def __init__(self, locals=None, filename="<console>"):
"""Creates a new TrappingInteractiveConsole object."""
InteractiveConsole.__init__(self,locals,filename)
self._trap = OutputTrap(debug=0)
self._stdin = []
self._stdout = []
self._stderr = []
self._namespace_lock = threading.Lock()
self._command_lock = threading.Lock()
self.lastCommandIndex = -1
def _test_runner(self, runner, source, output):
"""Test that a given runner's input/output match."""
log = OutputTrap(out_head='', quiet_out=True)
log.trap_out()
runner.run_source(source)
log.release_out()
out = log.summary_out()
# this output contains nasty \r\n lineends, and the initial ipython
# banner. clean it up for comparison
output_l = output.split()
out_l = out.split()
mismatch = 0
for n in range(len(output_l)):
ol1 = output_l[n].strip()
ol2 = out_l[n].strip()
if ol1 != ol2:
mismatch += 1
if VERBOSE:
print '<<< line %s does not match:' % n
print repr(ol1)
print repr(ol2)
print '>>>'
self.assert_(mismatch == 0,
'Number of mismatched lines: %s' % mismatch)
def __init__(self, locals=None, filename="<console>"):
"""Creates a new TrappingInteractiveConsole object."""
InteractiveConsole.__init__(self, locals, filename)
self._trap = OutputTrap(debug=0)
self._stdin = []
self._stdout = []
self._stderr = []
self._last_type = self._last_traceback = self._last_value = None
#self._namespace_lock = threading.Lock()
#self._command_lock = threading.Lock()
self.lastCommandIndex = -1
# I am using this user defined signal to interrupt the currently
# running command. I am not sure if this is the best way, but
# it is working!
# This doesn't work on Windows as it doesn't have this signal.
#signal.signal(signal.SIGUSR1, self._handleSIGUSR1)
# An exception handler. Experimental: later we need to make the
# modes/colors available to user configuration, etc.
self.tbHandler = ultraTB.FormattedTB(color_scheme='NoColor',
mode='Context',
tb_offset=2)
except:
logplay.close()
if opts_all.debug: IP.InteractiveTB()
warn("Logplay file lacking full configuration information.\n"
"I'll try to read it, but some things may not work.")
#-------------------------------------------------------------------------
# set up output traps: catch all output from files, being run, modules
# loaded, etc. Then give it to the user in a clean form at the end.
msg_out = 'Output messages. '
msg_err = 'Error messages. '
msg_sep = '\n'
msg = Struct(config=OutputTrap('Configuration Loader',
msg_out,
msg_err,
msg_sep,
debug,
quiet_out=1),
user_exec=OutputTrap('User File Execution', msg_out, msg_err,
msg_sep, debug),
logplay=OutputTrap('Log Loader', msg_out, msg_err, msg_sep,
debug),
summary='')
#-------------------------------------------------------------------------
# Process user ipythonrc-type configuration files
# turn on output trapping and log to msg.config
# remember that with debug on, trapping is actually disabled
msg.config.trap_all()
def make_IPython(argv=None,
user_ns=None,
user_global_ns=None,
debug=1,
rc_override=None,
shell_class=InteractiveShell,
embedded=False,
**kw):
"""This is a dump of IPython into a single function.
Later it will have to be broken up in a sensible manner.
Arguments:
- argv: a list similar to sys.argv[1:]. It should NOT contain the desired
script name, b/c DPyGetOpt strips the first argument only for the real
sys.argv.
- user_ns: a dict to be used as the user's namespace."""
#----------------------------------------------------------------------
# Defaults and initialization
# For developer debugging, deactivates crash handler and uses pdb.
DEVDEBUG = False
if argv is None:
argv = sys.argv
# __IP is the main global that lives throughout and represents the whole
# application. If the user redefines it, all bets are off as to what
# happens.
# __IP is the name of he global which the caller will have accessible as
# __IP.name. We set its name via the first parameter passed to
# InteractiveShell:
IP = shell_class('__IP',
user_ns=user_ns,
user_global_ns=user_global_ns,
embedded=embedded,
**kw)
# Put 'help' in the user namespace
from site import _Helper
IP.user_ns['help'] = _Helper()
if DEVDEBUG:
# For developer debugging only (global flag)
from IPython import ultraTB
sys.excepthook = ultraTB.VerboseTB(call_pdb=1)
IP.BANNER_PARTS = [
'Python %s\n'
'Type "copyright", "credits" or "license" '
'for more information.\n' % (sys.version.split('\n')[0], ),
"IPython %s -- An enhanced Interactive Python." % (__version__, ),
"""? -> Introduction to IPython's features.
%magic -> Information about IPython's 'magic' % functions.
help -> Python's own help system.
object? -> Details about 'object'. ?object also works, ?? prints more.
