mirror of
https://gitlab.freedesktop.org/gstreamer/gstreamer.git
synced 2024-12-21 07:46:38 +00:00
bc17f73dcb
Original commit message from CVS: * codegen/Makefile.am: * codegen/argtypes.py: * codegen/codegen.py: * codegen/definitions.py: * codegen/defsconvert.py: * codegen/defsparser.py: * codegen/docextract.py: * codegen/docextract_to_xml.py: * codegen/docgen.py: * codegen/h2def.py: * codegen/mergedefs.py: * codegen/missingdefs.py: * codegen/mkskel.py: * codegen/override.py: * codegen/reversewrapper.py: Updated codegenerator to current pygtk one. * gst/gst.defs: * gst/gst.override: * gst/gstpad.override: Update defs for new constructor definition. * testsuite/test_bin.py: With new constructors, pygobject will try to convert the argument to the proper GType (here a string).
771 lines
30 KiB
Python
771 lines
30 KiB
Python
### -*- python -*-
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### Code to generate "Reverse Wrappers", i.e. C->Python wrappers
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### (C) 2004 Gustavo Carneiro <gjc@gnome.org>
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import argtypes
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import os
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DEBUG_MODE = ('PYGTK_CODEGEN_DEBUG' in os.environ)
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def join_ctype_name(ctype, name):
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'''Joins a C type and a variable name into a single string'''
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if ctype[-1] != '*':
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return " ".join((ctype, name))
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else:
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return "".join((ctype, name))
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class CodeSink(object):
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def __init__(self):
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self.indent_level = 0 # current indent level
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self.indent_stack = [] # previous indent levels
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def _format_code(self, code):
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assert isinstance(code, str)
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l = []
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for line in code.split('\n'):
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l.append(' '*self.indent_level + line)
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if l[-1]:
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l.append('')
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return '\n'.join(l)
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def writeln(self, line=''):
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raise NotImplementedError
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def indent(self, level=4):
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'''Add a certain ammount of indentation to all lines written
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from now on and until unindent() is called'''
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self.indent_stack.append(self.indent_level)
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self.indent_level += level
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def unindent(self):
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'''Revert indentation level to the value before last indent() call'''
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self.indent_level = self.indent_stack.pop()
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class FileCodeSink(CodeSink):
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def __init__(self, fp):
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CodeSink.__init__(self)
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assert isinstance(fp, file)
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self.fp = fp
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def writeln(self, line=''):
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self.fp.write(self._format_code(line))
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class MemoryCodeSink(CodeSink):
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def __init__(self):
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CodeSink.__init__(self)
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self.lines = []
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def writeln(self, line=''):
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self.lines.append(self._format_code(line))
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def flush_to(self, sink):
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assert isinstance(sink, CodeSink)
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for line in self.lines:
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sink.writeln(line.rstrip())
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self.lines = []
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def flush(self):
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l = []
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for line in self.lines:
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l.append(self._format_code(line))
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self.lines = []
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return "".join(l)
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class ReverseWrapper(object):
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'''Object that generates a C->Python wrapper'''
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def __init__(self, cname, is_static=True):
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assert isinstance(cname, str)
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self.cname = cname
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## function object we will call, or object whose method we will call
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self.called_pyobj = None
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## name of method of self.called_pyobj we will call
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self.method_name = None
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self.is_static = is_static
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self.parameters = []
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self.declarations = MemoryCodeSink()
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self.post_return_code = MemoryCodeSink()
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self.body = MemoryCodeSink()
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self.cleanup_actions = []
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self.pyargv_items = []
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self.pyargv_optional_items = []
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self.pyret_parse_items = [] # list of (format_spec, parameter)
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def set_call_target(self, called_pyobj, method_name=None):
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assert called_pyobj is not None
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assert self.called_pyobj is None
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self.called_pyobj = called_pyobj
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self.method_name = method_name
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def set_return_type(self, return_type):
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assert isinstance(return_type, ReturnType)
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self.return_type = return_type
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def add_parameter(self, param):
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assert isinstance(param, Parameter)
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self.parameters.append(param)
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def add_declaration(self, decl_code):
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self.declarations.writeln(decl_code)
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def add_pyargv_item(self, variable, optional=False):
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if optional:
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self.pyargv_optional_items.append(variable)
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else:
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self.pyargv_items.append(variable)
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def add_pyret_parse_item(self, format_specifier, parameter, prepend=False):
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if prepend:
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self.pyret_parse_items.insert(0, (format_specifier, parameter))
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else:
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self.pyret_parse_items.append((format_specifier, parameter))
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def write_code(self, code,
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cleanup=None,
