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Backport PR #2864: Fix %run -t -N<N> TypeError...
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1 1 """Implementation of execution-related magic functions.
2 2 """
3 3 #-----------------------------------------------------------------------------
4 4 # Copyright (c) 2012 The IPython Development Team.
5 5 #
6 6 # Distributed under the terms of the Modified BSD License.
7 7 #
8 8 # The full license is in the file COPYING.txt, distributed with this software.
9 9 #-----------------------------------------------------------------------------
10 10
11 11 #-----------------------------------------------------------------------------
12 12 # Imports
13 13 #-----------------------------------------------------------------------------
14 14
15 15 # Stdlib
16 16 import __builtin__ as builtin_mod
17 17 import bdb
18 18 import os
19 19 import sys
20 20 import time
21 21 from StringIO import StringIO
22 22
23 23 # cProfile was added in Python2.5
24 24 try:
25 25 import cProfile as profile
26 26 import pstats
27 27 except ImportError:
28 28 # profile isn't bundled by default in Debian for license reasons
29 29 try:
30 30 import profile, pstats
31 31 except ImportError:
32 32 profile = pstats = None
33 33
34 34 # Our own packages
35 35 from IPython.core import debugger, oinspect
36 36 from IPython.core import magic_arguments
37 37 from IPython.core import page
38 38 from IPython.core.error import UsageError
39 39 from IPython.core.macro import Macro
40 40 from IPython.core.magic import (Magics, magics_class, line_magic, cell_magic,
41 41 line_cell_magic, on_off, needs_local_scope)
42 42 from IPython.testing.skipdoctest import skip_doctest
43 43 from IPython.utils import py3compat
44 44 from IPython.utils.io import capture_output
45 45 from IPython.utils.ipstruct import Struct
46 46 from IPython.utils.module_paths import find_mod
47 47 from IPython.utils.path import get_py_filename, unquote_filename
48 48 from IPython.utils.timing import clock, clock2
49 49 from IPython.utils.warn import warn, error
50 50
51 51 #-----------------------------------------------------------------------------
52 52 # Magic implementation classes
53 53 #-----------------------------------------------------------------------------
54 54
55 55 @magics_class
56 56 class ExecutionMagics(Magics):
57 57 """Magics related to code execution, debugging, profiling, etc.
58 58
59 59 """
60 60
61 61 def __init__(self, shell):
62 62 super(ExecutionMagics, self).__init__(shell)
63 63 if profile is None:
64 64 self.prun = self.profile_missing_notice
65 65 # Default execution function used to actually run user code.
66 66 self.default_runner = None
67 67
68 68 def profile_missing_notice(self, *args, **kwargs):
69 69 error("""\
70 70 The profile module could not be found. It has been removed from the standard
71 71 python packages because of its non-free license. To use profiling, install the
72 72 python-profiler package from non-free.""")
73 73
74 74 @skip_doctest
75 75 @line_cell_magic
76 76 def prun(self, parameter_s='', cell=None, user_mode=True,
77 77 opts=None,arg_lst=None,prog_ns=None):
78 78
79 79 """Run a statement through the python code profiler.
80 80
81 81 Usage, in line mode:
82 82 %prun [options] statement
83 83
84 84 Usage, in cell mode:
85 85 %%prun [options] [statement]
86 86 code...
87 87 code...
88 88
89 89 In cell mode, the additional code lines are appended to the (possibly
90 90 empty) statement in the first line. Cell mode allows you to easily
91 91 profile multiline blocks without having to put them in a separate
92 92 function.
93 93
94 94 The given statement (which doesn't require quote marks) is run via the
95 95 python profiler in a manner similar to the profile.run() function.
96 96 Namespaces are internally managed to work correctly; profile.run
97 97 cannot be used in IPython because it makes certain assumptions about
98 98 namespaces which do not hold under IPython.
99 99
100 100 Options:
101 101
102 102 -l <limit>: you can place restrictions on what or how much of the
103 103 profile gets printed. The limit value can be:
104 104
105 105 * A string: only information for function names containing this string
106 106 is printed.
107 107
108 108 * An integer: only these many lines are printed.
109 109
110 110 * A float (between 0 and 1): this fraction of the report is printed
111 111 (for example, use a limit of 0.4 to see the topmost 40% only).
112 112
113 113 You can combine several limits with repeated use of the option. For
114 114 example, '-l __init__ -l 5' will print only the topmost 5 lines of
115 115 information about class constructors.
116 116
117 117 -r: return the pstats.Stats object generated by the profiling. This
118 118 object has all the information about the profile in it, and you can
119 119 later use it for further analysis or in other functions.
120 120
121 121 -s <key>: sort profile by given key. You can provide more than one key
122 122 by using the option several times: '-s key1 -s key2 -s key3...'. The
123 123 default sorting key is 'time'.
124 124
125 125 The following is copied verbatim from the profile documentation
126 126 referenced below:
127 127
128 128 When more than one key is provided, additional keys are used as
129 129 secondary criteria when the there is equality in all keys selected
130 130 before them.
131 131
132 132 Abbreviations can be used for any key names, as long as the
133 133 abbreviation is unambiguous. The following are the keys currently
134 134 defined:
135 135
136 136 Valid Arg Meaning
137 137 "calls" call count
138 138 "cumulative" cumulative time
139 139 "file" file name
140 140 "module" file name
141 141 "pcalls" primitive call count
142 142 "line" line number
143 143 "name" function name
144 144 "nfl" name/file/line
145 145 "stdname" standard name
146 146 "time" internal time
147 147
148 148 Note that all sorts on statistics are in descending order (placing
149 149 most time consuming items first), where as name, file, and line number
150 150 searches are in ascending order (i.e., alphabetical). The subtle
151 151 distinction between "nfl" and "stdname" is that the standard name is a
152 152 sort of the name as printed, which means that the embedded line
153 153 numbers get compared in an odd way. For example, lines 3, 20, and 40
154 154 would (if the file names were the same) appear in the string order
155 155 "20" "3" and "40". In contrast, "nfl" does a numeric compare of the
156 156 line numbers. In fact, sort_stats("nfl") is the same as
157 157 sort_stats("name", "file", "line").
158 158
159 159 -T <filename>: save profile results as shown on screen to a text
160 160 file. The profile is still shown on screen.