"""
]
IP.usage = interactive_usage
# Platform-dependent suffix and directory names. We use _ipython instead
# of .ipython under win32 b/c there's software that breaks with .named
# directories on that platform.
if os.name == 'posix':
rc_suffix = ''
ipdir_def = '.ipython'
else:
rc_suffix = '.ini'
ipdir_def = '_ipython'
# default directory for configuration
ipythondir_def = os.path.abspath(
os.environ.get('IPYTHONDIR', os.path.join(IP.home_dir, ipdir_def)))
sys.path.insert(0, '') # add . to sys.path. Fix from Prabhu Ramachandran
# we need the directory where IPython itself is installed
import IPython
IPython_dir = os.path.dirname(IPython.__file__)
del IPython
#-------------------------------------------------------------------------
# Command line handling
# Valid command line options (uses DPyGetOpt syntax, like Perl's
# GetOpt::Long)
# Any key not listed here gets deleted even if in the file (like session
# or profile). That's deliberate, to maintain the rc namespace clean.
# Each set of options appears twice: under _conv only the names are
# listed, indicating which type they must be converted to when reading the
# ipythonrc file. And under DPyGetOpt they are listed with the regular
# DPyGetOpt syntax (=s,=i,:f,etc).
# Make sure there's a space before each end of line (they get auto-joined!)
cmdline_opts = (
'autocall=i autoindent! automagic! banner! cache_size|cs=i '
'c=s classic|cl color_info! colors=s confirm_exit! '
'debug! deep_reload! editor=s log|l messages! nosep '
'object_info_string_level=i pdb! '
'pprint! prompt_in1|pi1=s prompt_in2|pi2=s prompt_out|po=s '
'quick screen_length|sl=i prompts_pad_left=i '
'logfile|lf=s logplay|lp=s profile|p=s '
'readline! readline_merge_completions! '
'readline_omit__names! '
'rcfile=s separate_in|si=s separate_out|so=s '
'separate_out2|so2=s xmode=s wildcards_case_sensitive! '
'magic_docstrings system_verbose! '
'multi_line_specials! '
'wxversion=s '
'autoedit_syntax!')
# Options that can *only* appear at the cmd line (not in rcfiles).
# The "ignore" option is a kludge so that Emacs buffers don't crash, since
# the 'C-c !' command in emacs automatically appends a -i option at the end.
cmdline_only = ('help ignore|i ipythondir=s Version upgrade '
'gthread! qthread! wthread! pylab! tk!')
# Build the actual name list to be used by DPyGetOpt
opts_names = qw(cmdline_opts) + qw(cmdline_only)
# Set sensible command line defaults.
# This should have everything from cmdline_opts and cmdline_only
opts_def = Struct(
autocall=1,
autoedit_syntax=0,
autoindent=0,
automagic=1,
banner=1,
cache_size=1000,
c='',
classic=0,
colors='NoColor',
color_info=0,
confirm_exit=1,
debug=0,
deep_reload=0,
editor='0',
help=0,
ignore=0,
ipythondir=ipythondir_def,
log=0,
logfile='',
logplay='',
multi_line_specials=1,
messages=1,
object_info_string_level=0,
nosep=0,
pdb=0,
pprint=0,
profile='',
prompt_in1='In [\\#]: ',
prompt_in2=' .\\D.: ',
prompt_out='Out[\\#]: ',
prompts_pad_left=1,
quick=0,
readline=1,
readline_merge_completions=1,
readline_omit__names=0,
rcfile='ipythonrc' + rc_suffix,
screen_length=0,
separate_in='\n',
separate_out='\n',
separate_out2='',
system_verbose=0,
gthread=0,
qthread=0,
wthread=0,
pylab=0,
tk=0,
upgrade=0,
Version=0,
xmode='Verbose',
wildcards_case_sensitive=1,
wxversion='0',
magic_docstrings=0, # undocumented, for doc generation
)
# Things that will *only* appear in rcfiles (not at the command line).
# Make sure there's a space before each end of line (they get auto-joined!)
rcfile_opts = {
qwflat: 'include import_mod import_all execfile ',
qw_lol: 'import_some ',
# for things with embedded whitespace:
list_strings: 'execute alias readline_parse_and_bind ',
# Regular strings need no conversion:
None: 'readline_remove_delims ',
}
# Default values for these
rc_def = Struct(
include=[],
import_mod=[],
import_all=[],
import_some=[[]],
execute=[],
execfile=[],
alias=[],
readline_parse_and_bind=[],
readline_remove_delims='',
)
# Build the type conversion dictionary from the above tables:
typeconv = rcfile_opts.copy()
typeconv.update(optstr2types(cmdline_opts))
# FIXME: the None key appears in both, put that back together by hand. Ugly!
typeconv[None] += ' ' + rcfile_opts[None]
# Remove quotes at ends of all strings (used to protect spaces)
typeconv[unquote_ends] = typeconv[None]
del typeconv[None]
# Build the list we'll use to make all config decisions with defaults:
opts_all = opts_def.copy()
opts_all.update(rc_def)
