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- """Module for interactive demos using IPython.
- This module implements a few classes for running Python scripts interactively
- in IPython for demonstrations. With very simple markup (a few tags in
- comments), you can control points where the script stops executing and returns
- control to IPython.
- Provided classes
- ----------------
- The classes are (see their docstrings for further details):
- - Demo: pure python demos
- - IPythonDemo: demos with input to be processed by IPython as if it had been
- typed interactively (so magics work, as well as any other special syntax you
- may have added via input prefilters).
- - LineDemo: single-line version of the Demo class. These demos are executed
- one line at a time, and require no markup.
- - IPythonLineDemo: IPython version of the LineDemo class (the demo is
- executed a line at a time, but processed via IPython).
- - ClearMixin: mixin to make Demo classes with less visual clutter. It
- declares an empty marquee and a pre_cmd that clears the screen before each
- block (see Subclassing below).
- - ClearDemo, ClearIPDemo: mixin-enabled versions of the Demo and IPythonDemo
- classes.
- Inheritance diagram:
- .. inheritance-diagram:: IPython.lib.demo
- :parts: 3
- Subclassing
- -----------
- The classes here all include a few methods meant to make customization by
- subclassing more convenient. Their docstrings below have some more details:
- - marquee(): generates a marquee to provide visible on-screen markers at each
- block start and end.
- - pre_cmd(): run right before the execution of each block.
- - post_cmd(): run right after the execution of each block. If the block
- raises an exception, this is NOT called.
- Operation
- ---------
- The file is run in its own empty namespace (though you can pass it a string of
- arguments as if in a command line environment, and it will see those as
- sys.argv). But at each stop, the global IPython namespace is updated with the
- current internal demo namespace, so you can work interactively with the data
- accumulated so far.
- By default, each block of code is printed (with syntax highlighting) before
- executing it and you have to confirm execution. This is intended to show the
- code to an audience first so you can discuss it, and only proceed with
- execution once you agree. There are a few tags which allow you to modify this
- behavior.
- The supported tags are:
- # <demo> stop
- Defines block boundaries, the points where IPython stops execution of the
- file and returns to the interactive prompt.
- You can optionally mark the stop tag with extra dashes before and after the
- word 'stop', to help visually distinguish the blocks in a text editor:
- # <demo> --- stop ---
- # <demo> silent
- Make a block execute silently (and hence automatically). Typically used in
- cases where you have some boilerplate or initialization code which you need
- executed but do not want to be seen in the demo.
- # <demo> auto
- Make a block execute automatically, but still being printed. Useful for
- simple code which does not warrant discussion, since it avoids the extra
- manual confirmation.
- # <demo> auto_all
- This tag can _only_ be in the first block, and if given it overrides the
- individual auto tags to make the whole demo fully automatic (no block asks
- for confirmation). It can also be given at creation time (or the attribute
- set later) to override what's in the file.
- While _any_ python file can be run as a Demo instance, if there are no stop
- tags the whole file will run in a single block (no different that calling
- first %pycat and then %run). The minimal markup to make this useful is to
- place a set of stop tags; the other tags are only there to let you fine-tune
- the execution.
- This is probably best explained with the simple example file below. You can
- copy this into a file named ex_demo.py, and try running it via::
- from IPython.lib.demo import Demo
- d = Demo('ex_demo.py')
- d()
- Each time you call the demo object, it runs the next block. The demo object
- has a few useful methods for navigation, like again(), edit(), jump(), seek()
- and back(). It can be reset for a new run via reset() or reloaded from disk
- (in case you've edited the source) via reload(). See their docstrings below.
- Note: To make this simpler to explore, a file called "demo-exercizer.py" has
- been added to the "docs/examples/core" directory. Just cd to this directory in
- an IPython session, and type::
- %run demo-exercizer.py
- and then follow the directions.
- Example
- -------
- The following is a very simple example of a valid demo file.
- ::
- #################### EXAMPLE DEMO <ex_demo.py> ###############################
- '''A simple interactive demo to illustrate the use of IPython's Demo class.'''
- print 'Hello, welcome to an interactive IPython demo.'
- # The mark below defines a block boundary, which is a point where IPython will
- # stop execution and return to the interactive prompt. The dashes are actually
- # optional and used only as a visual aid to clearly separate blocks while
- # editing the demo code.