161 161
162 162 -D <filename>: save (via dump_stats) profile statistics to given
163 163 filename. This data is in a format understood by the pstats module, and
164 164 is generated by a call to the dump_stats() method of profile
165 165 objects. The profile is still shown on screen.
166 166
167 167 -q: suppress output to the pager. Best used with -T and/or -D above.
168 168
169 169 If you want to run complete programs under the profiler's control, use
170 170 '%run -p [prof_opts] filename.py [args to program]' where prof_opts
171 171 contains profiler specific options as described here.
172 172
173 173 You can read the complete documentation for the profile module with::
174 174
175 175 In [1]: import profile; profile.help()
176 176 """
177 177
178 178 opts_def = Struct(D=[''],l=[],s=['time'],T=[''])
179 179
180 180 if user_mode: # regular user call
181 181 opts,arg_str = self.parse_options(parameter_s,'D:l:rs:T:q',
182 182 list_all=True, posix=False)
183 183 namespace = self.shell.user_ns
184 184 if cell is not None:
185 185 arg_str += '\n' + cell
186 186 else: # called to run a program by %run -p
187 187 try:
188 188 filename = get_py_filename(arg_lst[0])
189 189 except IOError as e:
190 190 try:
191 191 msg = str(e)
192 192 except UnicodeError:
193 193 msg = e.message
194 194 error(msg)
195 195 return
196 196
197 197 arg_str = 'execfile(filename,prog_ns)'
198 198 namespace = {
199 199 'execfile': self.shell.safe_execfile,
200 200 'prog_ns': prog_ns,
201 201 'filename': filename
202 202 }
203 203
204 204 opts.merge(opts_def)
205 205
206 206 prof = profile.Profile()
207 207 try:
208 208 prof = prof.runctx(arg_str,namespace,namespace)
209 209 sys_exit = ''
210 210 except SystemExit:
211 211 sys_exit = """*** SystemExit exception caught in code being profiled."""
212 212
213 213 stats = pstats.Stats(prof).strip_dirs().sort_stats(*opts.s)
214 214
215 215 lims = opts.l
216 216 if lims:
217 217 lims = [] # rebuild lims with ints/floats/strings
218 218 for lim in opts.l:
219 219 try:
220 220 lims.append(int(lim))
221 221 except ValueError:
222 222 try:
223 223 lims.append(float(lim))
224 224 except ValueError:
225 225 lims.append(lim)
226 226
227 227 # Trap output.
228 228 stdout_trap = StringIO()
229 229
230 230 if hasattr(stats,'stream'):
231 231 # In newer versions of python, the stats object has a 'stream'
232 232 # attribute to write into.
233 233 stats.stream = stdout_trap
234 234 stats.print_stats(*lims)
235 235 else:
236 236 # For older versions, we manually redirect stdout during printing
237 237 sys_stdout = sys.stdout
238 238 try:
239 239 sys.stdout = stdout_trap
240 240 stats.print_stats(*lims)
241 241 finally:
242 242 sys.stdout = sys_stdout
243 243
244 244 output = stdout_trap.getvalue()
245 245 output = output.rstrip()
246 246
247 247 if 'q' not in opts:
248 248 page.page(output)
249 249 print sys_exit,
250 250
251 251 dump_file = opts.D[0]
252 252 text_file = opts.T[0]
253 253 if dump_file:
254 254 dump_file = unquote_filename(dump_file)
255 255 prof.dump_stats(dump_file)
256 256 print '\n*** Profile stats marshalled to file',\
257 257 `dump_file`+'.',sys_exit
258 258 if text_file:
259 259 text_file = unquote_filename(text_file)
260 260 pfile = open(text_file,'w')
261 261 pfile.write(output)
262 262 pfile.close()
263 263 print '\n*** Profile printout saved to text file',\
264 264 `text_file`+'.',sys_exit
265 265
266 266 if opts.has_key('r'):
267 267 return stats
268 268 else:
269 269 return None
270 270
271 271 @line_magic
272 272 def pdb(self, parameter_s=''):
273 273 """Control the automatic calling of the pdb interactive debugger.
274 274
275 275 Call as '%pdb on', '%pdb 1', '%pdb off' or '%pdb 0'. If called without
276 276 argument it works as a toggle.
277 277
278 278 When an exception is triggered, IPython can optionally call the
279 279 interactive pdb debugger after the traceback printout. %pdb toggles
280 280 this feature on and off.
281 281
282 282 The initial state of this feature is set in your configuration
283 283 file (the option is ``InteractiveShell.pdb``).
284 284
285 285 If you want to just activate the debugger AFTER an exception has fired,
286 286 without having to type '%pdb on' and rerunning your code, you can use
287 287 the %debug magic."""
288 288
289 289 par = parameter_s.strip().lower()
290 290
291 291 if par:
292 292 try:
293 293 new_pdb = {'off':0,'0':0,'on':1,'1':1}[par]
294 294 except KeyError:
295 295 print ('Incorrect argument. Use on/1, off/0, '
296 296 'or nothing for a toggle.')
297 297 return
298 298 else:
299 299 # toggle
300 300 new_pdb = not self.shell.call_pdb
301 301
302 302 # set on the shell
303 303 self.shell.call_pdb = new_pdb
304 304 print 'Automatic pdb calling has been turned',on_off(new_pdb)
305 305
306 306 @line_magic
307 307 def debug(self, parameter_s=''):
308 308 """Activate the interactive debugger in post-mortem mode.
309 309
310 310 If an exception has just occurred, this lets you inspect its stack
311 311 frames interactively. Note that this will always work only on the last
312 312 traceback that occurred, so you must call this quickly after an
313 313 exception that you wish to inspect has fired, because if another one
314 314 occurs, it clobbers the previous one.
315 315
316 316 If you want IPython to automatically do this on every exception, see
317 317 the %pdb magic for more details.
318 318 """
319 319 self.shell.debugger(force=True)
320 320
321 321 @line_magic
322 322 def tb(self, s):
323 323 """Print the last traceback with the currently active exception mode.
324 324
325 325 See %xmode for changing exception reporting modes."""
326 326 self.shell.showtraceback()
327 327
328 328 @skip_doctest
329 329 @line_magic
330 330 def run(self, parameter_s='', runner=None,
331 331 file_finder=get_py_filename):
332 332 """Run the named file inside IPython as a program.
333 333
334 334 Usage:\\
335 335 %run [-n -i -t [-N<N>] -d [-b<N>] -p [profile options]] file [args]
336 336
337 337 Parameters after the filename are passed as command-line arguments to
338 338 the program (put in sys.argv). Then, control returns to IPython's
339 339 prompt.
