n -i -t [-N<N>] -d [-b<N>] -p [profile options]] file [args]
1451 1451
1452 1452 Parameters after the filename are passed as command-line arguments to
1453 1453 the program (put in sys.argv). Then, control returns to IPython's
1454 1454 prompt.
1455 1455
1456 1456 This is similar to running at a system prompt:\\
1457 1457 $ python file args\\
1458 1458 but with the advantage of giving you IPython's tracebacks, and of
1459 1459 loading all variables into your interactive namespace for further use
1460 1460 (unless -p is used, see below).
1461 1461
1462 1462 The file is executed in a namespace initially consisting only of
1463 1463 __name__=='__main__' and sys.argv constructed as indicated. It thus
1464 1464 sees its environment as if it were being run as a stand-alone program
1465 1465 (except for sharing global objects such as previously imported
1466 1466 modules). But after execution, the IPython interactive namespace gets
1467 1467 updated with all variables defined in the program (except for __name__
1468 1468 and sys.argv). This allows for very convenient loading of code for
1469 1469 interactive work, while giving each program a 'clean sheet' to run in.
1470 1470
1471 1471 Options:
1472 1472
1473 1473 -n: __name__ is NOT set to '__main__', but to the running file's name
1474 1474 without extension (as python does under import). This allows running
1475 1475 scripts and reloading the definitions in them without calling code
1476 1476 protected by an ' if __name__ == "__main__" ' clause.
1477 1477
1478 1478 -i: run the file in IPython's namespace instead of an empty one. This
1479 1479 is useful if you are experimenting with code written in a text editor
1480 1480 which depends on variables defined interactively.
1481 1481
1482 1482 -e: ignore sys.exit() calls or SystemExit exceptions in the script
1483 1483 being run. This is particularly useful if IPython is being used to
1484 1484 run unittests, which always exit with a sys.exit() call. In such
1485 1485 cases you are interested in the output of the test results, not in
1486 1486 seeing a traceback of the unittest module.
1487 1487
1488 1488 -t: print timing information at the end of the run. IPython will give
1489 1489 you an estimated CPU time consumption for your script, which under
1490 1490 Unix uses the resource module to avoid the wraparound problems of
1491 1491 time.clock(). Under Unix, an estimate of time spent on system tasks
1492 1492 is also given (for Windows platforms this is reported as 0.0).
1493 1493
1494 1494 If -t is given, an additional -N<N> option can be given, where <N>
1495 1495 must be an integer indicating how many times you want the script to
1496 1496 run. The final timing report will include total and per run results.
1497 1497
1498 1498 For example (testing the script uniq_stable.py):
1499 1499
1500 1500 In [1]: run -t uniq_stable
1501 1501
1502 1502 IPython CPU timings (estimated):\\
1503 1503 User : 0.19597 s.\\
1504 1504 System: 0.0 s.\\
1505 1505
1506 1506 In [2]: run -t -N5 uniq_stable
1507 1507
1508 1508 IPython CPU timings (estimated):\\
1509 1509 Total runs performed: 5\\
1510 1510 Times : Total Per run\\
1511 1511 User : 0.910862 s, 0.1821724 s.\\
1512 1512 System: 0.0 s, 0.0 s.
1513 1513
1514 1514 -d: run your program under the control of pdb, the Python debugger.
1515 1515 This allows you to execute your program step by step, watch variables,
1516 1516 etc. Internally, what IPython does is similar to calling:
1517 1517
1518 1518 pdb.run('execfile("YOURFILENAME")')
1519 1519
1520 1520 with a breakpoint set on line 1 of your file. You can change the line
1521 1521 number for this automatic breakpoint to be <N> by using the -bN option
1522 1522 (where N must be an integer). For example:
1523 1523
1524 1524 %run -d -b40 myscript
1525 1525
1526 1526 will set the first breakpoint at line 40 in myscript.py. Note that
1527 1527 the first breakpoint must be set on a line which actually does
1528 1528 something (not a comment or docstring) for it to stop execution.
1529 1529
1530 1530 When the pdb debugger starts, you will see a (Pdb) prompt. You must
1531 1531 first enter 'c' (without qoutes) to start execution up to the first
1532 1532 breakpoint.
1533 1533
1534 1534 Entering 'help' gives information about the use of the debugger. You
1535 1535 can easily see pdb's full documentation with "import pdb;pdb.help()"
1536 1536 at a prompt.
1537 1537
1538 1538 -p: run program under the control of the Python profiler module (which
1539 1539 prints a detailed report of execution times, function calls, etc).
1540 1540
1541 1541 You can pass other options after -p which affect the behavior of the
1542 1542 profiler itself. See the docs for %prun for details.
1543 1543
1544 1544 In this mode, the program's variables do NOT propagate back to the
1545 1545 IPython interactive namespace (because they remain in the namespace
1546 1546 where the profiler executes them).
1547 1547
1548 1548 Internally this triggers a call to %prun, see its documentation for
1549 1549 details on the options available specifically for profiling.
1550 1550
1551 1551 There is one special usage for which the text above doesn't apply:
1552 1552 if the filename ends with .ipy, the file is run as ipython script,
1553 1553 just as if the commands were written on IPython prompt.
1554 1554 """
1555 1555
1556 1556 # get arguments and set sys.argv for program to be run.
1557 1557 opts,arg_lst = self.parse_options(parameter_s,'nidtN:b:pD:l:rs:T:e',
1558 1558 mode='list',list_all=1)
1559 1559
1560 1560 try:
1561 1561 filename = file_finder(arg_lst[0])
1562 1562 except IndexError:
1563 1563 warn('you must provide at least a filename.')
1564 1564 print '\n%run:\n',OInspect.getdoc(self.magic_run)
1565 1565 return
1566 1566 except IOError,msg:
1567 1567 error(msg)
1568 1568 return
1569 1569
1570 1570 if filename.lower().endswith('.ipy'):
1571 1571 self.api.runlines(open(filename).read())
1572 1572 return
1573 1573
1574 1574 # Control the response to exit() calls made by the script being run
1575 1575 exit_ignore = opts.has_key('e')
1576 1576
1577 1577 # Make sure that the running script gets a proper sys.argv as if it
1578 1578 # were run from a system shell.
1579 1579 save_argv = sys.argv # save it for later restoring
1580 1580 sys.argv = [filename]+ arg_lst[1:] # put in the proper filename
1581 1581
1582 1582 if opts.has_key('i'):
1583 1583 # Run in user's interactive namespace
1584 1584 prog_ns = self.shell.user_ns
1585 1585 __name__save = self.shell.user_ns['__name__']
1586 1586 prog_ns['__name__'] = '__main__'
1587 1587 main_mod = self.shell.new_main_mod(prog_ns)
1588 1588 else:
1589 1589 # Run in a fresh, empty namespace
1590 1590 if opts.has_key('n'):
1591 1591 name = os.path.splitext(os.path.basename(filename))[0]
1592 1592 else:
1593 1593 name = '__main__'
1594 1594
1595 1595 main_mod = self.shell.new_main_mod()
1596 1596 prog_ns = main_mod.__dict__
1597 1597 prog_ns['__name__'] = name
1598 1598
1599 1599 # Since '%run foo' emulates 'python foo.py' at the cmd line, we must
1600 1600 # set the __file__ global in the script's namespace
1601 1601 prog_ns['__file__'] = filename
1602 1602
1603 1603 # pickle fix. See iplib for an explanation. But we need to make sure
1604 1604 # that, if we overwrite __main__, we replace it at the end
1605 1605 main_mod_name = prog_ns['__name__']
1606 1606
1607 1607 if main_mod_name == '__main__':
1608 1608 restore_main = sys.modules['__main__']
1609 1609 else:
1610 1610 restore_main = False
1611 1611
1612 1612 # This needs to be undone at the end to prevent holding references to
1613 1613 # every single object ever created.
1614 1614 sys.modules[main_mod_name] = main_mod
1615 1615
1616 1616 stats = None
1617 1617 try:
1618 1618 self.shell.savehist()
1619 1619
1620 1620 if opts.has_key('p'):
1621 1621 stats = self.magic_prun('',0,opts,arg_lst,prog_ns)
1622 1622 else:
1623 1623 if opts.has_key('d'):
1624 1624 deb = Debugger.Pdb(self.shell.rc.colors)
1625 1625 # reset Breakpoint state, which is moronically kept
1626 1626 # in a class
1627 1627 bdb.Breakpoint.next = 1
1628 1628 bdb.Breakpoint.bplist = {}
1629 1629 bdb.Breakpoint.bpbynumber = [None]
1630 1630 # Set an initial breakpoint to stop execution
1631 1631 maxtries = 10
1632 1632 bp = int(opts.get('b',[1])[0])
1633 1633 checkline = deb.checkline(filename,bp)
1634 1634 if not checkline:
1635 1635 for bp in range(bp+1,bp+maxtries+1):
1636 1636 if deb.checkline(filename,bp):
1637 1637 break
1638 1638 else:
1639 1639 msg = ("\nI failed to find a valid line to set "
1640 1640 "a breakpoint\n"
1641 1641 "after trying up to line: %s.\n"
1642 1642 "Please set a valid breakpoint manually "
1643 1643 "with the -b option." % bp)
1644 1644 error(msg)
1645 1645 return
1646 1646 # if we find a good linenumber, set the breakpoint
1647 1647 deb.do_break('%s:%s' % (filename,bp))
1648 1648 # Start file run
1649 1649 print "NOTE: Enter 'c' at the",
1650 1650 print "%s prompt to start your script." % deb.prompt
1651 1651 try:
1652 1652 deb.run('execfile("%s")' % filename,prog_ns)
1653 1653
1654 1654 except:
1655 1655 etype, value, tb = sys.exc_info()
1656 1656 # Skip three frames in the traceback: the %run one,
1657 1657 # one inside bdb.py, and the command-line typed by the
1658 1658 # user (run by exec in pdb itself).
1659 1659 self.shell.InteractiveTB(etype,value,tb,tb_offset=3)
1660 1660 else:
1661 1661 if runner is None:
1662 1662 runner = self.shell.safe_execfile
1663 1663 if opts.has_key('t'):
1664 1664 # timed execution
1665 1665 try:
1666 1666 nruns = int(opts['N'][0])
1667 1667 if nruns < 1:
1668 1668 error('Number of runs must be >=1')
1669 1669 return
1670 1670 except (KeyError):
1671 1671 nruns = 1
1672 1672 if nruns == 1:
1673 1673 t0 = clock2()
1674 1674 runner(filename,prog_ns,prog_ns,
1675 1675 exit_ignore=exit_ignore)
1676 1676 t1 = clock2()
1677 1677 t_usr = t1[0]-t0[0]
1678 1678 t_sys = t1[1]-t0[1]
1679 1679 print "\nIPython CPU timings (estimated):"
1680 1680 print " User : %10s s." % t_usr
1681 1681 print " System: %10s s." % t_sys
1682 1682 else:
1683 1683 runs = range(nruns)
1684 1684 t0 = clock2()
1685 1685 for nr in runs:
1686 1686 runner(filename,prog_ns,prog_ns,
1687 1687 exit_ignore=exit_ignore)
1688 1688 t1 = clock2()
1689 1689 t_usr = t1[0]-t0[0]
1690 1690 t_sys = t1[1]-t0[1]
1691 1691 print "\nIPython CPU timings (estimated):"
1692 1692 print "Total runs performed:",nruns
1693 1693 print " Times : %10s %10s" % ('Total','Per run')
1694 1694 print " User : %10s s, %10s s." % (t_usr,t_usr/nruns)
1695 1695 print " System: %10s s, %10s s." % (t_sys,t_sys/nruns)
1696 1696
1697 1697 else:
1698 1698 # regular execution
1699 1699 runner(filename,prog_ns,prog_ns,exit_ignore=exit_ignore)
1700 1700
1701 1701 if opts.has_key('i'):
1702 1702 self.shell.user_ns['__name__'] = __name__save
1703 1703 else:
1704 1704 # The shell MUST hold a reference to prog_ns so after %run
1705 1705 # exits, the python deletion mechanism doesn't zero it out
1706 1706 # (leaving dangling references).
1707 1707 self.shell.cache_main_mod(prog_ns,filename)
1708 1708 # update IPython interactive namespace
1709 1709 del prog_ns['__name__']
1710 1710 self.shell.user_ns.update(prog_ns)
1711 1711 finally:
1712 1712 # It's a bit of a mystery why, but __builtins__ can change from
1713 1713 # being a module to becoming a dict missing some key data after
1714 1714 # %run. As best I can see, this is NOT something IPython is doing
1715 1715 # at all, and similar problems have been reported before:
1716 1716 # http://coding.derkeiler.com/Archive/Python/comp.lang.python/2004-10/0188.html
1717 1717 # Since this seems to be done by the interpreter itself, the best
1718 1718 # we can do is to at least restore __builtins__ for the user on
1719 1719 # exit.
1720 1720 self.shell.user_ns['__builtins__'] = __builtin__
1721 1721
1722 1722 # Ensure key global structures are restored
1723 1723 sys.argv = save_argv
1724 1724 if restore_main:
1725 1725 sys.modules['__main__'] = restore_main
1726 1726 else:
1727 1727 # Remove from sys.modules the reference to main_mod we'd
1728 1728 # added. Otherwise it will trap references to objects
1729 1729 # contained therein.
1730 1730 del sys.modules[main_mod_name]
1731 1731
1732 1732 self.shell.reloadhist()
1733 1733
1734 1734 return stats
1735 1735
1736 1736 def magic_runlog(self, parameter_s =''):
1737 1737 """Run files as logs.
1738 1738
1739 1739 Usage:\\
1740 1740 %runlog file1 file2 ...
1741 1741
1742 1742 Run the named files (treating them as log files) in sequence inside
1743 1743 the interpreter, and return to the prompt. This is much slower than
1744 1744 %run because each line is executed in a try/except block, but it
1745 1745 allows running files with syntax errors in them.
