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1 | .. _tips: | |||
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2 | ||||
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3 | ===================== | |||
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4 | IPython Tips & Tricks | |||
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5 | ===================== | |||
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6 | ||||
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7 | The `IPython cookbook <http://ipython.scipy.org/moin/Cookbook>`_ details more | |||
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8 | things you can do with IPython. | |||
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9 | ||||
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10 | .. This is not in the current version: | |||
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11 | .. Use IPython to present interactive demos | |||
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12 | ---------------------------------------- | |||
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13 | ||||
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14 | .. Use the IPython.demo.Demo class to load any Python script as an interactive | |||
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15 | demo. With a minimal amount of simple markup, you can control the execution of | |||
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16 | the script, stopping as needed. See :ref:`here <interactive_demos>` for more. | |||
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17 | ||||
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18 | Embed IPython in your programs | |||
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19 | ------------------------------ | |||
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20 | ||||
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21 | A few lines of code are enough to load a complete IPython inside your own | |||
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22 | programs, giving you the ability to work with your data interactively after | |||
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23 | automatic processing has been completed. See :ref:`the embedding section <embedding>`. | |||
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24 | ||||
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25 | Run doctests | |||
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26 | ------------ | |||
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27 | ||||
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28 | Run your doctests from within IPython for development and debugging. The | |||
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29 | special %doctest_mode command toggles a mode where the prompt, output and | |||
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30 | exceptions display matches as closely as possible that of the default Python | |||
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31 | interpreter. In addition, this mode allows you to directly paste in code that | |||
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32 | contains leading '>>>' prompts, even if they have extra leading whitespace | |||
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33 | (as is common in doctest files). This combined with the ``%history -t`` call | |||
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34 | to see your translated history allows for an easy doctest workflow, where you | |||
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35 | can go from doctest to interactive execution to pasting into valid Python code | |||
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36 | as needed. | |||
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37 | ||||
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38 | Suppress output | |||
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39 | --------------- | |||
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40 | ||||
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41 | Put a ';' at the end of a line to suppress the printing of output. This is | |||
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42 | useful when doing calculations which generate long output you are not | |||
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43 | interested in seeing. | |||
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44 | ||||
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45 | Lightweight 'version control' | |||
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46 | ----------------------------- | |||
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47 | ||||
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48 | When you call ``%edit`` with no arguments, IPython opens an empty editor | |||
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49 | with a temporary file, and it returns the contents of your editing | |||
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50 | session as a string variable. Thanks to IPython's output caching | |||
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51 | mechanism, this is automatically stored:: | |||
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52 | ||||
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53 | In [1]: %edit | |||
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54 | ||||
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55 | IPython will make a temporary file named: /tmp/ipython_edit_yR-HCN.py | |||
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56 | ||||
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57 | Editing... done. Executing edited code... | |||
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58 | ||||
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59 | hello - this is a temporary file | |||
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60 | ||||
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61 | Out[1]: "print 'hello - this is a temporary file'\n" | |||
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62 | ||||
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63 | Now, if you call ``%edit -p``, IPython tries to open an editor with the | |||
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64 | same data as the last time you used %edit. So if you haven't used %edit | |||
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65 | in the meantime, this same contents will reopen; however, it will be | |||
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66 | done in a new file. This means that if you make changes and you later | |||
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67 | want to find an old version, you can always retrieve it by using its | |||
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68 | output number, via '%edit _NN', where NN is the number of the output | |||
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69 | prompt. | |||
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70 | ||||
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71 | Continuing with the example above, this should illustrate this idea:: | |||
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72 | ||||
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73 | In [2]: edit -p | |||
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74 | ||||
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75 | IPython will make a temporary file named: /tmp/ipython_edit_nA09Qk.py | |||
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76 | ||||
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77 | Editing... done. Executing edited code... | |||
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78 | ||||
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79 | hello - now I made some changes | |||
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80 | ||||