340 340
341 341 This is similar to running at a system prompt:\\
342 342 $ python file args\\
343 343 but with the advantage of giving you IPython's tracebacks, and of
344 344 loading all variables into your interactive namespace for further use
345 345 (unless -p is used, see below).
346 346
347 347 The file is executed in a namespace initially consisting only of
348 348 __name__=='__main__' and sys.argv constructed as indicated. It thus
349 349 sees its environment as if it were being run as a stand-alone program
350 350 (except for sharing global objects such as previously imported
351 351 modules). But after execution, the IPython interactive namespace gets
352 352 updated with all variables defined in the program (except for __name__
353 353 and sys.argv). This allows for very convenient loading of code for
354 354 interactive work, while giving each program a 'clean sheet' to run in.
355 355
356 356 Options:
357 357
358 358 -n: __name__ is NOT set to '__main__', but to the running file's name
359 359 without extension (as python does under import). This allows running
360 360 scripts and reloading the definitions in them without calling code
361 361 protected by an ' if __name__ == "__main__" ' clause.
362 362
363 363 -i: run the file in IPython's namespace instead of an empty one. This
364 364 is useful if you are experimenting with code written in a text editor
365 365 which depends on variables defined interactively.
366 366
367 367 -e: ignore sys.exit() calls or SystemExit exceptions in the script
368 368 being run. This is particularly useful if IPython is being used to
369 369 run unittests, which always exit with a sys.exit() call. In such
370 370 cases you are interested in the output of the test results, not in
371 371 seeing a traceback of the unittest module.
372 372
373 373 -t: print timing information at the end of the run. IPython will give
374 374 you an estimated CPU time consumption for your script, which under
375 375 Unix uses the resource module to avoid the wraparound problems of
376 376 time.clock(). Under Unix, an estimate of time spent on system tasks
377 377 is also given (for Windows platforms this is reported as 0.0).
378 378
379 379 If -t is given, an additional -N<N> option can be given, where <N>
380 380 must be an integer indicating how many times you want the script to
381 381 run. The final timing report will include total and per run results.
382 382
383 383 For example (testing the script uniq_stable.py)::
384 384
385 385 In [1]: run -t uniq_stable
386 386
387 387 IPython CPU timings (estimated):\\
388 388 User : 0.19597 s.\\
389 389 System: 0.0 s.\\
390 390
391 391 In [2]: run -t -N5 uniq_stable
392 392
393 393 IPython CPU timings (estimated):\\
394 394 Total runs performed: 5\\
395 395 Times : Total Per run\\
396 396 User : 0.910862 s, 0.1821724 s.\\
397 397 System: 0.0 s, 0.0 s.
398 398
399 399 -d: run your program under the control of pdb, the Python debugger.
400 400 This allows you to execute your program step by step, watch variables,
401 401 etc. Internally, what IPython does is similar to calling:
402 402
403 403 pdb.run('execfile("YOURFILENAME")')
404 404
405 405 with a breakpoint set on line 1 of your file. You can change the line
406 406 number for this automatic breakpoint to be <N> by using the -bN option
407 407 (where N must be an integer). For example::
408 408
409 409 %run -d -b40 myscript
410 410
411 411 will set the first breakpoint at line 40 in myscript.py. Note that
412 412 the first breakpoint must be set on a line which actually does
413 413 something (not a comment or docstring) for it to stop execution.
414 414
415 415 When the pdb debugger starts, you will see a (Pdb) prompt. You must
416 416 first enter 'c' (without quotes) to start execution up to the first
417 417 breakpoint.
418 418
419 419 Entering 'help' gives information about the use of the debugger. You
420 420 can easily see pdb's full documentation with "import pdb;pdb.help()"
421 421 at a prompt.
422 422
423 423 -p: run program under the control of the Python profiler module (which
424 424 prints a detailed report of execution times, function calls, etc).
425 425
426 426 You can pass other options after -p which affect the behavior of the
427 427 profiler itself. See the docs for %prun for details.
428 428
429 429 In this mode, the program's variables do NOT propagate back to the
430 430 IPython interactive namespace (because they remain in the namespace
431 431 where the profiler executes them).
432 432
433 433 Internally this triggers a call to %prun, see its documentation for
434 434 details on the options available specifically for profiling.
435 435
436 436 There is one special usage for which the text above doesn't apply:
437 437 if the filename ends with .ipy, the file is run as ipython script,
438 438 just as if the commands were written on IPython prompt.
439 439
440 440 -m: specify module name to load instead of script path. Similar to
441 441 the -m option for the python interpreter. Use this option last if you
442 442 want to combine with other %run options. Unlike the python interpreter
443 443 only source modules are allowed no .pyc or .pyo files.
444 444 For example::
445 445
446 446 %run -m example
447 447
448 448 will run the example module.
449 449
450 450 """
451 451
452 452 # get arguments and set sys.argv for program to be run.
453 453 opts, arg_lst = self.parse_options(parameter_s, 'nidtN:b:pD:l:rs:T:em:',
454 454 mode='list', list_all=1)
455 455 if "m" in opts:
456 456 modulename = opts["m"][0]
457 457 modpath = find_mod(modulename)
458 458 if modpath is None:
459 459 warn('%r is not a valid modulename on sys.path'%modulename)
460 460 return
461 461 arg_lst = [modpath] + arg_lst
462 462 try:
463 463 filename = file_finder(arg_lst[0])
464 464 except IndexError:
465 465 warn('you must provide at least a filename.')
466 466 print '\n%run:\n', oinspect.getdoc(self.run)
467 467 return
468 468 except IOError as e:
469 469 try:
470 470 msg = str(e)
471 471 except UnicodeError:
472 472 msg = e.message
473 473 error(msg)
474 474 return
475 475
476 476 if filename.lower().endswith('.ipy'):
477 477 self.shell.safe_execfile_ipy(filename)
478 478 return
479 479
480 480 # Control the response to exit() calls made by the script being run
481 481 exit_ignore = 'e' in opts
482 482
483 483 # Make sure that the running script gets a proper sys.argv as if it
484 484 # were run from a system shell.