# Build conflict resolver for recursive loading of config files:
# - preserve means the outermost file maintains the value, it is not
# overwritten if an included file has the same key.
# - add_flip applies + to the two values, so it better make sense to add
# those types of keys. But it flips them first so that things loaded
# deeper in the inclusion chain have lower precedence.
conflict = {
'preserve':
' '.join([typeconv[int], typeconv[unquote_ends]]),
'add_flip':
' '.join([typeconv[qwflat], typeconv[qw_lol], typeconv[list_strings]])
}
# Now actually process the command line
getopt = DPyGetOpt.DPyGetOpt()
getopt.setIgnoreCase(0)
getopt.parseConfiguration(opts_names)
try:
getopt.processArguments(argv)
except:
print cmd_line_usage
warn('\nError in Arguments: ' + ` sys.exc_value `)
sys.exit(1)
# convert the options dict to a struct for much lighter syntax later
opts = Struct(getopt.optionValues)
args = getopt.freeValues
# this is the struct (which has default values at this point) with which
# we make all decisions:
opts_all.update(opts)
# Options that force an immediate exit
if opts_all.help:
page(cmd_line_usage)
sys.exit()
if opts_all.Version:
print __version__
sys.exit()
if opts_all.magic_docstrings:
IP.magic_magic('-latex')
sys.exit()
# add personal ipythondir to sys.path so that users can put things in
# there for customization
sys.path.append(os.path.abspath(opts_all.ipythondir))
# Create user config directory if it doesn't exist. This must be done
# *after* getting the cmd line options.
if not os.path.isdir(opts_all.ipythondir):
IP.user_setup(opts_all.ipythondir, rc_suffix, 'install')
# upgrade user config files while preserving a copy of the originals
if opts_all.upgrade:
IP.user_setup(opts_all.ipythondir, rc_suffix, 'upgrade')
# check mutually exclusive options in the *original* command line
mutex_opts(opts, [
qw('log logfile'),
qw('rcfile profile'),
qw('classic profile'),
qw('classic rcfile')
])
#---------------------------------------------------------------------------
# Log replay
# if -logplay, we need to 'become' the other session. That basically means
# replacing the current command line environment with that of the old
# session and moving on.
# this is needed so that later we know we're in session reload mode, as
# opts_all will get overwritten:
load_logplay = 0
if opts_all.logplay:
load_logplay = opts_all.logplay
opts_debug_save = opts_all.debug
try:
logplay = open(opts_all.logplay)
except IOError:
if opts_all.debug: IP.InteractiveTB()
warn('Could not open logplay file ' + ` opts_all.logplay `)
# restore state as if nothing had happened and move on, but make
# sure that later we don't try to actually load the session file
logplay = None
load_logplay = 0
del opts_all.logplay
else:
try:
logplay.readline()
logplay.readline()
# this reloads that session's command line
cmd = logplay.readline()[6:]
exec cmd
# restore the true debug flag given so that the process of
# session loading itself can be monitored.
opts.debug = opts_debug_save
# save the logplay flag so later we don't overwrite the log
opts.logplay = load_logplay
# now we must update our own structure with defaults
opts_all.update(opts)
# now load args
cmd = logplay.readline()[6:]
exec cmd
logplay.close()
except:
logplay.close()
if opts_all.debug: IP.InteractiveTB()
warn("Logplay file lacking full configuration information.\n"
"I'll try to read it, but some things may not work.")
#-------------------------------------------------------------------------
# set up output traps: catch all output from files, being run, modules
# loaded, etc. Then give it to the user in a clean form at the end.
msg_out = 'Output messages. '
msg_err = 'Error messages. '
msg_sep = '\n'
msg = Struct(config=OutputTrap('Configuration Loader',
msg_out,
msg_err,
msg_sep,
debug,
quiet_out=1),
user_exec=OutputTrap('User File Execution', msg_out, msg_err,
msg_sep, debug),
logplay=OutputTrap('Log Loader', msg_out, msg_err, msg_sep,
debug),
summary='')
#-------------------------------------------------------------------------
# Process user ipythonrc-type configuration files
# turn on output trapping and log to msg.config
# remember that with debug on, trapping is actually disabled
msg.config.trap_all()
# look for rcfile in current or default directory
try:
opts_all.rcfile = filefind(opts_all.rcfile, opts_all.ipythondir)
except IOError:
if opts_all.debug: IP.InteractiveTB()
warn('Configuration file %s not found. Ignoring request.' %
(opts_all.rcfile))
# 'profiles' are a shorthand notation for config filenames
if opts_all.profile:
try:
opts_all.rcfile = filefind(
'ipythonrc-' + opts_all.profile + rc_suffix,
opts_all.ipythondir)
except IOError:
if opts_all.debug: IP.InteractiveTB()
opts.profile = '' # remove profile from options if invalid
# We won't warn anymore, primary method is ipy_profile_PROFNAME
# which does trigger a warning.
# load the config file
rcfiledata = None
if opts_all.quick:
print 'Launching IPython in quick mode. No config file read.'
elif opts_all.classic:
print 'Launching IPython in classic mode. No config file read.'
elif opts_all.rcfile:
try:
cfg_loader = ConfigLoader(conflict)
rcfiledata = cfg_loader.load(opts_all.rcfile,
typeconv,
'include',
opts_all.ipythondir,
purge=1,
unique=conflict['preserve'])
except:
IP.InteractiveTB()
warn('Problems loading configuration file ' + ` opts_all.rcfile ` +
'\nStarting with default -bare bones- configuration.')
else:
warn('No valid configuration file found in either currrent directory\n'
+ 'or in the IPython config. directory: ' +
` opts_all.ipythondir ` + '\nProceeding with internal defaults.')