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81 | Out[2]: "print 'hello - now I made some changes'\n" | |||
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82 | ||||
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83 | In [3]: edit _1 | |||
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84 | ||||
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85 | IPython will make a temporary file named: /tmp/ipython_edit_gy6-zD.py | |||
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86 | ||||
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87 | Editing... done. Executing edited code... | |||
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88 | ||||
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89 | hello - this is a temporary file | |||
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90 | ||||
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91 | IPython version control at work :) | |||
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92 | ||||
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93 | Out[3]: "print 'hello - this is a temporary file'\nprint 'IPython version control at work :)'\n" | |||
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94 | ||||
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95 | ||||
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96 | This section was written after a contribution by Alexander Belchenko on | |||
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97 | the IPython user list. | |||
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98 | ||||
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99 | .. The section below needs to be updated for the new config system. | |||
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100 | ||||
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101 | .. Effective logging | |||
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102 | ----------------- | |||
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103 | ||||
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104 | .. A very useful suggestion sent in by Robert Kern follows: | |||
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105 | ||||
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106 | .. I recently happened on a nifty way to keep tidy per-project log files. I | |||
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107 | made a profile for my project (which is called "parkfield"):: | |||
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108 | ||||
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109 | include ipythonrc | |||
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110 | ||||
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111 | # cancel earlier logfile invocation: | |||
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112 | ||||
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113 | logfile '' | |||
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114 | ||||
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115 | execute import time | |||
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116 | ||||
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117 | execute __cmd = '/Users/kern/research/logfiles/parkfield-%s.log rotate' | |||
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118 | ||||
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119 | execute __IP.magic_logstart(__cmd % time.strftime('%Y-%m-%d')) | |||
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120 | ||||
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121 | .. I also added a shell alias for convenience:: | |||
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122 | ||||
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123 | alias parkfield="ipython --pylab profile=parkfield" | |||
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124 | ||||
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125 | .. Now I have a nice little directory with everything I ever type in, | |||
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126 | organized by project and date. | |||
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127 | ||||
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128 | ||||
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129 |
@@ -6,6 +6,7 b' Using IPython for interactive work' | |||||
6 | :maxdepth: 2 |
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6 | :maxdepth: 2 | |
7 |
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7 | |||
8 | tutorial.txt |
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8 | tutorial.txt | |
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9 | tips.txt | |||
9 | reference.txt |
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10 | reference.txt | |
10 | shell.txt |
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11 | shell.txt | |
11 | qtconsole.txt |
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12 | qtconsole.txt |
@@ -1,336 +1,145 b'' | |||||
1 | .. _tutorial: |
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1 | .. _tutorial: | |
2 |
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2 | |||
3 | ====================== |
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3 | ====================== | |
4 | Quick IPython tutorial |
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4 | Introducing IPython | |
5 | ====================== |
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5 | ====================== | |
6 |
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6 | |||
7 | .. warning:: |
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7 | You don't need to know anything beyond Python to start using IPython β just type | |
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8 | commands as you would at the standard Python prompt. But IPython can do much | |||
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9 | more than the standard prompt. Some key features are described here. For more | |||
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10 | information, check the :ref:`tips page <tips>`, or look at examples in the | |||
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11 | `IPython cookbook <http://ipython.scipy.org/moin/Cookbook>`_. | |||
8 |
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12 | |||
9 | As of the 0.11 version of IPython, some of the features and APIs |
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13 | If you've never used Python before, you might want to look at `the official | |
10 | described in this section have been deprecated or are broken. Our plan |
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14 | tutorial <http://docs.python.org/tutorial/>`_ or an alternative, `Dive into | |
11 | is to continue to support these features, but they need to be updated |
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15 | Python <http://diveintopython.org/toc/index.html>`_. | |
12 | to take advantage of recent API changes. Furthermore, this section |
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13 | of the documentation need to be updated to reflect all of these changes. |
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14 |
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15 | IPython can be used as an improved replacement for the Python prompt, |
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16 | and for that you don't really need to read any more of this manual. But |
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17 | in this section we'll try to summarize a few tips on how to make the |
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18 | most effective use of it for everyday Python development, highlighting |
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19 | things you might miss in the rest of the manual (which is getting long). |
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20 | We'll give references to parts in the manual which provide more detail |