485 485 save_argv = sys.argv # save it for later restoring
486 486
487 487 # simulate shell expansion on arguments, at least tilde expansion
488 488 args = [ os.path.expanduser(a) for a in arg_lst[1:] ]
489 489
490 490 sys.argv = [filename] + args # put in the proper filename
491 491 # protect sys.argv from potential unicode strings on Python 2:
492 492 if not py3compat.PY3:
493 493 sys.argv = [ py3compat.cast_bytes(a) for a in sys.argv ]
494 494
495 495 if 'i' in opts:
496 496 # Run in user's interactive namespace
497 497 prog_ns = self.shell.user_ns
498 498 __name__save = self.shell.user_ns['__name__']
499 499 prog_ns['__name__'] = '__main__'
500 500 main_mod = self.shell.new_main_mod(prog_ns)
501 501 else:
502 502 # Run in a fresh, empty namespace
503 503 if 'n' in opts:
504 504 name = os.path.splitext(os.path.basename(filename))[0]
505 505 else:
506 506 name = '__main__'
507 507
508 508 main_mod = self.shell.new_main_mod()
509 509 prog_ns = main_mod.__dict__
510 510 prog_ns['__name__'] = name
511 511
512 512 # Since '%run foo' emulates 'python foo.py' at the cmd line, we must
513 513 # set the __file__ global in the script's namespace
514 514 prog_ns['__file__'] = filename
515 515
516 516 # pickle fix. See interactiveshell for an explanation. But we need to
517 517 # make sure that, if we overwrite __main__, we replace it at the end
518 518 main_mod_name = prog_ns['__name__']
519 519
520 520 if main_mod_name == '__main__':
521 521 restore_main = sys.modules['__main__']
522 522 else:
523 523 restore_main = False
524 524
525 525 # This needs to be undone at the end to prevent holding references to
526 526 # every single object ever created.
527 527 sys.modules[main_mod_name] = main_mod
528 528
529 529 try:
530 530 stats = None
531 531 with self.shell.readline_no_record:
532 532 if 'p' in opts:
533 533 stats = self.prun('', None, False, opts, arg_lst, prog_ns)
534 534 else:
535 535 if 'd' in opts:
536 536 deb = debugger.Pdb(self.shell.colors)
537 537 # reset Breakpoint state, which is moronically kept
538 538 # in a class
539 539 bdb.Breakpoint.next = 1
540 540 bdb.Breakpoint.bplist = {}
541 541 bdb.Breakpoint.bpbynumber = [None]
542 542 # Set an initial breakpoint to stop execution
543 543 maxtries = 10
544 544 bp = int(opts.get('b', [1])[0])
545 545 checkline = deb.checkline(filename, bp)
546 546 if not checkline:
547 547 for bp in range(bp + 1, bp + maxtries + 1):
548 548 if deb.checkline(filename, bp):
549 549 break
550 550 else:
551 551 msg = ("\nI failed to find a valid line to set "
552 552 "a breakpoint\n"
553 553 "after trying up to line: %s.\n"
554 554 "Please set a valid breakpoint manually "
555 555 "with the -b option." % bp)
556 556 error(msg)
557 557 return
558 558 # if we find a good linenumber, set the breakpoint
559 559 deb.do_break('%s:%s' % (filename, bp))
560 560
561 561 # Mimic Pdb._runscript(...)
562 562 deb._wait_for_mainpyfile = True
563 563 deb.mainpyfile = deb.canonic(filename)
564 564
565 565 # Start file run
566 566 print "NOTE: Enter 'c' at the",
567 567 print "%s prompt to start your script." % deb.prompt
568 568 ns = {'execfile': py3compat.execfile, 'prog_ns': prog_ns}
569 569 try:
570 570 deb.run('execfile("%s", prog_ns)' % filename, ns)
571 571
572 572 except:
573 573 etype, value, tb = sys.exc_info()
574 574 # Skip three frames in the traceback: the %run one,
575 575 # one inside bdb.py, and the command-line typed by the
576 576 # user (run by exec in pdb itself).
577 577 self.shell.InteractiveTB(etype, value, tb, tb_offset=3)
578 578 else:
579 579 if runner is None:
580 580 runner = self.default_runner
581 581 if runner is None:
582 582 runner = self.shell.safe_execfile
583 583 if 't' in opts:
584 584 # timed execution
585 585 try:
586 586 nruns = int(opts['N'][0])
587 587 if nruns < 1:
588 588 error('Number of runs must be >=1')
589 589 return
590 590 except (KeyError):
591 591 nruns = 1
592 592 twall0 = time.time()
593 593 if nruns == 1:
594 594 t0 = clock2()
595 595 runner(filename, prog_ns, prog_ns,
596 596 exit_ignore=exit_ignore)
597 597 t1 = clock2()
598 598 t_usr = t1[0] - t0[0]
599 599 t_sys = t1[1] - t0[1]
600 600 print "\nIPython CPU timings (estimated):"
601 601 print " User : %10.2f s." % t_usr
602 602 print " System : %10.2f s." % t_sys
603 603 else:
604 604 runs = range(nruns)
605 605 t0 = clock2()
606 606 for nr in runs:
607 607 runner(filename, prog_ns, prog_ns,
608 608 exit_ignore=exit_ignore)
609 609 t1 = clock2()
610 610 t_usr = t1[0] - t0[0]
611 611 t_sys = t1[1] - t0[1]
612 612 print "\nIPython CPU timings (estimated):"
613 613 print "Total runs performed:", nruns
614 print " Times : %10.2f %10.2f" % ('Total', 'Per run')
614 print " Times : %10s %10s" % ('Total', 'Per run')
615 615 print " User : %10.2f s, %10.2f s." % (t_usr, t_usr / nruns)
616 616 print " System : %10.2f s, %10.2f s." % (t_sys, t_sys / nruns)
617 617 twall1 = time.time()
618 618 print "Wall time: %10.2f s." % (twall1 - twall0)
619 619
620 620 else:
621 621 # regular execution
622 622 runner(filename, prog_ns, prog_ns, exit_ignore=exit_ignore)
623 623
624 624 if 'i' in opts:
625 625 self.shell.user_ns['__name__'] = __name__save
626 626 else:
627 627 # The shell MUST hold a reference to prog_ns so after %run
628 628 # exits, the python deletion mechanism doesn't zero it out
629 629 # (leaving dangling references).
630 630 self.shell.cache_main_mod(prog_ns, filename)
631 631 # update IPython interactive namespace
632 632
633 633 # Some forms of read errors on the file may mean the
634 634 # __name__ key was never set; using pop we don't have to
635 635 # worry about a possible KeyError.
