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Backport PR #2738: Unicode content crashes the pager (console)...
Backport PR #2738: Unicode content crashes the pager (console) We've run into an interesting bug in the astropy project. https://github.com/astropy/astropy/issues/600 When displaying a docstring that contains Unicode and is also long enough that it gets sent to the pager it fails since the docstring can't be sent to the pager as ascii. This crashes in the middle of sending content to the pager, so the shell ends up in an inconsistent state and stops echoing the keyboard etc. The fix (attached) is merely to encode the content sent to the pager in the same encoding as the terminal (`sys.stdout.encoding`). Strictly speaking, this isn't always the right thing to do, since the pager may be configured to expect a different encoding than the terminal, but that is sort of an irrational way to configure a machine... ;) For example, `less`, in the absence of any special environment variables to tell it otherwise, uses the standard `LC*` environment variables to determine what to do, which should be the same mechanism the terminal also uses by default. If anyone can suggest a better fix, I'm all for it. Perhaps it should be configurable, defaulting to `sys.stdout.encoding`?
Thomas Kluyver - - Load All Authors

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rmagic.py
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# -*- coding: utf-8 -*-
"""
======
Rmagic
======
Magic command interface for interactive work with R via rpy2
Usage
=====
``%R``
{R_DOC}
``%Rpush``
{RPUSH_DOC}
``%Rpull``
{RPULL_DOC}
``%Rget``
{RGET_DOC}
"""
#-----------------------------------------------------------------------------
# Copyright (C) 2012 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.
#-----------------------------------------------------------------------------
import sys
import tempfile
from glob import glob
from shutil import rmtree
from getopt import getopt
# numpy and rpy2 imports
import numpy as np
import rpy2.rinterface as ri
import rpy2.robjects as ro
from rpy2.robjects.numpy2ri import numpy2ri
ro.conversion.py2ri = numpy2ri
# IPython imports
from IPython.core.displaypub import publish_display_data
from IPython.core.magic import (Magics, magics_class, cell_magic, line_magic,
line_cell_magic)
from IPython.testing.skipdoctest import skip_doctest
from IPython.core.magic_arguments import (
argument, magic_arguments, parse_argstring
)
from IPython.utils.py3compat import str_to_unicode, unicode_to_str, PY3
class RInterpreterError(ri.RRuntimeError):
"""An error when running R code in a %%R magic cell."""
def __init__(self, line, err, stdout):
self.line = line
self.err = err.rstrip()
self.stdout = stdout.rstrip()
def __unicode__(self):
s = 'Failed to parse and evaluate line %r.\nR error message: %r' % \
(self.line, self.err)
if self.stdout and (self.stdout != self.err):
s += '\nR stdout:\n' + self.stdout
return s
if PY3:
__str__ = __unicode__
else:
def __str__(self):
return unicode_to_str(unicode(self), 'utf-8')
def Rconverter(Robj, dataframe=False):
"""
Convert an object in R's namespace to one suitable
for ipython's namespace.
For a data.frame, it tries to return a structured array.
It first checks for colnames, then names.
If all are NULL, it returns np.asarray(Robj), else
it tries to construct a recarray
Parameters
----------
Robj: an R object returned from rpy2
"""
is_data_frame = ro.r('is.data.frame')
colnames = ro.r('colnames')
rownames = ro.r('rownames') # with pandas, these could be used for the index
names = ro.r('names')
if dataframe:
as_data_frame = ro.r('as.data.frame')
cols = colnames(Robj)
_names = names(Robj)
if cols != ri.NULL:
Robj = as_data_frame(Robj)
names = tuple(np.array(cols))
elif _names != ri.NULL:
names = tuple(np.array(_names))
else: # failed to find names
return np.asarray(Robj)
Robj = np.rec.fromarrays(Robj, names = names)
return np.asarray(Robj)
@magics_class
class RMagics(Magics):
"""A set of magics useful for interactive work with R via rpy2.
"""
def __init__(self, shell, Rconverter=Rconverter,
pyconverter=np.asarray,
cache_display_data=False):
"""
Parameters
----------
shell : IPython shell
pyconverter : callable
To be called on values in ipython namespace before
assigning to variables in rpy2.
cache_display_data : bool
If True, the published results of the final call to R are
cached in the variable 'display_cache'.