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failure_expression=None,
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failure_cleanup=None,
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failure_exception=None,
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code_sink=None):
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'''Add a chunk of code with cleanup and error handling
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This method is to be used by TypeHandlers when generating code
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Keywork arguments:
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code -- code to add
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cleanup -- code to cleanup any dynamic resources created by @code
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(except in case of failure) (default None)
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failure_expression -- C boolean expression to indicate
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if anything failed (default None)
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failure_cleanup -- code to cleanup any dynamic resources
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created by @code in case of failure (default None)
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failure_exception -- code to raise an exception in case of
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failure (which will be immediately
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printed and cleared), (default None)
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code_sink -- "code sink" to use; by default,
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ReverseWrapper.body is used, which writes the
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main body of the wrapper, before calling the
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python method. Alternatively,
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ReverseWrapper.after_pyret_parse can be used, to
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write code after the PyArg_ParseTuple that
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parses the python method return value.
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'''
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if code_sink is None:
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code_sink = self.body
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if code is not None:
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code_sink.writeln(code)
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if failure_expression is not None:
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code_sink.writeln("if (%s) {" % (failure_expression,))
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code_sink.indent()
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if failure_exception is None:
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code_sink.writeln("if (PyErr_Occurred())")
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code_sink.indent()
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code_sink.writeln("PyErr_Print();")
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code_sink.unindent()
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else:
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code_sink.writeln(failure_exception)
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code_sink.writeln("PyErr_Print();")
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if failure_cleanup is not None:
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code_sink.writeln(failure_cleanup)
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for cleanup_action in self.cleanup_actions:
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code_sink.writeln(cleanup_action)
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self.return_type.write_error_return()
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code_sink.unindent()
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code_sink.writeln("}")
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if cleanup is not None:
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self.cleanup_actions.insert(0, cleanup)
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def generate(self, sink):
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'''Generate the code into a CodeSink object'''
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assert isinstance(sink, CodeSink)
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if DEBUG_MODE:
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self.declarations.writeln("/* begin declarations */")
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self.body.writeln("/* begin main body */")
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self.post_return_code.writeln("/* begin post-return code */")
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self.add_declaration("PyGILState_STATE __py_state;")
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self.write_code(code="__py_state = pyg_gil_state_ensure();",
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cleanup="pyg_gil_state_release(__py_state);")
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for param in self.parameters:
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param.convert_c2py()
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assert self.called_pyobj is not None,\
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"Parameters failed to provide a target function or method."
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if self.is_static:
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sink.writeln('static %s' % self.return_type.get_c_type())
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else:
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sink.writeln(self.return_type.get_c_type())
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c_proto_params = map(Parameter.format_for_c_proto, self.parameters)
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sink.writeln("%s(%s)\n{" % (self.cname, ", ".join(c_proto_params)))
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self.return_type.write_decl()
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self.add_declaration("PyObject *py_retval;")
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## Handle number of arguments
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if self.pyargv_items:
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self.add_declaration("PyObject *py_args;")
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py_args = "py_args"
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if self.pyargv_optional_items:
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self.add_declaration("int argc = %i;" % len(self.pyargv_items))
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argc = "argc"
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for arg in self.pyargv_optional_items:
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self.body.writeln("if (%s)" % arg)
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self.body.indent()
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self.body.writeln("++argc;")
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self.body.unindent()
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else:
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argc = str(len(self.pyargv_items))
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else:
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if self.pyargv_optional_items:
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self.add_declaration("PyObject *py_args;")
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py_args = "py_args"
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self.add_declaration("int argc = 0;")
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argc = "argc"
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for arg in self.pyargv_optional_items:
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self.body.writeln("if (%s)" % arg)
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self.body.indent()
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self.body.writeln("++argc;")
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self.body.unindent()
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else:
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py_args = "NULL"
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argc = None
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self.body.writeln()
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if py_args != "NULL":
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self.write_code("py_args = PyTuple_New(%s);" % argc,
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cleanup="Py_DECREF(py_args);")
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pos = 0
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for arg in self.pyargv_items:
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try: # try to remove the Py_DECREF cleanup action, if we can
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self.cleanup_actions.remove("Py_DECREF(%s);" % arg)
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except ValueError: # otherwise we have to Py_INCREF..