- # <demo> stop
- x = 1
- y = 2
- # <demo> stop
- # the mark below makes this block as silent
- # <demo> silent
- print 'This is a silent block, which gets executed but not printed.'
- # <demo> stop
- # <demo> auto
- print 'This is an automatic block.'
- print 'It is executed without asking for confirmation, but printed.'
- z = x+y
- print 'z=',x
- # <demo> stop
- # This is just another normal block.
- print 'z is now:', z
- print 'bye!'
- ################### END EXAMPLE DEMO <ex_demo.py> ############################
- """
- from __future__ import unicode_literals
- #*****************************************************************************
- # Copyright (C) 2005-2006 Fernando Perez. <Fernando.Perez@colorado.edu>
- #
- # Distributed under the terms of the BSD License. The full license is in
- # the file COPYING, distributed as part of this software.
- #
- #*****************************************************************************
- from __future__ import print_function
- import os
- import re
- import shlex
- import sys
- from IPython.utils import io
- from IPython.utils.text import marquee
- from IPython.utils import openpy
- from IPython.utils import py3compat
- __all__ = ['Demo','IPythonDemo','LineDemo','IPythonLineDemo','DemoError']
- class DemoError(Exception): pass
- def re_mark(mark):
- return re.compile(r'^\s*#\s+<demo>\s+%s\s*$' % mark,re.MULTILINE)
- class Demo(object):
- re_stop = re_mark('-*\s?stop\s?-*')
- re_silent = re_mark('silent')
- re_auto = re_mark('auto')
- re_auto_all = re_mark('auto_all')
- def __init__(self,src,title='',arg_str='',auto_all=None):
- """Make a new demo object. To run the demo, simply call the object.
- See the module docstring for full details and an example (you can use
- IPython.Demo? in IPython to see it).
- Inputs:
- - src is either a file, or file-like object, or a
- string that can be resolved to a filename.
- Optional inputs:
- - title: a string to use as the demo name. Of most use when the demo
- you are making comes from an object that has no filename, or if you
- want an alternate denotation distinct from the filename.
- - arg_str(''): a string of arguments, internally converted to a list
- just like sys.argv, so the demo script can see a similar
- environment.
- - auto_all(None): global flag to run all blocks automatically without
- confirmation. This attribute overrides the block-level tags and
- applies to the whole demo. It is an attribute of the object, and
- can be changed at runtime simply by reassigning it to a boolean
- value.
- """
- if hasattr(src, "read"):
- # It seems to be a file or a file-like object
- self.fname = "from a file-like object"
- if title == '':
- self.title = "from a file-like object"
- else:
- self.title = title
- else:
- # Assume it's a string or something that can be converted to one
- self.fname = src
- if title == '':
- (filepath, filename) = os.path.split(src)
- self.title = filename
- else:
- self.title = title
- self.sys_argv = [src] + shlex.split(arg_str)
- self.auto_all = auto_all
- self.src = src
- # get a few things from ipython. While it's a bit ugly design-wise,
- # it ensures that things like color scheme and the like are always in
- # sync with the ipython mode being used. This class is only meant to
- # be used inside ipython anyways, so it's OK.
- ip = get_ipython() # this is in builtins whenever IPython is running
- self.ip_ns = ip.user_ns
- self.ip_colorize = ip.pycolorize
- self.ip_showtb = ip.showtraceback
- self.ip_run_cell = ip.run_cell
- self.shell = ip
- # load user data and initialize data structures
- self.reload()
- def fload(self):
- """Load file object."""
- # read data and parse into blocks
- if hasattr(self, 'fobj') and self.fobj is not None:
- self.fobj.close()
- if hasattr(self.src, "read"):
- # It seems to be a file or a file-like object
- self.fobj = self.src
- else:
- # Assume it's a string or something that can be converted to one
- self.fobj = openpy.open(self.fname)
- def reload(self):
- """Reload source from disk and initialize state."""