"""
super(RMagics, self).__init__(shell)
self.cache_display_data = cache_display_data
self.r = ro.R()
self.Rstdout_cache = []
self.pyconverter = pyconverter
self.Rconverter = Rconverter
def eval(self, line):
'''
Parse and evaluate a line with rpy2.
Returns the output to R's stdout() connection
and the value of eval(parse(line)).
'''
old_writeconsole = ri.get_writeconsole()
ri.set_writeconsole(self.write_console)
try:
value = ri.baseenv['eval'](ri.parse(line))
except (ri.RRuntimeError, ValueError) as exception:
warning_or_other_msg = self.flush() # otherwise next return seems to have copy of error
raise RInterpreterError(line, str_to_unicode(str(exception)), warning_or_other_msg)
text_output = self.flush()
ri.set_writeconsole(old_writeconsole)
return text_output, value
def write_console(self, output):
'''
A hook to capture R's stdout in a cache.
'''
self.Rstdout_cache.append(output)
def flush(self):
'''
Flush R's stdout cache to a string, returning the string.
'''
value = ''.join([str_to_unicode(s, 'utf-8') for s in self.Rstdout_cache])
self.Rstdout_cache = []
return value
@skip_doctest
@line_magic
def Rpush(self, line):
'''
A line-level magic for R that pushes
variables from python to rpy2. The line should be made up
of whitespace separated variable names in the IPython
namespace::
In [7]: import numpy as np
In [8]: X = np.array([4.5,6.3,7.9])
In [9]: X.mean()
Out[9]: 6.2333333333333343
In [10]: %Rpush X
In [11]: %R mean(X)
Out[11]: array([ 6.23333333])
'''
inputs = line.split(' ')
for input in inputs:
self.r.assign(input, self.pyconverter(self.shell.user_ns[input]))
@skip_doctest
@magic_arguments()
@argument(
'-d', '--as_dataframe', action='store_true',
default=False,
help='Convert objects to data.frames before returning to ipython.'
)
@argument(
'outputs',
nargs='*',
)
@line_magic
def Rpull(self, line):
'''
A line-level magic for R that pulls
variables from python to rpy2::
In [18]: _ = %R x = c(3,4,6.7); y = c(4,6,7); z = c('a',3,4)
In [19]: %Rpull x y z
In [20]: x
Out[20]: array([ 3. , 4. , 6.7])
In [21]: y
Out[21]: array([ 4., 6., 7.])
In [22]: z
Out[22]:
array(['a', '3', '4'],
dtype='|S1')
If --as_dataframe, then each object is returned as a structured array
after first passed through "as.data.frame" in R before
being calling self.Rconverter.
This is useful when a structured array is desired as output, or
when the object in R has mixed data types.
See the %%R docstring for more examples.
Notes
-----
Beware that R names can have '.' so this is not fool proof.
To avoid this, don't name your R objects with '.'s...
'''
args = parse_argstring(self.Rpull, line)
outputs = args.outputs
for output in outputs:
self.shell.push({output:self.Rconverter(self.r(output),dataframe=args.as_dataframe)})
@skip_doctest
@magic_arguments()
@argument(
'-d', '--as_dataframe', action='store_true',
default=False,
help='Convert objects to data.frames before returning to ipython.'
)
@argument(
'output',
nargs=1,
type=str,
)
@line_magic
def Rget(self, line):
'''
Return an object from rpy2, possibly as a structured array (if possible).
Similar to Rpull except only one argument is accepted and the value is
returned rather than pushed to self.shell.user_ns::
In [3]: dtype=[('x', '<i4'), ('y', '<f8'), ('z', '|S1')]
In [4]: datapy = np.array([(1, 2.9, 'a'), (2, 3.5, 'b'), (3, 2.1, 'c'), (4, 5, 'e')], dtype=dtype)
In [5]: %R -i datapy
In [6]: %Rget datapy
Out[6]:
array([['1', '2', '3', '4'],
['2', '3', '2', '5'],
['a', 'b', 'c', 'e']],
dtype='|S1')
In [7]: %Rget -d datapy
Out[7]:
array([(1, 2.9, 'a'), (2, 3.5, 'b'), (3, 2.1, 'c'), (4, 5.0, 'e')],
dtype=[('x', '<i4'), ('y', '<f8'), ('z', '|S1')])
'''
args = parse_argstring(self.Rget, line)
output = args.output
return self.Rconverter(self.r(output[0]),dataframe=args.as_dataframe)
@skip_doctest
@magic_arguments()
@argument(
'-i', '--input', action='append',
help='Names of input variable from shell.user_ns to be assigned to R variables of the same names after calling self.pyconverter. Multiple names can be passed separated only by commas with no whitespace.'
