##// END OF EJS Templates
BUG: Partial fix for the case of old-style extension types that do not descend from object, like the VTK types. Still need to work on getting a real MRO for them.
BUG: Partial fix for the case of old-style extension types that do not descend from object, like the VTK types. Still need to work on getting a real MRO for them.

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linefrontendbase.py
333 lines | 11.2 KiB | text/x-python | PythonLexer
"""
Base front end class for all line-oriented frontends, rather than
block-oriented.
Currently this focuses on synchronous frontends.
"""
__docformat__ = "restructuredtext en"
#-------------------------------------------------------------------------------
# Copyright (C) 2008 The IPython Development Team
#
# Distributed under the terms of the BSD License. The full license is in
# the file COPYING, distributed as part of this software.
#-------------------------------------------------------------------------------
#-------------------------------------------------------------------------------
# Imports
#-------------------------------------------------------------------------------
import re
import IPython
import sys
import codeop
import traceback
from frontendbase import FrontEndBase
from IPython.kernel.core.interpreter import Interpreter
def common_prefix(strings):
""" Given a list of strings, return the common prefix between all
these strings.
"""
ref = strings[0]
prefix = ''
for size in range(len(ref)):
test_prefix = ref[:size+1]
for string in strings[1:]:
if not string.startswith(test_prefix):
return prefix
prefix = test_prefix
return prefix
#-------------------------------------------------------------------------------
# Base class for the line-oriented front ends
#-------------------------------------------------------------------------------
class LineFrontEndBase(FrontEndBase):
""" Concrete implementation of the FrontEndBase class. This is meant
to be the base class behind all the frontend that are line-oriented,
rather than block-oriented.
"""
# We need to keep the prompt number, to be able to increment
# it when there is an exception.
prompt_number = 1
# We keep a reference to the last result: it helps testing and
# programatic control of the frontend.
last_result = dict(number=0)
# The input buffer being edited
input_buffer = ''
# Set to true for debug output
debug = False
# A banner to print at startup
banner = None
#--------------------------------------------------------------------------
# FrontEndBase interface
#--------------------------------------------------------------------------
def __init__(self, shell=None, history=None, banner=None, *args, **kwargs):
if shell is None:
shell = Interpreter()
FrontEndBase.__init__(self, shell=shell, history=history)
if banner is not None:
self.banner = banner
def start(self):
""" Put the frontend in a state where it is ready for user
interaction.
"""
if self.banner is not None:
self.write(self.banner, refresh=False)
self.new_prompt(self.input_prompt_template.substitute(number=1))
def complete(self, line):
"""Complete line in engine's user_ns
Parameters
----------
line : string
Result
------
The replacement for the line and the list of possible completions.
"""
completions = self.shell.complete(line)
complete_sep = re.compile('[\s\{\}\[\]\(\)\=]')
if completions:
prefix = common_prefix(completions)
residual = complete_sep.split(line)[:-1]
line = line[:-len(residual)] + prefix
return line, completions
def render_result(self, result):
""" Frontend-specific rendering of the result of a calculation
that has been sent to an engine.
"""
if 'stdout' in result and result['stdout']:
self.write('\n' + result['stdout'])
if 'display' in result and result['display']:
self.write("%s%s\n" % (
self.output_prompt_template.substitute(
number=result['number']),
result['display']['pprint']
) )
def render_error(self, failure):
""" Frontend-specific rendering of error.
"""
self.write('\n\n'+str(failure)+'\n\n')
return failure
def is_complete(self, string):
""" Check if a string forms a complete, executable set of
commands.
For the line-oriented frontend, multi-line code is not executed
as soon as it is complete: the users has to enter two line
returns.
"""
if string in ('', '\n'):
# Prefiltering, eg through ipython0, may return an empty
# string although some operations have been accomplished. We
# thus want to consider an empty string as a complete
# statement.
return True
elif ( len(self.input_buffer.split('\n'))>2
and not re.findall(r"\n[\t ]*\n[\t ]*$", string)):
return False
else:
self.capture_output()
try:
# Add line returns here, to make sure that the statement is
# complete.
is_complete = codeop.compile_command(string.rstrip() + '\n\n',
"<string>", "exec")
self.release_output()
except Exception, e:
# XXX: Hack: return True so that the
# code gets executed and the error captured.
is_complete = True
return is_complete
def write(self, string, refresh=True):
""" Write some characters to the display.
