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python-biopython  1.60
Public Member Functions | Public Attributes | Private Member Functions
Bio.Blast.Applications._BlastCommandLine Class Reference
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List of all members.

Public Member Functions

def __init__
def __str__
def __repr__
def set_parameter
def __setattr__
def __call__

Public Attributes

 parameters
 program_name

Private Member Functions

def _validate

Detailed Description

Base Commandline object for (classic) NCBI BLAST wrappers (PRIVATE).

This is provided for subclassing, it deals with shared options
common to all the BLAST tools (blastall, rpsblast, blastpgp).

Definition at line 55 of file Applications.py.


Constructor & Destructor Documentation

def Bio.Blast.Applications._BlastCommandLine.__init__ (   self,
  cmd = None,
  kwargs 
)
Create a new instance of a command line wrapper object.

Reimplemented from Bio.Application.AbstractCommandline.

Reimplemented in Bio.Blast.Applications.RpsBlastCommandline, Bio.Blast.Applications.BlastpgpCommandline, Bio.Blast.Applications.BlastallCommandline, and Bio.Blast.Applications._BlastAllOrPgpCommandLine.

Definition at line 61 of file Applications.py.

00061 
00062     def __init__(self, cmd=None, **kwargs):
00063         assert cmd is not None
00064         extra_parameters = [
00065            _Switch(["--help", "help"],
00066                     "Print USAGE, DESCRIPTION and ARGUMENTS description;  ignore other arguments."),
00067            _Option(["-d", "database"],
00068                    "The database to BLAST against.",
00069                    is_required=True,
00070                    equate=False),
00071            _Option(["-i", "infile"],
00072                    "The sequence to search with.",
00073                    filename=True,
00074                    is_required=True,
00075                    equate=False),
00076            _Option(["-e", "expectation"], 
00077                    "Expectation value cutoff.",
00078                    equate=False),
00079            _Option(["-m", "align_view"], 
00080                    "Alignment view.  Integer 0-11.  Use 7 for XML output.",
00081                    equate=False),
00082            _Option(["-o", "align_outfile", "outfile"],
00083                    "Output file for alignment.",
00084                    filename=True,
00085                    equate=False),
00086            _Option(["-y", "xdrop_extension"], 
00087                    "Dropoff for blast extensions.",
00088                    equate=False),
00089            _Option(["-F", "filter"],
00090                    "Filter query sequence with SEG?  T/F",
00091                    equate=False),
00092            _Option(["-X", "xdrop"], 
00093                    "Dropoff value (bits) for gapped alignments.",
00094                    equate=False),
00095            _Option(["-I", "show_gi"], 
00096                    "Show GI's in deflines?  T/F",
00097                    equate=False),
00098            _Option(["-J", "believe_query"], 
00099                    "Believe the query defline?  T/F",
00100                    equate=False),
00101            _Option(["-Z", "xdrop_final"], 
00102                    "X dropoff for final gapped alignment.",
00103                    equate=False),
00104            _Option(["-z", "db_length"], 
00105                    "Effective database length.",
00106                    equate=False),
00107            _Option(["-O", "seqalign_file"],
00108                    "seqalign file to output.",
00109                    filename=True,
00110                    equate=False),
00111            _Option(["-v", "descriptions"], 
00112                    "Number of one-line descriptions.",
00113                    equate=False),
00114            _Option(["-b", "alignments"], 
00115                    "Number of alignments.",
00116                    equate=False),
00117            _Option(["-Y", "search_length"], 
00118                    "Effective length of search space (use zero for the "
00119                    "real size).",
00120                    equate=False),
00121            _Option(["-T", "html"], 
00122                    "Produce HTML output?  T/F",
00123                    equate=False),
00124            _Option(["-U", "case_filter"],
00125                    "Use lower case filtering of FASTA sequence? T/F",
00126                    equate=False),
00127            _Option(["-a", "nprocessors"],
00128                    "Number of processors to use.",
00129                    equate=False),
00130            _Option(["-g", "gapped"], 
00131                    "Whether to do a gapped alignment.  T/F",
00132                    equate=False),
00133         ]
00134         try:
00135             #Insert extra parameters - at the start just in case there
00136             #are any arguments which must come last:
00137             self.parameters = extra_parameters + self.parameters
00138         except AttributeError:
00139             #Should we raise an error?  The subclass should have set this up!
00140             self.parameters = extra_parameters
00141         AbstractCommandline.__init__(self, cmd, **kwargs)

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Member Function Documentation

def Bio.Application.AbstractCommandline.__call__ (   self,
  stdin = None,
  stdout = True,
  stderr = True,
  cwd = None,
  env = None 
) [inherited]
Executes the command, waits for it to finish, and returns output.

