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#####
#
# aspy.py
#
# Andy Hammerlindl 2011/09/03
#
# Uses ctypes to interface with the shared library version of Python.
# Asymptote can run and its datatypes inspected via Python.
#
#
# To use the module:
# 1. make asymptote.so
# 2. Ensure that asymptote.so is visable to python, say adding its directory
# to LD_LIBRARY_PATH
# 3. Run this module. (See runExample for an example.)
#
#####
from ctypes import *
asyInt = c_longlong
handle_typ = c_void_p
arguments_typ = c_void_p
state_typ = c_void_p
function_typ = CFUNCTYPE(None, state_typ, c_void_p)
class string_typ(Structure):
_fields_ = [
("buf", c_char_p), # Should be NUL-terminated? Maybe replace with
# POINTER(c_char).
("length", asyInt)
]
ErrorCallbackFUNC = CFUNCTYPE(None, string_typ)
NORMAL_ARG = 45000
REST_ARG = 45001
class Policy(Structure):
_fields_ = [
("version", asyInt),
("copyHandle", CFUNCTYPE(handle_typ, handle_typ)),
("releaseHandle", CFUNCTYPE(None, handle_typ)),
("handleFromInt", CFUNCTYPE(handle_typ, asyInt)),
("handleFromBool", CFUNCTYPE(handle_typ, asyInt)),
("handleFromDouble", CFUNCTYPE(handle_typ, c_double)),
("handleFromString", CFUNCTYPE(handle_typ, string_typ)),
("handleFromFunction", CFUNCTYPE(handle_typ,
c_char_p,
function_typ,
c_void_p)),
("IntFromHandle", CFUNCTYPE(asyInt, handle_typ)),
("boolFromHandle", CFUNCTYPE(asyInt, handle_typ)),
("doubleFromHandle", CFUNCTYPE(c_double, handle_typ)),
("stringFromHandle", CFUNCTYPE(string_typ, handle_typ)),
("getField", CFUNCTYPE(handle_typ,
handle_typ,
c_char_p)),
("getCell", CFUNCTYPE(handle_typ,
handle_typ,
asyInt)),
("addField", CFUNCTYPE(None,
handle_typ,
c_char_p,
handle_typ)),
("newArguments", CFUNCTYPE(arguments_typ)),
("releaseArguments", CFUNCTYPE(None, arguments_typ)),
("addArgument", CFUNCTYPE(None,
arguments_typ,
c_char_p,
handle_typ,
asyInt)),
("call", CFUNCTYPE(handle_typ,
handle_typ,
arguments_typ)),
("globals", CFUNCTYPE(handle_typ, state_typ)),
("numParams", CFUNCTYPE(asyInt, state_typ)),
("getParam", CFUNCTYPE(handle_typ, state_typ, asyInt)),
("setReturnValue", CFUNCTYPE(None, state_typ, handle_typ)),
("setErrorCallback", CFUNCTYPE(None, ErrorCallbackFUNC)),
]
policy = None
baseState = None
def initPolicyAndBaseState():
global policy, baseState
lib = CDLL("asymptote.so")
getPolicy = lib._asy_getPolicy
getPolicy.restype = POINTER(Policy)
policy = getPolicy()
getState = lib._asy_getState
getState.restype = state_typ
baseState = getState()
initPolicyAndBaseState()
def pyStringFromAsyString(st):
#TODO: Handle strings with null-terminators.
return str(st.buf)
def pyStringFromHandle(h):
#TODO: Handle strings with null-terminators.
st = policy.contents.stringFromHandle(h)
checkForErrors()
return pyStringFromAsyString(st)
def handleFromPyString(s):
st = string_typ(s, len(s))
h = policy.contents.handleFromString(st)
checkForErrors()
return h
def ensureDatum(val):
return val if type(val) is Datum else Datum(val)
# The error detection scheme.
# policyError is set to a string when an error occurs.
policyError = []
def pyErrorCallback(s):
global policyError
policyError.append(pyStringFromAsyString(s))
cErrorCallback = ErrorCallbackFUNC(pyErrorCallback)
policy.contents.setErrorCallback(cErrorCallback)
class AsyException(Exception):
def __init__(self, msg):
self.msg = msg
def __str__(self):
return self.msg
def checkForErrors():
"""Raises an exception if an error occured."""