1746 1746
1747 1747 Normally IPython will guess when a file is one of its own logfiles, so
1748 1748 you can typically use %run even for logs. This shorthand allows you to
1749 1749 force any file to be treated as a log file."""
1750 1750
1751 1751 for f in parameter_s.split():
1752 1752 self.shell.safe_execfile(f,self.shell.user_ns,
1753 1753 self.shell.user_ns,islog=1)
1754 1754
1755 1755 @testdec.skip_doctest
1756 1756 def magic_timeit(self, parameter_s =''):
1757 1757 """Time execution of a Python statement or expression
1758 1758
1759 1759 Usage:\\
1760 1760 %timeit [-n<N> -r<R> [-t|-c]] statement
1761 1761
1762 1762 Time execution of a Python statement or expression using the timeit
1763 1763 module.
1764 1764
1765 1765 Options:
1766 1766 -n<N>: execute the given statement <N> times in a loop. If this value
1767 1767 is not given, a fitting value is chosen.
1768 1768
1769 1769 -r<R>: repeat the loop iteration <R> times and take the best result.
1770 1770 Default: 3
1771 1771
1772 1772 -t: use time.time to measure the time, which is the default on Unix.
1773 1773 This function measures wall time.
1774 1774
1775 1775 -c: use time.clock to measure the time, which is the default on
1776 1776 Windows and measures wall time. On Unix, resource.getrusage is used
1777 1777 instead and returns the CPU user time.
1778 1778
1779 1779 -p<P>: use a precision of <P> digits to display the timing result.
1780 1780 Default: 3
1781 1781
1782 1782
1783 1783 Examples:
1784 1784
1785 1785 In [1]: %timeit pass
1786 1786 10000000 loops, best of 3: 53.3 ns per loop
1787 1787
1788 1788 In [2]: u = None
1789 1789
1790 1790 In [3]: %timeit u is None
1791 1791 10000000 loops, best of 3: 184 ns per loop
1792 1792
1793 1793 In [4]: %timeit -r 4 u == None
1794 1794 1000000 loops, best of 4: 242 ns per loop
1795 1795
1796 1796 In [5]: import time
1797 1797
1798 1798 In [6]: %timeit -n1 time.sleep(2)
1799 1799 1 loops, best of 3: 2 s per loop
1800 1800
1801 1801
1802 1802 The times reported by %timeit will be slightly higher than those
1803 1803 reported by the timeit.py script when variables are accessed. This is
1804 1804 due to the fact that %timeit executes the statement in the namespace
1805 1805 of the shell, compared with timeit.py, which uses a single setup
1806 1806 statement to import function or create variables. Generally, the bias
1807 1807 does not matter as long as results from timeit.py are not mixed with
1808 1808 those from %timeit."""
1809 1809
1810 1810 import timeit
1811 1811 import math
1812 1812
1813 1813 # XXX: Unfortunately the unicode 'micro' symbol can cause problems in
1814 1814 # certain terminals. Until we figure out a robust way of
1815 1815 # auto-detecting if the terminal can deal with it, use plain 'us' for
1816 1816 # microseconds. I am really NOT happy about disabling the proper
1817 1817 # 'micro' prefix, but crashing is worse... If anyone knows what the
1818 1818 # right solution for this is, I'm all ears...
1819 1819 #
1820 1820 # Note: using
1821 1821 #
1822 1822 # s = u'\xb5'
1823 1823 # s.encode(sys.getdefaultencoding())
1824 1824 #
1825 1825 # is not sufficient, as I've seen terminals where that fails but
1826 1826 # print s
1827 1827 #
1828 1828 # succeeds
1829 1829 #
1830 1830 # See bug: https://bugs.launchpad.net/ipython/+bug/348466
1831 1831
1832 1832 #units = [u"s", u"ms",u'\xb5',"ns"]
1833 1833 units = [u"s", u"ms",u'us',"ns"]
1834 1834
1835 1835 scaling = [1, 1e3, 1e6, 1e9]
1836 1836
1837 1837 opts, stmt = self.parse_options(parameter_s,'n:r:tcp:',
1838 1838 posix=False)
1839 1839 if stmt == "":
1840 1840 return
1841 1841 timefunc = timeit.default_timer
1842 1842 number = int(getattr(opts, "n", 0))
1843 1843 repeat = int(getattr(opts, "r", timeit.default_repeat))
1844 1844 precision = int(getattr(opts, "p", 3))
1845 1845 if hasattr(opts, "t"):
1846 1846 timefunc = time.time
1847 1847 if hasattr(opts, "c"):
1848 1848 timefunc = clock
1849 1849
1850 1850 timer = timeit.Timer(timer=timefunc)
1851 1851 # this code has tight coupling to the inner workings of timeit.Timer,
1852 1852 # but is there a better way to achieve that the code stmt has access
1853 1853 # to the shell namespace?
1854 1854
1855 1855 src = timeit.template % {'stmt': timeit.reindent(stmt, 8),
1856 1856 'setup': "pass"}
1857 1857 # Track compilation time so it can be reported if too long
1858 1858 # Minimum time above which compilation time will be reported
1859 1859 tc_min = 0.1
1860 1860
1861 1861 t0 = clock()
1862 1862 code = compile(src, "<magic-timeit>", "exec")
1863 1863 tc = clock()-t0
1864 1864
1865 1865 ns = {}
1866 1866 exec code in self.shell.user_ns, ns
1867 1867 timer.inner = ns["inner"]
1868 1868
1869 1869 if number == 0:
1870 1870 # determine number so that 0.2 <= total time < 2.0
1871 1871 number = 1
1872 1872 for i in range(1, 10):
1873 1873 if timer.timeit(number) >= 0.2:
1874 1874 break
1875 1875 number *= 10
1876 1876
1877 1877 best = min(timer.repeat(repeat, number)) / number
1878 1878
1879 1879 if best > 0.0:
1880 1880 order = min(-int(math.floor(math.log10(best)) // 3), 3)
1881 1881 else:
1882 1882 order = 3
1883 1883 print u"%d loops, best of %d: %.*g %s per loop" % (number, repeat,
1884 1884 precision,
1885 1885 best * scaling[order],
1886 1886 units[order])
1887 1887 if tc > tc_min:
1888 1888 print "Compiler time: %.2f s" % tc
1889 1889
1890 1890 @testdec.skip_doctest
1891 1891 def magic_time(self,parameter_s = ''):
1892 1892 """Time execution of a Python statement or expression.
1893 1893
1894 1894 The CPU and wall clock times are printed, and the value of the
1895 1895 expression (if any) is returned. Note that under Win32, system time
1896 1896 is always reported as 0, since it can not be measured.
1897 1897
1898 1898 This function provides very basic timing functionality. In Python
1899 1899 2.3, the timeit module offers more control and sophistication, so this
1900 1900 could be rewritten to use it (patches welcome).
1901 1901
1902 1902 Some examples:
1903 1903
1904 1904 In [1]: time 2**128
1905 1905 CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
1906 1906 Wall time: 0.00
1907 1907 Out[1]: 340282366920938463463374607431768211456L
1908 1908
1909 1909 In [2]: n = 1000000
1910 1910
1911 1911 In [3]: time sum(range(n))
1912 1912 CPU times: user 1.20 s, sys: 0.05 s, total: 1.25 s
1913 1913 Wall time: 1.37
1914 1914 Out[3]: 499999500000L
1915 1915
1916 1916 In [4]: time print 'hello world'
1917 1917 hello world
1918 1918 CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
1919 1919 Wall time: 0.00
1920 1920
1921 1921 Note that the time needed by Python to compile the given expression
1922 1922 will be reported if it is more than 0.1s. In this example, the
1923 1923 actual exponentiation is done by Python at compilation time, so while
1924 1924 the expression can take a noticeable amount of time to compute, that
1925 1925 time is purely due to the compilation:
1926 1926
1927 1927 In [5]: time 3**9999;
1928 1928 CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
1929 1929 Wall time: 0.00 s
1930 1930
1931 1931 In [6]: time 3**999999;
1932 1932 CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
1933 1933 Wall time: 0.00 s
1934 1934 Compiler : 0.78 s
1935 1935 """
1936 1936
1937 1937 # fail immediately if the given expression can't be compiled
1938 1938
1939 1939 expr = self.shell.prefilter(parameter_s,False)
1940 1940
1941 1941 # Minimum time above which compilation time will be reported
1942 1942 tc_min = 0.1
1943 1943
1944 1944 try:
1945 1945 mode = 'eval'
1946 1946 t0 = clock()
1947 1947 code = compile(expr,'<timed eval>',mode)
1948 1948 tc = clock()-t0
1949 1949 except SyntaxError:
1950 1950 mode = 'exec'
1951 1951 t0 = clock()
1952 1952 code = compile(expr,'<timed exec>',mode)
1953 1953 tc = clock()-t0
1954 1954 # skew measurement as little as possible
1955 1955 glob = self.shell.user_ns
1956 1956 clk = clock2
1957 1957 wtime = time.time
1958 1958 # time execution
1959 1959 wall_st = wtime()
1960 1960 if mode=='eval':
1961 1961 st = clk()
1962 1962 out = eval(code,glob)
1963 1963 end = clk()
1964 1964 else:
1965 1965 st = clk()
1966 1966 exec code in glob
1967 1967 end = clk()
1968 1968 out = None
1969 1969 wall_end = wtime()
1970 1970 # Compute actual times and report
1971 1971 wall_time = wall_end-wall_st
1972 1972 cpu_user = end[0]-st[0]
1973 1973 cpu_sys = end[1]-st[1]
1974 1974 cpu_tot = cpu_user+cpu_sys
1975 1975 print "CPU times: user %.2f s, sys: %.2f s, total: %.2f s" % \
1976 1976 (cpu_user,cpu_sys,cpu_tot)
1977 1977 print "Wall time: %.2f s" % wall_time
1978 1978 if tc > tc_min:
1979 1979 print "Compiler : %.2f s" % tc
1980 1980 return out
1981 1981
1982 1982 @testdec.skip_doctest
1983 1983 def magic_macro(self,parameter_s = ''):
1984 1984 """Define a set of input lines as a macro for future re-execution.
1985 1985
1986 1986 Usage:\\
1987 1987 %macro [options] name n1-n2 n3-n4 ... n5 .. n6 ...
1988 1988
1989 1989 Options:
1990 1990
1991 1991 -r: use 'raw' input. By default, the 'processed' history is used,
1992 1992 so that magics are loaded in their transformed version to valid
1993 1993 Python. If this option is given, the raw input as typed as the
1994 1994 command line is used instead.
1995 1995
1996 1996 This will define a global variable called `name` which is a string
1997 1997 made of joining the slices and lines you specify (n1,n2,... numbers
1998 1998 above) from your input history into a single string. This variable
1999 1999 acts like an automatic function which re-executes those lines as if
2000 2000 you had typed them. You just type 'name' at the prompt and the code
2001 2001 executes.
2002 2002
2003 2003 The notation for indicating number ranges is: n1-n2 means 'use line
2004 2004 numbers n1,...n2' (the endpoint is included). That is, '5-7' means
2005 2005 using the lines numbered 5,6 and 7.
2006 2006
2007 2007 Note: as a 'hidden' feature, you can also use traditional python slice
2008 2008 notation, where N:M means numbers N through M-1.
2009 2009
2010 2010 For example, if your history contains (%hist prints it):
2011 2011
2012 2012 44: x=1
2013 2013 45: y=3
2014 2014 46: z=x+y
2015 2015 47: print x
2016 2016 48: a=5
2017 2017 49: print 'x',x,'y',y
2018 2018
2019 2019 you can create a macro with lines 44 through 47 (included) and line 49
2020 2020 called my_macro with:
2021 2021
2022 2022 In [55]: %macro my_macro 44-47 49
2023 2023
2024 2024 Now, typing `my_macro` (without quotes) will re-execute all this code
2025 2025 in one pass.
2026 2026
2027 2027 You don't need to give the line-numbers in order, and any given line
2028 2028 number can appear multiple times. You can assemble macros with any
2029 2029 lines from your input history in any order.
2030 2030
2031 2031 The macro is a simple object which holds its value in an attribute,
2032 2032 but IPython's display system checks for macros and executes them as
2033 2033 code instead of printing them when you type their name.
2034 2034
2035 2035 You can view a macro's contents by explicitly printing it with:
2036 2036
2037 2037 'print macro_name'.
2038 2038
2039 2039 For one-off cases which DON'T contain magic function calls in them you
2040 2040 can obtain similar results by explicitly executing slices from your
2041 2041 input history with:
2042 2042
2043 2043 In [60]: exec In[44:48]+In[49]"""
2044 2044
2045 2045 opts,args = self.parse_options(parameter_s,'r',mode='list')
2046 2046 if not args:
2047 2047 macs = [k for k,v in self.shell.user_ns.items() if isinstance(v, Macro)]
2048 2048 macs.sort()
2049 2049 return macs
2050 2050 if len(args) == 1:
2051 2051 raise UsageError(
2052 2052 "%macro insufficient args; usage '%macro name n1-n2 n3-4...")
2053 2053 name,ranges = args[0], args[1:]
2054 2054
2055 2055 #print 'rng',ranges # dbg
2056 2056 lines = self.extract_input_slices(ranges,opts.has_key('r'))
2057 2057 macro = Macro(lines)
2058 2058 self.shell.user_ns.update({name:macro})
2059 2059 print 'Macro `%s` created. To execute, type its name (without quotes).' % name
2060 2060 print 'Macro contents:'
2061 2061 print macro,
2062 2062
2063 2063 def magic_save(self,parameter_s = ''):
2064 2064 """Save a set of lines to a given filename.
2065 2065
2066 2066 Usage:\\
2067 2067 %save [options] filename n1-n2 n3-n4 ... n5 .. n6 ...
2068 2068
2069 2069 Options:
2070 2070
2071 2071 -r: use 'raw' input. By default, the 'processed' history is used,
2072 2072 so that magics are loaded in their transformed version to valid
2073 2073 Python. If this option is given, the raw input as typed as the
2074 2074 command line is used instead.