#------------------------------------------------------------------------
# Set exception handlers in mode requested by user.
otrap = OutputTrap(trap_out=1) # trap messages from magic_xmode
IP.magic_xmode(opts_all.xmode)
otrap.release_out()
#------------------------------------------------------------------------
# Execute user config
# Create a valid config structure with the right precedence order:
# defaults < rcfile < command line. This needs to be in the instance, so
# that method calls below that rely on it find it.
IP.rc = rc_def.copy()
# Work with a local alias inside this routine to avoid unnecessary
# attribute lookups.
IP_rc = IP.rc
IP_rc.update(opts_def)
if rcfiledata:
# now we can update
IP_rc.update(rcfiledata)
IP_rc.update(opts)
IP_rc.update(rc_override)
# Store the original cmd line for reference:
IP_rc.opts = opts
IP_rc.args = args
# create a *runtime* Struct like rc for holding parameters which may be
# created and/or modified by runtime user extensions.
IP.runtime_rc = Struct()
# from this point on, all config should be handled through IP_rc,
# opts* shouldn't be used anymore.
# update IP_rc with some special things that need manual
# tweaks. Basically options which affect other options. I guess this
# should just be written so that options are fully orthogonal and we
# wouldn't worry about this stuff!
if IP_rc.classic:
IP_rc.quick = 1
IP_rc.cache_size = 0
IP_rc.pprint = 0
IP_rc.prompt_in1 = '>>> '
IP_rc.prompt_in2 = '... '
IP_rc.prompt_out = ''
IP_rc.separate_in = IP_rc.separate_out = IP_rc.separate_out2 = '0'
IP_rc.colors = 'NoColor'
IP_rc.xmode = 'Plain'
IP.pre_config_initialization()
# configure readline
# Define the history file for saving commands in between sessions
if IP_rc.profile:
histfname = 'history-%s' % IP_rc.profile
else:
histfname = 'history'
IP.histfile = os.path.join(opts_all.ipythondir, histfname)
# update exception handlers with rc file status
otrap.trap_out() # I don't want these messages ever.
IP.magic_xmode(IP_rc.xmode)
otrap.release_out()
# activate logging if requested and not reloading a log
if IP_rc.logplay:
IP.magic_logstart(IP_rc.logplay + ' append')
elif IP_rc.logfile:
IP.magic_logstart(IP_rc.logfile)
elif IP_rc.log:
IP.magic_logstart()
# find user editor so that it we don't have to look it up constantly
if IP_rc.editor.strip() == '0':
try:
ed = os.environ['EDITOR']
except KeyError:
if os.name == 'posix':
ed = 'vi' # the only one guaranteed to be there!
else:
ed = 'notepad' # same in Windows!
IP_rc.editor = ed
# Keep track of whether this is an embedded instance or not (useful for
# post-mortems).
IP_rc.embedded = IP.embedded
# Recursive reload
try:
from IPython import deep_reload
if IP_rc.deep_reload:
__builtin__.reload = deep_reload.reload
else:
__builtin__.dreload = deep_reload.reload
del deep_reload
except ImportError:
pass
# Save the current state of our namespace so that the interactive shell
# can later know which variables have been created by us from config files
# and loading. This way, loading a file (in any way) is treated just like
# defining things on the command line, and %who works as expected.
# DON'T do anything that affects the namespace beyond this point!
IP.internal_ns.update(__main__.__dict__)
#IP.internal_ns.update(locals()) # so our stuff doesn't show up in %who
# Now run through the different sections of the users's config
if IP_rc.debug:
print 'Trying to execute the following configuration structure:'
print '(Things listed first are deeper in the inclusion tree and get'
print 'loaded first).\n'
pprint(IP_rc.__dict__)
for mod in IP_rc.import_mod:
try:
exec 'import ' + mod in IP.user_ns
except:
IP.InteractiveTB()
import_fail_info(mod)
for mod_fn in IP_rc.import_some:
if mod_fn == []: break
mod, fn = mod_fn[0], ','.join(mod_fn[1:])
try:
exec 'from ' + mod + ' import ' + fn in IP.user_ns
except:
IP.InteractiveTB()
import_fail_info(mod, fn)
for mod in IP_rc.import_all:
try:
exec 'from ' + mod + ' import *' in IP.user_ns
except:
IP.InteractiveTB()
import_fail_info(mod)
for code in IP_rc.execute:
try:
exec code in IP.user_ns
except:
IP.InteractiveTB()
warn('Failure executing code: ' + ` code `)
# Execute the files the user wants in ipythonrc
for file in IP_rc.execfile:
try:
file = filefind(file, sys.path + [IPython_dir])
except IOError:
warn(itpl('File $file not found. Skipping it.'))
else:
IP.safe_execfile(os.path.expanduser(file), IP.user_ns)
# finally, try importing ipy_*_conf for final configuration
try:
import ipy_system_conf
except ImportError:
if opts_all.debug: IP.InteractiveTB()
warn("Could not import 'ipy_system_conf'")
except:
IP.InteractiveTB()
import_fail_info('ipy_system_conf')
if opts_all.profile:
profmodname = 'ipy_profile_' + opts_all.profile
try:
__import__(profmodname)
except ImportError:
# only warn if ipythonrc-PROFNAME didn't exist
if opts.profile == '':
warn("Could not start with profile '%s'!\n"
"('%s/%s.py' does not exist? run '%%upgrade')" %
(opts_all.profile, opts_all.ipythondir, profmodname))
except:
print "Error importing", profmodname
IP.InteractiveTB()
import_fail_info(profmodname)
try:
import ipy_user_conf
except ImportError:
if opts_all.debug: IP.InteractiveTB()
warn("Could not import user config!\n "
"('%s/ipy_user_conf.py' does not exist? Please run '%%upgrade')\n"
% opts_all.ipythondir)
except:
print "Error importing ipy_user_conf"
IP.InteractiveTB()
import_fail_info("ipy_user_conf")
# release stdout and stderr and save config log into a global summary
msg.config.release_all()
if IP_rc.messages:
msg.summary += msg.config.summary_all()
#------------------------------------------------------------------------
# Setup interactive session
# Now we should be fully configured. We can then execute files or load
# things only needed for interactive use. Then we'll open the shell.
# Take a snapshot of the user namespace before opening the shell. That way
# we'll be able to identify which things were interactively defined and
# which were defined through config files.
IP.user_config_ns = IP.user_ns.copy()
# Force reading a file as if it were a session log. Slower but safer.
if load_logplay:
print 'Replaying log...'