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self.body.writeln("Py_INCREF(%s);" % arg)
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self.body.writeln("PyTuple_SET_ITEM(%s, %i, %s);" % (py_args, pos, arg))
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pos += 1
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for arg in self.pyargv_optional_items:
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self.body.writeln("if (%s) {" % arg)
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self.body.indent()
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try: # try to remove the Py_DECREF cleanup action, if we can
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self.cleanup_actions.remove("Py_XDECREF(%s);" % arg)
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except ValueError: # otherwise we have to Py_INCREF..
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self.body.writeln("Py_INCREF(%s);" % arg)
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self.body.writeln("PyTuple_SET_ITEM(%s, %i, %s);" % (py_args, pos, arg))
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self.body.unindent()
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self.body.writeln("}")
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pos += 1
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self.body.writeln()
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## Call the python method
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if self.method_name is None:
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self.write_code("py_retval = PyObject_Call(%s, %s);"
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% (self.called_pyobj, py_args),
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cleanup="Py_DECREF(py_retval);",
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failure_expression="!py_retval")
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else:
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self.add_declaration("PyObject *py_method;")
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self.write_code("py_method = PyObject_GetAttrString(%s, \"%s\");"
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% (self.called_pyobj, self.method_name),
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cleanup="Py_DECREF(py_method);",
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failure_expression="!py_method")
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self.write_code("py_retval = PyObject_CallObject(py_method, %s);"
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% (py_args,),
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cleanup="Py_DECREF(py_retval);",
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failure_expression="!py_retval")
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## -- Handle the return value --
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## we need to check if the return_type object is prepared to cooperate with multiple return values
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len_before = len(self.pyret_parse_items)
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self.return_type.write_conversion()
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len_after = len(self.pyret_parse_items)
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assert (self.return_type.get_c_type() == 'void'
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or not (len_before == len_after and len_after > 0)),\
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("Bug in reverse wrappers: return type handler %s"
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" is not prepared to cooperate multiple return values") % (type(self.return_type),)
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sink.indent()
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if len(self.pyret_parse_items) == 1:
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## if retval is one item only, pack it in a tuple so we
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## can use PyArg_ParseTuple as usual..
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self.write_code('py_retval = Py_BuildValue("(N)", py_retval);')
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if len(self.pyret_parse_items) > 0:
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## Parse return values using PyArg_ParseTuple
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self.write_code(code=None, failure_expression=(
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'!PyArg_ParseTuple(py_retval, "%s", %s)' % (
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"".join([format for format, param in self.pyret_parse_items]),
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", ".join([param for format, param in self.pyret_parse_items]))))
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if DEBUG_MODE:
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self.declarations.writeln("/* end declarations */")
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self.declarations.flush_to(sink)
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sink.writeln()
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if DEBUG_MODE:
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self.body.writeln("/* end main body */")
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self.body.flush_to(sink)
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sink.writeln()
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if DEBUG_MODE:
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self.post_return_code.writeln("/* end post-return code */")
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self.post_return_code.flush_to(sink)
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sink.writeln()
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for cleanup_action in self.cleanup_actions:
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sink.writeln(cleanup_action)
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if self.return_type.get_c_type() != 'void':
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sink.writeln()
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sink.writeln("return retval;")
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sink.unindent()
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sink.writeln("}")
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class TypeHandler(object):
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def __init__(self, wrapper, **props):
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assert isinstance(wrapper, ReverseWrapper)
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self.wrapper = wrapper
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self.props = props
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class ReturnType(TypeHandler):
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def get_c_type(self):
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raise NotImplementedError
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def write_decl(self):
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raise NotImplementedError
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def write_error_return(self):
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'''Write "return <value>" code in case of error'''
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raise NotImplementedError
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def write_conversion(self):
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'''Writes code to convert Python return value in 'py_retval'
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into C 'retval'. Returns a string with C boolean expression
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that determines if anything went wrong. '''
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raise NotImplementedError
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class Parameter(TypeHandler):
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def __init__(self, wrapper, name, **props):
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TypeHandler.__init__(self, wrapper, **props)
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self.name = name
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def get_c_type(self):
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raise NotImplementedError
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def convert_c2py(self):
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'''Write some code before calling the Python method.'''