2075 2075
2076 2076 This function uses the same syntax as %macro for line extraction, but
2077 2077 instead of creating a macro it saves the resulting string to the
2078 2078 filename you specify.
2079 2079
2080 2080 It adds a '.py' extension to the file if you don't do so yourself, and
2081 2081 it asks for confirmation before overwriting existing files."""
2082 2082
2083 2083 opts,args = self.parse_options(parameter_s,'r',mode='list')
2084 2084 fname,ranges = args[0], args[1:]
2085 2085 if not fname.endswith('.py'):
2086 2086 fname += '.py'
2087 2087 if os.path.isfile(fname):
2088 2088 ans = raw_input('File `%s` exists. Overwrite (y/[N])? ' % fname)
2089 2089 if ans.lower() not in ['y','yes']:
2090 2090 print 'Operation cancelled.'
2091 2091 return
2092 2092 cmds = ''.join(self.extract_input_slices(ranges,opts.has_key('r')))
2093 2093 f = file(fname,'w')
2094 2094 f.write(cmds)
2095 2095 f.close()
2096 2096 print 'The following commands were written to file `%s`:' % fname
2097 2097 print cmds
2098 2098
2099 2099 def _edit_macro(self,mname,macro):
2100 2100 """open an editor with the macro data in a file"""
2101 2101 filename = self.shell.mktempfile(macro.value)
2102 2102 self.shell.hooks.editor(filename)
2103 2103
2104 2104 # and make a new macro object, to replace the old one
2105 2105 mfile = open(filename)
2106 2106 mvalue = mfile.read()
2107 2107 mfile.close()
2108 2108 self.shell.user_ns[mname] = Macro(mvalue)
2109 2109
2110 2110 def magic_ed(self,parameter_s=''):
2111 2111 """Alias to %edit."""
2112 2112 return self.magic_edit(parameter_s)
2113 2113
2114 2114 @testdec.skip_doctest
2115 2115 def magic_edit(self,parameter_s='',last_call=['','']):
2116 2116 """Bring up an editor and execute the resulting code.
2117 2117
2118 2118 Usage:
2119 2119 %edit [options] [args]
2120 2120
2121 2121 %edit runs IPython's editor hook. The default version of this hook is
2122 2122 set to call the __IPYTHON__.rc.editor command. This is read from your
2123 2123 environment variable $EDITOR. If this isn't found, it will default to
2124 2124 vi under Linux/Unix and to notepad under Windows. See the end of this
2125 2125 docstring for how to change the editor hook.
2126 2126
2127 2127 You can also set the value of this editor via the command line option
2128 2128 '-editor' or in your ipythonrc file. This is useful if you wish to use
2129 2129 specifically for IPython an editor different from your typical default
2130 2130 (and for Windows users who typically don't set environment variables).
2131 2131
2132 2132 This command allows you to conveniently edit multi-line code right in
2133 2133 your IPython session.
2134 2134
2135 2135 If called without arguments, %edit opens up an empty editor with a
2136 2136 temporary file and will execute the contents of this file when you
2137 2137 close it (don't forget to save it!).
2138 2138
2139 2139
2140 2140 Options:
2141 2141
2142 2142 -n <number>: open the editor at a specified line number. By default,
2143 2143 the IPython editor hook uses the unix syntax 'editor +N filename', but
2144 2144 you can configure this by providing your own modified hook if your
2145 2145 favorite editor supports line-number specifications with a different
2146 2146 syntax.
2147 2147
2148 2148 -p: this will call the editor with the same data as the previous time
2149 2149 it was used, regardless of how long ago (in your current session) it
2150 2150 was.
2151 2151
2152 2152 -r: use 'raw' input. This option only applies to input taken from the
2153 2153 user's history. By default, the 'processed' history is used, so that
2154 2154 magics are loaded in their transformed version to valid Python. If
2155 2155 this option is given, the raw input as typed as the command line is
2156 2156 used instead. When you exit the editor, it will be executed by
2157 2157 IPython's own processor.
2158 2158
2159 2159 -x: do not execute the edited code immediately upon exit. This is
2160 2160 mainly useful if you are editing programs which need to be called with
2161 2161 command line arguments, which you can then do using %run.
2162 2162
2163 2163
2164 2164 Arguments:
2165 2165
2166 2166 If arguments are given, the following possibilites exist:
2167 2167
2168 2168 - The arguments are numbers or pairs of colon-separated numbers (like
2169 2169 1 4:8 9). These are interpreted as lines of previous input to be
2170 2170 loaded into the editor. The syntax is the same of the %macro command.
2171 2171
2172 2172 - If the argument doesn't start with a number, it is evaluated as a
2173 2173 variable and its contents loaded into the editor. You can thus edit
2174 2174 any string which contains python code (including the result of
2175 2175 previous edits).
2176 2176
2177 2177 - If the argument is the name of an object (other than a string),
2178 2178 IPython will try to locate the file where it was defined and open the
2179 2179 editor at the point where it is defined. You can use `%edit function`
2180 2180 to load an editor exactly at the point where 'function' is defined,
2181 2181 edit it and have the file be executed automatically.
2182 2182
2183 2183 If the object is a macro (see %macro for details), this opens up your
2184 2184 specified editor with a temporary file containing the macro's data.
2185 2185 Upon exit, the macro is reloaded with the contents of the file.
2186 2186
2187 2187 Note: opening at an exact line is only supported under Unix, and some
2188 2188 editors (like kedit and gedit up to Gnome 2.8) do not understand the
2189 2189 '+NUMBER' parameter necessary for this feature. Good editors like
2190 2190 (X)Emacs, vi, jed, pico and joe all do.
2191 2191
2192 2192 - If the argument is not found as a variable, IPython will look for a
2193 2193 file with that name (adding .py if necessary) and load it into the
2194 2194 editor. It will execute its contents with execfile() when you exit,
2195 2195 loading any code in the file into your interactive namespace.
2196 2196
2197 2197 After executing your code, %edit will return as output the code you
2198 2198 typed in the editor (except when it was an existing file). This way
2199 2199 you can reload the code in further invocations of %edit as a variable,
2200 2200 via _<NUMBER> or Out[<NUMBER>], where <NUMBER> is the prompt number of
2201 2201 the output.
2202 2202
2203 2203 Note that %edit is also available through the alias %ed.
2204 2204
2205 2205 This is an example of creating a simple function inside the editor and
2206 2206 then modifying it. First, start up the editor:
2207 2207
2208 2208 In [1]: ed
2209 2209 Editing... done. Executing edited code...
2210 2210 Out[1]: 'def foo():n print "foo() was defined in an editing session"n'
2211 2211
2212 2212 We can then call the function foo():
2213 2213
2214 2214 In [2]: foo()
2215 2215 foo() was defined in an editing session
2216 2216
2217 2217 Now we edit foo. IPython automatically loads the editor with the
2218 2218 (temporary) file where foo() was previously defined:
2219 2219
2220 2220 In [3]: ed foo
2221 2221 Editing... done. Executing edited code...
2222 2222
2223 2223 And if we call foo() again we get the modified version:
2224 2224
2225 2225 In [4]: foo()
2226 2226 foo() has now been changed!
2227 2227
2228 2228 Here is an example of how to edit a code snippet successive
2229 2229 times. First we call the editor:
2230 2230
2231 2231 In [5]: ed
2232 2232 Editing... done. Executing edited code...
2233 2233 hello
2234 2234 Out[5]: "print 'hello'n"
2235 2235
2236 2236 Now we call it again with the previous output (stored in _):
2237 2237
2238 2238 In [6]: ed _
2239 2239 Editing... done. Executing edited code...
2240 2240 hello world
2241 2241 Out[6]: "print 'hello world'n"
2242 2242
2243 2243 Now we call it with the output #8 (stored in _8, also as Out[8]):
2244 2244
2245 2245 In [7]: ed _8
2246 2246 Editing... done. Executing edited code...
2247 2247 hello again
2248 2248 Out[7]: "print 'hello again'n"
2249 2249
2250 2250
2251 2251 Changing the default editor hook:
2252 2252
2253 2253 If you wish to write your own editor hook, you can put it in a
2254 2254 configuration file which you load at startup time. The default hook
2255 2255 is defined in the IPython.hooks module, and you can use that as a
2256 2256 starting example for further modifications. That file also has
2257 2257 general instructions on how to set a new hook for use once you've
2258 2258 defined it."""
2259 2259
2260 2260 # FIXME: This function has become a convoluted mess. It needs a
2261 2261 # ground-up rewrite with clean, simple logic.
2262 2262
2263 2263 def make_filename(arg):
2264 2264 "Make a filename from the given args"
2265 2265 try:
2266 2266 filename = get_py_filename(arg)
2267 2267 except IOError:
2268 2268 if args.endswith('.py'):
2269 2269 filename = arg
2270 2270 else:
2271 2271 filename = None
2272 2272 return filename
2273 2273
2274 2274 # custom exceptions
2275 2275 class DataIsObject(Exception): pass
2276 2276
2277 2277 opts,args = self.parse_options(parameter_s,'prxn:')
2278 2278 # Set a few locals from the options for convenience:
2279 2279 opts_p = opts.has_key('p')
2280 2280 opts_r = opts.has_key('r')
2281 2281
2282 2282 # Default line number value
2283 2283 lineno = opts.get('n',None)
2284 2284
2285 2285 if opts_p:
2286 2286 args = '_%s' % last_call[0]
2287 2287 if not self.shell.user_ns.has_key(args):
2288 2288 args = last_call[1]
2289 2289
2290 2290 # use last_call to remember the state of the previous call, but don't
2291 2291 # let it be clobbered by successive '-p' calls.
2292 2292 try:
2293 2293 last_call[0] = self.shell.outputcache.prompt_count
2294 2294 if not opts_p:
2295 2295 last_call[1] = parameter_s
2296 2296 except:
2297 2297 pass
2298 2298
2299 2299 # by default this is done with temp files, except when the given
2300 2300 # arg is a filename
2301 2301 use_temp = 1
2302 2302
2303 2303 if re.match(r'\d',args):
2304 2304 # Mode where user specifies ranges of lines, like in %macro.
2305 2305 # This means that you can't edit files whose names begin with
2306 2306 # numbers this way. Tough.
2307 2307 ranges = args.split()
2308 2308 data = ''.join(self.extract_input_slices(ranges,opts_r))
2309 2309 elif args.endswith('.py'):
2310 2310 filename = make_filename(args)
2311 2311 data = ''
2312 2312 use_temp = 0
2313 2313 elif args:
2314 2314 try:
2315 2315 # Load the parameter given as a variable. If not a string,
2316 2316 # process it as an object instead (below)
2317 2317
2318 2318 #print '*** args',args,'type',type(args) # dbg
2319 2319 data = eval(args,self.shell.user_ns)
2320 2320 if not type(data) in StringTypes:
2321 2321 raise DataIsObject
2322 2322
2323 2323 except (NameError,SyntaxError):
2324 2324 # given argument is not a variable, try as a filename
2325 2325 filename = make_filename(args)
2326 2326 if filename is None:
2327 2327 warn("Argument given (%s) can't be found as a variable "
2328 2328 "or as a filename." % args)
2329 2329 return
2330 2330
2331 2331 data = ''
2332 2332 use_temp = 0
2333 2333 except DataIsObject:
2334 2334
2335 2335 # macros have a special edit function
2336 2336 if isinstance(data,Macro):
2337 2337 self._edit_macro(args,data)
2338 2338 return
2339 2339
2340 2340 # For objects, try to edit the file where they are defined
2341 2341 try:
2342 2342 filename = inspect.getabsfile(data)
2343 2343 if 'fakemodule' in filename.lower() and inspect.isclass(data):
2344 2344 # class created by %edit? Try to find source
2345 2345 # by looking for method definitions instead, the
2346 2346 # __module__ in those classes is FakeModule.
2347 2347 attrs = [getattr(data, aname) for aname in dir(data)]
2348 2348 for attr in attrs:
2349 2349 if not inspect.ismethod(attr):
2350 2350 continue
2351 2351 filename = inspect.getabsfile(attr)
2352 2352 if filename and 'fakemodule' not in filename.lower():
2353 2353 # change the attribute to be the edit target instead
2354 2354 data = attr
2355 2355 break
2356 2356
2357 2357 datafile = 1
2358 2358 except TypeError:
2359 2359 filename = make_filename(args)
2360 2360 datafile = 1
2361 2361 warn('Could not find file where `%s` is defined.\n'
2362 2362 'Opening a file named `%s`' % (args,filename))
2363 2363 # Now, make sure we can actually read the source (if it was in
2364 2364 # a temp file it's gone by now).
2365 2365 if datafile:
2366 2366 try:
2367 2367 if lineno is None:
2368 2368 lineno = inspect.getsourcelines(data)[1]
2369 2369 except IOError:
2370 2370 filename = make_filename(args)
2371 2371 if filename is None:
2372 2372 warn('The file `%s` where `%s` was defined cannot '
2373 2373 'be read.' % (filename,data))
2374 2374 return
2375 2375 use_temp = 0
2376 2376 else:
2377 2377 data = ''
2378 2378
2379 2379 if use_temp:
2380 2380 filename = self.shell.mktempfile(data)
2381 2381 print 'IPython will make a temporary file named:',filename
2382 2382
2383 2383 # do actual editing here
2384 2384 print 'Editing...',
2385 2385 sys.stdout.flush()
2386 2386 try:
2387 2387 self.shell.hooks.editor(filename,lineno)
2388 2388 except IPython.ipapi.TryNext:
2389 2389 warn('Could not open editor')
2390 2390 return
2391 2391
2392 2392 # XXX TODO: should this be generalized for all string vars?
2393 2393 # For now, this is special-cased to blocks created by cpaste
2394 2394 if args.strip() == 'pasted_block':
2395 2395 self.shell.user_ns['pasted_block'] = file_read(filename)
2396 2396
2397 2397 if opts.has_key('x'): # -x prevents actual execution
2398 2398 print
2399 2399 else:
2400 2400 print 'done. Executing edited code...'