try:
if IP_rc.debug:
logplay_quiet = 0
else:
logplay_quiet = 1
msg.logplay.trap_all()
IP.safe_execfile(load_logplay,
IP.user_ns,
islog=1,
quiet=logplay_quiet)
msg.logplay.release_all()
if IP_rc.messages:
msg.summary += msg.logplay.summary_all()
except:
warn('Problems replaying logfile %s.' % load_logplay)
IP.InteractiveTB()
# Load remaining files in command line
msg.user_exec.trap_all()
# Do NOT execute files named in the command line as scripts to be loaded
# by embedded instances. Doing so has the potential for an infinite
# recursion if there are exceptions thrown in the process.
# XXX FIXME: the execution of user files should be moved out to after
# ipython is fully initialized, just as if they were run via %run at the
# ipython prompt. This would also give them the benefit of ipython's
# nice tracebacks.
if (not embedded and IP_rc.args
and not IP_rc.args[0].lower().endswith('.ipy')):
name_save = IP.user_ns['__name__']
IP.user_ns['__name__'] = '__main__'
# Set our own excepthook in case the user code tries to call it
# directly. This prevents triggering the IPython crash handler.
old_excepthook, sys.excepthook = sys.excepthook, IP.excepthook
save_argv = sys.argv[1:] # save it for later restoring
sys.argv = args
try:
IP.safe_execfile(args[0], IP.user_ns)
finally:
# Reset our crash handler in place
sys.excepthook = old_excepthook
sys.argv[:] = save_argv
IP.user_ns['__name__'] = name_save
msg.user_exec.release_all()
if IP_rc.messages:
msg.summary += msg.user_exec.summary_all()
# since we can't specify a null string on the cmd line, 0 is the equivalent:
if IP_rc.nosep:
IP_rc.separate_in = IP_rc.separate_out = IP_rc.separate_out2 = '0'
if IP_rc.separate_in == '0': IP_rc.separate_in = ''
if IP_rc.separate_out == '0': IP_rc.separate_out = ''
if IP_rc.separate_out2 == '0': IP_rc.separate_out2 = ''
IP_rc.separate_in = IP_rc.separate_in.replace('\\n', '\n')
IP_rc.separate_out = IP_rc.separate_out.replace('\\n', '\n')
IP_rc.separate_out2 = IP_rc.separate_out2.replace('\\n', '\n')
# Determine how many lines at the bottom of the screen are needed for
# showing prompts, so we can know wheter long strings are to be printed or
# paged:
num_lines_bot = IP_rc.separate_in.count('\n') + 1
IP_rc.screen_length = IP_rc.screen_length - num_lines_bot
# configure startup banner
if IP_rc.c: # regular python doesn't print the banner with -c
IP_rc.banner = 0
if IP_rc.banner:
BANN_P = IP.BANNER_PARTS
else:
BANN_P = []
if IP_rc.profile: BANN_P.append('IPython profile: %s\n' % IP_rc.profile)
# add message log (possibly empty)
if msg.summary: BANN_P.append(msg.summary)
# Final banner is a string
IP.BANNER = '\n'.join(BANN_P)
# Finalize the IPython instance. This assumes the rc structure is fully
# in place.
IP.post_config_initialization()
return IP
'include',opts_all.ipythondir,
purge = 1,
unique = conflict['preserve'])
except:
IP.InteractiveTB()
warn('Problems loading configuration file '+
`opts_all.rcfile`+
'\nStarting with default -bare bones- configuration.')
else:
warn('No valid configuration file found in either currrent directory\n'+
'or in the IPython config. directory: '+`opts_all.ipythondir`+
'\nProceeding with internal defaults.')
#------------------------------------------------------------------------
# Set exception handlers in mode requested by user.
otrap = OutputTrap(trap_out=1) # trap messages from magic_xmode
IP.magic_xmode(opts_all.xmode)
otrap.release_out()
#------------------------------------------------------------------------
# Execute user config
# Create a valid config structure with the right precedence order:
# defaults < rcfile < command line. This needs to be in the instance, so
# that method calls below that rely on it find it.
IP.rc = rc_def.copy()
# Work with a local alias inside this routine to avoid unnecessary
# attribute lookups.
IP_rc = IP.rc
class InteractiveShell(InteractiveConsole):
"""The Basic IPython Shell class.
This class provides the basic capabilities of IPython. Currently
this class does not do anything IPython specific. That is, it is
just a python shell.
It is modelled on code.InteractiveConsole, but adds additional
capabilities. These additional capabilities are what give IPython
its power.
The current version of this class is meant to be a prototype that guides
the future design of the IPython core. This class must not use Twisted
in any way, but it must be designed in a way that makes it easy to
incorporate into Twisted and hook netowrk protocols up to.