)
@argument(
'-o', '--output', action='append',
help='Names of variables to be pushed from rpy2 to shell.user_ns after executing cell body and applying self.Rconverter. Multiple names can be passed separated only by commas with no whitespace.'
)
@argument(
'-w', '--width', type=int,
help='Width of png plotting device sent as an argument to *png* in R.'
)
@argument(
'-h', '--height', type=int,
help='Height of png plotting device sent as an argument to *png* in R.'
)
@argument(
'-d', '--dataframe', action='append',
help='Convert these objects to data.frames and return as structured arrays.'
)
@argument(
'-u', '--units', type=int,
help='Units of png plotting device sent as an argument to *png* in R. One of ["px", "in", "cm", "mm"].'
)
@argument(
'-p', '--pointsize', type=int,
help='Pointsize of png plotting device sent as an argument to *png* in R.'
)
@argument(
'-b', '--bg',
help='Background of png plotting device sent as an argument to *png* in R.'
)
@argument(
'-n', '--noreturn',
help='Force the magic to not return anything.',
action='store_true',
default=False
)
@argument(
'code',
nargs='*',
)
@line_cell_magic
def R(self, line, cell=None):
'''
Execute code in R, and pull some of the results back into the Python namespace.
In line mode, this will evaluate an expression and convert the returned value to a Python object.
The return value is determined by rpy2's behaviour of returning the result of evaluating the
final line.
Multiple R lines can be executed by joining them with semicolons::
In [9]: %R X=c(1,4,5,7); sd(X); mean(X)
Out[9]: array([ 4.25])
As a cell, this will run a block of R code, without bringing anything back by default::
In [10]: %%R
....: Y = c(2,4,3,9)
....: print(summary(lm(Y~X)))
....:
Call:
lm(formula = Y ~ X)
Residuals:
1 2 3 4
0.88 -0.24 -2.28 1.64
Coefficients:
Estimate Std. Error t value Pr(>|t|)
(Intercept) 0.0800 2.3000 0.035 0.975
X 1.0400 0.4822 2.157 0.164
Residual standard error: 2.088 on 2 degrees of freedom
Multiple R-squared: 0.6993,Adjusted R-squared: 0.549
F-statistic: 4.651 on 1 and 2 DF, p-value: 0.1638
In the notebook, plots are published as the output of the cell.
%R plot(X, Y)
will create a scatter plot of X bs Y.
If cell is not None and line has some R code, it is prepended to
the R code in cell.
Objects can be passed back and forth between rpy2 and python via the -i -o flags in line::
In [14]: Z = np.array([1,4,5,10])
In [15]: %R -i Z mean(Z)
Out[15]: array([ 5.])
In [16]: %R -o W W=Z*mean(Z)
Out[16]: array([ 5., 20., 25., 50.])
In [17]: W
Out[17]: array([ 5., 20., 25., 50.])
The return value is determined by these rules:
* If the cell is not None, the magic returns None.
* If the cell evaluates as False, the resulting value is returned
unless the final line prints something to the console, in
which case None is returned.
* If the final line results in a NULL value when evaluated
by rpy2, then None is returned.
* No attempt is made to convert the final value to a structured array.
Use the --dataframe flag or %Rget to push / return a structured array.
* If the -n flag is present, there is no return value.
* A trailing ';' will also result in no return value as the last
value in the line is an empty string.
The --dataframe argument will attempt to return structured arrays.
