"""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.


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.demo import Demo
d = Demo('ex_demo.py')
d()  <--- Call the d object (omit the parens if you have autocall set to 2).

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.


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> ############################
"""

#*****************************************************************************
#     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.
#
#*****************************************************************************

import exceptions
import os
import re
import shlex
import sys

from IPython.PyColorize import Parser
from IPython.genutils import marquee, file_read, file_readlines

__all__ = ['Demo','IPythonDemo','LineDemo','IPythonLineDemo','DemoError']

class DemoError(exceptions.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,fname,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:
        
          - fname = filename.

        Optional inputs:

          - 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.
          """
        
        self.fname    = fname
        self.sys_argv = [fname] + shlex.split(arg_str)
        self.auto_all = auto_all
        
        # 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.
        self.ip_ns       = __IPYTHON__.user_ns
        self.ip_colorize = __IPYTHON__.pycolorize
        self.ip_showtb   = __IPYTHON__.showtraceback
        self.ip_runlines = __IPYTHON__.runlines
        self.shell       = __IPYTHON__

        # load user data and initialize data structures
        self.reload()

    def reload(self):
        """Reload source from disk and initialize state."""
        # read data and parse into blocks
        self.src     = file_read(self.fname)
        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 = 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 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)
        new_block = file_read(filename)
        # 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.fname,index,self.nblocks-index-1))
        sys.stdout.write(self.src_blocks_colored[index])
        sys.stdout.flush()

    def show_all(self):
        """Show entire demo on screen, block by block"""

        fname = self.fname
        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)' %
                              (fname,index,nblocks-index-1))
            else:
                print marquee('<%s> block # %s (%s remaining)' %
                              (fname,index,nblocks-index-1))
            print block,
        sys.stdout.flush()

    def runlines(self,source):
        """Execute a string with one or more lines of code"""

        exec source in 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...'),
                    ans = raw_input().strip()
                    if ans:
                        print marquee('Block NOT executed')
                        return
            try:
                save_argv = sys.argv
                sys.argv = self.sys_argv
                self.runlines(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 prints if empty marquees are used
                print
                print mq1
                print self.marquee('Use 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 runlines(self,source):
        """Execute a string with one or more lines of code"""

        self.shell.runlines(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."""
    
    def reload(self):
        """Reload source from disk and initialize state."""
        # read data and parse into blocks
        src_b           = [l for l in file_readlines(self.fname) if l.strip()]
        nblocks         = len(src_b)
        self.src        = os.linesep.join(file_readlines(self.fname))
        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."""
        os.system('clear')


class ClearDemo(ClearMixin,Demo):
    pass


class ClearIPDemo(ClearMixin,IPythonDemo):
    pass