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pass
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def format_for_c_proto(self):
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return join_ctype_name(self.get_c_type(), self.name)
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###---
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class StringParam(Parameter):
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def get_c_type(self):
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return self.props.get('c_type', 'char *').replace('const-', 'const ')
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def convert_c2py(self):
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if self.props.get('optional', False):
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self.wrapper.add_declaration("PyObject *py_%s = NULL;" % self.name)
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self.wrapper.write_code(code=("if (%s)\n"
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" py_%s = PyString_FromString(%s);\n"
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% (self.name, self.name, self.name)),
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cleanup=("Py_XDECREF(py_%s);" % self.name))
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self.wrapper.add_pyargv_item("py_%s" % self.name, optional=True)
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else:
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self.wrapper.add_declaration("PyObject *py_%s;" % self.name)
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self.wrapper.write_code(code=("py_%s = PyString_FromString(%s);" %
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(self.name, self.name)),
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cleanup=("Py_DECREF(py_%s);" % self.name),
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failure_expression=("!py_%s" % self.name))
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self.wrapper.add_pyargv_item("py_%s" % self.name)
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for ctype in ('char*', 'gchar*', 'const-char*', 'char-const*', 'const-gchar*',
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'gchar-const*', 'string', 'static_string'):
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argtypes.matcher.register_reverse(ctype, StringParam)
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del ctype
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class StringReturn(ReturnType):
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def get_c_type(self):
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return "char *"
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def write_decl(self):
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self.wrapper.add_declaration("char *retval;")
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def write_error_return(self):
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self.wrapper.write_code("return NULL;")
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def write_conversion(self):
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self.wrapper.add_pyret_parse_item("s", "&retval", prepend=True)
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self.wrapper.write_code("retval = g_strdup(retval);", code_sink=self.wrapper.post_return_code)
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for ctype in ('char*', 'gchar*'):
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argtypes.matcher.register_reverse_ret(ctype, StringReturn)
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del ctype
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class VoidReturn(ReturnType):
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def get_c_type(self):
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return "void"
