require 'rubypython/python' require 'rubypython/macros' # Acts as a namespace for methods to bidirectionally convert between native # Ruby types and native \Python types. Unsupported conversions raise # UnsupportedConversion. # # The methods in this module should be considered internal implementation to # RubyPython as they all return FFI pointers to \Python objects. module RubyPython::Conversion # Raised when RubyPython does not know how to convert an object from # \Python to Ruby or vice versa. class UnsupportedConversion < Exception; end # Convert a Ruby string to a \Python string. Returns an FFI::Pointer to # a PyStringObject. def self.rtopString(rString) size = rString.respond_to?(:bytesize) ? rString.bytesize : rString.size RubyPython::Python.PyString_FromStringAndSize(rString, size) end # Convert a Ruby Array to \Python List. Returns an FFI::Pointer to # a PyListObject. def self.rtopArrayToList(rArray) size = rArray.length pList = RubyPython::Python.PyList_New size rArray.each_with_index do |el, i| RubyPython::Python.PyList_SetItem pList, i, rtopObject(el) end pList end # Convert a Ruby Array to \Python Tuple. Returns an FFI::Pointer to a # PyTupleObject. def self.rtopArrayToTuple(rArray) pList = rtopArrayToList(rArray) pTuple = RubyPython::Python.PySequence_Tuple(pList) RubyPython::Python.Py_DecRef(pList) pTuple end # Convert a Ruby Hash to a \Python Dict. Returns an FFI::Pointer to a # PyDictObject. def self.rtopHash(rHash) pDict = RubyPython::Python.PyDict_New rHash.each do |k,v| RubyPython::Python.PyDict_SetItem pDict, rtopObject(k, key = true), rtopObject(v) end pDict end # Convert a Ruby Fixnum to a \Python Int. Returns an FFI::Pointer to a # PyIntObject. def self.rtopFixnum(rNum) RubyPython::Python.PyInt_FromLong(rNum) end # Convert a Ruby Bignum to a \Python Long. Returns an FFI::Pointer to a # PyLongObject. def self.rtopBigNum(rNum) RubyPython::Python.PyLong_FromLong(rNum) end # Convert a Ruby float to a \Python Float. Returns an FFI::Pointer to a # PyFloatObject. def self.rtopFloat(rNum) RubyPython::Python.PyFloat_FromDouble(rNum) end # Returns a \Python False value (equivalent to Ruby's +false+). Returns an # FFI::Pointer to Py_ZeroStruct. def self.rtopFalse RubyPython::Macros.Py_RETURN_FALSE end # Returns a \Python True value (equivalent to Ruby's +true+). Returns an # FFI::Pointer to Py_TrueStruct. def self.rtopTrue RubyPython::Macros.Py_RETURN_TRUE end # Returns a \Python None value (equivalent to Ruby's +nil+). Returns an # FFI::Pointer to Py_NoneStruct. def self.rtopNone RubyPython::Macros.Py_RETURN_NONE end # Convert a Ruby Symbol to a \Python String. Returns an FFI::Pointer to a # PyStringObject. def self.rtopSymbol(rSymbol) RubyPython::Python.PyString_FromString rSymbol.to_s end # Convert a Ruby Proc to a \Python Function. Returns an FFI::Pointer to a # PyCFunction. def self.rtopFunction(rObj) proc = FFI::Function.new(:pointer, [:pointer, :pointer]) do |p_self, p_args| retval = rObj.call(*ptorTuple(p_args)) pObject = retval.is_a?(RubyPython::RubyPyProxy) ? retval.pObject : RubyPython::PyObject.new(retval) # make sure the refcount is >1 when pObject is destroyed pObject.xIncref pObject.pointer end defn = RubyPython::Python::PyMethodDef.new defn[:ml_name] = FFI::MemoryPointer.from_string("RubyPython::Proc::%s" % rObj.object_id) defn[:ml_meth] = proc defn[:ml_flags] = RubyPython::Python::METH_VARARGS defn[:ml_doc] = nil return RubyPython::Python.PyCFunction_New(defn, nil) end # This will attempt to convert a Ruby object to an equivalent \Python # native type. Returns an FFI::Pointer to a \Python object (the # appropriate Py…Object C structure). If the conversion is unsuccessful, # will raise UnsupportedConversion. # # [rObj] A native Ruby object. # [is_key] Set to +true+ if the provided Ruby object will be used as a # key in a \Python +dict+. (This primarily matters for Array # conversion.) def self.rtopObject(rObj, is_key = false) case rObj when