Some of the methods of this class comprise the official IPython core
interface. These methods must be tread safe and they must return types
that can be easily serialized by protocols such as PB, XML-RPC and SOAP.
Locks have been provided for making the methods thread safe, but addisional
locks can be added as needed.
Any method that is meant to be a part of the official interface must also
be declared in the kernel.coreservice.ICoreService interface. Eventually
all other methods should have single leading underscores to note that they
are not designed to be 'public.' Currently, because this class inherits
from code.InteractiveConsole there are many private methods w/o leading
underscores. The interface should be as simple as possible and methods
should not be added to the interface unless they really need to be there.
Note:
- For now I am using methods named put/get to move objects in/out of the
users namespace. Originally, I was calling these methods push/pull, but
because code.InteractiveConsole already has a push method, I had to use
something different. Eventually, we probably won't subclass this class
so we can call these methods whatever we want. So, what do we want to
call them?
- We need a way of running the trapping of stdout/stderr in different ways.
We should be able to i) trap, ii) not trap at all or iii) trap and echo
things to stdout and stderr.
- How should errors be handled? Should exceptions be raised?
- What should methods that don't compute anything return? The default of
None?
"""
def __init__(self, locals=None, filename="<console>"):
"""Creates a new TrappingInteractiveConsole object."""
InteractiveConsole.__init__(self,locals,filename)
self._trap = OutputTrap(debug=0)
self._stdin = []
self._stdout = []
self._stderr = []
self._namespace_lock = threading.Lock()
self._command_lock = threading.Lock()
self.lastCommandIndex = -1
# I am using this user defined signal to interrupt the currently
# running command. I am not sure if this is the best way, but
# it is working!
# This doesn't work on Windows as it doesn't have this signal.
#signal.signal(signal.SIGUSR1, self._handleSIGUSR1)
def _handleSIGUSR1(self, signum, frame):
"""Handle the SIGUSR1 signal by printing to stderr."""
print>>sys.stderr, "Command stopped."
def _prefilter(self, line, more):
return line
def _trapRunlines(self, lines):
"""
This executes the python source code, source, in the
self.locals namespace and traps stdout and stderr. Upon
exiting, self.out and self.err contain the values of
stdout and stderr for the last executed command only.
"""
# Execute the code
self._namespace_lock.acquire()
self._trap.flush()
self._trap.trap()
self._runlines(lines)
self.lastCommandIndex += 1
self._trap.release()
self._namespace_lock.release()
# Save stdin, stdout and stderr to lists
self._command_lock.acquire()
self._stdin.append(lines)
self._stdout.append(self._trap.out.getvalue())
self._stderr.append(self._trap.err.getvalue())
self._command_lock.release()
# Lifted from iplib.InteractiveShell
def _runlines(self,lines):
"""Run a string of one or more lines of source.
This method is capable of running a string containing multiple source
lines, as if they had been entered at the IPython prompt. Since it
exposes IPython's processing machinery, the given strings can contain
magic calls (%magic), special shell access (!cmd), etc."""
# We must start with a clean buffer, in case this is run from an
# interactive IPython session (via a magic, for example).
self.resetbuffer()
lines = lines.split('\n')
more = 0
for line in lines:
# skip blank lines so we don't mess up the prompt counter, but do
# NOT skip even a blank line if we are in a code block (more is
# true)
if line or more:
more = self.push((self._prefilter(line,more)))
# IPython's runsource returns None if there was an error
# compiling the code. This allows us to stop processing right
# away, so the user gets the error message at the right place.
if more is None:
break
# final newline in case the input didn't have it, so that the code
# actually does get executed
if more:
self.push('\n')
##################################################################
# Methods that are a part of the official interface
#
# These methods should also be put in the
# kernel.coreservice.ICoreService interface.
#
# These methods must conform to certain restrictions that allow
# them to be exposed to various network protocols:
#
# - As much as possible, these methods must return types that can be
# serialized by PB, XML-RPC and SOAP. None is OK.
# - Every method must be thread safe. There are some locks provided
# for this purpose, but new, specialized locks can be added to the
# class.
##################################################################
# Methods for running code
def execute(self, lines):
self._trapRunlines(lines)
return self.getCommand()
# Methods for working with the namespace
def put(self, key, value):
"""Put value into locals namespace with name key.
I have often called this push(), but in this case the
InteractiveConsole class already defines a push() method that
is different.
"""
if not isinstance(key, str):
raise TypeError, "Objects must be keyed by strings."
self.update({key:value})
def get(self, key):
"""Gets an item out of the self.locals dict by key.
What should this return if the key is not defined? Currently, I return
a NotDefined() object.
I have often called this pull(). I still like that better.
"""
if not isinstance(key, str):
raise TypeError, "Objects must be keyed by strings."
self._namespace_lock.acquire()
result = self.locals.get(key, NotDefined(key))
self._namespace_lock.release()
return result
def update(self, dictOfData):
"""Loads a dict of key value pairs into the self.locals namespace."""
if not isinstance(dictOfData, dict):
raise TypeError, "update() takes a dict object."
self._namespace_lock.acquire()
self.locals.update(dictOfData)
self._namespace_lock.release()
# Methods for getting stdout/stderr/stdin
def reset(self):
"""Reset the InteractiveShell."""
self._command_lock.acquire()
self._stdin = []
self._stdout = []
self._stderr = []
self.lastCommandIndex = -1
self._command_lock.release()
self._namespace_lock.acquire()
# preserve id, mpi objects
mpi = self.locals.get('mpi', None)
id = self.locals.get('id', None)
del self.locals
self.locals = {'mpi': mpi, 'id': id}
self._namespace_lock.release()
def getCommand(self,i=None):
"""Get the stdin/stdout/stderr of command i."""
self._command_lock.acquire()
if i in range(self.lastCommandIndex + 1):
inResult = self._stdin[i]
outResult = self._stdout[i]
errResult = self._stderr[i]
cmdNum = i
elif i is None and self.lastCommandIndex >= 0:
inResult = self._stdin[self.lastCommandIndex]
outResult = self._stdout[self.lastCommandIndex]
errResult = self._stderr[self.lastCommandIndex]
cmdNum = self.lastCommandIndex
else:
inResult = None
outResult = None
errResult = None
self._command_lock.release()
if inResult is not None:
return (cmdNum, inResult, outResult, errResult)
else:
raise IndexError, "Command with index does not exist."
def getLastCommandIndex(self):
"""Get the index of the last command."""
self._command_lock.acquire()
ind = self.lastCommandIndex
self._command_lock.release()
return ind
class InteractiveShell(InteractiveConsole):
"""The Basic IPython Shell class.
This class provides the basic capabilities of IPython. Currently
this class does not do anything IPython specific. That is, it is
just a python shell.
It is modelled on code.InteractiveConsole, but adds additional
capabilities. These additional capabilities are what give IPython
its power.
The current version of this class is meant to be a prototype that guides
the future design of the IPython core. This class must not use Twisted
in any way, but it must be designed in a way that makes it easy to
incorporate into Twisted and hook network protocols up to.
Some of the methods of this class comprise the official IPython core
interface. These methods must be tread safe and they must return types
that can be easily serialized by protocols such as PB, XML-RPC and SOAP.
Locks have been provided for making the methods thread safe, but additional
locks can be added as needed.
Any method that is meant to be a part of the official interface must also
be declared in the kernel.coreservice.ICoreService interface. Eventually
all other methods should have single leading underscores to note that they
are not designed to be 'public.' Currently, because this class inherits
from code.InteractiveConsole there are many private methods w/o leading
underscores. The interface should be as simple as possible and methods
should not be added to the interface unless they really need to be there.
Note:
- For now I am using methods named put/get to move objects in/out of the
users namespace. Originally, I was calling these methods push/pull, but
because code.InteractiveConsole already has a push method, I had to use
something different. Eventually, we probably won't subclass this class
so we can call these methods whatever we want. So, what do we want to
call them?
- We need a way of running the trapping of stdout/stderr in different ways.
We should be able to i) trap, ii) not trap at all or iii) trap and echo
things to stdout and stderr.
- How should errors be handled? Should exceptions be raised?
- What should methods that don't compute anything return? The default of
None?
"""
def __init__(self, locals=None, filename="<console>"):
"""Creates a new TrappingInteractiveConsole object."""
InteractiveConsole.__init__(self, locals, filename)
self._trap = OutputTrap(debug=0)
self._stdin = []
self._stdout = []
self._stderr = []
self._last_type = self._last_traceback = self._last_value = None
#self._namespace_lock = threading.Lock()
#self._command_lock = threading.Lock()
self.lastCommandIndex = -1
# I am using this user defined signal to interrupt the currently
# running command. I am not sure if this is the best way, but
# it is working!
# This doesn't work on Windows as it doesn't have this signal.
#signal.signal(signal.SIGUSR1, self._handleSIGUSR1)
# An exception handler. Experimental: later we need to make the
# modes/colors available to user configuration, etc.
self.tbHandler = ultraTB.FormattedTB(color_scheme='NoColor',
mode='Context',
tb_offset=2)
def _handleSIGUSR1(self, signum, frame):
"""Handle the SIGUSR1 signal by printing to stderr."""
print >> sys.stderr, "Command stopped."
def _prefilter(self, line, more):
return line
def _trapRunlines(self, lines):
"""
This executes the python source code, source, in the
self.locals namespace and traps stdout and stderr. Upon
exiting, self.out and self.err contain the values of
stdout and stderr for the last executed command only.
"""
# Execute the code
#self._namespace_lock.acquire()
self._trap.flush()
self._trap.trap()
self._runlines(lines)
self.lastCommandIndex += 1
self._trap.release()
#self._namespace_lock.release()
# Save stdin, stdout and stderr to lists
#self._command_lock.acquire()
self._stdin.append(lines)
self._stdout.append(self.prune_output(self._trap.out.getvalue()))
self._stderr.append(self.prune_output(self._trap.err.getvalue()))
#self._command_lock.release()
def prune_output(self, s):
"""Only return the first and last 1600 chars of stdout and stderr.
Something like this is required to make sure that the engine and
controller don't become overwhelmed by the size of stdout/stderr.
"""
if len(s) > 3200:
return s[:1600] + '\n............\n' + s[-1600:]
else:
return s
# Lifted from iplib.InteractiveShell
def _runlines(self, lines):
"""Run a string of one or more lines of source.
This method is capable of running a string containing multiple source
lines, as if they had been entered at the IPython prompt. Since it
exposes IPython's processing machinery, the given strings can contain
magic calls (%magic), special shell access (!cmd), etc."""