Runs the command line tool and waits for it to finish. If it returns
a non-zero error level, an exception is raised. Otherwise two strings
are returned containing stdout and stderr.

The optional stdin argument should be a string of data which will be
passed to the tool as standard input.

The optional stdout and stderr argument are treated as a booleans, and
control if the output should be captured (True, default), or ignored
by sending it to /dev/null to avoid wasting memory (False). In the
later case empty string(s) are returned.

The optional cwd argument is a string giving the working directory to
to run the command from. See Python's subprocess module documentation
for more details.

The optional env argument is a dictionary setting the environment
variables to be used in the new process. By default the current
process' environment variables are used. See Python's subprocess
module documentation for more details.

Default example usage:

from Bio.Emboss.Applications import WaterCommandline
water_cmd = WaterCommandline(gapopen=10, gapextend=0.5,
                     stdout=True, auto=True,
                     asequence="a.fasta", bsequence="b.fasta")
print "About to run:\n%s" % water_cmd
std_output, err_output = water_cmd()

This functionality is similar to subprocess.check_output() added in
Python 2.7. In general if you require more control over running the
command, use subprocess directly.

As of Biopython 1.56, when the program called returns a non-zero error
level, a custom ApplicationError exception is raised. This includes
any stdout and stderr strings captured as attributes of the exception
object, since they may be useful for diagnosing what went wrong.

Definition at line 368 of file __init__.py.

00368 
00369                  cwd=None, env=None):
00370         """Executes the command, waits for it to finish, and returns output.
00371         
00372         Runs the command line tool and waits for it to finish. If it returns
00373         a non-zero error level, an exception is raised. Otherwise two strings
00374         are returned containing stdout and stderr.
00375         
00376         The optional stdin argument should be a string of data which will be
00377         passed to the tool as standard input.
00378 
00379         The optional stdout and stderr argument are treated as a booleans, and
00380         control if the output should be captured (True, default), or ignored
00381         by sending it to /dev/null to avoid wasting memory (False). In the
00382         later case empty string(s) are returned.
00383 
00384         The optional cwd argument is a string giving the working directory to
00385         to run the command from. See Python's subprocess module documentation
00386         for more details.
00387 
00388         The optional env argument is a dictionary setting the environment
00389         variables to be used in the new process. By default the current
00390         process' environment variables are used. See Python's subprocess
00391         module documentation for more details.
00392 
00393         Default example usage:
00394 
00395         from Bio.Emboss.Applications import WaterCommandline
00396         water_cmd = WaterCommandline(gapopen=10, gapextend=0.5,
00397                                      stdout=True, auto=True,
00398                                      asequence="a.fasta", bsequence="b.fasta")
00399         print "About to run:\n%s" % water_cmd
00400         std_output, err_output = water_cmd()
00401 
00402         This functionality is similar to subprocess.check_output() added in
00403         Python 2.7. In general if you require more control over running the
00404         command, use subprocess directly.
00405         
00406         As of Biopython 1.56, when the program called returns a non-zero error
00407         level, a custom ApplicationError exception is raised. This includes
00408         any stdout and stderr strings captured as attributes of the exception
00409         object, since they may be useful for diagnosing what went wrong.
00410         """
00411         if stdout:
00412             stdout_arg = subprocess.PIPE
00413         else:
00414             stdout_arg = open(os.devnull)
00415         if stderr:
00416             stderr_arg = subprocess.PIPE
00417         else:
00418             stderr_arg = open(os.devnull)
00419         #We may not need to supply any piped input, but we setup the
00420         #standard input pipe anyway as a work around for a python
00421         #bug if this is called from a Windows GUI program.  For
00422         #details, see http://bugs.python.org/issue1124861
00423         #
00424         #Using universal newlines is important on Python 3, this
00425         #gives unicode handles rather than bytes handles.
00426         child_process = subprocess.Popen(str(self), stdin=subprocess.PIPE,
00427                                          stdout=stdout_arg, stderr=stderr_arg,
00428                                          universal_newlines=True,
00429                                          cwd=cwd, env=env,
00430                                          shell=(sys.platform!="win32"))
00431         #Use .communicate as can get deadlocks with .wait(), see Bug 2804
00432         stdout_str, stderr_str = child_process.communicate(stdin)
00433         if not stdout: assert not stdout_str
00434         if not stderr: assert not stderr_str
00435         return_code = child_process.returncode
00436         if return_code:
00437             raise ApplicationError(return_code, str(self),
00438                                    stdout_str, stderr_str)
00439         return stdout_str, stderr_str
00440 