2401 2401 if opts_r:
2402 2402 self.shell.runlines(file_read(filename))
2403 2403 else:
2404 2404 self.shell.safe_execfile(filename,self.shell.user_ns,
2405 2405 self.shell.user_ns)
2406 2406
2407 2407
2408 2408 if use_temp:
2409 2409 try:
2410 2410 return open(filename).read()
2411 2411 except IOError,msg:
2412 2412 if msg.filename == filename:
2413 2413 warn('File not found. Did you forget to save?')
2414 2414 return
2415 2415 else:
2416 2416 self.shell.showtraceback()
2417 2417
2418 2418 def magic_xmode(self,parameter_s = ''):
2419 2419 """Switch modes for the exception handlers.
2420 2420
2421 2421 Valid modes: Plain, Context and Verbose.
2422 2422
2423 2423 If called without arguments, acts as a toggle."""
2424 2424
2425 2425 def xmode_switch_err(name):
2426 2426 warn('Error changing %s exception modes.\n%s' %
2427 2427 (name,sys.exc_info()[1]))
2428 2428
2429 2429 shell = self.shell
2430 2430 new_mode = parameter_s.strip().capitalize()
2431 2431 try:
2432 2432 shell.InteractiveTB.set_mode(mode=new_mode)
2433 2433 print 'Exception reporting mode:',shell.InteractiveTB.mode
2434 2434 except:
2435 2435 xmode_switch_err('user')
2436 2436
2437 2437 # threaded shells use a special handler in sys.excepthook
2438 2438 if shell.isthreaded:
2439 2439 try:
2440 2440 shell.sys_excepthook.set_mode(mode=new_mode)
2441 2441 except:
2442 2442 xmode_switch_err('threaded')
2443 2443
2444 2444 def magic_colors(self,parameter_s = ''):
2445 2445 """Switch color scheme for prompts, info system and exception handlers.
2446 2446
2447 2447 Currently implemented schemes: NoColor, Linux, LightBG.
2448 2448
2449 2449 Color scheme names are not case-sensitive."""
2450 2450
2451 2451 def color_switch_err(name):
2452 2452 warn('Error changing %s color schemes.\n%s' %
2453 2453 (name,sys.exc_info()[1]))
2454 2454
2455 2455
2456 2456 new_scheme = parameter_s.strip()
2457 2457 if not new_scheme:
2458 2458 raise UsageError(
2459 2459 "%colors: you must specify a color scheme. See '%colors?'")
2460 2460 return
2461 2461 # local shortcut
2462 2462 shell = self.shell
2463 2463
2464 2464 import IPython.rlineimpl as readline
2465 2465
2466 2466 if not readline.have_readline and sys.platform == "win32":
2467 2467 msg = """\
2468 2468 Proper color support under MS Windows requires the pyreadline library.
2469 2469 You can find it at:
2470 2470 http://ipython.scipy.org/moin/PyReadline/Intro
2471 2471 Gary's readline needs the ctypes module, from:
2472 2472 http://starship.python.net/crew/theller/ctypes
2473 2473 (Note that ctypes is already part of Python versions 2.5 and newer).
2474 2474
2475 2475 Defaulting color scheme to 'NoColor'"""
2476 2476 new_scheme = 'NoColor'
2477 2477 warn(msg)
2478 2478
2479 2479 # readline option is 0
2480 2480 if not shell.has_readline:
2481 2481 new_scheme = 'NoColor'
2482 2482
2483 2483 # Set prompt colors
2484 2484 try:
2485 2485 shell.outputcache.set_colors(new_scheme)
2486 2486 except:
2487 2487 color_switch_err('prompt')
2488 2488 else:
2489 2489 shell.rc.colors = \
2490 2490 shell.outputcache.color_table.active_scheme_name
2491 2491 # Set exception colors
2492 2492 try:
2493 2493 shell.InteractiveTB.set_colors(scheme = new_scheme)
2494 2494 shell.SyntaxTB.set_colors(scheme = new_scheme)
2495 2495 except:
2496 2496 color_switch_err('exception')
2497 2497
2498 2498 # threaded shells use a verbose traceback in sys.excepthook
2499 2499 if shell.isthreaded:
2500 2500 try:
2501 2501 shell.sys_excepthook.set_colors(scheme=new_scheme)
2502 2502 except:
2503 2503 color_switch_err('system exception handler')
2504 2504
2505 2505 # Set info (for 'object?') colors
2506 2506 if shell.rc.color_info:
2507 2507 try:
2508 2508 shell.inspector.set_active_scheme(new_scheme)
2509 2509 except:
2510 2510 color_switch_err('object inspector')
2511 2511 else:
2512 2512 shell.inspector.set_active_scheme('NoColor')
2513 2513
2514 2514 def magic_color_info(self,parameter_s = ''):
2515 2515 """Toggle color_info.
2516 2516
2517 2517 The color_info configuration parameter controls whether colors are
2518 2518 used for displaying object details (by things like %psource, %pfile or
2519 2519 the '?' system). This function toggles this value with each call.
2520 2520
2521 2521 Note that unless you have a fairly recent pager (less works better
2522 2522 than more) in your system, using colored object information displays
2523 2523 will not work properly. Test it and see."""
2524 2524
2525 2525 self.shell.rc.color_info = 1 - self.shell.rc.color_info
2526 2526 self.magic_colors(self.shell.rc.colors)
2527 2527 print 'Object introspection functions have now coloring:',
2528 2528 print ['OFF','ON'][self.shell.rc.color_info]
2529 2529
2530 2530 def magic_Pprint(self, parameter_s=''):
2531 2531 """Toggle pretty printing on/off."""
2532 2532
2533 2533 self.shell.rc.pprint = 1 - self.shell.rc.pprint
2534 2534 print 'Pretty printing has been turned', \
2535 2535 ['OFF','ON'][self.shell.rc.pprint]
2536 2536
2537 2537 def magic_exit(self, parameter_s=''):
2538 2538 """Exit IPython, confirming if configured to do so.
2539 2539
2540 2540 You can configure whether IPython asks for confirmation upon exit by
2541 2541 setting the confirm_exit flag in the ipythonrc file."""
2542 2542
2543 2543 self.shell.exit()
2544 2544
2545 2545 def magic_quit(self, parameter_s=''):
2546 2546 """Exit IPython, confirming if configured to do so (like %exit)"""
2547 2547
2548 2548 self.shell.exit()
2549 2549
2550 2550 def magic_Exit(self, parameter_s=''):
2551 2551 """Exit IPython without confirmation."""
2552 2552
2553 2553 self.shell.ask_exit()
2554 2554
2555 2555 #......................................................................
2556 2556 # Functions to implement unix shell-type things
2557 2557
2558 2558 @testdec.skip_doctest
2559 2559 def magic_alias(self, parameter_s = ''):
2560 2560 """Define an alias for a system command.
2561 2561
2562 2562 '%alias alias_name cmd' defines 'alias_name' as an alias for 'cmd'
2563 2563
2564 2564 Then, typing 'alias_name params' will execute the system command 'cmd
2565 2565 params' (from your underlying operating system).
2566 2566
2567 2567 Aliases have lower precedence than magic functions and Python normal
2568 2568 variables, so if 'foo' is both a Python variable and an alias, the
2569 2569 alias can not be executed until 'del foo' removes the Python variable.
2570 2570
2571 2571 You can use the %l specifier in an alias definition to represent the
2572 2572 whole line when the alias is called. For example:
2573 2573
2574 2574 In [2]: alias all echo "Input in brackets: <%l>"
2575 2575 In [3]: all hello world
2576 2576 Input in brackets: <hello world>
2577 2577
2578 2578 You can also define aliases with parameters using %s specifiers (one
2579 2579 per parameter):
2580 2580
2581 2581 In [1]: alias parts echo first %s second %s
2582 2582 In [2]: %parts A B
2583 2583 first A second B
2584 2584 In [3]: %parts A
2585 2585 Incorrect number of arguments: 2 expected.
2586 2586 parts is an alias to: 'echo first %s second %s'
2587 2587
2588 2588 Note that %l and %s are mutually exclusive. You can only use one or
2589 2589 the other in your aliases.
2590 2590
2591 2591 Aliases expand Python variables just like system calls using ! or !!
2592 2592 do: all expressions prefixed with '$' get expanded. For details of
2593 2593 the semantic rules, see PEP-215:
2594 2594 http://www.python.org/peps/pep-0215.html. This is the library used by
2595 2595 IPython for variable expansion. If you want to access a true shell
2596 2596 variable, an extra $ is necessary to prevent its expansion by IPython:
2597 2597
2598 2598 In [6]: alias show echo
2599 2599 In [7]: PATH='A Python string'
2600 2600 In [8]: show $PATH
2601 2601 A Python string
2602 2602 In [9]: show $$PATH
2603 2603 /usr/local/lf9560/bin:/usr/local/intel/compiler70/ia32/bin:...
2604 2604
2605 2605 You can use the alias facility to acess all of $PATH. See the %rehash
2606 2606 and %rehashx functions, which automatically create aliases for the
2607 2607 contents of your $PATH.
2608 2608
2609 2609 If called with no parameters, %alias prints the current alias table."""
2610 2610
2611 2611 par = parameter_s.strip()
2612 2612 if not par:
2613 2613 stored = self.db.get('stored_aliases', {} )
2614 2614 atab = self.shell.alias_table
2615 2615 aliases = atab.keys()
2616 2616 aliases.sort()
2617 2617 res = []
2618 2618 showlast = []
2619 2619 for alias in aliases:
2620 2620 special = False
2621 2621 try:
2622 2622 tgt = atab[alias][1]
2623 2623 except (TypeError, AttributeError):
2624 2624 # unsubscriptable? probably a callable
2625 2625 tgt = atab[alias]
2626 2626 special = True
2627 2627 # 'interesting' aliases
2628 2628 if (alias in stored or
2629 2629 special or
2630 2630 alias.lower() != os.path.splitext(tgt)[0].lower() or
2631 2631 ' ' in tgt):
2632 2632 showlast.append((alias, tgt))
2633 2633 else:
2634 2634 res.append((alias, tgt ))
2635 2635
2636 2636 # show most interesting aliases last
2637 2637 res.extend(showlast)
2638 2638 print "Total number of aliases:",len(aliases)
2639 2639 return res
2640 2640 try:
2641 2641 alias,cmd = par.split(None,1)
2642 2642 except:
2643 2643 print OInspect.getdoc(self.magic_alias)
2644 2644 else:
2645 2645 nargs = cmd.count('%s')
2646 2646 if nargs>0 and cmd.find('%l')>=0:
2647 2647 error('The %s and %l specifiers are mutually exclusive '
2648 2648 'in alias definitions.')
2649 2649 else: # all looks OK
2650 2650 self.shell.alias_table[alias] = (nargs,cmd)
2651 2651 self.shell.alias_table_validate(verbose=0)
2652 2652 # end magic_alias
2653 2653
2654 2654 def magic_unalias(self, parameter_s = ''):
2655 2655 """Remove an alias"""
2656 2656
2657 2657 aname = parameter_s.strip()
2658 2658 if aname in self.shell.alias_table:
2659 2659 del self.shell.alias_table[aname]
2660 2660 stored = self.db.get('stored_aliases', {} )
2661 2661 if aname in stored:
2662 2662 print "Removing %stored alias",aname
2663 2663 del stored[aname]
2664 2664 self.db['stored_aliases'] = stored
2665 2665
2666 2666
2667 2667 def magic_rehashx(self, parameter_s = ''):
2668 2668 """Update the alias table with all executable files in $PATH.
2669 2669
2670 2670 This version explicitly checks that every entry in $PATH is a file
2671 2671 with execute access (os.X_OK), so it is much slower than %rehash.
2672 2672
2673 2673 Under Windows, it checks executability as a match agains a
2674 2674 '|'-separated string of extensions, stored in the IPython config
2675 2675 variable win_exec_ext. This defaults to 'exe|com|bat'.
2676 2676
2677 2677 This function also resets the root module cache of module completer,
2678 2678 used on slow filesystems.
2679 2679 """
2680 2680
2681 2681
2682 2682 ip = self.api
2683 2683
2684 2684 # for the benefit of module completer in ipy_completers.py
2685 2685 del ip.db['rootmodules']
2686 2686
2687 2687 path = [os.path.abspath(os.path.expanduser(p)) for p in
2688 2688 os.environ.get('PATH','').split(os.pathsep)]
2689 2689 path = filter(os.path.isdir,path)
2690 2690
2691 2691 alias_table = self.shell.alias_table
2692 2692 syscmdlist = []
2693 2693 if os.name == 'posix':
2694 2694 isexec = lambda fname:os.path.isfile(fname) and \
2695 2695 os.access(fname,os.X_OK)
2696 2696 else:
2697 2697
2698 2698 try:
2699 2699 winext = os.environ['pathext'].replace(';','|').replace('.','')
2700 2700 except KeyError:
2701 2701 winext = 'exe|com|bat|py'
2702 2702 if 'py' not in winext:
2703 2703 winext += '|py'
2704 2704 execre = re.compile(r'(.*)\.(%s)$' % winext,re.IGNORECASE)
2705 2705 isexec = lambda fname:os.path.isfile(fname) and execre.match(fname)
2706 2706 savedir = os.getcwd()
2707 2707 try:
2708 2708 # write the whole loop for posix/Windows so we don't have an if in
2709 2709 # the innermost part
2710 2710 if os.name == 'posix':
2711 2711 for pdir in path:
2712 2712 os.chdir(pdir)
2713 2713 for ff in os.listdir(pdir):
2714 2714 if isexec(ff) and ff not in self.shell.no_alias:
2715 2715 # each entry in the alias table must be (N,name),
2716 2716 # where N is the number of positional arguments of the
2717 2717 # alias.