This is useful for dataframes with
mixed data types. Note also that for a data.frame,
if it is returned as an ndarray, it is transposed::
In [18]: dtype=[('x', '<i4'), ('y', '<f8'), ('z', '|S1')]
In [19]: datapy = np.array([(1, 2.9, 'a'), (2, 3.5, 'b'), (3, 2.1, 'c'), (4, 5, 'e')], dtype=dtype)
In [20]: %%R -o datar
datar = datapy
....:
In [21]: datar
Out[21]:
array([['1', '2', '3', '4'],
['2', '3', '2', '5'],
['a', 'b', 'c', 'e']],
dtype='|S1')
In [22]: %%R -d datar
datar = datapy
....:
In [23]: datar
Out[23]:
array([(1, 2.9, 'a'), (2, 3.5, 'b'), (3, 2.1, 'c'), (4, 5.0, 'e')],
dtype=[('x', '<i4'), ('y', '<f8'), ('z', '|S1')])
The --dataframe argument first tries colnames, then names.
If both are NULL, it returns an ndarray (i.e. unstructured)::
In [1]: %R mydata=c(4,6,8.3); NULL
In [2]: %R -d mydata
In [3]: mydata
Out[3]: array([ 4. , 6. , 8.3])
In [4]: %R names(mydata) = c('a','b','c'); NULL
In [5]: %R -d mydata
In [6]: mydata
Out[6]:
array((4.0, 6.0, 8.3),
dtype=[('a', '<f8'), ('b', '<f8'), ('c', '<f8')])
In [7]: %R -o mydata
In [8]: mydata
Out[8]: array([ 4. , 6. , 8.3])
'''
args = parse_argstring(self.R, line)
# arguments 'code' in line are prepended to
# the cell lines
if not cell:
code = ''
return_output = True
line_mode = True
else:
code = cell
return_output = False
line_mode = False
code = ' '.join(args.code) + code
if args.input:
for input in ','.join(args.input).split(','):
self.r.assign(input, self.pyconverter(self.shell.user_ns[input]))
png_argdict = dict([(n, getattr(args, n)) for n in ['units', 'height', 'width', 'bg', 'pointsize']])
png_args = ','.join(['%s=%s' % (o,v) for o, v in png_argdict.items() if v is not None])
# execute the R code in a temporary directory
tmpd = tempfile.mkdtemp()
self.r('png("%s/Rplots%%03d.png",%s)' % (tmpd, png_args))
text_output = ''
if line_mode:
for line in code.split(';'):
text_result, result = self.eval(line)
text_output += text_result
if text_result:
# the last line printed something to the console so we won't return it
return_output = False
else:
text_result, result = self.eval(code)
text_output += text_result
self.r('dev.off()')
# read out all the saved .png files
images = [open(imgfile, 'rb').read() for imgfile in glob("%s/Rplots*png" % tmpd)]
# now publish the images
# mimicking IPython/zmq/pylab/backend_inline.py
fmt = 'png'
mimetypes = { 'png' : 'image/png', 'svg' : 'image/svg+xml' }
mime = mimetypes[fmt]
# publish the printed R objects, if any
display_data = []
if text_output:
display_data.append(('RMagic.R', {'text/plain':text_output}))
# flush text streams before sending figures, helps a little with output
for image in images:
# synchronization in the console (though it's a bandaid, not a real sln)
sys.stdout.flush(); sys.stderr.flush()
display_data.append(('RMagic.R', {mime: image}))
# kill the temporary directory
rmtree(tmpd)
# try to turn every output into a numpy array
# this means that output are assumed to be castable
# as numpy arrays
if args.output:
for output in ','.join(args.output).split(','):
self.shell.push({output:self.Rconverter(self.r(output), dataframe=False)})
if args.dataframe:
for output in ','.join(args.dataframe).split(','):
self.shell.push({output:self.Rconverter(self.r(output), dataframe=True)})
for tag, disp_d in display_data:
publish_display_data(tag, disp_d)
# this will keep a reference to the display_data
# which might be useful to other objects who happen to use
# this method
if self.cache_display_data:
self.display_cache = display_data
# if in line mode and return_output, return the result as an ndarray
if return_output and not args.noreturn:
if result != ri.NULL:
return self.Rconverter(result, dataframe=False)
__doc__ = __doc__.format(
R_DOC = ' '*8 + RMagics.R.__doc__,
RPUSH_DOC = ' '*8 + RMagics.Rpush.__doc__,
RPULL_DOC = ' '*8 + RMagics.Rpull.__doc__,
RGET_DOC = ' '*8 + RMagics.Rget.__doc__
)
_loaded = False
def load_ipython_extension(ip):
"""Load the extension in IPython."""
global _loaded
if not _loaded:
ip.register_magics(RMagics)
_loaded = True