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def write_decl(self):
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pass
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def write_error_return(self):
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self.wrapper.write_code("return;")
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def write_conversion(self):
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self.wrapper.write_code(
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code=None,
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failure_expression="py_retval != Py_None",
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failure_cleanup='PyErr_SetString(PyExc_TypeError, "retval should be None");')
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argtypes.matcher.register_reverse_ret('void', VoidReturn)
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argtypes.matcher.register_reverse_ret('none', VoidReturn)
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class GObjectParam(Parameter):
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def get_c_type(self):
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return self.props.get('c_type', 'GObject *')
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def convert_c2py(self):
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self.wrapper.add_declaration("PyObject *py_%s = NULL;" % self.name)
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self.wrapper.write_code(code=("if (%s)\n"
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" py_%s = pygobject_new((GObject *) %s);\n"
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"else {\n"
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" Py_INCREF(Py_None);\n"
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" py_%s = Py_None;\n"
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"}"
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% (self.name, self.name, self.name, self.name)),
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cleanup=("Py_DECREF(py_%s);" % self.name))
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self.wrapper.add_pyargv_item("py_%s" % self.name)
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argtypes.matcher.register_reverse('GObject*', GObjectParam)
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class GObjectReturn(ReturnType):
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def get_c_type(self):
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return self.props.get('c_type', 'GObject *')
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def write_decl(self):
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self.wrapper.add_declaration("%s retval;" % self.get_c_type())
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def write_error_return(self):
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self.wrapper.write_code("return NULL;")
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def write_conversion(self):
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self.wrapper.write_code(
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code=None,
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failure_expression="!PyObject_TypeCheck(py_retval, &PyGObject_Type)",
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failure_exception='PyErr_SetString(PyExc_TypeError, "retval should be a GObject");')
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self.wrapper.write_code("retval = (%s) pygobject_get(py_retval);"
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|
% self.get_c_type())
|
|
self.wrapper.write_code("g_object_ref((GObject *) retval);")
|
|
|
|
argtypes.matcher.register_reverse_ret('GObject*', GObjectReturn)
|
|
|
|
|
|
|
|
class IntParam(Parameter):
|
|
|
|
def get_c_type(self):
|
|
return self.props.get('c_type', 'int')
|
|
|
|
def convert_c2py(self):