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21 | when appropriate. |
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22 |
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23 | The following article by Jeremy Jones provides an introductory tutorial |
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24 | about IPython: http://www.onlamp.com/pub/a/python/2005/01/27/ipython.html |
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25 |
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26 | Highlights |
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27 | ========== |
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28 |
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16 | |||
29 | Tab completion |
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17 | Tab completion | |
30 | -------------- |
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18 | ============== | |
31 |
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19 | |||
32 |
T |
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20 | Tab completion, especially for attributes, is a convenient way to explore the | |
33 |
structure of any object you're dealing with. Simply type object_name.<TAB> |
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21 | structure of any object you're dealing with. Simply type ``object_name.<TAB>`` | |
34 |
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22 | to view the object's attributes (see :ref:`the readline section <readline>` for | |
35 | section <readline>` for more). Tab completion also works on file and directory |
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23 | more). Besides Python objects and keywords, tab completion also works on file | |
36 | names, which combined with IPython's alias system allows you to do from within |
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24 | and directory names. | |
37 | IPython many of the things you normally would need the system shell for. |
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38 |
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25 | |||
39 |
Explor |
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26 | Exploring your objects | |
40 | -------------------- |
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27 | ====================== | |
41 |
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28 | |||
42 | Typing object_name? will print all sorts of details about any object, |
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29 | Typing ``object_name?`` will print all sorts of details about any object, | |
43 | including docstrings, function definition lines (for call arguments) and |
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30 | including docstrings, function definition lines (for call arguments) and | |
44 |
constructor details for classes. T |
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31 | constructor details for classes. To get specific information on an object, you | |
45 | and %pfile will respectively print the docstring, function definition line, |
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32 | can use the magic commands ``%pdoc``, ``%pdef``, ``%psource`` and ``%pfile`` | |
46 | full source code and the complete file for any object (when they can be |
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47 | found). If automagic is on (it is by default), you don't need to type the '%' |
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48 | explicitly. See :ref:`this section <dynamic_object_info>` for more. |
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49 |
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33 | |||
50 | The `%run` magic command |
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34 | Magic functions | |
51 | ------------------------ |
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35 | =============== | |
52 |
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36 | |||
53 | The %run magic command allows you to run any python script and load all of its |
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37 | IPython has a set of predefined 'magic functions' that you can call with a | |
54 | data directly into the interactive namespace. Since the file is re-read from |
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38 | command line style syntax. These include: | |
55 | disk each time, changes you make to it are reflected immediately (in contrast |
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56 | to the behavior of import). I rarely use import for code I am testing, relying |
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57 | on %run instead. See :ref:`this section <magic>` for more on this and other |
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58 | magic commands, or type the name of any magic command and ? to get details on |
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59 | it. See also :ref:`this section <dreload>` for a recursive reload command. %run |
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60 | also has special flags for timing the execution of your scripts (-t) and for |
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61 | executing them under the control of either Python's pdb debugger (-d) or |
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62 | profiler (-p). With all of these, %run can be used as the main tool for |
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63 | efficient interactive development of code which you write in your editor of |
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64 | choice. |
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65 |
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66 | Debug a Python script |
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67 | --------------------- |
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68 |
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69 | Use the Python debugger, pdb. The %pdb command allows you to toggle on and off |
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70 | the automatic invocation of an IPython-enhanced pdb debugger (with coloring, |
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71 | tab completion and more) at any uncaught exception. The advantage of this is |
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72 | that pdb starts inside the function where the exception occurred, with all data |
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73 | still available. You can print variables, see code, execute statements and even |
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74 | walk up and down the call stack to track down the true source of the problem |
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75 | (which often is many layers in the stack above where the exception gets |
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76 | triggered). Running programs with %run and pdb active can be an efficient to |
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77 | develop and debug code, in many cases eliminating the need for print statements |
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78 | or external debugging tools. I often simply put a 1/0 in a place where I want |
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79 | to take a look so that pdb gets called, quickly view whatever variables I need |
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80 | to or test various pieces of code and then remove the 1/0. Note also that '%run |
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81 | -d' activates pdb and automatically sets initial breakpoints for you to step |
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82 | through your code, watch variables, etc. The :ref:`output caching section |
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83 | <output_caching>` has more details. |
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84 |