636 636 prog_ns.pop('__name__', None)
637 637
638 638 self.shell.user_ns.update(prog_ns)
639 639 finally:
640 640 # It's a bit of a mystery why, but __builtins__ can change from
641 641 # being a module to becoming a dict missing some key data after
642 642 # %run. As best I can see, this is NOT something IPython is doing
643 643 # at all, and similar problems have been reported before:
644 644 # http://coding.derkeiler.com/Archive/Python/comp.lang.python/2004-10/0188.html
645 645 # Since this seems to be done by the interpreter itself, the best
646 646 # we can do is to at least restore __builtins__ for the user on
647 647 # exit.
648 648 self.shell.user_ns['__builtins__'] = builtin_mod
649 649
650 650 # Ensure key global structures are restored
651 651 sys.argv = save_argv
652 652 if restore_main:
653 653 sys.modules['__main__'] = restore_main
654 654 else:
655 655 # Remove from sys.modules the reference to main_mod we'd
656 656 # added. Otherwise it will trap references to objects
657 657 # contained therein.
658 658 del sys.modules[main_mod_name]
659 659
660 660 return stats
661 661
662 662 @skip_doctest
663 663 @line_cell_magic
664 664 def timeit(self, line='', cell=None):
665 665 """Time execution of a Python statement or expression
666 666
667 667 Usage, in line mode:
668 668 %timeit [-n<N> -r<R> [-t|-c]] statement
669 669 or in cell mode:
670 670 %%timeit [-n<N> -r<R> [-t|-c]] setup_code
671 671 code
672 672 code...
673 673
674 674 Time execution of a Python statement or expression using the timeit
675 675 module. This function can be used both as a line and cell magic:
676 676
677 677 - In line mode you can time a single-line statement (though multiple
678 678 ones can be chained with using semicolons).
679 679
680 680 - In cell mode, the statement in the first line is used as setup code
681 681 (executed but not timed) and the body of the cell is timed. The cell
682 682 body has access to any variables created in the setup code.
683 683
684 684 Options:
685 685 -n<N>: execute the given statement <N> times in a loop. If this value
686 686 is not given, a fitting value is chosen.
687 687
688 688 -r<R>: repeat the loop iteration <R> times and take the best result.
689 689 Default: 3
690 690
691 691 -t: use time.time to measure the time, which is the default on Unix.
692 692 This function measures wall time.
693 693
694 694 -c: use time.clock to measure the time, which is the default on
695 695 Windows and measures wall time. On Unix, resource.getrusage is used
696 696 instead and returns the CPU user time.
697 697
698 698 -p<P>: use a precision of <P> digits to display the timing result.
699 699 Default: 3
700 700
701 701
702 702 Examples
703 703 --------
704 704 ::
705 705
706 706 In [1]: %timeit pass
707 707 10000000 loops, best of 3: 53.3 ns per loop
708 708
709 709 In [2]: u = None
710 710
711 711 In [3]: %timeit u is None
712 712 10000000 loops, best of 3: 184 ns per loop
713 713
714 714 In [4]: %timeit -r 4 u == None
715 715 1000000 loops, best of 4: 242 ns per loop
716 716
717 717 In [5]: import time
718 718
719 719 In [6]: %timeit -n1 time.sleep(2)
720 720 1 loops, best of 3: 2 s per loop
721 721
722 722
723 723 The times reported by %timeit will be slightly higher than those
724 724 reported by the timeit.py script when variables are accessed. This is
725 725 due to the fact that %timeit executes the statement in the namespace
726 726 of the shell, compared with timeit.py, which uses a single setup
727 727 statement to import function or create variables. Generally, the bias
728 728 does not matter as long as results from timeit.py are not mixed with
729 729 those from %timeit."""
730 730
731 731 import timeit
732 732 import math
733 733
734 734 # XXX: Unfortunately the unicode 'micro' symbol can cause problems in
735 735 # certain terminals. Until we figure out a robust way of
736 736 # auto-detecting if the terminal can deal with it, use plain 'us' for
737 737 # microseconds. I am really NOT happy about disabling the proper
738 738 # 'micro' prefix, but crashing is worse... If anyone knows what the
739 739 # right solution for this is, I'm all ears...
740 740 #
741 741 # Note: using
742 742 #
743 743 # s = u'\xb5'
744 744 # s.encode(sys.getdefaultencoding())
745 745 #
746 746 # is not sufficient, as I've seen terminals where that fails but
747 747 # print s
748 748 #
749 749 # succeeds
750 750 #
751 751 # See bug: https://bugs.launchpad.net/ipython/+bug/348466
752 752
753 753 #units = [u"s", u"ms",u'\xb5',"ns"]
754 754 units = [u"s", u"ms",u'us',"ns"]
755 755
756 756 scaling = [1, 1e3, 1e6, 1e9]
757 757
758 758 opts, stmt = self.parse_options(line,'n:r:tcp:',
759 759 posix=False, strict=False)
760 760 if stmt == "" and cell is None:
761 761 return
762 762 timefunc = timeit.default_timer
763 763 number = int(getattr(opts, "n", 0))
764 764 repeat = int(getattr(opts, "r", timeit.default_repeat))
765 765 precision = int(getattr(opts, "p", 3))
766 766 if hasattr(opts, "t"):
767 767 timefunc = time.time
768 768 if hasattr(opts, "c"):
769 769 timefunc = clock
770 770
771 771 timer = timeit.Timer(timer=timefunc)
772 772 # this code has tight coupling to the inner workings of timeit.Timer,
773 773 # but is there a better way to achieve that the code stmt has access
774 774 # to the shell namespace?
775 775 transform = self.shell.input_splitter.transform_cell
776 776 if cell is None:
777 777 # called as line magic
778 778 setup = 'pass'
779 779 stmt = timeit.reindent(transform(stmt), 8)
780 780 else:
781 781 setup = timeit.reindent(transform(stmt), 4)
782 782 stmt = timeit.reindent(transform(cell), 8)
783 783
784 784 # From Python 3.3, this template uses new-style string formatting.