|
|
self.wrapper.add_declaration("PyObject *py_%s;" % self.name)
|
|
self.wrapper.write_code(code=("py_%s = PyInt_FromLong(%s);" %
|
|
(self.name, self.name)),
|
|
cleanup=("Py_DECREF(py_%s);" % self.name))
|
|
self.wrapper.add_pyargv_item("py_%s" % self.name)
|
|
|
|
class IntReturn(ReturnType):
|
|
def get_c_type(self):
|
|
return self.props.get('c_type', 'int')
|
|
def write_decl(self):
|
|
self.wrapper.add_declaration("%s retval;" % self.get_c_type())
|
|
def write_error_return(self):
|
|
self.wrapper.write_code("return -G_MAXINT;")
|
|
def write_conversion(self):
|
|
self.wrapper.add_pyret_parse_item("i", "&retval", prepend=True)
|
|
|
|
for argtype in ('int', 'gint', 'guint', 'short', 'gshort', 'gushort', 'long',
|
|
'glong', 'gsize', 'gssize', 'guint8', 'gint8', 'guint16',
|
|
'gint16', 'gint32', 'GTime'):
|
|
argtypes.matcher.register_reverse(argtype, IntParam)
|
|
argtypes.matcher.register_reverse_ret(argtype, IntReturn)
|
|
del argtype
|
|
|
|
class IntPtrParam(Parameter):
|
|
def __init__(self, wrapper, name, **props):
|
|
if "direction" not in props:
|
|
raise ValueError("cannot use int* parameter without direction")
|
|
if props["direction"] not in ("out", "inout"):
|
|
raise ValueError("cannot use int* parameter with direction '%s'" % (props["direction"],))
|
|
Parameter.__init__(self, wrapper, name, **props)
|
|
def get_c_type(self):
|
|
return self.props.get('c_type', 'int*')
|
|
def convert_c2py(self):
|
|
if self.props["direction"] == "inout":
|
|
self.wrapper.add_declaration("PyObject *py_%s;" % self.name)
|
|
self.wrapper.write_code(code=("py_%s = PyInt_FromLong(*%s);" %
|
|
(self.name, self.name)),
|
|
cleanup=("Py_DECREF(py_%s);" % self.name))
|
|
self.wrapper.add_pyargv_item("py_%s" % self.name)
|
|
self.wrapper.add_pyret_parse_item("i", self.name)
|
|
for argtype in ('int*', 'gint*'):
|
|
argtypes.matcher.register_reverse(argtype, IntPtrParam)
|
|
del argtype
|
|
|
|
|
|
class GEnumReturn(IntReturn):
|
|
def write_conversion(self):
|
|
self.wrapper.write_code(
|
|
code=None,
|
|
failure_expression=("pyg_enum_get_value(%s, py_retval, (gint *)&retval)" %
|
|
self.props['typecode']))
|
|
|
|
argtypes.matcher.register_reverse_ret("GEnum", GEnumReturn)
|
|
|
|
class GEnumParam(IntParam):
|
|
def convert_c2py(self):
|
|
self.wrapper.add_declaration("PyObject *py_%s;" % self.name)
|
|
self.wrapper.write_code(code=("py_%s = pyg_enum_from_gtype(%s, %s);" %
|
|
(self.name, self.props['typecode'], self.name)),
|
|
cleanup=("Py_DECREF(py_%s);" % self.name),
|
|
failure_expression=("!py_%s" % self.name))
|
|
self.wrapper.add_pyargv_item("py_%s" % self.name)
|
|
|
|
argtypes.matcher.register_reverse("GEnum", GEnumParam)
|
|
|
|
class GFlagsReturn(IntReturn):
|
|
def write_conversion(self):
|
|
self.wrapper.write_code(
|
|
code=None,
|
|
failure_expression=("pyg_flags_get_value(%s, py_retval, (gint *)&retval)" %
|
|
self.props['typecode']))
|
|
|
|
argtypes.matcher.register_reverse_ret("GFlags", GFlagsReturn)
|
|
|
|
class GFlagsParam(IntParam):
|
|
def convert_c2py(self):
|
|
self.wrapper.add_declaration("PyObject *py_%s;" % self.name)
|
|
self.wrapper.write_code(code=("py_%s = pyg_flags_from_gtype(%s, %s);" %
|
|
(self.name, self.props['typecode'], self.name)),
|
|
cleanup=("Py_DECREF(py_%s);" % self.name),
|
|
failure_expression=("!py_%s" % self.name))
|
|
self.wrapper.add_pyargv_item("py_%s" % self.name)
|
|
|
|
argtypes.matcher.register_reverse("GFlags", GFlagsParam)
|
|
|
|
|
|
class GtkTreePathParam(IntParam):
|
|
def convert_c2py(self):
|
|
self.wrapper.add_declaration("PyObject *py_%s;" % self.name)
|
|
self.wrapper.write_code(code=("py_%s = pygtk_tree_path_to_pyobject(%s);" %
|
|
(self.name, self.name)),
|
|
cleanup=("Py_DECREF(py_%s);" % self.name),
|
|
failure_expression=("!py_%s" % self.name))
|
|
self.wrapper.add_pyargv_item("py_%s" % self.name)
|
|
|
|