2718 2718 # Dots will be removed from alias names, since ipython
2719 2719 # assumes names with dots to be python code
2720 2720 alias_table[ff.replace('.','')] = (0,ff)
2721 2721 syscmdlist.append(ff)
2722 2722 else:
2723 2723 for pdir in path:
2724 2724 os.chdir(pdir)
2725 2725 for ff in os.listdir(pdir):
2726 2726 base, ext = os.path.splitext(ff)
2727 2727 if isexec(ff) and base.lower() not in self.shell.no_alias:
2728 2728 if ext.lower() == '.exe':
2729 2729 ff = base
2730 2730 alias_table[base.lower().replace('.','')] = (0,ff)
2731 2731 syscmdlist.append(ff)
2732 2732 # Make sure the alias table doesn't contain keywords or builtins
2733 2733 self.shell.alias_table_validate()
2734 2734 # Call again init_auto_alias() so we get 'rm -i' and other
2735 2735 # modified aliases since %rehashx will probably clobber them
2736 2736
2737 2737 # no, we don't want them. if %rehashx clobbers them, good,
2738 2738 # we'll probably get better versions
2739 2739 # self.shell.init_auto_alias()
2740 2740 db = ip.db
2741 2741 db['syscmdlist'] = syscmdlist
2742 2742 finally:
2743 2743 os.chdir(savedir)
2744 2744
2745 2745 def magic_pwd(self, parameter_s = ''):
2746 2746 """Return the current working directory path."""
2747 2747 return os.getcwd()
2748 2748
2749 2749 def magic_cd(self, parameter_s=''):
2750 2750 """Change the current working directory.
2751 2751
2752 2752 This command automatically maintains an internal list of directories
2753 2753 you visit during your IPython session, in the variable _dh. The
2754 2754 command %dhist shows this history nicely formatted. You can also
2755 2755 do 'cd -<tab>' to see directory history conveniently.
2756 2756
2757 2757 Usage:
2758 2758
2759 2759 cd 'dir': changes to directory 'dir'.
2760 2760
2761 2761 cd -: changes to the last visited directory.
2762 2762
2763 2763 cd -<n>: changes to the n-th directory in the directory history.
2764 2764
2765 2765 cd --foo: change to directory that matches 'foo' in history
2766 2766
2767 2767 cd -b <bookmark_name>: jump to a bookmark set by %bookmark
2768 2768 (note: cd <bookmark_name> is enough if there is no
2769 2769 directory <bookmark_name>, but a bookmark with the name exists.)
2770 2770 'cd -b <tab>' allows you to tab-complete bookmark names.
2771 2771
2772 2772 Options:
2773 2773
2774 2774 -q: quiet. Do not print the working directory after the cd command is
2775 2775 executed. By default IPython's cd command does print this directory,
2776 2776 since the default prompts do not display path information.
2777 2777
2778 2778 Note that !cd doesn't work for this purpose because the shell where
2779 2779 !command runs is immediately discarded after executing 'command'."""
2780 2780
2781 2781 parameter_s = parameter_s.strip()
2782 2782 #bkms = self.shell.persist.get("bookmarks",{})
2783 2783
2784 2784 oldcwd = os.getcwd()
2785 2785 numcd = re.match(r'(-)(\d+)$',parameter_s)
2786 2786 # jump in directory history by number
2787 2787 if numcd:
2788 2788 nn = int(numcd.group(2))
2789 2789 try:
2790 2790 ps = self.shell.user_ns['_dh'][nn]
2791 2791 except IndexError:
2792 2792 print 'The requested directory does not exist in history.'
2793 2793 return
2794 2794 else:
2795 2795 opts = {}
2796 2796 elif parameter_s.startswith('--'):
2797 2797 ps = None
2798 2798 fallback = None
2799 2799 pat = parameter_s[2:]
2800 2800 dh = self.shell.user_ns['_dh']
2801 2801 # first search only by basename (last component)
2802 2802 for ent in reversed(dh):
2803 2803 if pat in os.path.basename(ent) and os.path.isdir(ent):
2804 2804 ps = ent
2805 2805 break
2806 2806
2807 2807 if fallback is None and pat in ent and os.path.isdir(ent):
2808 2808 fallback = ent
2809 2809
2810 2810 # if we have no last part match, pick the first full path match
2811 2811 if ps is None:
2812 2812 ps = fallback
2813 2813
2814 2814 if ps is None:
2815 2815 print "No matching entry in directory history"
2816 2816 return
2817 2817 else:
2818 2818 opts = {}
2819 2819
2820 2820
2821 2821 else:
2822 2822 #turn all non-space-escaping backslashes to slashes,
2823 2823 # for c:\windows\directory\names\
2824 2824 parameter_s = re.sub(r'\\(?! )','/', parameter_s)
2825 2825 opts,ps = self.parse_options(parameter_s,'qb',mode='string')
2826 2826 # jump to previous
2827 2827 if ps == '-':
2828 2828 try:
2829 2829 ps = self.shell.user_ns['_dh'][-2]
2830 2830 except IndexError:
2831 2831 raise UsageError('%cd -: No previous directory to change to.')
2832 2832 # jump to bookmark if needed
2833 2833 else:
2834 2834 if not os.path.isdir(ps) or opts.has_key('b'):
2835 2835 bkms = self.db.get('bookmarks', {})
2836 2836
2837 2837 if bkms.has_key(ps):
2838 2838 target = bkms[ps]
2839 2839 print '(bookmark:%s) -> %s' % (ps,target)
2840 2840 ps = target
2841 2841 else:
2842 2842 if opts.has_key('b'):
2843 2843 raise UsageError("Bookmark '%s' not found. "
2844 2844 "Use '%%bookmark -l' to see your bookmarks." % ps)
2845 2845
2846 2846 # at this point ps should point to the target dir
2847 2847 if ps:
2848 2848 try:
2849 2849 os.chdir(os.path.expanduser(ps))
2850 2850 if self.shell.rc.term_title:
2851 2851 #print 'set term title:',self.shell.rc.term_title # dbg
2852 2852 platutils.set_term_title('IPy ' + abbrev_cwd())
2853 2853 except OSError:
2854 2854 print sys.exc_info()[1]
2855 2855 else:
2856 2856 cwd = os.getcwd()
2857 2857 dhist = self.shell.user_ns['_dh']
2858 2858 if oldcwd != cwd:
2859 2859 dhist.append(cwd)
2860 2860 self.db['dhist'] = compress_dhist(dhist)[-100:]
2861 2861
2862 2862 else:
2863 2863 os.chdir(self.shell.home_dir)
2864 2864 if self.shell.rc.term_title:
2865 2865 platutils.set_term_title("IPy ~")
2866 2866 cwd = os.getcwd()
2867 2867 dhist = self.shell.user_ns['_dh']
2868 2868
2869 2869 if oldcwd != cwd:
2870 2870 dhist.append(cwd)
2871 2871 self.db['dhist'] = compress_dhist(dhist)[-100:]
2872 2872 if not 'q' in opts and self.shell.user_ns['_dh']:
2873 2873 print self.shell.user_ns['_dh'][-1]
2874 2874
2875 2875
2876 2876 def magic_env(self, parameter_s=''):
2877 2877 """List environment variables."""
2878 2878
2879 2879 return os.environ.data
2880 2880
2881 2881 def magic_pushd(self, parameter_s=''):
2882 2882 """Place the current dir on stack and change directory.
2883 2883
2884 2884 Usage:\\
2885 2885 %pushd ['dirname']
2886 2886 """
2887 2887
2888 2888 dir_s = self.shell.dir_stack
2889 2889 tgt = os.path.expanduser(parameter_s)
2890 2890 cwd = os.getcwd().replace(self.home_dir,'~')
2891 2891 if tgt:
2892 2892 self.magic_cd(parameter_s)
2893 2893 dir_s.insert(0,cwd)
2894 2894 return self.magic_dirs()
2895 2895
2896 2896 def magic_popd(self, parameter_s=''):
2897 2897 """Change to directory popped off the top of the stack.
2898 2898 """
2899 2899 if not self.shell.dir_stack:
2900 2900 raise UsageError("%popd on empty stack")
2901 2901 top = self.shell.dir_stack.pop(0)
2902 2902 self.magic_cd(top)
2903 2903 print "popd ->",top
2904 2904
2905 2905 def magic_dirs(self, parameter_s=''):
2906 2906 """Return the current directory stack."""
2907 2907
2908 2908 return self.shell.dir_stack
2909 2909
2910 2910 def magic_dhist(self, parameter_s=''):
2911 2911 """Print your history of visited directories.
2912 2912
2913 2913 %dhist -> print full history\\
2914 2914 %dhist n -> print last n entries only\\
2915 2915 %dhist n1 n2 -> print entries between n1 and n2 (n1 not included)\\
2916 2916
2917 2917 This history is automatically maintained by the %cd command, and
2918 2918 always available as the global list variable _dh. You can use %cd -<n>
2919 2919 to go to directory number <n>.
2920 2920
2921 2921 Note that most of time, you should view directory history by entering
2922 2922 cd -<TAB>.
2923 2923
2924 2924 """
2925 2925
2926 2926 dh = self.shell.user_ns['_dh']
2927 2927 if parameter_s:
2928 2928 try:
2929 2929 args = map(int,parameter_s.split())
2930 2930 except:
2931 2931 self.arg_err(Magic.magic_dhist)
2932 2932 return
2933 2933 if len(args) == 1:
2934 2934 ini,fin = max(len(dh)-(args[0]),0),len(dh)
2935 2935 elif len(args) == 2:
2936 2936 ini,fin = args
2937 2937 else:
2938 2938 self.arg_err(Magic.magic_dhist)
2939 2939 return
2940 2940 else:
2941 2941 ini,fin = 0,len(dh)
2942 2942 nlprint(dh,
2943 2943 header = 'Directory history (kept in _dh)',
2944 2944 start=ini,stop=fin)
2945 2945
2946 2946 @testdec.skip_doctest
2947 2947 def magic_sc(self, parameter_s=''):
2948 2948 """Shell capture - execute a shell command and capture its output.
2949 2949
2950 2950 DEPRECATED. Suboptimal, retained for backwards compatibility.
2951 2951
2952 2952 You should use the form 'var = !command' instead. Example:
2953 2953
2954 2954 "%sc -l myfiles = ls ~" should now be written as
2955 2955
2956 2956 "myfiles = !ls ~"
2957 2957
2958 2958 myfiles.s, myfiles.l and myfiles.n still apply as documented
2959 2959 below.
2960 2960
2961 2961 --
2962 2962 %sc [options] varname=command
2963 2963
2964 2964 IPython will run the given command using commands.getoutput(), and
2965 2965 will then update the user's interactive namespace with a variable
2966 2966 called varname, containing the value of the call. Your command can
2967 2967 contain shell wildcards, pipes, etc.
2968 2968
2969 2969 The '=' sign in the syntax is mandatory, and the variable name you
2970 2970 supply must follow Python's standard conventions for valid names.
2971 2971
2972 2972 (A special format without variable name exists for internal use)
2973 2973
2974 2974 Options:
2975 2975
2976 2976 -l: list output. Split the output on newlines into a list before
2977 2977 assigning it to the given variable. By default the output is stored
2978 2978 as a single string.
2979 2979
2980 2980 -v: verbose. Print the contents of the variable.
2981 2981
2982 2982 In most cases you should not need to split as a list, because the
2983 2983 returned value is a special type of string which can automatically
2984 2984 provide its contents either as a list (split on newlines) or as a
2985 2985 space-separated string. These are convenient, respectively, either
2986 2986 for sequential processing or to be passed to a shell command.
2987 2987
2988 2988 For example:
2989 2989
2990 2990 # all-random
2991 2991
2992 2992 # Capture into variable a
2993 2993 In [1]: sc a=ls *py
2994 2994
2995 2995 # a is a string with embedded newlines
2996 2996 In [2]: a
2997 2997 Out[2]: 'setup.py\\nwin32_manual_post_install.py'
2998 2998
2999 2999 # which can be seen as a list:
3000 3000 In [3]: a.l
3001 3001 Out[3]: ['setup.py', 'win32_manual_post_install.py']
3002 3002
3003 3003 # or as a whitespace-separated string:
3004 3004 In [4]: a.s
3005 3005 Out[4]: 'setup.py win32_manual_post_install.py'
3006 3006
3007 3007 # a.s is useful to pass as a single command line:
3008 3008 In [5]: !wc -l $a.s
3009 3009 146 setup.py
3010 3010 130 win32_manual_post_install.py
3011 3011 276 total
3012 3012
3013 3013 # while the list form is useful to loop over:
3014 3014 In [6]: for f in a.l:
3015 3015 ...: !wc -l $f
3016 3016 ...:
3017 3017 146 setup.py
3018 3018 130 win32_manual_post_install.py
3019 3019
3020 3020 Similiarly, the lists returned by the -l option are also special, in
3021 3021 the sense that you can equally invoke the .s attribute on them to
3022 3022 automatically get a whitespace-separated string from their contents:
3023 3023
3024 3024 In [7]: sc -l b=ls *py
3025 3025
3026 3026 In [8]: b
3027 3027 Out[8]: ['setup.py', 'win32_manual_post_install.py']
3028 3028
3029 3029 In [9]: b.s
3030 3030 Out[9]: 'setup.py win32_manual_post_install.py'
3031 3031
3032 3032 In summary, both the lists and strings used for ouptut capture have
3033 3033 the following special attributes:
3034 3034
3035 3035 .l (or .list) : value as list.
3036 3036 .n (or .nlstr): value as newline-separated string.
3037 3037 .s (or .spstr): value as space-separated string.
3038 3038 """
3039 3039
3040 3040 opts,args = self.parse_options(parameter_s,'lv')
3041 3041 # Try to get a variable name and command to run
3042 3042 try:
3043 3043 # the variable name must be obtained from the parse_options
3044 3044 # output, which uses shlex.split to strip options out.
3045 3045 var,_ = args.split('=',1)
3046 3046 var = var.strip()
3047 3047 # But the the command has to be extracted from the original input
3048 3048 # parameter_s, not on what parse_options returns, to avoid the
3049 3049 # quote stripping which shlex.split performs on it.