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Return a representation of the command line object for debugging.

e.g.
>>> from Bio.Emboss.Applications import WaterCommandline
>>> cline = WaterCommandline(gapopen=10, gapextend=0.5)
>>> cline.asequence = "asis:ACCCGGGCGCGGT"
>>> cline.bsequence = "asis:ACCCGAGCGCGGT"
>>> cline.outfile = "temp_water.txt"
>>> print cline
water -outfile=temp_water.txt -asequence=asis:ACCCGGGCGCGGT -bsequence=asis:ACCCGAGCGCGGT -gapopen=10 -gapextend=0.5
>>> cline
WaterCommandline(cmd='water', outfile='temp_water.txt', asequence='asis:ACCCGGGCGCGGT', bsequence='asis:ACCCGAGCGCGGT', gapopen=10, gapextend=0.5)

Definition at line 251 of file __init__.py.

00251 
00252     def __repr__(self):
00253         """Return a representation of the command line object for debugging.
00254 
00255         e.g.
00256         >>> from Bio.Emboss.Applications import WaterCommandline
00257         >>> cline = WaterCommandline(gapopen=10, gapextend=0.5)
00258         >>> cline.asequence = "asis:ACCCGGGCGCGGT"
00259         >>> cline.bsequence = "asis:ACCCGAGCGCGGT"
00260         >>> cline.outfile = "temp_water.txt"
00261         >>> print cline
00262         water -outfile=temp_water.txt -asequence=asis:ACCCGGGCGCGGT -bsequence=asis:ACCCGAGCGCGGT -gapopen=10 -gapextend=0.5
00263         >>> cline
00264         WaterCommandline(cmd='water', outfile='temp_water.txt', asequence='asis:ACCCGGGCGCGGT', bsequence='asis:ACCCGAGCGCGGT', gapopen=10, gapextend=0.5)
00265         """
00266         answer = "%s(cmd=%s" % (self.__class__.__name__, repr(self.program_name))
00267         for parameter in self.parameters:
00268             if parameter.is_set:
00269                 if isinstance(parameter, _Switch):
00270                     answer += ", %s=True" % parameter.names[-1]
00271                 else:
00272                     answer += ", %s=%s" \
00273                               % (parameter.names[-1], repr(parameter.value))
00274         answer += ")"
00275         return answer

def Bio.Application.AbstractCommandline.__setattr__ (   self,
  name,
  value 
) [inherited]
Set attribute name to value (PRIVATE).

This code implements a workaround for a user interface issue.
Without this __setattr__ attribute-based assignment of parameters
will silently accept invalid parameters, leading to known instances
of the user assuming that parameters for the application are set,
when they are not.

>>> from Bio.Emboss.Applications import WaterCommandline
>>> cline = WaterCommandline(gapopen=10, gapextend=0.5, stdout=True)
>>> cline.asequence = "a.fasta"
>>> cline.bsequence = "b.fasta"
>>> cline.csequence = "c.fasta"
Traceback (most recent call last):
...
ValueError: Option name csequence was not found.
>>> print cline
water -stdout -asequence=a.fasta -bsequence=b.fasta -gapopen=10 -gapextend=0.5

This workaround uses a whitelist of object attributes, and sets the
object attribute list as normal, for these.  Other attributes are
assumed to be parameters, and passed to the self.set_parameter method
for validation and assignment.

Definition at line 337 of file __init__.py.

00337 
00338     def __setattr__(self, name, value):
00339         """Set attribute name to value (PRIVATE).
00340 
00341         This code implements a workaround for a user interface issue.
00342         Without this __setattr__ attribute-based assignment of parameters
00343         will silently accept invalid parameters, leading to known instances
00344         of the user assuming that parameters for the application are set,
00345         when they are not.
00346         
00347         >>> from Bio.Emboss.Applications import WaterCommandline
00348         >>> cline = WaterCommandline(gapopen=10, gapextend=0.5, stdout=True)
00349         >>> cline.asequence = "a.fasta"
00350         >>> cline.bsequence = "b.fasta"
00351         >>> cline.csequence = "c.fasta"
00352         Traceback (most recent call last):
00353         ...
00354         ValueError: Option name csequence was not found.
00355         >>> print cline
00356         water -stdout -asequence=a.fasta -bsequence=b.fasta -gapopen=10 -gapextend=0.5
00357 
00358         This workaround uses a whitelist of object attributes, and sets the
00359         object attribute list as normal, for these.  Other attributes are
00360         assumed to be parameters, and passed to the self.set_parameter method
00361         for validation and assignment.
00362         """
00363         if name in ['parameters', 'program_name']: # Allowed attributes
00364             self.__dict__[name] = value
00365         else:
00366             self.set_parameter(name, value)  # treat as a parameter
    