argtypes.matcher.register_reverse("GtkTreePath*", GtkTreePathParam)
|
|
|
|
|
|
class BooleanReturn(ReturnType):
|
|
def get_c_type(self):
|
|
return "gboolean"
|
|
def write_decl(self):
|
|
self.wrapper.add_declaration("gboolean retval;")
|
|
self.wrapper.add_declaration("PyObject *py_main_retval;")
|
|
def write_error_return(self):
|
|
self.wrapper.write_code("return FALSE;")
|
|
def write_conversion(self):
|
|
self.wrapper.add_pyret_parse_item("O", "&py_main_retval", prepend=True)
|
|
self.wrapper.write_code("retval = PyObject_IsTrue(py_main_retval)? TRUE : FALSE;",
|
|
code_sink=self.wrapper.post_return_code)
|
|
argtypes.matcher.register_reverse_ret("gboolean", BooleanReturn)
|
|
|
|
class BooleanParam(Parameter):
|
|
def get_c_type(self):
|
|
return "gboolean"
|
|
def convert_c2py(self):
|
|
self.wrapper.add_declaration("PyObject *py_%s;" % self.name)
|
|
self.wrapper.write_code("py_%s = %s? Py_True : Py_False;"
|
|
% (self.name, self.name))
|
|
self.wrapper.add_pyargv_item("py_%s" % self.name)
|
|
|
|
argtypes.matcher.register_reverse("gboolean", BooleanParam)
|
|
|
|
|
|
class DoubleParam(Parameter):
|
|
def get_c_type(self):
|
|
return self.props.get('c_type', 'gdouble')
|
|
def convert_c2py(self):
|
|
self.wrapper.add_declaration("PyObject *py_%s;" % self.name)
|
|
self.wrapper.write_code(code=("py_%s = PyFloat_FromDouble(%s);" %
|
|
(self.name, self.name)),
|
|
cleanup=("Py_DECREF(py_%s);" % self.name))
|
|
self.wrapper.add_pyargv_item("py_%s" % self.name)
|
|
|
|
class DoublePtrParam(Parameter):
|
|
def __init__(self, wrapper, name, **props):
|
|
if "direction" not in props:
|
|
raise ValueError("cannot use double* parameter without direction")
|
|
if props["direction"] not in ("out", ): # inout not yet implemented
|
|
raise ValueError("cannot use double* parameter with direction '%s'" % (props["direction"],))
|
|
Parameter.__init__(self, wrapper, name, **props)
|
|
def get_c_type(self):
|
|
return self.props.get('c_type', 'double*')
|
|
def convert_c2py(self):
|
|
self.wrapper.add_pyret_parse_item("d", self.name)
|
|
for argtype in ('double*', 'gdouble*'):
|
|
argtypes.matcher.register_reverse(argtype, DoublePtrParam)
|
|
del argtype
|
|
|
|
class DoubleReturn(ReturnType):
|
|
def get_c_type(self):
|
|
return self.props.get('c_type', 'gdouble')
|
|
def write_decl(self):
|
|
self.wrapper.add_declaration("%s retval;" % self.get_c_type())
|
|
def write_error_return(self):
|
|
self.wrapper.write_code("return -G_MAXFLOAT;")
|
|
def write_conversion(self):
|
|
self.wrapper.write_code(
|
|
code=None,
|
|
failure_expression="!PyFloat_AsDouble(py_retval)",
|
|
failure_cleanup='PyErr_SetString(PyExc_TypeError, "retval should be a float");')
|
|
self.wrapper.write_code("retval = PyFloat_AsDouble(py_retval);")
|
|
|
|
for argtype in ('float', 'double', 'gfloat', 'gdouble'):
|
|
argtypes.matcher.register_reverse(argtype, DoubleParam)
|
|
argtypes.matcher.register_reverse_ret(argtype, DoubleReturn)
|
|
|
|
|
|
class GBoxedParam(Parameter):
|
|
def get_c_type(self):
|
|
return self.props.get('c_type').replace('const-', 'const ')
|
|
def convert_c2py(self):
|
|
self.wrapper.add_declaration("PyObject *py_%s;" % self.name)
|
|
ctype = self.get_c_type()
|
|
if ctype.startswith('const '):
|
|
ctype_no_const = ctype[len('const '):]
|
|
self.wrapper.write_code(
|
|
code=('py_%s = pyg_boxed_new(%s, (%s) %s, TRUE, TRUE);' %
|
|
(self.name, self.props['typecode'],
|
|
ctype_no_const, self.name)),
|
|
cleanup=("Py_DECREF(py_%s);" % self.name))
|
|
else:
|
|
self.wrapper.write_code(
|
|
code=('py_%s = pyg_boxed_new(%s, %s, FALSE, FALSE);' %
|
|
(self.name, self.props['typecode'], self.name)),
|
|
cleanup=("Py_DECREF(py_%s);" % self.name))
|
|
self.wrapper.add_pyargv_item("py_%s" % self.name)
|
|
|
|
argtypes.matcher.register_reverse("GBoxed", GBoxedParam)
|
|
|
|
class GBoxedReturn(ReturnType):
|
|
def get_c_type(self):
|
|