3050 3050 _,cmd = parameter_s.split('=',1)
3051 3051 except ValueError:
3052 3052 var,cmd = '',''
3053 3053 # If all looks ok, proceed
3054 3054 out,err = self.shell.getoutputerror(cmd)
3055 3055 if err:
3056 3056 print >> Term.cerr,err
3057 3057 if opts.has_key('l'):
3058 3058 out = SList(out.split('\n'))
3059 3059 else:
3060 3060 out = LSString(out)
3061 3061 if opts.has_key('v'):
3062 3062 print '%s ==\n%s' % (var,pformat(out))
3063 3063 if var:
3064 3064 self.shell.user_ns.update({var:out})
3065 3065 else:
3066 3066 return out
3067 3067
3068 3068 def magic_sx(self, parameter_s=''):
3069 3069 """Shell execute - run a shell command and capture its output.
3070 3070
3071 3071 %sx command
3072 3072
3073 3073 IPython will run the given command using commands.getoutput(), and
3074 3074 return the result formatted as a list (split on '\\n'). Since the
3075 3075 output is _returned_, it will be stored in ipython's regular output
3076 3076 cache Out[N] and in the '_N' automatic variables.
3077 3077
3078 3078 Notes:
3079 3079
3080 3080 1) If an input line begins with '!!', then %sx is automatically
3081 3081 invoked. That is, while:
3082 3082 !ls
3083 3083 causes ipython to simply issue system('ls'), typing
3084 3084 !!ls
3085 3085 is a shorthand equivalent to:
3086 3086 %sx ls
3087 3087
3088 3088 2) %sx differs from %sc in that %sx automatically splits into a list,
3089 3089 like '%sc -l'. The reason for this is to make it as easy as possible
3090 3090 to process line-oriented shell output via further python commands.
3091 3091 %sc is meant to provide much finer control, but requires more
3092 3092 typing.
3093 3093
3094 3094 3) Just like %sc -l, this is a list with special attributes:
3095 3095
3096 3096 .l (or .list) : value as list.
3097 3097 .n (or .nlstr): value as newline-separated string.
3098 3098 .s (or .spstr): value as whitespace-separated string.
3099 3099
3100 3100 This is very useful when trying to use such lists as arguments to
3101 3101 system commands."""
3102 3102
3103 3103 if parameter_s:
3104 3104 out,err = self.shell.getoutputerror(parameter_s)
3105 3105 if err:
3106 3106 print >> Term.cerr,err
3107 3107 return SList(out.split('\n'))
3108 3108
3109 3109 def magic_bg(self, parameter_s=''):
3110 3110 """Run a job in the background, in a separate thread.
3111 3111
3112 3112 For example,
3113 3113
3114 3114 %bg myfunc(x,y,z=1)
3115 3115
3116 3116 will execute 'myfunc(x,y,z=1)' in a background thread. As soon as the
3117 3117 execution starts, a message will be printed indicating the job
3118 3118 number. If your job number is 5, you can use
3119 3119
3120 3120 myvar = jobs.result(5) or myvar = jobs[5].result
3121 3121
3122 3122 to assign this result to variable 'myvar'.
3123 3123
3124 3124 IPython has a job manager, accessible via the 'jobs' object. You can
3125 3125 type jobs? to get more information about it, and use jobs.<TAB> to see
3126 3126 its attributes. All attributes not starting with an underscore are
3127 3127 meant for public use.
3128 3128
3129 3129 In particular, look at the jobs.new() method, which is used to create
3130 3130 new jobs. This magic %bg function is just a convenience wrapper
3131 3131 around jobs.new(), for expression-based jobs. If you want to create a
3132 3132 new job with an explicit function object and arguments, you must call
3133 3133 jobs.new() directly.
3134 3134
3135 3135 The jobs.new docstring also describes in detail several important
3136 3136 caveats associated with a thread-based model for background job
3137 3137 execution. Type jobs.new? for details.
3138 3138
3139 3139 You can check the status of all jobs with jobs.status().
3140 3140
3141 3141 The jobs variable is set by IPython into the Python builtin namespace.
3142 3142 If you ever declare a variable named 'jobs', you will shadow this
3143 3143 name. You can either delete your global jobs variable to regain
3144 3144 access to the job manager, or make a new name and assign it manually
3145 3145 to the manager (stored in IPython's namespace). For example, to
3146 3146 assign the job manager to the Jobs name, use:
3147 3147
3148 3148 Jobs = __builtins__.jobs"""
3149 3149
3150 3150 self.shell.jobs.new(parameter_s,self.shell.user_ns)
3151 3151
3152 3152 def magic_r(self, parameter_s=''):
3153 3153 """Repeat previous input.
3154 3154
3155 3155 Note: Consider using the more powerfull %rep instead!
3156 3156
3157 3157 If given an argument, repeats the previous command which starts with
3158 3158 the same string, otherwise it just repeats the previous input.
3159 3159
3160 3160 Shell escaped commands (with ! as first character) are not recognized
3161 3161 by this system, only pure python code and magic commands.
3162 3162 """
3163 3163
3164 3164 start = parameter_s.strip()
3165 3165 esc_magic = self.shell.ESC_MAGIC
3166 3166 # Identify magic commands even if automagic is on (which means
3167 3167 # the in-memory version is different from that typed by the user).
3168 3168 if self.shell.rc.automagic:
3169 3169 start_magic = esc_magic+start
3170 3170 else:
3171 3171 start_magic = start
3172 3172 # Look through the input history in reverse
3173 3173 for n in range(len(self.shell.input_hist)-2,0,-1):
3174 3174 input = self.shell.input_hist[n]
3175 3175 # skip plain 'r' lines so we don't recurse to infinity
3176 3176 if input != '_ip.magic("r")\n' and \
3177 3177 (input.startswith(start) or input.startswith(start_magic)):
3178 3178 #print 'match',`input` # dbg
3179 3179 print 'Executing:',input,
3180 3180 self.shell.runlines(input)
3181 3181 return
3182 3182 print 'No previous input matching `%s` found.' % start
3183 3183
3184 3184
3185 3185 def magic_bookmark(self, parameter_s=''):
3186 3186 """Manage IPython's bookmark system.
3187 3187
3188 3188 %bookmark <name> - set bookmark to current dir
3189 3189 %bookmark <name> <dir> - set bookmark to <dir>
3190 3190 %bookmark -l - list all bookmarks
3191 3191 %bookmark -d <name> - remove bookmark
3192 3192 %bookmark -r - remove all bookmarks
3193 3193
3194 3194 You can later on access a bookmarked folder with:
3195 3195 %cd -b <name>
3196 3196 or simply '%cd <name>' if there is no directory called <name> AND
3197 3197 there is such a bookmark defined.
3198 3198
3199 3199 Your bookmarks persist through IPython sessions, but they are
3200 3200 associated with each profile."""
3201 3201
3202 3202 opts,args = self.parse_options(parameter_s,'drl',mode='list')
3203 3203 if len(args) > 2:
3204 3204 raise UsageError("%bookmark: too many arguments")
3205 3205
3206 3206 bkms = self.db.get('bookmarks',{})
3207 3207
3208 3208 if opts.has_key('d'):
3209 3209 try:
3210 3210 todel = args[0]
3211 3211 except IndexError:
3212 3212 raise UsageError(
3213 3213 "%bookmark -d: must provide a bookmark to delete")
3214 3214 else:
3215 3215 try:
3216 3216 del bkms[todel]
3217 3217 except KeyError:
3218 3218 raise UsageError(
3219 3219 "%%bookmark -d: Can't delete bookmark '%s'" % todel)
3220 3220
3221 3221 elif opts.has_key('r'):
3222 3222 bkms = {}
3223 3223 elif opts.has_key('l'):
3224 3224 bks = bkms.keys()
3225 3225 bks.sort()
3226 3226 if bks:
3227 3227 size = max(map(len,bks))
3228 3228 else:
3229 3229 size = 0
3230 3230 fmt = '%-'+str(size)+'s -> %s'
3231 3231 print 'Current bookmarks:'
3232 3232 for bk in bks:
3233 3233 print fmt % (bk,bkms[bk])
3234 3234 else:
3235 3235 if not args:
3236 3236 raise UsageError("%bookmark: You must specify the bookmark name")
3237 3237 elif len(args)==1:
3238 3238 bkms[args[0]] = os.getcwd()
3239 3239 elif len(args)==2:
3240 3240 bkms[args[0]] = args[1]
3241 3241 self.db['bookmarks'] = bkms
3242 3242
3243 3243 def magic_pycat(self, parameter_s=''):
3244 3244 """Show a syntax-highlighted file through a pager.
3245 3245
3246 3246 This magic is similar to the cat utility, but it will assume the file
3247 3247 to be Python source and will show it with syntax highlighting. """
3248 3248
3249 3249 try:
3250 3250 filename = get_py_filename(parameter_s)
3251 3251 cont = file_read(filename)
3252 3252 except IOError:
3253 3253 try:
3254 3254 cont = eval(parameter_s,self.user_ns)
3255 3255 except NameError:
3256 3256 cont = None
3257 3257 if cont is None:
3258 3258 print "Error: no such file or variable"
3259 3259 return
3260 3260
3261 3261 page(self.shell.pycolorize(cont),
3262 3262 screen_lines=self.shell.rc.screen_length)
3263 3263
3264 def _rerun_pasted(self):
3265 """ Rerun a previously pasted command.
3266 """
3267 b = self.user_ns.get('pasted_block', None)
3268 if b is None:
3269 raise UsageError('No previous pasted block available')
3270 print "Re-executing '%s...' (%d chars)"% (b.split('\n',1)[0], len(b))
3271 exec b in self.user_ns
3272
3273 def _get_pasted_lines(self, sentinel):
3274 """ Yield pasted lines until the user enters the given sentinel value.
3275 """
3276 from IPython import iplib
3277 print "Pasting code; enter '%s' alone on the line to stop." % sentinel
3278 while True:
3279 l = iplib.raw_input_original(':')
3280 if l == sentinel:
3281 return
3282 else:
3283 yield l
3284
3285 def _strip_pasted_lines_for_code(self, raw_lines):
3286 """ Strip non-code parts of a sequence of lines to return a block of
3287 code.
3288 """
3289 # Regular expressions that declare text we strip from the input:
3290 strip_re = [r'^\s*In \[\d+\]:', # IPython input prompt
3291 r'^\s*(\s?>)+', # Python input prompt
3292 r'^\s*\.{3,}', # Continuation prompts
3293 r'^\++',
3294 ]
3295
3296 strip_from_start = map(re.compile,strip_re)
3297
3298 lines = []
3299 for l in raw_lines:
3300 for pat in strip_from_start:
3301 l = pat.sub('',l)
3302 lines.append(l)
3303
3304 block = "\n".join(lines) + '\n'
3305 #print "block:\n",block
3306 return block
3307
3308 def _execute_block(self, block, par):
3309 """ Execute a block, or store it in a variable, per the user's request.
3310 """
3311 if not par:
3312 b = textwrap.dedent(block)
3313 self.user_ns['pasted_block'] = b
3314 exec b in self.user_ns
3315 else:
3316 self.user_ns[par] = SList(block.splitlines())
3317 print "Block assigned to '%s'" % par
3318
3264 3319 def magic_cpaste(self, parameter_s=''):
3265 3320 """Allows you to paste & execute a pre-formatted code block from clipboard.
3266 3321
3267 3322 You must terminate the block with '--' (two minus-signs) alone on the
3268 3323 line. You can also provide your own sentinel with '%paste -s %%' ('%%'
3269 3324 is the new sentinel for this operation)
3270 3325
3271 3326 The block is dedented prior to execution to enable execution of method
3272 3327 definitions. '>' and '+' characters at the beginning of a line are
3273 3328 ignored, to allow pasting directly from e-mails, diff files and
3274 3329 doctests (the '...' continuation prompt is also stripped). The
3275 3330 executed block is also assigned to variable named 'pasted_block' for
3276 3331 later editing with '%edit pasted_block'.
3277 3332
3278 3333 You can also pass a variable name as an argument, e.g. '%cpaste foo'.
3279 3334 This assigns the pasted block to variable 'foo' as string, without
3280 3335 dedenting or executing it (preceding >>> and + is still stripped)
3281 3336
3282 3337 '%cpaste -r' re-executes the block previously entered by cpaste.
3283 3338
3284 3339 Do not be alarmed by garbled output on Windows (it's a readline bug).
3285 3340 Just press enter and type -- (and press enter again) and the block
3286 3341 will be what was just pasted.
3287 3342
3288 3343 IPython statements (magics, shell escapes) are not supported (yet).
3344
3345 See also
3346 --------
3347 %paste: automatically pull code from clipboard.
3289 3348 """
3349
3290 3350 opts,args = self.parse_options(parameter_s,'rs:',mode='string')
3291 3351 par = args.strip()
3292 3352 if opts.has_key('r'):
3293 b = self.user_ns.get('pasted_block', None)
3294 if b is None:
3295 raise UsageError('No previous pasted block available')
3296 print "Re-executing '%s...' (%d chars)"% (b.split('\n',1)[0], len(b))
3297 exec b in self.user_ns
3353 self._rerun_pasted()
3298 3354 return
3299 3355
3300 3356 sentinel = opts.get('s','--')
3301 3357
3302 # Regular expressions that declare text we strip from the input:
3303 strip_re = [r'^\s*In \[\d+\]:', # IPython input prompt
3304 r'^\s*(\s?>)+', # Python input prompt
3305 r'^\s*\.{3,}', # Continuation prompts
3306 r'^\++',
3307 ]
3358 block = self._strip_pasted_lines_for_code(
3359 self._get_pasted_lines(sentinel))
3308 3360
3309 strip_from_start = map(re.compile,strip_re)
3361 self._execute_block(block, par)
3362
3363 def magic_paste(self, parameter_s=''):
3364 """Allows you to paste & execute a pre-formatted code block from clipboard.