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def Bio.Application.AbstractCommandline.__str__ (   self) [inherited]
Make the commandline string with the currently set options.

e.g.
>>> from Bio.Emboss.Applications import WaterCommandline
>>> cline = WaterCommandline(gapopen=10, gapextend=0.5)
>>> cline.asequence = "asis:ACCCGGGCGCGGT"
>>> cline.bsequence = "asis:ACCCGAGCGCGGT"
>>> cline.outfile = "temp_water.txt"
>>> print cline
water -outfile=temp_water.txt -asequence=asis:ACCCGGGCGCGGT -bsequence=asis:ACCCGAGCGCGGT -gapopen=10 -gapextend=0.5
>>> str(cline)
'water -outfile=temp_water.txt -asequence=asis:ACCCGGGCGCGGT -bsequence=asis:ACCCGAGCGCGGT -gapopen=10 -gapextend=0.5'

Definition at line 229 of file __init__.py.

00229 
00230     def __str__(self):
00231         """Make the commandline string with the currently set options.
00232 
00233         e.g.
00234         >>> from Bio.Emboss.Applications import WaterCommandline
00235         >>> cline = WaterCommandline(gapopen=10, gapextend=0.5)
00236         >>> cline.asequence = "asis:ACCCGGGCGCGGT"
00237         >>> cline.bsequence = "asis:ACCCGAGCGCGGT"
00238         >>> cline.outfile = "temp_water.txt"
00239         >>> print cline
00240         water -outfile=temp_water.txt -asequence=asis:ACCCGGGCGCGGT -bsequence=asis:ACCCGAGCGCGGT -gapopen=10 -gapextend=0.5
00241         >>> str(cline)
00242         'water -outfile=temp_water.txt -asequence=asis:ACCCGGGCGCGGT -bsequence=asis:ACCCGAGCGCGGT -gapopen=10 -gapextend=0.5'
00243         """
00244         self._validate()
00245         commandline = "%s " % self.program_name
00246         for parameter in self.parameters:
00247             if parameter.is_set:
00248                 #This will include a trailing space:
00249                 commandline += str(parameter)
00250         return commandline.strip() # remove trailing space

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Make sure the required parameters have been set (PRIVATE).

No return value - it either works or raises a ValueError.

This is a separate method (called from __str__) so that subclasses may
override it.

Reimplemented from Bio.Application.AbstractCommandline.

Definition at line 142 of file Applications.py.

00142 
00143     def _validate(self):
00144         if self.help:
00145             #Don't want to check the normally mandatory arguments like db
00146             return
00147         AbstractCommandline._validate(self)
00148 

def Bio.Application.AbstractCommandline.set_parameter (   self,
  name,
  value = None 
) [inherited]
Set a commandline option for a program.

Definition at line 297 of file __init__.py.

00297 
00298     def set_parameter(self, name, value = None):
00299         """Set a commandline option for a program.
00300         """
00301         set_option = False
00302         for parameter in self.parameters:
00303             if name in parameter.names:
00304                 if isinstance(parameter, _Switch):
00305                     if value is None:
00306                         import warnings
00307                         warnings.warn("For a switch type argument like %s, "
00308                                       "we expect a boolean.  None is treated "
00309                                       "as FALSE!" % parameter.names[-1])
00310                     parameter.is_set = bool(value)
00311                     set_option = True
00312                 else:
00313                     if value is not None:
00314                         self._check_value(value, name, parameter.checker_function)
00315                         parameter.value = value
00316                     parameter.is_set = True
00317                     set_option = True
00318         if not set_option:
00319             raise ValueError("Option name %s was not found." % name)

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Member Data Documentation

Reimplemented in Bio.Align.Applications._Dialign.DialignCommandline.

Definition at line 167 of file __init__.py.


The documentation for this class was generated from the following file: