/usr/lib/python2.7/dist-packages/scilab.py is in python-sciscipy 1.0.1-2.
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This file is part of Sciscipy.
Sciscipy is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Sciscipy is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Foobar. If not, see <http://www.gnu.org/licenses/>.
Copyright (c) 2009, Vincent Guffens.
scilab module
=============
Provide an easy to use interface toward scilab
Usage:
>>> from scilab import scilab as sci
>>> x = [1,2,3]
>>> sci.disp(x)
1.
2.
3.
With the help of the sciscipy module, you can also do:
>>> sciscipy.eval("function y = func(x) ; y = x*x ; endfunction")
>>> sci.func(2)
array([ 4.])
Internals
=========
It uses macrovar ou fun2string to discover the number of
output args
@author: vincent.guffens@gmail.com
"""
from ctypes import cdll
import os
def detectJVM(jvm):
for root, dirs, fileso in os.walk(jvm):
for dir in dirs:
basePath=root+"/"+dir
pathJVM=basePath+'/server/libjvm.so'
if os.path.exists(pathJVM):
cdll.LoadLibrary(pathJVM)
cdll.LoadLibrary(basePath+"/libjava.so")
return True
for jvm in ['/usr//lib/jvm/default-java/','/usr/lib/jvm/java-6-openjdk/','/usr/lib/jvm/java-6-sun/']:
if detectJVM(jvm) == True:
break
cdll.LoadLibrary("/usr/lib/scilab/libscilab.so.0")
os.putenv("SCI","/usr/share/scilab")
from sciscipy import write, read, eval
from threading import Thread
from ConfigParser import ConfigParser
import os
import sys
import time
DFLT_CONFIG = "scilab.cfg"
SECTION_CONFIG = "KNOWN FUNC"
# Type 130 functions do not
# work with macrovar so their
# output vars is hardcoded here
__known_func = {}
class ScilabError(Exception):
""" Define an exception class """
pass
def update_scilab_func(filename = None):
"""
Look for filename and update the dictionary L{__known_func}
filename is a python config file
"""
assert isinstance(filename, (type(None), str)), "Wrong filename"
# Search first in the current path
if filename == None and os.path.isfile(DFLT_CONFIG):
filename = os.path.join (DFLT_CONFIG)
# Search here too: share/sciscipy/scilab.cfg
if filename == None:
filename = os.path.join (os.path.dirname(__file__), "..", "..", "..", "share", "sciscipy", DFLT_CONFIG)
if filename == None:
filename = os.path.join (sys.prefix, 'share', 'sciscipy', DFLT_CONFIG)
if not os.path.exists(filename):
raise ValueError, "can not open file: " + filename
parser = ConfigParser()
parser.read(filename)
if not parser.has_section(SECTION_CONFIG):
raise ValueError, "Invalid config file"
items = parser.items(SECTION_CONFIG)
for new_func, value in items:
__known_func[new_func] = int(value)
def run_scilab_cmd(cmd_str):
""" Defines the Scilab start command (with error handle) """
new_cmd = "_ier_ = execstr('%s', 'errcatch'); _er_msg_ = lasterror() ;" % cmd_str
eval(new_cmd)
ier = read("_ier_")
if ier != 0 and ier != [0]:
lasterror = read("_er_msg_")
raise ScilabError, lasterror
def find_scilab_type(var_name):
"""
Find the scilab type of var_name
@param var_name: name of a scilab variable
@type var_name: string
@return: type(var_name)
"""
if type(var_name) != type(""):
raise TypeError, "var_name must be a string"
run_scilab_cmd("_tmp1_ = type(" + var_name + ")")
res = read("_tmp1_")
eval("clear _tmp1_")
return res[0]
def find_output_param(macro_name):
"""
Find out the number of output param of macro_name
First we look in the __known_func dico to see
if we have a special case for that macro. If not,
we use macrovar for type 13 functions. Otherwise,
we return 1.
@param macro_name: the name of a scilab macro
@type macro_name: string
@return: number of ouput param of macro_name
@rtype: integer
"""
if type(macro_name) != type(""):
raise TypeError, "macro_name must be a string"
if macro_name in __known_func.keys():
return __known_func[macro_name]
if find_scilab_type(macro_name) == 13:
eval("_tmp1_ = macrovar(" + macro_name + ");")
eval("_tmp2_ = length(length(_tmp1_(2)))")
res = read("_tmp2_")
eval("clear _tmp1_, _tmp2_")
return int(res[0])
return 1
class Functor(object):
"""
The attribute 'name' is the name
of the function to call in scilab
"""
def __init__(self, name):
if type(name) != type(""):
raise TypeError, "name must be a string"
self.name = name
def __call__(self, *args):
"""
TODO: add a named argument outp=...
if you want to force the number of output arguments
"""
cmd = self.name + "("
in_args = []
for (i, arg) in enumerate(args):
arg_name = "__arg" + str(i)
in_args += [arg_name]
write(arg_name, arg)
out = find_output_param(self.name)
out_args = []
for i in range(out):
out_args += ["__out" + str(i)]
if out != 0:
cmd = "[%s] = %s(%s)" % (",".join(out_args),
self.name,
",".join(in_args))
else:
cmd = "%s(%s)" % (self.name, ",".join(in_args))
run_scilab_cmd(cmd)
if out == 0:
return None
res = []
for i in range(out):
item = read("__out" + str(i))
res += [item]
if len(res) == 1:
return res[0]
else:
return tuple(res)
class Scilab(object):
"""
This class can call any scilab function (yeah!)
Just instanciate an object of this class and call any
method to call equivalent scilab function.
>>> sci = Scilab()
>>> from scilab import Scilab
>>> sci = Scilab()
>>> sci.zeros(2,2)
[[0.0, 0.0], [0.0, 0.0]]
>>>
"""
def __getattr__(self, name):
return Functor(name)
class ScilabThread(Thread):
""" Defines the Scilab thread to start """
def __init__(self, func):
Thread.__init__(self)
self.func = func
self.daemon = True
def run(self):
self.func()
def scipoll():
HOW_LONG = 0.1 # sec
while 1:
eval("")
time.sleep(HOW_LONG)
# Update the dictionary
update_scilab_func()
# Create a convenience Scilab object
scilab = Scilab()
# Run the polling thread
poll_thread = ScilabThread(scipoll)
poll_thread.start()
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