Subclass should overide this method.
The refresh keyword argument is used in frontends with an
event loop, to choose whether the write should trigget an UI
refresh, and thus be syncrhonous, or not.
"""
print >>sys.__stderr__, string
def execute(self, python_string, raw_string=None):
""" Stores the raw_string in the history, and sends the
python string to the interpreter.
"""
if raw_string is None:
raw_string = python_string
# Create a false result, in case there is an exception
self.last_result = dict(number=self.prompt_number)
## try:
## self.history.input_cache[-1] = raw_string.rstrip()
## result = self.shell.execute(python_string)
## self.last_result = result
## self.render_result(result)
## except:
## self.show_traceback()
## finally:
## self.after_execute()
try:
try:
self.history.input_cache[-1] = raw_string.rstrip()
result = self.shell.execute(python_string)
self.last_result = result
self.render_result(result)
except:
self.show_traceback()
finally:
self.after_execute()
#--------------------------------------------------------------------------
# LineFrontEndBase interface
#--------------------------------------------------------------------------
def prefilter_input(self, string):
""" Prefilter the input to turn it in valid python.
"""
string = string.replace('\r\n', '\n')
string = string.replace('\t', 4*' ')
# Clean the trailing whitespace
string = '\n'.join(l.rstrip() for l in string.split('\n'))
return string
def after_execute(self):
""" All the operations required after an execution to put the
terminal back in a shape where it is usable.
"""
self.prompt_number += 1
self.new_prompt(self.input_prompt_template.substitute(
number=(self.last_result['number'] + 1)))
# Start a new empty history entry
self._add_history(None, '')
self.history_cursor = len(self.history.input_cache) - 1
def complete_current_input(self):
""" Do code completion on current line.
"""
if self.debug:
print >>sys.__stdout__, "complete_current_input",
line = self.input_buffer
new_line, completions = self.complete(line)
if len(completions)>1:
self.write_completion(completions, new_line=new_line)
elif not line == new_line:
self.input_buffer = new_line
if self.debug:
print >>sys.__stdout__, 'line', line
print >>sys.__stdout__, 'new_line', new_line
print >>sys.__stdout__, completions
def get_line_width(self):
""" Return the width of the line in characters.
"""
return 80
def write_completion(self, possibilities, new_line=None):
""" Write the list of possible completions.
new_line is the completed input line that should be displayed
after the completion are writen. If None, the input_buffer
before the completion is used.
"""
if new_line is None:
new_line = self.input_buffer
self.write('\n')
max_len = len(max(possibilities, key=len)) + 1
# Now we check how much symbol we can put on a line...
chars_per_line = self.get_line_width()
symbols_per_line = max(1, chars_per_line/max_len)
pos = 1
buf = []
for symbol in possibilities:
if pos < symbols_per_line:
buf.append(symbol.ljust(max_len))
pos += 1
else:
buf.append(symbol.rstrip() + '\n')
pos = 1
self.write(''.join(buf))
self.new_prompt(self.input_prompt_template.substitute(
number=self.last_result['number'] + 1))
self.input_buffer = new_line
def new_prompt(self, prompt):
""" Prints a prompt and starts a new editing buffer.
Subclasses should use this method to make sure that the
terminal is put in a state favorable for a new line
input.
"""
self.input_buffer = ''
self.write(prompt)
#--------------------------------------------------------------------------
# Private API
#--------------------------------------------------------------------------
def _on_enter(self):
""" Called when the return key is pressed in a line editing
buffer.
"""
current_buffer = self.input_buffer
cleaned_buffer = self.prefilter_input(current_buffer)
if self.is_complete(cleaned_buffer):
self.execute(cleaned_buffer, raw_string=current_buffer)
else:
self.input_buffer += self._get_indent_string(
current_buffer[:-1])
if len(current_buffer.split('\n')) == 2:
self.input_buffer += '\t\t'
if current_buffer[:-1].split('\n')[-1].rstrip().endswith(':'):
self.input_buffer += '\t'
def _get_indent_string(self, string):
""" Return the string of whitespace that prefixes a line. Used to
add the right amount of indendation when creating a new line.
"""
string = string.replace('\t', ' '*4)
string = string.split('\n')[-1]
indent_chars = len(string) - len(string.lstrip())
indent_string = '\t'*(indent_chars // 4) + \
' '*(indent_chars % 4)
return indent_string