return self.props.get('c_type')
|
|
def write_decl(self):
|
|
self.wrapper.add_declaration("%s retval;" % self.get_c_type())
|
|
def write_error_return(self):
|
|
self.wrapper.write_code("return retval;")
|
|
def write_conversion(self):
|
|
self.wrapper.write_code(
|
|
failure_expression=("!pyg_boxed_check(py_retval, %s)" %
|
|
(self.props['typecode'],)),
|
|
failure_cleanup=('PyErr_SetString(PyExc_TypeError, "retval should be a %s");'
|
|
% (self.props['typename'],)))
|
|
self.wrapper.write_code('retval = pyg_boxed_get(py_retval, %s);' %
|
|
self.props['typename'])
|
|
|
|
argtypes.matcher.register_reverse_ret("GBoxed", GBoxedReturn)
|
|
|
|
|
|
class GdkRectanglePtrParam(Parameter):
|
|
def get_c_type(self):
|
|
return self.props.get('c_type').replace('const-', 'const ')
|
|
def convert_c2py(self):
|
|
self.wrapper.add_declaration("PyObject *py_%s;" % self.name)
|
|
self.wrapper.write_code(
|
|
code=('py_%s = pyg_boxed_new(GDK_TYPE_RECTANGLE, %s, TRUE, TRUE);' %
|
|
(self.name, self.name)),
|
|
cleanup=("Py_DECREF(py_%s);" % self.name))
|
|
self.wrapper.add_pyargv_item("py_%s" % self.name)
|
|
|
|
argtypes.matcher.register_reverse("GdkRectangle*", GdkRectanglePtrParam)
|
|
argtypes.matcher.register_reverse('GtkAllocation*', GdkRectanglePtrParam)
|
|
|
|
|
|
class PyGObjectMethodParam(Parameter):
|
|
def __init__(self, wrapper, name, method_name, **props):
|
|
Parameter.__init__(self, wrapper, name, **props)
|
|
self.method_name = method_name
|
|
|
|
def get_c_type(self):
|
|
return self.props.get('c_type', 'GObject *')
|
|
|
|
def convert_c2py(self):
|
|
self.wrapper.add_declaration("PyObject *py_%s;" % self.name)
|
|
self.wrapper.write_code(code=("py_%s = pygobject_new((GObject *) %s);" %
|
|
(self.name, self.name)),
|
|
cleanup=("Py_DECREF(py_%s);" % self.name),
|
|
failure_expression=("!py_%s" % self.name))
|
|
self.wrapper.set_call_target("py_%s" % self.name, self.method_name)
|
|
|
|
class CallbackInUserDataParam(Parameter):
|
|
def __init__(self, wrapper, name, free_it, **props):
|
|
Parameter.__init__(self, wrapper, name, **props)
|
|
self.free_it = free_it
|
|
|
|
def get_c_type(self):
|
|
return "gpointer"
|
|
|
|
def convert_c2py(self):
|
|
self.wrapper.add_declaration("PyObject **_user_data;")
|
|
cleanup = self.free_it and ("g_free(%s);" % self.name) or None
|
|
self.wrapper.write_code(code=("_real_user_data = (PyObject **) %s;"
|
|
% self.name),
|
|
cleanup=cleanup)
|
|
|
|
self.wrapper.add_declaration("PyObject *py_func;")
|
|
cleanup = self.free_it and "Py_DECREF(py_func);" or None
|
|
self.wrapper.write_code(code="py_func = _user_data[0];",
|
|
cleanup=cleanup)
|
|
self.wrapper.set_call_target("py_func")
|
|
|
|
self.wrapper.add_declaration("PyObject *py_user_data;")
|
|
cleanup = self.free_it and "Py_XDECREF(py_user_data);" or None
|
|
self.wrapper.write_code(code="py_user_data = _user_data[1];",
|
|
cleanup=cleanup)
|
|
self.wrapper.add_pyargv_item("py_user_data", optional=True)
|
|
|
|
def _test():
|
|
import sys
|
|
|
|
if 1:
|
|
wrapper = ReverseWrapper("this_is_the_c_function_name", is_static=True)
|
|
wrapper.set_return_type(StringReturn(wrapper))
|
|
wrapper.add_parameter(PyGObjectMethodParam(wrapper, "self", method_name="do_xxx"))
|
|
wrapper.add_parameter(StringParam(wrapper, "param2", optional=True))
|
|
wrapper.add_parameter(GObjectParam(wrapper, "param3"))
|
|
#wrapper.add_parameter(InoutIntParam(wrapper, "param4"))
|
|
wrapper.generate(FileCodeSink(sys.stderr))
|
|
|
|
if 0:
|
|
wrapper = ReverseWrapper("this_a_callback_wrapper")
|
|
wrapper.set_return_type(VoidReturn(wrapper))
|
|
wrapper.add_parameter(StringParam(wrapper, "param1", optional=False))
|
|
wrapper.add_parameter(GObjectParam(wrapper, "param2"))
|
|
wrapper.add_parameter(CallbackInUserDataParam(wrapper, "data", free_it=True))
|
|
wrapper.generate(FileCodeSink(sys.stderr))
|
|
|
|
if __name__ == '__main__':
|
|
_test()
|