3310 3365
3311 from IPython import iplib
3312 lines = []
3313 print "Pasting code; enter '%s' alone on the line to stop." % sentinel
3314 while 1:
3315 l = iplib.raw_input_original(':')
3316 if l ==sentinel:
3317 break
3318
3319 for pat in strip_from_start:
3320 l = pat.sub('',l)
3321 lines.append(l)
3322
3323 block = "\n".join(lines) + '\n'
3324 #print "block:\n",block
3325 if not par:
3326 b = textwrap.dedent(block)
3327 self.user_ns['pasted_block'] = b
3328 exec b in self.user_ns
3329 else:
3330 self.user_ns[par] = SList(block.splitlines())
3331 print "Block assigned to '%s'" % par
3332
3366 The text is pulled directly from the clipboard without user
3367 intervention.
3368
3369 The block is dedented prior to execution to enable execution of method
3370 definitions. '>' and '+' characters at the beginning of a line are
3371 ignored, to allow pasting directly from e-mails, diff files and
3372 doctests (the '...' continuation prompt is also stripped). The
3373 executed block is also assigned to variable named 'pasted_block' for
3374 later editing with '%edit pasted_block'.
3375
3376 You can also pass a variable name as an argument, e.g. '%paste foo'.
3377 This assigns the pasted block to variable 'foo' as string, without
3378 dedenting or executing it (preceding >>> and + is still stripped)
3379
3380 '%paste -r' re-executes the block previously entered by cpaste.
3381
3382 IPython statements (magics, shell escapes) are not supported (yet).
3383
3384 See also
3385 --------
3386 %cpaste: manually paste code into terminal until you mark its end.
3387 """
3388 opts,args = self.parse_options(parameter_s,'r:',mode='string')
3389 par = args.strip()
3390 if opts.has_key('r'):
3391 self._rerun_pasted()
3392 return
3393
3394 text = self.shell.hooks.clipboard_get()
3395 block = self._strip_pasted_lines_for_code(text.splitlines())
3396 self._execute_block(block, par)
3397
3333 3398 def magic_quickref(self,arg):
3334 3399 """ Show a quick reference sheet """
3335 3400 import IPython.usage
3336 3401 qr = IPython.usage.quick_reference + self.magic_magic('-brief')
3337 3402
3338 3403 page(qr)
3339 3404
3340 3405 def magic_upgrade(self,arg):
3341 3406 """ Upgrade your IPython installation
3342 3407
3343 3408 This will copy the config files that don't yet exist in your
3344 3409 ipython dir from the system config dir. Use this after upgrading
3345 3410 IPython if you don't wish to delete your .ipython dir.
3346 3411
3347 3412 Call with -nolegacy to get rid of ipythonrc* files (recommended for
3348 3413 new users)
3349 3414
3350 3415 """
3351 3416 ip = self.getapi()
3352 3417 ipinstallation = path(IPython.__file__).dirname()
3353 3418 upgrade_script = '%s "%s"' % (sys.executable,ipinstallation / 'upgrade_dir.py')
3354 3419 src_config = ipinstallation / 'UserConfig'
3355 3420 userdir = path(ip.options.ipythondir)
3356 3421 cmd = '%s "%s" "%s"' % (upgrade_script, src_config, userdir)
3357 3422 print ">",cmd
3358 3423 shell(cmd)
3359 3424 if arg == '-nolegacy':
3360 3425 legacy = userdir.files('ipythonrc*')
3361 3426 print "Nuking legacy files:",legacy
3362 3427
3363 3428 [p.remove() for p in legacy]
3364 3429 suffix = (sys.platform == 'win32' and '.ini' or '')
3365 3430 (userdir / ('ipythonrc' + suffix)).write_text('# Empty, see ipy_user_conf.py\n')
3366 3431
3367 3432
3368 3433 def magic_doctest_mode(self,parameter_s=''):
3369 3434 """Toggle doctest mode on and off.
3370 3435
3371 3436 This mode allows you to toggle the prompt behavior between normal
3372 3437 IPython prompts and ones that are as similar to the default IPython
3373 3438 interpreter as possible.
3374 3439
3375 3440 It also supports the pasting of code snippets that have leading '>>>'
3376 3441 and '...' prompts in them. This means that you can paste doctests from
3377 3442 files or docstrings (even if they have leading whitespace), and the
3378 3443 code will execute correctly. You can then use '%history -tn' to see
3379 3444 the translated history without line numbers; this will give you the
3380 3445 input after removal of all the leading prompts and whitespace, which
3381 3446 can be pasted back into an editor.
3382 3447
3383 3448 With these features, you can switch into this mode easily whenever you
3384 3449 need to do testing and changes to doctests, without having to leave
3385 3450 your existing IPython session.
3386 3451 """
3387 3452
3388 3453 # XXX - Fix this to have cleaner activate/deactivate calls.
3389 3454 from IPython.Extensions import InterpreterPasteInput as ipaste
3390 3455 from IPython.ipstruct import Struct
3391 3456
3392 3457 # Shorthands
3393 3458 shell = self.shell
3394 3459 oc = shell.outputcache
3395 3460 rc = shell.rc
3396 3461 meta = shell.meta
3397 3462 # dstore is a data store kept in the instance metadata bag to track any
3398 3463 # changes we make, so we can undo them later.
3399 3464 dstore = meta.setdefault('doctest_mode',Struct())
3400 3465 save_dstore = dstore.setdefault
3401 3466
3402 3467 # save a few values we'll need to recover later
3403 3468 mode = save_dstore('mode',False)
3404 3469 save_dstore('rc_pprint',rc.pprint)
3405 3470 save_dstore('xmode',shell.InteractiveTB.mode)
3406 3471 save_dstore('rc_separate_out',rc.separate_out)
3407 3472 save_dstore('rc_separate_out2',rc.separate_out2)
3408 3473 save_dstore('rc_prompts_pad_left',rc.prompts_pad_left)
3409 3474 save_dstore('rc_separate_in',rc.separate_in)
3410 3475
3411 3476 if mode == False:
3412 3477 # turn on
3413 3478 ipaste.activate_prefilter()
3414 3479
3415 3480 oc.prompt1.p_template = '>>> '
3416 3481 oc.prompt2.p_template = '... '
3417 3482 oc.prompt_out.p_template = ''
3418 3483
3419 3484 # Prompt separators like plain python
3420 3485 oc.input_sep = oc.prompt1.sep = ''
3421 3486 oc.output_sep = ''
3422 3487 oc.output_sep2 = ''
3423 3488
3424 3489 oc.prompt1.pad_left = oc.prompt2.pad_left = \
3425 3490 oc.prompt_out.pad_left = False
3426 3491
3427 3492 rc.pprint = False
3428 3493
3429 3494 shell.magic_xmode('Plain')
3430 3495
3431 3496 else:
3432 3497 # turn off
3433 3498 ipaste.deactivate_prefilter()
3434 3499
3435 3500 oc.prompt1.p_template = rc.prompt_in1
3436 3501 oc.prompt2.p_template = rc.prompt_in2
3437 3502 oc.prompt_out.p_template = rc.prompt_out
3438 3503
3439 3504 oc.input_sep = oc.prompt1.sep = dstore.rc_separate_in
3440 3505
3441 3506 oc.output_sep = dstore.rc_separate_out
3442 3507 oc.output_sep2 = dstore.rc_separate_out2
3443 3508
3444 3509 oc.prompt1.pad_left = oc.prompt2.pad_left = \
3445 3510 oc.prompt_out.pad_left = dstore.rc_prompts_pad_left
3446 3511
3447 3512 rc.pprint = dstore.rc_pprint
3448 3513
3449 3514 shell.magic_xmode(dstore.xmode)
3450 3515
3451 3516 # Store new mode and inform
3452 3517 dstore.mode = bool(1-int(mode))
3453 3518 print 'Doctest mode is:',
3454 3519 print ['OFF','ON'][dstore.mode]
3455 3520
3456 3521 # end Magic
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@@ -1,247 +1,264 b''
1 1 """hooks for IPython.
2 2
3 3 In Python, it is possible to overwrite any method of any object if you really
4 4 want to. But IPython exposes a few 'hooks', methods which are _designed_ to
5 5 be overwritten by users for customization purposes. This module defines the
6 6 default versions of all such hooks, which get used by IPython if not
7 7 overridden by the user.
8 8
9 9 hooks are simple functions, but they should be declared with 'self' as their
10 10 first argument, because when activated they are registered into IPython as
11 11 instance methods. The self argument will be the IPython running instance
12 12 itself, so hooks have full access to the entire IPython object.
13 13
14 14 If you wish to define a new hook and activate it, you need to put the
15 15 necessary code into a python file which can be either imported or execfile()'d
16 16 from within your ipythonrc configuration.
17 17
18 18 For example, suppose that you have a module called 'myiphooks' in your
19 19 PYTHONPATH, which contains the following definition:
20 20
21 21 import os
22 22 import IPython.ipapi
23 23 ip = IPython.ipapi.get()
24 24
25 25 def calljed(self,filename, linenum):
26 26 "My editor hook calls the jed editor directly."
27 27 print "Calling my own editor, jed ..."
28 28 if os.system('jed +%d %s' % (linenum,filename)) != 0:
29 29 raise ipapi.TryNext()
30 30
31 31 ip.set_hook('editor', calljed)
32 32
33 33 You can then enable the functionality by doing 'import myiphooks'
34 34 somewhere in your configuration files or ipython command line.
35 35 """
36 36
37 37 #*****************************************************************************
38 38 # Copyright (C) 2005 Fernando Perez. <fperez@colorado.edu>
39 39 #
40 40 # Distributed under the terms of the BSD License. The full license is in
41 41 # the file COPYING, distributed as part of this software.
42 42 #*****************************************************************************
43 43
44 44 from IPython import ipapi
45 45
46 46 import os,bisect
47 import sys
47 48 from genutils import Term,shell
48 49 from pprint import PrettyPrinter
49 50
50 51 # List here all the default hooks. For now it's just the editor functions
51 52 # but over time we'll move here all the public API for user-accessible things.
52 53 # vds: >>
53 54 __all__ = ['editor', 'fix_error_editor', 'synchronize_with_editor', 'result_display',
54 55 'input_prefilter', 'shutdown_hook', 'late_startup_hook',
55 56 'generate_prompt', 'generate_output_prompt','shell_hook',
56 'show_in_pager','pre_prompt_hook', 'pre_runcode_hook']
57 'show_in_pager','pre_prompt_hook', 'pre_runcode_hook',
58 'clipboard_get']
57 59 # vds: <<
58 60
59 61 pformat = PrettyPrinter().pformat
60 62
61 63 def editor(self,filename, linenum=None):
62 64 """Open the default editor at the given filename and linenumber.
63 65
64 66 This is IPython's default editor hook, you can use it as an example to
65 67 write your own modified one. To set your own editor function as the
66 68 new editor hook, call ip.set_hook('editor',yourfunc)."""
67 69
68 70 # IPython configures a default editor at startup by reading $EDITOR from
69 71 # the environment, and falling back on vi (unix) or notepad (win32).
70 72 editor = self.rc.editor
71 73
72 74 # marker for at which line to open the file (for existing objects)
73 75 if linenum is None or editor=='notepad':
74 76 linemark = ''
75 77 else:
76 78 linemark = '+%d' % int(linenum)
77 79
78 80 # Enclose in quotes if necessary and legal
79 81 if ' ' in editor and os.path.isfile(editor) and editor[0] != '"':
80 82 editor = '"%s"' % editor
81 83
82 84 # Call the actual editor
83 85 if os.system('%s %s %s' % (editor,linemark,filename)) != 0:
84 86 raise ipapi.TryNext()
85 87
86 88 import tempfile
87 89 def fix_error_editor(self,filename,linenum,column,msg):
88 90 """Open the editor at the given filename, linenumber, column and
89 91 show an error message. This is used for correcting syntax errors.
90 92 The current implementation only has special support for the VIM editor,
91 93 and falls back on the 'editor' hook if VIM is not used.
92 94
93 95 Call ip.set_hook('fix_error_editor',youfunc) to use your own function,
94 96 """
95 97 def vim_quickfix_file():
96 98 t = tempfile.NamedTemporaryFile()
97 99 t.write('%s:%d:%d:%s\n' % (filename,linenum,column,msg))
98 100 t.flush()
99 101 return t
100 102 if os.path.basename(self.rc.editor) != 'vim':
101 103 self.hooks.editor(filename,linenum)
102 104 return
103 105 t = vim_quickfix_file()
104 106 try:
105 107 if os.system('vim --cmd "set errorformat=%f:%l:%c:%m" -q ' + t.name):
106 108 raise ipapi.TryNext()
107 109 finally:
108 110 t.close()
109 111
110 112 # vds: >>
111 113 def synchronize_with_editor(self, filename, linenum, column):
112 114 pass
113 115 # vds: <<
114 116
115 117 class CommandChainDispatcher:
116 118 """ Dispatch calls to a chain of commands until some func can handle it
117 119
118 120 Usage: instantiate, execute "add" to add commands (with optional
119 121 priority), execute normally via f() calling mechanism.
120 122
121 123 """
122 124 def __init__(self,commands=None):
123 125 if commands is None:
124 126 self.chain = []
125 127 else:
126 128 self.chain = commands
127 129
128 130
129 131 def __call__(self,*args, **kw):
130 132 """ Command chain is called just like normal func.
131 133
132 134 This will call all funcs in chain with the same args as were given to this
133 135 function, and return the result of first func that didn't raise
134 136 TryNext """
135 137
136 138 for prio,cmd in self.chain:
137 139 #print "prio",prio,"cmd",cmd #dbg
138 140 try:
139 141 ret = cmd(*args, **kw)
140 142 return ret
141 143 except ipapi.TryNext, exc:
142 144 if exc.args or exc.kwargs:
143 145 args = exc.args
144 146 kw = exc.kwargs
145 147 # if no function will accept it, raise TryNext up to the caller
146 148 raise ipapi.TryNext
147 149
148 150 def __str__(self):
149 151 return str(self.chain)
150 152
151 153 def add(self, func, priority=0):
152 154 """ Add a func to the cmd chain with given priority """
153 155 bisect.insort(self.chain,(priority,func))
154 156
155 157 def __iter__(self):
156 158 """ Return all objects in chain.