785 785 if sys.version_info >= (3, 3):
786 786 src = timeit.template.format(stmt=stmt, setup=setup)
787 787 else:
788 788 src = timeit.template % dict(stmt=stmt, setup=setup)
789 789
790 790 # Track compilation time so it can be reported if too long
791 791 # Minimum time above which compilation time will be reported
792 792 tc_min = 0.1
793 793
794 794 t0 = clock()
795 795 code = compile(src, "<magic-timeit>", "exec")
796 796 tc = clock()-t0
797 797
798 798 ns = {}
799 799 exec code in self.shell.user_ns, ns
800 800 timer.inner = ns["inner"]
801 801
802 802 if number == 0:
803 803 # determine number so that 0.2 <= total time < 2.0
804 804 number = 1
805 805 for i in range(1, 10):
806 806 if timer.timeit(number) >= 0.2:
807 807 break
808 808 number *= 10
809 809
810 810 best = min(timer.repeat(repeat, number)) / number
811 811
812 812 if best > 0.0 and best < 1000.0:
813 813 order = min(-int(math.floor(math.log10(best)) // 3), 3)
814 814 elif best >= 1000.0:
815 815 order = 0
816 816 else:
817 817 order = 3
818 818 print u"%d loops, best of %d: %.*g %s per loop" % (number, repeat,
819 819 precision,
820 820 best * scaling[order],
821 821 units[order])
822 822 if tc > tc_min:
823 823 print "Compiler time: %.2f s" % tc
824 824
825 825 @skip_doctest
826 826 @needs_local_scope
827 827 @line_magic
828 828 def time(self,parameter_s, user_locals):
829 829 """Time execution of a Python statement or expression.
830 830
831 831 The CPU and wall clock times are printed, and the value of the
832 832 expression (if any) is returned. Note that under Win32, system time
833 833 is always reported as 0, since it can not be measured.
834 834
835 835 This function provides very basic timing functionality. In Python
836 836 2.3, the timeit module offers more control and sophistication, so this
837 837 could be rewritten to use it (patches welcome).
838 838
839 839 Examples
840 840 --------
841 841 ::
842 842
843 843 In [1]: time 2**128
844 844 CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
845 845 Wall time: 0.00
846 846 Out[1]: 340282366920938463463374607431768211456L
847 847
848 848 In [2]: n = 1000000
849 849
850 850 In [3]: time sum(range(n))
851 851 CPU times: user 1.20 s, sys: 0.05 s, total: 1.25 s
852 852 Wall time: 1.37
853 853 Out[3]: 499999500000L
854 854
855 855 In [4]: time print 'hello world'
856 856 hello world
857 857 CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
858 858 Wall time: 0.00
859 859
860 860 Note that the time needed by Python to compile the given expression
861 861 will be reported if it is more than 0.1s. In this example, the
862 862 actual exponentiation is done by Python at compilation time, so while
863 863 the expression can take a noticeable amount of time to compute, that
864 864 time is purely due to the compilation:
865 865
866 866 In [5]: time 3**9999;
867 867 CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
868 868 Wall time: 0.00 s
869 869
870 870 In [6]: time 3**999999;
871 871 CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
872 872 Wall time: 0.00 s
873 873 Compiler : 0.78 s
874 874 """
875 875
876 876 # fail immediately if the given expression can't be compiled
877 877
878 878 expr = self.shell.prefilter(parameter_s,False)
879 879
880 880 # Minimum time above which compilation time will be reported
881 881 tc_min = 0.1
882 882
883 883 try:
884 884 mode = 'eval'
885 885 t0 = clock()
886 886 code = compile(expr,'<timed eval>',mode)
887 887 tc = clock()-t0
888 888 except SyntaxError:
889 889 mode = 'exec'
890 890 t0 = clock()
891 891 code = compile(expr,'<timed exec>',mode)
892 892 tc = clock()-t0
893 893 # skew measurement as little as possible
894 894 glob = self.shell.user_ns
895 895 wtime = time.time
896 896 # time execution
897 897 wall_st = wtime()
898 898 if mode=='eval':
899 899 st = clock2()
900 900 out = eval(code, glob, user_locals)
901 901 end = clock2()
902 902 else:
903 903 st = clock2()
904 904 exec code in glob, user_locals
905 905 end = clock2()
906 906 out = None
907 907 wall_end = wtime()
908 908 # Compute actual times and report
909 909 wall_time = wall_end-wall_st
910 910 cpu_user = end[0]-st[0]
911 911 cpu_sys = end[1]-st[1]
912 912 cpu_tot = cpu_user+cpu_sys
913 913 print "CPU times: user %.2f s, sys: %.2f s, total: %.2f s" % \
914 914 (cpu_user,cpu_sys,cpu_tot)
915 915 print "Wall time: %.2f s" % wall_time
916 916 if tc > tc_min:
917 917 print "Compiler : %.2f s" % tc
918 918 return out
919 919
920 920 @skip_doctest
921 921 @line_magic
922 922 def macro(self, parameter_s=''):
923 923 """Define a macro for future re-execution. It accepts ranges of history,
924 924 filenames or string objects.
925 925
926 926 Usage:\\
927 927 %macro [options] name n1-n2 n3-n4 ... n5 .. n6 ...
928 928
929 929 Options:
930 930
931 931 -r: use 'raw' input. By default, the 'processed' history is used,
932 932 so that magics are loaded in their transformed version to valid
933 933 Python. If this option is given, the raw input as typed as the
934 934 command line is used instead.
935 935
936 936 This will define a global variable called `name` which is a string
937 937 made of joining the slices and lines you specify (n1,n2,... numbers
938 938 above) from your input history into a single string. This variable
939 939 acts like an automatic function which re-executes those lines as if
940 940 you had typed them. You just type 'name' at the prompt and the code
941 941 executes.
942 942
943 943 The syntax for indicating input ranges is described in %history.
944 944
945 945 Note: as a 'hidden' feature, you can also use traditional python slice
946 946 notation, where N:M means numbers N through M-1.
947 947
948 948 For example, if your history contains (%hist prints it)::
949 949
950 950 44: x=1
951 951 45: y=3
952 952 46: z=x+y
953 953 47: print x
954 954 48: a=5
955 955 49: print 'x',x,'y',y
956 956
957 957 you can create a macro with lines 44 through 47 (included) and line 49
958 958 called my_macro with::
959 959
960 960 In [55]: %macro my_macro 44-47 49
961 961
962 962 Now, typing `my_macro` (without quotes) will re-execute all this code
963 963 in one pass.
964 964
965 965 You don't need to give the line-numbers in order, and any given line
966 966 number can appear multiple times. You can assemble macros with any
967 967 lines from your input history in any order.
968 968
969 969 The macro is a simple object which holds its value in an attribute,
970 970 but IPython's display system checks for macros and executes them as
971 971 code instead of printing them when you type their name.
972 972
973 973 You can view a macro's contents by explicitly printing it with::
974 974
975 975 print macro_name
976 976
977 977 """
978 978 opts,args = self.parse_options(parameter_s,'r',mode='list')
979 979 if not args: # List existing macros
980 980 return sorted(k for k,v in self.shell.user_ns.iteritems() if\
981 981 isinstance(v, Macro))
982 982 if len(args) == 1:
983 983 raise UsageError(
984 984 "%macro insufficient args; usage '%macro name n1-n2 n3-4...")
985 985 name, codefrom = args[0], " ".join(args[1:])
986 986
987 987 #print 'rng',ranges # dbg
988 988 try:
989 989 lines = self.shell.find_user_code(codefrom, 'r' in opts)
990 990 except (ValueError, TypeError) as e:
991 991 print e.args[0]
992 992 return
993 993 macro = Macro(lines)
994 994 self.shell.define_macro(name, macro)
995 995 print 'Macro `%s` created. To execute, type its name (without quotes).' % name
996 996 print '=== Macro contents: ==='
997 997 print macro,
998 998
999 999 @magic_arguments.magic_arguments()
1000 1000 @magic_arguments.argument('output', type=str, default='', nargs='?',
1001 1001 help="""The name of the variable in which to store output.
1002 1002 This is a utils.io.CapturedIO object with stdout/err attributes
1003 1003 for the text of the captured output.
1004 1004
1005 1005 CapturedOutput also has a show() method for displaying the output,
1006 1006 and __call__ as well, so you can use that to quickly display the
1007 1007 output.
1008 1008
1009 1009 If unspecified, captured output is discarded.
1010 1010 """
1011 1011 )
1012 1012 @magic_arguments.argument('--no-stderr', action="store_true",
1013 1013 help="""Don't capture stderr."""
1014 1014 )
1015 1015 @magic_arguments.argument('--no-stdout', action="store_true",
1016 1016 help="""Don't capture stdout."""
1017 1017 )
1018 1018 @cell_magic
1019 1019 def capture(self, line, cell):
1020 1020 """run the cell, capturing stdout/err"""
1021 1021 args = magic_arguments.parse_argstring(self.capture, line)
1022 1022 out = not args.no_stdout
1023 1023 err = not args.no_stderr
1024 1024 with capture_output(out, err) as io:
1025 1025 self.shell.run_cell(cell)
1026 1026 if args.output:
1027 1027 self.shell.user_ns[args.output] = io
Show file before | Show file after | Hide comments
@@ -1,250 +1,257 b''
1 1 # encoding: utf-8
2 2 """Tests for code execution (%run and related), which is particularly tricky.
3 3
4 4 Because of how %run manages namespaces, and the fact that we are trying here to
5 5 verify subtle object deletion and reference counting issues, the %run tests
6 6 will be kept in this separate file. This makes it easier to aggregate in one
7 7 place the tricks needed to handle it; most other magics are much easier to test
8 8 and we do so in a common test_magic file.
9 9 """
10 10 from __future__ import absolute_import
11 11
12 12 #-----------------------------------------------------------------------------
13 13 # Imports
14 14 #-----------------------------------------------------------------------------
15 15
16 16 import os
17 17 import sys
18 18 import tempfile
19 19
20 20 import nose.tools as nt
21 21 from nose import SkipTest
22 22
23 23 from IPython.testing import decorators as dec
24 24 from IPython.testing import tools as tt
25 25 from IPython.utils import py3compat
26 26
27 27 #-----------------------------------------------------------------------------
28 28 # Test functions begin
29 29 #-----------------------------------------------------------------------------
30 30
31 31 def doctest_refbug():
32 32 """Very nasty problem with references held by multiple runs of a script.
33 33 See: https://github.com/ipython/ipython/issues/141
34 34
35 35 In [1]: _ip.clear_main_mod_cache()
36 36 # random
37 37
38 38 In [2]: %run refbug
39 39
40 40 In [3]: call_f()
41 41 lowercased: hello
42 42
43 43 In [4]: %run refbug
44 44
45 45 In [5]: call_f()
46 46 lowercased: hello
47 47 lowercased: hello
48 48 """
49 49
50 50
51 51 def doctest_run_builtins():
52 52 r"""Check that %run doesn't damage __builtins__.
53 53
54 54 In [1]: import tempfile
55 55
56 56 In [2]: bid1 = id(__builtins__)
57 57
58 58 In [3]: fname = tempfile.mkstemp('.py')[1]
59 59
60 60 In [3]: f = open(fname,'w')
61 61
62 62 In [4]: dummy= f.write('pass\n')
63 63
64 64 In [5]: f.flush()
65 65
66 66 In [6]: t1 = type(__builtins__)
67 67
68 68 In [7]: %run $fname
69 69
70 70 In [7]: f.close()
71 71
72 72 In [8]: bid2 = id(__builtins__)
73 73
74 74 In [9]: t2 = type(__builtins__)
75 75
76 76 In [10]: t1 == t2
77 77 Out[10]: True
78 78
79 79 In [10]: bid1 == bid2
80 80 Out[10]: True
81 81
82 82 In [12]: try:
83 83 ....: os.unlink(fname)
84 84 ....: except:
85 85 ....: pass
86 86 ....:
87 87 """
88 88
89 89 @py3compat.doctest_refactor_print
90 90 def doctest_reset_del():
91 91 """Test that resetting doesn't cause errors in __del__ methods.
92 92
93 93 In [2]: class A(object):
94 94 ...: def __del__(self):
95 95 ...: print str("Hi")
96 96 ...:
97 97
98 98 In [3]: a = A()
99 99
100 100 In [4]: get_ipython().reset()
101 101 Hi
102 102
103 103 In [5]: 1+1
104 104 Out[5]: 2
105 105 """
106 106
107 107 # For some tests, it will be handy to organize them in a class with a common
108 108 # setup that makes a temp file
109 109
110 110 class TestMagicRunPass(tt.TempFileMixin):
111 111
112 112 def setup(self):
113 113 """Make a valid python temp file."""
114 114 self.mktmp('pass\n')
115 115
116 116 def run_tmpfile(self):
117 117 _ip = get_ipython()
118 118 # This fails on Windows if self.tmpfile.name has spaces or "~" in it.