String rtopString rObj when Array # If this object is going to be used as a hash key we should make it a # tuple instead of a list if is_key rtopArrayToTuple rObj else rtopArrayToList rObj end when Hash rtopHash rObj when Fixnum rtopFixnum rObj when Bignum rtopBignum rObj when Float rtopFloat rObj when true rtopTrue when false rtopFalse when Symbol rtopSymbol rObj when Proc, Method if RubyPython.legacy_mode raise UnsupportedConversion.new("Callbacks are not supported in Legacy Mode.") end rtopFunction rObj when Method rtopFunction rObj when nil rtopNone when RubyPython::PyObject rObj.pointer else raise UnsupportedConversion.new("Unsupported type #{rObj.class} for conversion.") end end # Convert an FFI::Pointer to a \Python String (PyStringObject) to a Ruby # String. def self.ptorString(pString) strPtr = FFI::MemoryPointer.new(:pointer) sizePtr = FFI::MemoryPointer.new(:ssize_t) RubyPython::Python.PyString_AsStringAndSize(pString, strPtr, sizePtr) size = case FFI.find_type(:ssize_t) when FFI.find_type(:long) sizePtr.read_long when FFI.find_type(:int) sizePtr.read_int when FFI.find_type(:long_long) sizePtr.read_long_long else nil end strPtr.read_pointer.read_string(size) end # Convert an FFI::Pointer to a \Python List (PyListObject) to a Ruby # Array. def self.ptorList(pList) rb_array = [] list_size = RubyPython::Python.PyList_Size(pList) list_size.times do |i| element = RubyPython::Python.PyList_GetItem(pList, i) # PyList_GetItem returns borrowed ref RubyPython::Python.Py_IncRef element rObject = ptorObject(element) rb_array.push rObject end rb_array end # Convert an FFI::Pointer to a \Python Int (PyIntObject) to a Ruby Fixnum. def self.ptorInt(pNum) RubyPython::Python.PyInt_AsLong(pNum) end # Convert an FFI::Pointer to a \Python Long (PyLongObject) to a Ruby # Fixnum. This version does not do overflow checking, but probably should. def self.ptorLong(pNum) RubyPython::Python.PyLong_AsLong(pNum) # TODO Overflow Checking end # Convert an FFI::Pointer to a \Python Float (PyFloatObject) to a Ruby # Float. def self.ptorFloat(pNum) RubyPython::Python.PyFloat_AsDouble(pNum) end # Convert an FFI::Pointer to a \Python Tuple (PyTupleObject) to a Ruby # Array. def self.ptorTuple(pTuple) pList = RubyPython::Python.PySequence_List pTuple rArray = ptorList pList RubyPython::Python.Py_DecRef pList rArray end # Convert an FFI::Pointer to a \Python Dictionary (PyDictObject) to a Ruby # Hash. def self.ptorDict(pDict) rb_hash = {} pos = FFI::MemoryPointer.new :ssize_t pos.write_int 0 key = FFI::MemoryPointer.new :pointer val = FFI::MemoryPointer.new :pointer while RubyPython::Python.PyDict_Next(pDict, pos, key, val) != 0 pKey = key.read_pointer pVal = val.read_pointer rKey = ptorObject(pKey) rVal = ptorObject(pVal) rb_hash[rKey] = rVal end rb_hash end # Converts a pointer to a \Python object into a native Ruby type, if # possible. If the conversion cannot be done, the Python object will be # returned unmodified. # # [pObj] An FFI::Pointer to a \Python object. def self.ptorObject(pObj) if RubyPython::Macros.PyObject_TypeCheck(pObj, RubyPython::Python.PyString_Type.to_ptr) != 0 ptorString pObj elsif RubyPython::Macros.PyObject_TypeCheck(pObj, RubyPython::Python.PyList_Type.to_ptr) != 0 ptorList pObj elsif RubyPython::Macros.PyObject_TypeCheck(pObj, RubyPython::Python.PyInt_Type.to_ptr) != 0 ptorInt pObj elsif RubyPython::Macros.PyObject_TypeCheck(pObj, RubyPython::Python.PyLong_Type.to_ptr) != 0 ptorLong pObj elsif RubyPython::Macros.PyObject_TypeCheck(pObj, RubyPython::Python.PyFloat_Type.to_ptr) != 0 ptorFloat pObj elsif RubyPython::Macros.PyObject_TypeCheck(pObj, RubyPython::Python.PyTuple_Type.to_ptr) != 0 ptorTuple pObj elsif RubyPython::Macros.PyObject_TypeCheck(pObj, RubyPython::Python.PyDict_Type.to_ptr) != 0 ptorDict pObj elsif pObj == RubyPython::Macros.Py_True true elsif pObj == RubyPython::Macros.Py_False false elsif pObj == RubyPython::Macros.Py_None nil else pObj end end end