- self.fload()
- self.src = "".join(openpy.strip_encoding_cookie(self.fobj))
- src_b = [b.strip() for b in self.re_stop.split(self.src) if b]
- self._silent = [bool(self.re_silent.findall(b)) for b in src_b]
- self._auto = [bool(self.re_auto.findall(b)) for b in src_b]
- # if auto_all is not given (def. None), we read it from the file
- if self.auto_all is None:
- self.auto_all = bool(self.re_auto_all.findall(src_b[0]))
- else:
- self.auto_all = bool(self.auto_all)
- # Clean the sources from all markup so it doesn't get displayed when
- # running the demo
- src_blocks = []
- auto_strip = lambda s: self.re_auto.sub('',s)
- for i,b in enumerate(src_b):
- if self._auto[i]:
- src_blocks.append(auto_strip(b))
- else:
- src_blocks.append(b)
- # remove the auto_all marker
- src_blocks[0] = self.re_auto_all.sub('',src_blocks[0])
- self.nblocks = len(src_blocks)
- self.src_blocks = src_blocks
- # also build syntax-highlighted source
- self.src_blocks_colored = list(map(self.ip_colorize,self.src_blocks))
- # ensure clean namespace and seek offset
- self.reset()
- def reset(self):
- """Reset the namespace and seek pointer to restart the demo"""
- self.user_ns = {}
- self.finished = False
- self.block_index = 0
- def _validate_index(self,index):
- if index<0 or index>=self.nblocks:
- raise ValueError('invalid block index %s' % index)
- def _get_index(self,index):
- """Get the current block index, validating and checking status.
- Returns None if the demo is finished"""
- if index is None:
- if self.finished:
- print('Demo finished. Use <demo_name>.reset() if you want to rerun it.')
- return None
- index = self.block_index
- else:
- self._validate_index(index)
- return index
- def seek(self,index):
- """Move the current seek pointer to the given block.
- You can use negative indices to seek from the end, with identical
- semantics to those of Python lists."""
- if index<0:
- index = self.nblocks + index
- self._validate_index(index)
- self.block_index = index
- self.finished = False
- def back(self,num=1):
- """Move the seek pointer back num blocks (default is 1)."""
- self.seek(self.block_index-num)
- def jump(self,num=1):
- """Jump a given number of blocks relative to the current one.
- The offset can be positive or negative, defaults to 1."""
- self.seek(self.block_index+num)
- def again(self):
- """Move the seek pointer back one block and re-execute."""
- self.back(1)
- self()
- def edit(self,index=None):
- """Edit a block.
- If no number is given, use the last block executed.
- This edits the in-memory copy of the demo, it does NOT modify the
- original source file. If you want to do that, simply open the file in
- an editor and use reload() when you make changes to the file. This
- method is meant to let you change a block during a demonstration for
- explanatory purposes, without damaging your original script."""
- index = self._get_index(index)
- if index is None:
- return
- # decrease the index by one (unless we're at the very beginning), so
- # that the default demo.edit() call opens up the sblock we've last run
- if index>0:
- index -= 1
- filename = self.shell.mktempfile(self.src_blocks[index])
- self.shell.hooks.editor(filename,1)
- with open(filename, 'r') as f:
- new_block = f.read()
- # update the source and colored block
- self.src_blocks[index] = new_block
- self.src_blocks_colored[index] = self.ip_colorize(new_block)
- self.block_index = index
- # call to run with the newly edited index
- self()
- def show(self,index=None):
- """Show a single block on screen"""
- index = self._get_index(index)
- if index is None:
- return
- print(self.marquee('<%s> block # %s (%s remaining)' %
- (self.title,index,self.nblocks-index-1)))
- print(self.src_blocks_colored[index])
- sys.stdout.flush()
- def show_all(self):
- """Show entire demo on screen, block by block"""
- fname = self.title
- title = self.title
- nblocks = self.nblocks
- silent = self._silent
- marquee = self.marquee
- for index,block in enumerate(self.src_blocks_colored):
- if silent[index]:
- print(marquee('<%s> SILENT block # %s (%s remaining)' %
- (title,index,nblocks-index-1)))
- else:
- print(marquee('<%s> block # %s (%s remaining)' %
- (title,index,nblocks-index-1)))
- print(block, end=' ')
- sys.stdout.flush()
- def run_cell(self,source):
- """Execute a string with one or more lines of code"""
- exec(source, self.user_ns)
- def __call__(self,index=None):
- """run a block of the demo.
- If index is given, it should be an integer >=1 and <= nblocks. This
- means that the calling convention is one off from typical Python
- lists. The reason for the inconsistency is that the demo always
- prints 'Block n/N, and N is the total, so it would be very odd to use
- zero-indexing here."""