# We must start with a clean buffer, in case this is run from an
# interactive IPython session (via a magic, for example).
self.resetbuffer()
lines = lines.split('\n')
more = 0
for line in lines:
# skip blank lines so we don't mess up the prompt counter, but do
# NOT skip even a blank line if we are in a code block (more is
# true)
if line or more:
more = self.push((self._prefilter(line, more)))
# IPython's runsource returns None if there was an error
# compiling the code. This allows us to stop processing right
# away, so the user gets the error message at the right place.
if more is None:
break
# final newline in case the input didn't have it, so that the code
# actually does get executed
if more:
self.push('\n')
def runcode(self, code):
"""Execute a code object.
When an exception occurs, self.showtraceback() is called to
display a traceback. All exceptions are caught except
SystemExit, which is reraised.
A note about KeyboardInterrupt: this exception may occur
elsewhere in this code, and may not always be caught. The
caller should be prepared to deal with it.
"""
self._last_type = self._last_traceback = self._last_value = None
try:
exec code in self.locals
except:
# Since the exception info may need to travel across the wire, we
# pack it in right away. Note that we are abusing the exception
# value to store a fully formatted traceback, since the stack can
# not be serialized for network transmission.
et, ev, tb = sys.exc_info()
self._last_type = et
self._last_traceback = tb
tbinfo = self.tbHandler.text(et, ev, tb)
# Construct a meaningful traceback message for shipping over the
# wire.
buf = pprint.pformat(self.buffer)
try:
ename = et.__name__
except:
ename = et
msg = """\
%(ev)s
***************************************************************************
An exception occurred in an IPython engine while executing user code.
Current execution buffer (lines being run):
%(buf)s
A full traceback from the actual engine:
%(tbinfo)s
***************************************************************************
""" % locals()
self._last_value = msg
else:
if softspace(sys.stdout, 0):
print
##################################################################
# Methods that are a part of the official interface
#
# These methods should also be put in the
# kernel.coreservice.ICoreService interface.
#
# These methods must conform to certain restrictions that allow
# them to be exposed to various network protocols:
#
# - As much as possible, these methods must return types that can be
# serialized by PB, XML-RPC and SOAP. None is OK.
# - Every method must be thread safe. There are some locks provided
# for this purpose, but new, specialized locks can be added to the
# class.
##################################################################
# Methods for running code
def exc_info(self):
"""Return exception information much like sys.exc_info().
This method returns the same (etype,evalue,tb) tuple as sys.exc_info,
but from the last time that the engine had an exception fire."""
return self._last_type, self._last_value, self._last_traceback
def execute(self, lines):
self._trapRunlines(lines)
if self._last_type is None:
return self.getCommand()
else:
raise self._last_type(self._last_value)
# Methods for working with the namespace
def put(self, key, value):
"""Put value into locals namespace with name key.
I have often called this push(), but in this case the
InteractiveConsole class already defines a push() method that
is different.
"""
if not isinstance(key, str):
raise TypeError, "Objects must be keyed by strings."
self.update({key: value})
def get(self, key):
"""Gets an item out of the self.locals dict by key.
Raise NameError if the object doesn't exist.
I have often called this pull(). I still like that better.
"""
class NotDefined(object):
"""A class to signify an objects that is not in the users ns."""
pass
if not isinstance(key, str):
raise TypeError, "Objects must be keyed by strings."
result = self.locals.get(key, NotDefined())
if isinstance(result, NotDefined):
raise NameError('name %s is not defined' % key)
else:
return result
def update(self, dictOfData):
"""Loads a dict of key value pairs into the self.locals namespace."""
if not isinstance(dictOfData, dict):
raise TypeError, "update() takes a dict object."
#self._namespace_lock.acquire()
self.locals.update(dictOfData)
#self._namespace_lock.release()
# Methods for getting stdout/stderr/stdin
def reset(self):
"""Reset the InteractiveShell."""
#self._command_lock.acquire()
self._stdin = []
self._stdout = []
self._stderr = []
self.lastCommandIndex = -1
#self._command_lock.release()
#self._namespace_lock.acquire()
# preserve id, mpi objects
mpi = self.locals.get('mpi', None)
id = self.locals.get('id', None)
del self.locals
self.locals = {'mpi': mpi, 'id': id}
#self._namespace_lock.release()
def getCommand(self, i=None):
"""Get the stdin/stdout/stderr of command i."""
#self._command_lock.acquire()
if i is not None and not isinstance(i, int):
raise TypeError("Command index not an int: " + str(i))
if i in range(self.lastCommandIndex + 1):
inResult = self._stdin[i]
outResult = self._stdout[i]
errResult = self._stderr[i]
cmdNum = i
elif i is None and self.lastCommandIndex >= 0:
inResult = self._stdin[self.lastCommandIndex]
outResult = self._stdout[self.lastCommandIndex]
errResult = self._stderr[self.lastCommandIndex]
cmdNum = self.lastCommandIndex
else:
inResult = None
outResult = None
errResult = None
#self._command_lock.release()
if inResult is not None:
return dict(commandIndex=cmdNum,
stdin=inResult,
stdout=outResult,
stderr=errResult)
else:
raise IndexError("Command with index %s does not exist" % str(i))
def getLastCommandIndex(self):
"""Get the index of the last command."""
#self._command_lock.acquire()
ind = self.lastCommandIndex
#self._command_lock.release()
return ind