157 159
158 160 Handy if the objects are not callable.
159 161 """
160 162 return iter(self.chain)
161 163
162 164 def result_display(self,arg):
163 165 """ Default display hook.
164 166
165 167 Called for displaying the result to the user.
166 168 """
167 169
168 170 if self.rc.pprint:
169 171 out = pformat(arg)
170 172 if '\n' in out:
171 173 # So that multi-line strings line up with the left column of
172 174 # the screen, instead of having the output prompt mess up
173 175 # their first line.
174 176 Term.cout.write('\n')
175 177 print >>Term.cout, out
176 178 else:
177 179 # By default, the interactive prompt uses repr() to display results,
178 180 # so we should honor this. Users who'd rather use a different
179 181 # mechanism can easily override this hook.
180 182 print >>Term.cout, repr(arg)
181 183 # the default display hook doesn't manipulate the value to put in history
182 184 return None
183 185
184 186 def input_prefilter(self,line):
185 187 """ Default input prefilter
186 188
187 189 This returns the line as unchanged, so that the interpreter
188 190 knows that nothing was done and proceeds with "classic" prefiltering
189 191 (%magics, !shell commands etc.).
190 192
191 193 Note that leading whitespace is not passed to this hook. Prefilter
192 194 can't alter indentation.
193 195
194 196 """
195 197 #print "attempt to rewrite",line #dbg
196 198 return line
197 199
198 200 def shutdown_hook(self):
199 201 """ default shutdown hook
200 202
201 203 Typically, shotdown hooks should raise TryNext so all shutdown ops are done
202 204 """
203 205
204 206 #print "default shutdown hook ok" # dbg
205 207 return
206 208
207 209 def late_startup_hook(self):
208 210 """ Executed after ipython has been constructed and configured
209 211
210 212 """
211 213 #print "default startup hook ok" # dbg
212 214
213 215 def generate_prompt(self, is_continuation):
214 216 """ calculate and return a string with the prompt to display """
215 217 ip = self.api
216 218 if is_continuation:
217 219 return str(ip.IP.outputcache.prompt2)
218 220 return str(ip.IP.outputcache.prompt1)
219 221
220 222 def generate_output_prompt(self):
221 223 ip = self.api
222 224 return str(ip.IP.outputcache.prompt_out)
223 225
224 226 def shell_hook(self,cmd):
225 227 """ Run system/shell command a'la os.system() """
226 228
227 229 shell(cmd, header=self.rc.system_header, verbose=self.rc.system_verbose)
228 230
229 231 def show_in_pager(self,s):
230 232 """ Run a string through pager """
231 233 # raising TryNext here will use the default paging functionality
232 234 raise ipapi.TryNext
233 235
234 236 def pre_prompt_hook(self):
235 237 """ Run before displaying the next prompt
236 238
237 239 Use this e.g. to display output from asynchronous operations (in order
238 240 to not mess up text entry)
239 241 """
240 242
241 243 return None
242 244
243 245 def pre_runcode_hook(self):
244 246 """ Executed before running the (prefiltered) code in IPython """
245 247 return None
246
247 248
249 def clipboard_get(self):
250 """ Get text from the clipboard.
251 """
252 from IPython.clipboard import (osx_clipboard_get, tkinter_clipboard_get,
253 win32_clipboard_get)
254 if sys.platform == 'win32':
255 chain = [win32_clipboard_get, tkinter_clipboard_get]
256 elif sys.platform == 'darwin':
257 chain = [osx_clipboard_get, tkinter_clipboard_get]
258 else:
259 chain = [tkinter_clipboard_get]
260 dispatcher = CommandChainDispatcher()
261 for func in chain:
262 dispatcher.add(func)
263 text = dispatcher()
264 return text
Show file before | Show file after | Hide comments
@@ -1,254 +1,290 b''
1 1 """Tests for various magic functions.
2 2
3 3 Needs to be run by nose (to make ipython session available).
4 4 """
5 5
6 6 import os
7 7 import sys
8 8 import tempfile
9 9 import types
10 10
11 11 import nose.tools as nt
12 12
13 13 from IPython.platutils import find_cmd, get_long_path_name
14 14 from IPython.testing import decorators as dec
15 15 from IPython.testing import tools as tt
16 16
17 17 #-----------------------------------------------------------------------------
18 18 # Test functions begin
19 19
20 20 def test_rehashx():
21 21 # clear up everything
22 22 _ip.IP.alias_table.clear()
23 23 del _ip.db['syscmdlist']
24 24
25 25 _ip.magic('rehashx')
26 26 # Practically ALL ipython development systems will have more than 10 aliases
27 27
28 28 yield (nt.assert_true, len(_ip.IP.alias_table) > 10)
29 29 for key, val in _ip.IP.alias_table.items():
30 30 # we must strip dots from alias names
31 31 nt.assert_true('.' not in key)
32 32
33 33 # rehashx must fill up syscmdlist
34 34 scoms = _ip.db['syscmdlist']
35 35 yield (nt.assert_true, len(scoms) > 10)
36 36
37 37
38 38 def doctest_hist_f():
39 39 """Test %hist -f with temporary filename.
40 40
41 41 In [9]: import tempfile
42 42
43 43 In [10]: tfile = tempfile.mktemp('.py','tmp-ipython-')
44 44
45 45 In [11]: %hist -n -f $tfile 3
46 46
47 47 """
48 48
49 49
50 50 def doctest_hist_r():
51 51 """Test %hist -r
52 52
53 53 XXX - This test is not recording the output correctly. Not sure why...
54 54
55 55 In [20]: 'hist' in _ip.IP.lsmagic()
56 56 Out[20]: True
57 57
58 58 In [6]: x=1
59 59
60 60 In [7]: %hist -n -r 2
61 61 x=1 # random
62 62 hist -n -r 2 # random
63 63 """
64 64
65 65 # This test is known to fail on win32.
66 66 # See ticket https://bugs.launchpad.net/bugs/366334
67 67 def test_obj_del():
68 68 """Test that object's __del__ methods are called on exit."""
69 69 test_dir = os.path.dirname(__file__)
70 70 del_file = os.path.join(test_dir,'obj_del.py')
71 71 ipython_cmd = find_cmd('ipython')
72 72 out = _ip.IP.getoutput('%s %s' % (ipython_cmd, del_file))
73 73 nt.assert_equals(out,'obj_del.py: object A deleted')
74 74
75 75
76 76 def test_shist():
77 77 # Simple tests of ShadowHist class - test generator.
78 78 import os, shutil, tempfile
79 79
80 80 from IPython.Extensions import pickleshare
81 81 from IPython.history import ShadowHist
82 82
83 83 tfile = tempfile.mktemp('','tmp-ipython-')
84 84
85 85 db = pickleshare.PickleShareDB(tfile)
86 86 s = ShadowHist(db)
87 87 s.add('hello')
88 88 s.add('world')
89 89 s.add('hello')
90 90 s.add('hello')
91 91 s.add('karhu')
92 92
93 93 yield nt.assert_equals,s.all(),[(1, 'hello'), (2, 'world'), (3, 'karhu')]
94 94
95 95 yield nt.assert_equal,s.get(2),'world'
96 96
97 97 shutil.rmtree(tfile)
98 98
99 99 @dec.skipif_not_numpy
100 100 def test_numpy_clear_array_undec():
101 101 from IPython.Extensions import clearcmd
102 102
103 103 _ip.ex('import numpy as np')
104 104 _ip.ex('a = np.empty(2)')
105 105 yield (nt.assert_true, 'a' in _ip.user_ns)
106 106 _ip.magic('clear array')
107 107 yield (nt.assert_false, 'a' in _ip.user_ns)
108 108
109 109
110 110 @dec.skip()
111 111 def test_fail_dec(*a,**k):
112 112 yield nt.assert_true, False
113 113
114 114 @dec.skip('This one shouldn not run')
115 115 def test_fail_dec2(*a,**k):
116 116 yield nt.assert_true, False
117 117
118 118 @dec.skipknownfailure
119 119 def test_fail_dec3(*a,**k):
120 120 yield nt.assert_true, False
121 121
122 122
123 123 def doctest_refbug():
124 124 """Very nasty problem with references held by multiple runs of a script.
125 125 See: https://bugs.launchpad.net/ipython/+bug/269966
126 126
127 127 In [1]: _ip.IP.clear_main_mod_cache()
128 128
129 129 In [2]: run refbug
130 130
131 131 In [3]: call_f()
132 132 lowercased: hello
133 133
134 134 In [4]: run refbug
135 135
136 136 In [5]: call_f()
137 137 lowercased: hello
138 138 lowercased: hello
139 139 """
140 140
141 141 #-----------------------------------------------------------------------------
142 142 # Tests for %run
143 143 #-----------------------------------------------------------------------------
144 144
145 145 # %run is critical enough that it's a good idea to have a solid collection of
146 146 # tests for it, some as doctests and some as normal tests.
147 147
148 148 def doctest_run_ns():
149 149 """Classes declared %run scripts must be instantiable afterwards.
150 150
151 151 In [11]: run tclass foo
152 152
153 153 In [12]: isinstance(f(),foo)
154 154 Out[12]: True
155 155 """
156 156
157 157
158 158 def doctest_run_ns2():
159 159 """Classes declared %run scripts must be instantiable afterwards.
160 160
161 161 In [4]: run tclass C-first_pass
162 162
163 163 In [5]: run tclass C-second_pass
164 164 tclass.py: deleting object: C-first_pass
165 165 """
166 166
167 167 @dec.skip_win32
168 168 def doctest_run_builtins():
169 169 """Check that %run doesn't damage __builtins__ via a doctest.
170 170
171 171 This is similar to the test_run_builtins, but I want *both* forms of the
172 172 test to catch any possible glitches in our testing machinery, since that
173 173 modifies %run somewhat. So for this, we have both a normal test (below)
174 174 and a doctest (this one).
175 175
176 176 In [1]: import tempfile
177 177
178 178 In [2]: bid1 = id(__builtins__)
179 179
180 180 In [3]: f = tempfile.NamedTemporaryFile()
181 181
182 182 In [4]: f.write('pass\\n')
183 183
184 184 In [5]: f.flush()
185 185
186 186 In [6]: print 'B1:',type(__builtins__)
187 187 B1: <type 'module'>
188 188
189 189 In [7]: %run $f.name
190 190
191 191 In [8]: bid2 = id(__builtins__)
192 192
193 193 In [9]: print 'B2:',type(__builtins__)
194 194 B2: <type 'module'>
195 195
196 196 In [10]: bid1 == bid2
197 197 Out[10]: True
198 198 """
199 199
200 200 # For some tests, it will be handy to organize them in a class with a common
201 201 # setup that makes a temp file
202 202
203 203 class TestMagicRun(object):
204 204
205 205 def setup(self):
206 206 """Make a valid python temp file."""
207 207 f = tempfile.NamedTemporaryFile()
208 208 f.write('pass\n')
209 209 f.flush()
210 210 self.tmpfile = f
211 211
212 212 def run_tmpfile(self):
213 213 # This fails on Windows if self.tmpfile.name has spaces or "~" in it.
214 214 # See below and ticket https://bugs.launchpad.net/bugs/366353
215 215 _ip.magic('run %s' % self.tmpfile.name)
216 216
217 217 # See https://bugs.launchpad.net/bugs/366353
218 218 @dec.skip_if_not_win32
219 219 def test_run_tempfile_path(self):
220 220 tt.assert_equals(True,False,"%run doesn't work with tempfile paths on win32.")
221 221
222 222 # See https://bugs.launchpad.net/bugs/366353
223 223 @dec.skip_win32
224 224 def test_builtins_id(self):
225 225 """Check that %run doesn't damage __builtins__ """
226 226
227 227 # Test that the id of __builtins__ is not modified by %run
228 228 bid1 = id(_ip.user_ns['__builtins__'])
229 229 self.run_tmpfile()
230 230 bid2 = id(_ip.user_ns['__builtins__'])
231 231 tt.assert_equals(bid1, bid2)
232 232
233 233 # See https://bugs.launchpad.net/bugs/366353
234 234 @dec.skip_win32
235 235 def test_builtins_type(self):
236 236 """Check that the type of __builtins__ doesn't change with %run.
237 237
238 238 However, the above could pass if __builtins__ was already modified to
239 239 be a dict (it should be a module) by a previous use of %run. So we
240 240 also check explicitly that it really is a module:
241 241 """
242 242 self.run_tmpfile()
243 243 tt.assert_equals(type(_ip.user_ns['__builtins__']),type(sys))
244 244
245 245 # See https://bugs.launchpad.net/bugs/366353
246 246 @dec.skip_win32
247 247 def test_prompts(self):
248 248 """Test that prompts correctly generate after %run"""
249 249 self.run_tmpfile()
250 250 p2 = str(_ip.IP.outputcache.prompt2).strip()
251 251 nt.assert_equals(p2[:3], '...')
252 252
253 253 def teardown(self):
254 254 self.tmpfile.close()
255
256 # Multiple tests for clipboard pasting
257 def test_paste():
258
259 def paste(txt):
260 hooks.clipboard_get = lambda : txt
261 _ip.magic('paste')
262
263 # Inject fake clipboard hook but save original so we can restore it later
264 hooks = _ip.IP.hooks
265 user_ns = _ip.user_ns
266 original_clip = hooks.clipboard_get
267
268 try:
269 # Run tests with fake clipboard function
270 user_ns.pop('x', None)
271 paste('x=1')
272 yield (nt.assert_equal, user_ns['x'], 1)
273
274 user_ns.pop('x', None)
275 paste('>>> x=2')
276 yield (nt.assert_equal, user_ns['x'], 2)
277
278 paste("""
279 >>> x = [1,2,3]
280 >>> y = []
281 >>> for i in x:
282 ... y.append(i**2)
283 ...
284 """)
285 yield (nt.assert_equal, user_ns['x'], [1,2,3])
286 yield (nt.assert_equal, user_ns['y'], [1,4,9])
287
288 finally:
289 # Restore original hook
290 hooks.clipboard_get = original_clip
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