global policyError
if policyError != []:
s = policyError[0]
if len(policyError) > 1:
s += ' (and other errors)'
policyError = []
raise AsyException(s)
class Datum(object):
def _setHandle(self, handle):
object.__setattr__(self, 'handle', handle)
def __init__(self, val):
self._setHandle(0)
if val is None:
return
if type(val) is int:
self._setHandle(policy.contents.handleFromInt(val))
checkForErrors()
elif type(val) is bool:
self._setHandle(policy.contents.handleFromBool(1 if val else 0))
checkForErrors()
elif type(val) is float:
self._setHandle(policy.contents.handleFromDouble(val))
elif type(val) is str:
self._setHandle(handleFromPyString(val))
checkForErrors()
elif type(val) is tuple:
# Could do this more efficiently, and avoid a copyHandle
ret = state.globals()["operator tuple"](*val)
self._setHandle(policy.contents.copyHandle(ret.handle))
checkForErrors()
elif type(val) is Datum:
self._setHandle(policy.contents.copyHandle(val.handle))
checkForErrors()
else:
# TODO: check if val has a toDatum field
raise TypeError("cannot initialize Datum from '%s'" %
type(val).__name__)
def __repr__(self):
# TODO: Add type-checking to policy.
return '<Datum with handle %s>' % hex(self.handle)
def __int__(self):
l = policy.contents.IntFromHandle(self.handle)
checkForErrors()
return int(l)
def __nonzero__(self):
# This will throw an exception for anything but an underlying bool
# type. Perhaps we should be more pythonic.
l = policy.contents.boolFromHandle(self.handle)
checkForErrors()
assert l in [0,1]
return l == 1
def __float__(self):
x = policy.contents.doubleFromHandle(self.handle)
checkForErrors()
return float(x)
def __str__(self):
return pyStringFromHandle(self.handle)
def __getattr__(self, name):
field = policy.contents.getField(self.handle, name)
checkForErrors()
return DatumFromHandle(field)
def __getitem__(self, name):
assert type(name) == str
return self.__getattr__(name)
#TODO: raise an IndexError when appropriate.
#TODO: implement array indices
def __setattr__(self, name, val):
# TODO: Resolve setting versus declaring.
# One idea: d.x = f or d["x"] = f sets and d["int x()"] = f declares
# anew.
policy.contents.addField(self.handle,
name, ensureDatum(val).handle)
checkForErrors()
def __setitem__(self, name, val):
assert type(name) == str
self.__setattr__(name, val)
#TODO: raise an IndexError when appropriate.
#TODO: implement array indices
def __call__(self, *args, **namedArgs):
alist = policy.contents.newArguments()
checkForErrors()
for arg in args:
d = ensureDatum(arg)
policy.contents.addArgument(alist, "", d.handle, NORMAL_ARG)
checkForErrors()
for name,arg in namedArgs.items():
d = ensureDatum(arg)
policy.contents.addArgument(alist, name, d.handle, NORMAL_ARG)
checkForErrors()
ret = policy.contents.call(self.handle, alist)
checkForErrors()
policy.contents.releaseArguments(alist)
checkForErrors()
if ret != None:
return DatumFromHandle(ret)
def __add__(self, other):
return state.globals()["operator +"](self, other)
def __sub__(self, other):
return state.globals()["operator -"](self, other)
def __mul__(self, other):
return state.globals()["operator *"](self, other)
def __div__(self, other):
return state.globals()["operator /"](self, other)
def __truediv__(self, other):
return state.globals()["operator /"](self, other)
def __mod__(self, other):
return state.globals()["operator %"](self, other)
def __pow__(self, other):
return state.globals()["operator ^"](self, other)
def __and__(self, other):
return state.globals()["operator &"](self, other)
def __or__(self, other):
return state.globals()["operator |"](self, other)
def __neg__(self, other):
return state.globals()["operator -"](self)
def __lt__(self, other):
return state.globals()["operator <"](self, other)
def __le__(self, other):
return state.globals()["operator <="](self, other)
def __eq__(self, other):
return state.globals()["operator =="](self, other)
def __ne__(self, other):
return state.globals()["operator !="](self, other)
def __gt__(self, other):
return state.globals()["operator >"](self, other)
def __ge__(self, other):
return state.globals()["operator >="](self, other)
def DatumFromHandle(handle):
"""Initializes a Datum from a given low-level handle. Does not invoke
copyHandle."""
d = Datum(None)
d._setHandle(handle)
return d
class State(object):
def __init__(self, base):
self.base = base
def globals(self):
handle = policy.contents.globals(self.base)
checkForErrors()
return DatumFromHandle(handle)
def params(self):
p = []
numParams = policy.contents.numParams(self.base)
checkForErrors()
for i in range(numParams):
h = policy.contents.getParam(self.base, i)
checkForErrors()
p.append(DatumFromHandle(h))
assert len(p) == numParams
return p
def setReturnValue(self, val):
policy.contents.setReturnValue(self.base, ensureDatum(val).handle)
checkForErrors()
# Keep a link to all of the callbacks created, so they aren't garbage
# collected. TODO: See if this is neccessary.
storedCallbacks = []
def DatumFromCallable(f):
def wrapped(s, d):
state = State(s)
params = state.params()
r = f(*params)
if r != None:
state.setReturnValue(r)
cf = function_typ(wrapped)
storedCallbacks.append(cf)
h = policy.contents.handleFromFunction(f.__name__, cf, None)
checkForErrors()
return DatumFromHandle(h)
print "version", policy.contents.version
state = State(baseState)
# An example
def runExample():
g = state.globals()
g.eval("path p = (0,0) -- (100,100) -- (200,0)", embedded=True)
g.draw(g.p)
g.shipout("frompython")
g.draw(g.circle(100), g.red)
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