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85 | Use the output cache |
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86 | -------------------- |
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87 |
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88 | All output results are automatically stored in a global dictionary named Out |
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89 | and variables named _1, _2, etc. alias them. For example, the result of input |
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90 | line 4 is available either as Out[4] or as _4. Additionally, three variables |
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91 | named _, __ and ___ are always kept updated with the for the last three |
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92 | results. This allows you to recall any previous result and further use it for |
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93 | new calculations. See :ref:`the output caching section <output_caching>` for |
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94 | more. |
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95 |
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96 | Suppress output |
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97 | --------------- |
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98 |
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99 | Put a ';' at the end of a line to suppress the printing of output. This is |
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100 | useful when doing calculations which generate long output you are not |
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101 | interested in seeing. The _* variables and the Out[] list do get updated with |
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102 | the contents of the output, even if it is not printed. You can thus still |
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103 | access the generated results this way for further processing. |
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104 |
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105 | Input cache |
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106 | ----------- |
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107 |
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108 | A similar system exists for caching input. All input is stored in a global |
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109 | list called In , so you can re-execute lines 22 through 28 plus line 34 by |
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110 | typing 'exec In[22:29]+In[34]' (using Python slicing notation). If you need |
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111 | to execute the same set of lines often, you can assign them to a macro with |
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112 | the %macro function. See :ref:`here <input_caching>` for more. |
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113 |
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114 | Use your input history |
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115 | ---------------------- |
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116 |
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117 | The %hist command can show you all previous input, without line numbers if |
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118 | desired (option -n) so you can directly copy and paste code either back in |
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119 | IPython or in a text editor. You can also save all your history by turning on |
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120 | logging via %logstart; these logs can later be either reloaded as IPython |
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121 | sessions or used as code for your programs. |
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122 |
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123 | In particular, note taht the %rep magic function can repeat a command or get a |
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124 | command to the input line for further editing:: |
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125 |
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126 | $ l = ["hei", "vaan"] |
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127 | $ "".join(l) |
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128 | ==> heivaan |
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129 | $ %rep |
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130 | $ heivaan_ <== cursor blinking |
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131 |
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132 | For more details, type ``%rep?`` as usual. |
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133 |
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134 | Define your own system aliases |
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135 | ------------------------------ |
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136 |
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137 | Even though IPython gives you access to your system shell via the ! prefix, |
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138 | it is convenient to have aliases to the system commands you use most often. |
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139 | This allows you to work seamlessly from inside IPython with the same commands |
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140 | you are used to in your system shell. IPython comes with some pre-defined |
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141 | aliases and a complete system for changing directories, both via a stack (see |
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142 | %pushd, %popd and %dhist) and via direct %cd. The latter keeps a history of |
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143 | visited directories and allows you to go to any previously visited one. |
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144 |
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39 | |||
145 | Call system shell commands |
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40 | - Functions that work with code: ``%run``, ``%edit``, ``%save``, ``%macro``, | |
146 | -------------------------- |
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41 | ``%recall``, etc. | |
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42 | - Functions which affect the shell: ``%colors``, ``%xmode``, ``%autoindent``, etc. | |||
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43 | - Other functions such as ``%reset``, ``%timeit`` or ``%paste``. | |||
147 |
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44 | |||
148 | Use Python to manipulate the results of system commands. The '!!' special |
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45 | You can always call these using the % prefix, and if you're typing one on a line | |
149 | syntax, and the %sc and %sx magic commands allow you to capture system output |
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46 | by itself, you can omit even that:: | |
150 | into Python variables. |
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151 |
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47 | |||
152 | Use Python variables when calling the shell |
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48 | run thescript.py | |
153 | ------------------------------------------- |
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154 |
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49 | |||
155 | Expand python variables when calling the shell (either via '!' and '!!' or via |
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50 | For more details on any magic function, call ``%somemagic?`` to read its | |
156 | aliases) by prepending a $ in front of them. You can also expand complete |
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51 | docstring. To see all the available magic functions, call ``%lsmagic``. | |
157 | python expressions. See :ref:`our shell section <system_shell_access>` for |
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158 | more details. |
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159 |
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52 | |||
160 | Use profiles |
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53 | Running and Editing | |
161 | ------------ |
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54 | ------------------- | |
162 |
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55 | |||
163 | Use profiles to maintain different configurations (modules to load, function |
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56 | The %run magic command allows you to run any python script and load all of its | |
164 | definitions, option settings) for particular tasks. You can then have |
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57 | data directly into the interactive namespace. Since the file is re-read from | |
165 | customized versions of IPython for specific purposes. :ref:`This section |
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58 | disk each time, changes you make to it are reflected immediately (unlike | |
166 | <profiles>` has more details. |
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59 | imported modules, which have to be specifically reloaded). IPython also includes | |
167 |
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60 | :ref:`dreload <dreload>`, a recursive reload function. | ||
168 |
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169 | Embed IPython in your programs |
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170 | ------------------------------ |
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171 |
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172 | A few lines of code are enough to load a complete IPython inside your own |
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173 | programs, giving you the ability to work with your data interactively after |
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174 | automatic processing has been completed. See :ref:`here <embedding>` for more. |
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175 |
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176 | Use the Python profiler |
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177 | ----------------------- |
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178 |
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179 | When dealing with performance issues, the %run command with a -p option |
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180 | allows you to run complete programs under the control of the Python profiler. |
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181 | The %prun command does a similar job for single Python expressions (like |
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182 | function calls). |
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183 |
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184 | Use IPython to present interactive demos |
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185 | ---------------------------------------- |
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186 |
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187 | Use the IPython.demo.Demo class to load any Python script as an interactive |
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188 | demo. With a minimal amount of simple markup, you can control the execution of |
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189 | the script, stopping as needed. See :ref:`here <interactive_demos>` for more. |
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190 |
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191 | Run doctests |
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192 | ------------ |
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193 |
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194 | Run your doctests from within IPython for development and debugging. The |
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195 | special %doctest_mode command toggles a mode where the prompt, output and |
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196 | exceptions display matches as closely as possible that of the default Python |
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197 | interpreter. In addition, this mode allows you to directly paste in code that |
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198 | contains leading '>>>' prompts, even if they have extra leading whitespace |
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199 | (as is common in doctest files). This combined with the '%history -tn' call |
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200 | to see your translated history (with these extra prompts removed and no line |
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201 | numbers) allows for an easy doctest workflow, where you can go from doctest |
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202 | to interactive execution to pasting into valid Python code as needed. |
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203 |
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204 | Source code handling tips |
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205 | ========================= |
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206 |
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61 | |||
207 | IPython is a line-oriented program, without full control of the |
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62 | %run has special flags for timing the execution of your scripts (-t), or for | |
208 | terminal. Therefore, it doesn't support true multiline editing. However, |
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63 | running them under the control of either Python's pdb debugger (-d) or | |
209 | it has a number of useful tools to help you in dealing effectively with |
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64 | profiler (-p). | |
210 | more complex editing. |
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211 |
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65 | |||
212 | The %edit command gives a reasonable approximation of multiline editing, |
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66 | The %edit command gives a reasonable approximation of multiline editing, | |
213 | by invoking your favorite editor on the spot. IPython will execute the |
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67 | by invoking your favorite editor on the spot. IPython will execute the | |
214 |
code you type in there as if it were typed interactively. |
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68 | code you type in there as if it were typed interactively. | |
215 | for the full details on the edit command. |
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216 |
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217 | If you have typed various commands during a session, which you'd like to |
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218 | reuse, IPython provides you with a number of tools. Start by using %hist |
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219 | to see your input history, so you can see the line numbers of all input. |
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220 | Let us say that you'd like to reuse lines 10 through 20, plus lines 24 |
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221 | and 28. All the commands below can operate on these with the syntax:: |
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222 |
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69 | |||
223 | %command 10-20 24 28 |
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70 | Debugging | |
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71 | --------- | |||
224 |
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72 | |||
225 | where the command given can be: |
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73 | After an exception occurs, you can call ``%debug`` to jump into the Python | |
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74 | debugger (pdb) and examine the problem. Alternatively, if you call ``%pdb``, | |||
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75 | IPython will automatically start the debugger on any uncaught exception. You can | |||
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76 | print variables, see code, execute statements and even walk up and down the | |||
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77 | call stack to track down the true source of the problem. Running programs with | |||
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78 | %run and pdb active can be an efficient way to develop and debug code, in many | |||
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79 | cases eliminating the need for print statements or external debugging tools. | |||
226 |
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80 | |||
227 | * %macro <macroname>: this stores the lines into a variable which, |
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81 | You can also step through a program from the beginning by calling | |
228 | when called at the prompt, re-executes the input. Macros can be |
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82 | ``%run -d theprogram.py``. | |
229 | edited later using '%edit macroname', and they can be stored |
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230 | persistently across sessions with '%store macroname' (the storage |
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231 | system is per-profile). The combination of quick macros, |
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232 | persistent storage and editing, allows you to easily refine |
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233 | quick-and-dirty interactive input into permanent utilities, always |
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234 | available both in IPython and as files for general reuse. |
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235 | * %edit: this will open a text editor with those lines pre-loaded |
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236 | for further modification. It will then execute the resulting |
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237 | file's contents as if you had typed it at the prompt. |
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238 | * %save <filename>: this saves the lines directly to a named file on |
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239 | disk. |
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240 |
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83 | |||
241 | While %macro saves input lines into memory for interactive re-execution, |
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84 | History | |
242 | sometimes you'd like to save your input directly to a file. The %save |
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85 | ======= | |
243 | magic does this: its input sytnax is the same as %macro, but it saves |
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244 | your input directly to a Python file. Note that the %logstart command |
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245 | also saves input, but it logs all input to disk (though you can |
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246 | temporarily suspend it and reactivate it with %logoff/%logon); %save |
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247 | allows you to select which lines of input you need to save. |
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248 |
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86 | |||
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87 | IPython stores both the commands you enter, and the results it produces. You | |||
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88 | can easily go through previous commands with the up- and down-arrow keys, or | |||
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89 | access your history in more sophisticated ways. | |||
249 |
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90 | |||
250 | Lightweight 'version control' |
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91 | Input and output history are kept in variables called ``In`` and ``Out``, which | |
251 | ============================= |
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92 | can both be indexed by the prompt number on which they occurred, e.g. ``In[4]``. | |
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93 | The last three objects in output history are also kept in variables named ``_``, | |||
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94 | ``__`` and ``___``. | |||
252 |
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95 | |||
253 | When you call %edit with no arguments, IPython opens an empty editor |
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96 | You can use the ``%history`` magic function to examine past input and output. | |
254 | with a temporary file, and it returns the contents of your editing |
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97 | Input history from previous sessions is saved in a database, and IPython can be | |
255 | session as a string variable. Thanks to IPython's output caching |
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98 | configured to save output history. | |
256 | mechanism, this is automatically stored:: |
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257 |
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99 | |||
258 | In [1]: %edit |
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100 | Several other magic functions can use your input history, including ``%edit``, | |
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101 | ``%rerun``, ``%recall``, ``%macro``, ``%save`` and ``%pastebin``. You can use a | |||
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102 | standard format to refer to lines:: | |||
259 |
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103 | |||
260 | IPython will make a temporary file named: /tmp/ipython_edit_yR-HCN.py |
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104 | %pastebin 3 18-20 ~1/1-5 | |
261 |
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105 | |||
262 | Editing... done. Executing edited code... |
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106 | This will take line 3 and lines 18 to 20 from the current session, and lines | |
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107 | 1-5 from the previous session. | |||
263 |
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108 | |||
264 | hello - this is a temporary file |
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109 | System shell commands | |
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110 | ===================== | |||
265 |
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111 | |||
266 | Out[1]: "print 'hello - this is a temporary file'\n" |
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112 | To run any command at the system shell, simply prefix it with !, e.g.:: | |
267 |
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113 | |||
268 | Now, if you call '%edit -p', IPython tries to open an editor with the |
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114 | !ping www.bbc.co.uk | |
269 | same data as the last time you used %edit. So if you haven't used %edit |
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270 | in the meantime, this same contents will reopen; however, it will be |
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271 | done in a new file. This means that if you make changes and you later |
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272 | want to find an old version, you can always retrieve it by using its |
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273 | output number, via '%edit _NN', where NN is the number of the output |
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274 | prompt. |
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275 |
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115 | |||
276 | Continuing with the example above, this should illustrate this idea:: |
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116 | You can capture the output into a Python list, e.g.: ``files = !ls``. To pass | |
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117 | the values of Python variables or expressions to system commands, prefix them | |||
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118 | with $: ``!grep -rF $pattern ipython/*``. See :ref:`our shell section | |||
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119 | <system_shell_access>` for more details. | |||
277 |
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120 | |||
278 | In [2]: edit -p |
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121 | Define your own system aliases | |
279 |
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122 | ------------------------------ | ||
280 | IPython will make a temporary file named: /tmp/ipython_edit_nA09Qk.py |
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281 |
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282 | Editing... done. Executing edited code... |
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283 |
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284 | hello - now I made some changes |
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285 |
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286 | Out[2]: "print 'hello - now I made some changes'\n" |
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287 |
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288 | In [3]: edit _1 |
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289 |
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290 | IPython will make a temporary file named: /tmp/ipython_edit_gy6-zD.py |
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291 |
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292 | Editing... done. Executing edited code... |
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293 |
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294 | hello - this is a temporary file |
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295 |
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296 | IPython version control at work :) |
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297 |
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298 | Out[3]: "print 'hello - this is a temporary file'\nprint 'IPython version control at work :)'\n" |
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299 |
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300 |
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301 | This section was written after a contribution by Alexander Belchenko on |
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302 | the IPython user list. |
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303 |
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304 |
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305 | Effective logging |
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306 | ================= |
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307 |
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308 | A very useful suggestion sent in by Robert Kern follows: |
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309 |
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310 | I recently happened on a nifty way to keep tidy per-project log files. I |
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311 | made a profile for my project (which is called "parkfield"):: |
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312 |
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313 | include ipythonrc |
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314 |
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315 | # cancel earlier logfile invocation: |
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316 |
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317 | logfile '' |
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318 |
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319 | execute import time |
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320 |
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321 | execute __cmd = '/Users/kern/research/logfiles/parkfield-%s.log rotate' |
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322 |
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123 | |||
323 | execute __IP.magic_logstart(__cmd % time.strftime('%Y-%m-%d')) |
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124 | It's convenient to have aliases to the system commands you use most often. | |
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125 | This allows you to work seamlessly from inside IPython with the same commands | |||
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126 | you are used to in your system shell. IPython comes with some pre-defined | |||
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127 | aliases and a complete system for changing directories, both via a stack (see | |||
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128 | %pushd, %popd and %dhist) and via direct %cd. The latter keeps a history of | |||
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129 | visited directories and allows you to go to any previously visited one. | |||
324 |
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130 | |||
325 | I also added a shell alias for convenience:: |
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326 |
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131 | |||
327 | alias parkfield="ipython --pylab profile=parkfield" |
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132 | Configuration | |
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133 | ============= | |||
328 |
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134 | |||
329 | Now I have a nice little directory with everything I ever type in, |
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135 | Much of IPython can be tweaked through configuration. To get started, use the | |
330 | organized by project and date. |
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136 | command ``ipython profile create`` to produce the default config files. These | |
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137 | will be placed in :file:`~/.ipython/profile_default` or | |||
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138 | :file:`~/.config/ipython/profile_default`, and contain comments explaining what | |||
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139 | the various options do. | |||
331 |
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140 | |||
332 | Contribute your own: If you have your own favorite tip on using IPython |
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141 | Profiles allow you to use IPython for different tasks, keeping separate config | |
333 | efficiently for a certain task (especially things which can't be done in |
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142 | files and history for each one. More details in :ref:`the profiles section | |
334 | the normal Python interpreter), don't hesitate to send it! |
|
143 | <profiles>`. | |
335 |
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144 | |||
336 |
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145 |
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