- index = self._get_index(index)
- if index is None:
- return
- try:
- marquee = self.marquee
- next_block = self.src_blocks[index]
- self.block_index += 1
- if self._silent[index]:
- print(marquee('Executing silent block # %s (%s remaining)' %
- (index,self.nblocks-index-1)))
- else:
- self.pre_cmd()
- self.show(index)
- if self.auto_all or self._auto[index]:
- print(marquee('output:'))
- else:
- print(marquee('Press <q> to quit, <Enter> to execute...'), end=' ')
- ans = py3compat.input().strip()
- if ans:
- print(marquee('Block NOT executed'))
- return
- try:
- save_argv = sys.argv
- sys.argv = self.sys_argv
- self.run_cell(next_block)
- self.post_cmd()
- finally:
- sys.argv = save_argv
- except:
- self.ip_showtb(filename=self.fname)
- else:
- self.ip_ns.update(self.user_ns)
- if self.block_index == self.nblocks:
- mq1 = self.marquee('END OF DEMO')
- if mq1:
- # avoid spurious print if empty marquees are used
- print()
- print(mq1)
- print(self.marquee('Use <demo_name>.reset() if you want to rerun it.'))
- self.finished = True
- # These methods are meant to be overridden by subclasses who may wish to
- # customize the behavior of of their demos.
- def marquee(self,txt='',width=78,mark='*'):
- """Return the input string centered in a 'marquee'."""
- return marquee(txt,width,mark)
- def pre_cmd(self):
- """Method called before executing each block."""
- pass
- def post_cmd(self):
- """Method called after executing each block."""
- pass
- class IPythonDemo(Demo):
- """Class for interactive demos with IPython's input processing applied.
- This subclasses Demo, but instead of executing each block by the Python
- interpreter (via exec), it actually calls IPython on it, so that any input
- filters which may be in place are applied to the input block.
- If you have an interactive environment which exposes special input
- processing, you can use this class instead to write demo scripts which
- operate exactly as if you had typed them interactively. The default Demo
- class requires the input to be valid, pure Python code.
- """
- def run_cell(self,source):
- """Execute a string with one or more lines of code"""
- self.shell.run_cell(source)
- class LineDemo(Demo):
- """Demo where each line is executed as a separate block.
- The input script should be valid Python code.
- This class doesn't require any markup at all, and it's meant for simple
- scripts (with no nesting or any kind of indentation) which consist of
- multiple lines of input to be executed, one at a time, as if they had been
- typed in the interactive prompt.
- Note: the input can not have *any* indentation, which means that only
- single-lines of input are accepted, not even function definitions are
- valid."""
- def reload(self):
- """Reload source from disk and initialize state."""
- # read data and parse into blocks
- self.fload()
- lines = self.fobj.readlines()
- src_b = [l for l in lines if l.strip()]
- nblocks = len(src_b)
- self.src = ''.join(lines)
- self._silent = [False]*nblocks
- self._auto = [True]*nblocks
- self.auto_all = True
- self.nblocks = nblocks
- self.src_blocks = src_b
- # also build syntax-highlighted source
- self.src_blocks_colored = map(self.ip_colorize,self.src_blocks)
- # ensure clean namespace and seek offset
- self.reset()
- class IPythonLineDemo(IPythonDemo,LineDemo):
- """Variant of the LineDemo class whose input is processed by IPython."""
- pass
- class ClearMixin(object):
- """Use this mixin to make Demo classes with less visual clutter.
- Demos using this mixin will clear the screen before every block and use
- blank marquees.
- Note that in order for the methods defined here to actually override those
- of the classes it's mixed with, it must go /first/ in the inheritance
- tree. For example:
- class ClearIPDemo(ClearMixin,IPythonDemo): pass
- will provide an IPythonDemo class with the mixin's features.
- """
- def marquee(self,txt='',width=78,mark='*'):
- """Blank marquee that returns '' no matter what the input."""
- return ''
- def pre_cmd(self):
- """Method called before executing each block.
- This one simply clears the screen."""
- from IPython.utils.terminal import term_clear
- term_clear()
- class ClearDemo(ClearMixin,Demo):
- pass
- class ClearIPDemo(ClearMixin,IPythonDemo):
- pass
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