119 119 # See below and ticket https://bugs.launchpad.net/bugs/366353
120 120 _ip.magic('run %s' % self.fname)
121 121
122 122 def run_tmpfile_p(self):
123 123 _ip = get_ipython()
124 124 # This fails on Windows if self.tmpfile.name has spaces or "~" in it.
125 125 # See below and ticket https://bugs.launchpad.net/bugs/366353
126 126 _ip.magic('run -p %s' % self.fname)
127 127
128 128 def test_builtins_id(self):
129 129 """Check that %run doesn't damage __builtins__ """
130 130 _ip = get_ipython()
131 131 # Test that the id of __builtins__ is not modified by %run
132 132 bid1 = id(_ip.user_ns['__builtins__'])
133 133 self.run_tmpfile()
134 134 bid2 = id(_ip.user_ns['__builtins__'])
135 135 tt.assert_equals(bid1, bid2)
136 136
137 137 def test_builtins_type(self):
138 138 """Check that the type of __builtins__ doesn't change with %run.
139 139
140 140 However, the above could pass if __builtins__ was already modified to
141 141 be a dict (it should be a module) by a previous use of %run. So we
142 142 also check explicitly that it really is a module:
143 143 """
144 144 _ip = get_ipython()
145 145 self.run_tmpfile()
146 146 tt.assert_equals(type(_ip.user_ns['__builtins__']),type(sys))
147 147
148 148 def test_prompts(self):
149 149 """Test that prompts correctly generate after %run"""
150 150 self.run_tmpfile()
151 151 _ip = get_ipython()
152 152 p2 = _ip.prompt_manager.render('in2').strip()
153 153 nt.assert_equals(p2[:3], '...')
154 154
155 155 def test_run_profile( self ):
156 156 """Test that the option -p, which invokes the profiler, do not
157 157 crash by invoking execfile"""
158 158 _ip = get_ipython()
159 159 self.run_tmpfile_p()
160 160
161 161
162 162 class TestMagicRunSimple(tt.TempFileMixin):
163 163
164 164 def test_simpledef(self):
165 165 """Test that simple class definitions work."""
166 166 src = ("class foo: pass\n"
167 167 "def f(): return foo()")
168 168 self.mktmp(src)
169 169 _ip.magic('run %s' % self.fname)
170 170 _ip.run_cell('t = isinstance(f(), foo)')
171 171 nt.assert_true(_ip.user_ns['t'])
172 172
173 173 def test_obj_del(self):
174 174 """Test that object's __del__ methods are called on exit."""
175 175 if sys.platform == 'win32':
176 176 try:
177 177 import win32api
178 178 except ImportError:
179 179 raise SkipTest("Test requires pywin32")
180 180 src = ("class A(object):\n"
181 181 " def __del__(self):\n"
182 182 " print 'object A deleted'\n"
183 183 "a = A()\n")
184 184 self.mktmp(py3compat.doctest_refactor_print(src))
185 185 if dec.module_not_available('sqlite3'):
186 186 err = 'WARNING: IPython History requires SQLite, your history will not be saved\n'
187 187 else:
188 188 err = None
189 189 tt.ipexec_validate(self.fname, 'object A deleted', err)
190 190
191 191 @dec.skip_known_failure
192 192 def test_aggressive_namespace_cleanup(self):
193 193 """Test that namespace cleanup is not too aggressive GH-238
194 194
195 195 Returning from another run magic deletes the namespace"""
196 196 # see ticket https://github.com/ipython/ipython/issues/238
197 197 class secondtmp(tt.TempFileMixin): pass
198 198 empty = secondtmp()
199 199 empty.mktmp('')
200 200 src = ("ip = get_ipython()\n"
201 201 "for i in range(5):\n"
202 202 " try:\n"
203 203 " ip.magic('run %s')\n"
204 204 " except NameError, e:\n"
205 205 " print i;break\n" % empty.fname)
206 206 self.mktmp(py3compat.doctest_refactor_print(src))
207 207 _ip.magic('run %s' % self.fname)
208 208 _ip.run_cell('ip == get_ipython()')
209 209 tt.assert_equals(_ip.user_ns['i'], 5)
210 210
211 211 @dec.skip_win32
212 212 def test_tclass(self):
213 213 mydir = os.path.dirname(__file__)
214 214 tc = os.path.join(mydir, 'tclass')
215 215 src = ("%%run '%s' C-first\n"
216 216 "%%run '%s' C-second\n"
217 217 "%%run '%s' C-third\n") % (tc, tc, tc)
218 218 self.mktmp(src, '.ipy')
219 219 out = """\
220 220 ARGV 1-: ['C-first']
221 221 ARGV 1-: ['C-second']
222 222 tclass.py: deleting object: C-first
223 223 ARGV 1-: ['C-third']
224 224 tclass.py: deleting object: C-second
225 225 tclass.py: deleting object: C-third
226 226 """
227 227 if dec.module_not_available('sqlite3'):
228 228 err = 'WARNING: IPython History requires SQLite, your history will not be saved\n'
229 229 else:
230 230 err = None
231 231 tt.ipexec_validate(self.fname, out, err)
232 232
233 233 def test_run_i_after_reset(self):
234 234 """Check that %run -i still works after %reset (gh-693)"""
235 235 src = "yy = zz\n"
236 236 self.mktmp(src)
237 237 _ip.run_cell("zz = 23")
238 238 _ip.magic('run -i %s' % self.fname)
239 239 tt.assert_equals(_ip.user_ns['yy'], 23)
240 240 _ip.magic('reset -f')
241 241 _ip.run_cell("zz = 23")
242 242 _ip.magic('run -i %s' % self.fname)
243 243 tt.assert_equals(_ip.user_ns['yy'], 23)
244 244
245 245 def test_unicode(self):
246 246 """Check that files in odd encodings are accepted."""
247 247 mydir = os.path.dirname(__file__)
248 248 na = os.path.join(mydir, 'nonascii.py')
249 249 _ip.magic('run "%s"' % na)
250 250 tt.assert_equals(_ip.user_ns['u'], u'Ўт№Ф')
251
252 def test_run_formatting(self):
253 """ Test that %run -t -N<N> does not raise a TypeError for N > 1."""
254 src = "pass"
255 self.mktmp(src)
256 _ip.magic('run -t -N 1 %s' % self.fname)
257 _ip.magic('run -t -N 10 %s' % self.fname)
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