# ***** BEGIN LICENSE BLOCK ***** # Version: MPL 1.1/GPL 2.0/LGPL 2.1 # # The contents of this file are subject to the Mozilla Public License Version # 1.1 (the "License"); you may not use this file except in compliance with # the License. You may obtain a copy of the License at # http://www.mozilla.org/MPL/ # # Software distributed under the License is distributed on an "AS IS" basis, # WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License # for the specific language governing rights and limitations under the # License. # # The Original Code is the Python XPCOM language bindings. # # The Initial Developer of the Original Code is # ActiveState Tool Corp. # Portions created by the Initial Developer are Copyright (C) 2000, 2001 # the Initial Developer. All Rights Reserved. # # Contributor(s): # Mark Hammond (original author) # # Alternatively, the contents of this file may be used under the terms of # either the GNU General Public License Version 2 or later (the "GPL"), or # the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), # in which case the provisions of the GPL or the LGPL are applicable instead # of those above. If you wish to allow use of your version of this file only # under the terms of either the GPL or the LGPL, and not to allow others to # use your version of this file under the terms of the MPL, indicate your # decision by deleting the provisions above and replace them with the notice # and other provisions required by the GPL or the LGPL. If you do not delete # the provisions above, a recipient may use your version of this file under # the terms of any one of the MPL, the GPL or the LGPL. # # ***** END LICENSE BLOCK ***** # NOTE: This is a TEST interface, not a DEMO interface :-) # We try to get as many data-types etc exposed, meaning this # doesnt really make a good demo of a "simple component" from xpcom import components, verbose class PythonTestComponent: # Note we only list the "child" interface, not our intermediate interfaces # (which we must, by definition, also support) _com_interfaces_ = components.interfaces.nsIPythonTestInterfaceDOMStrings _reg_clsid_ = "{7EE4BDC6-CB53-42c1-A9E4-616B8E012ABA}" _reg_contractid_ = "Python.TestComponent" def __init__(self): self.boolean_value = 1 self.octet_value = 2 self.short_value = 3 self.ushort_value = 4 self.long_value = 5 self.ulong_value = 6 self.long_long_value = 7 self.ulong_long_value = 8 self.float_value = 9.0 self.double_value = 10.0 self.char_value = "a" self.wchar_value = "b" self.string_value = "cee" self.wstring_value = "dee" self.astring_value = "astring" self.acstring_value = "acstring" self.utf8string_value = "utf8string" self.iid_value = self._reg_clsid_ self.interface_value = None self.isupports_value = None self.domstring_value = "dom" def __del__(self): if verbose: print "Python.TestComponent: __del__ method called - object is destructing" def do_boolean(self, p1, p2): # boolean do_boolean(in boolean p1, inout boolean p2, out boolean p3); ret = p1 ^ p2 return ret, not ret, ret def do_octet(self, p1, p2): # octet do_octet(in octet p1, inout octet p2, out octet p3); return p1+p2, p1-p2, p1*p2 def do_short(self, p1, p2): # short do_short(in short p1, inout short p2, out short p3); return p1+p2, p1-p2, p1*p2 def do_unsigned_short(self, p1, p2): # unsigned short do_unsigned_short(in unsigned short p1, inout unsigned short p2, out unsigned short p3); return p1+p2, p1-p2, p1*p2 def do_long(self, p1, p2): # long do_long(in long p1, inout long p2, out long p3); return p1+p2, p1-p2, p1*p2 def do_unsigned_long(self, p1, p2): # unsigned long do_unsigned_long(in unsigned long p1, inout unsigned long p2, out unsigned long p3); return p1+p2, p1-p2, p1*p2 def do_long_long(self, p1, p2): # long long do_long_long(in long long p1, inout long long p2, out long long p3); return p1+p2, p1-p2, p1*p2 def do_unsigned_long_long(self, p1, p2): # unsigned long long do_unsigned_long_long(in unsigned long long p1, inout unsigned long long p2, out unsigned long long p3); return p1+p2, p1-p2, p1*p2 def do_float(self, p1, p2): # float do_float(in float p1, inout float p2, out float p3); return p1+p2, p1-p2, p1*p2 def do_double(self, p1, p2): # double do_double(in double p1, inout double p2, out double p3); return p1+p2, p1-p2, p1*p2 def do_char(self, p1, p2): # char do_char(in char p1, inout char p2, out char p3); return chr(ord(p1)+ord(p2)), p2, p1 def do_wchar(self, p1, p2): # wchar do_wchar(in wchar p1, inout wchar p2, out wchar p3); return chr(ord(p1)+ord(p2)), p2, p1 def do_string(self, p1, p2): # string do_string(in string p1, inout string p2, out string p3); ret = "" if p1 is not None: ret = ret + p1 if p2 is not None: ret = ret + p2 return ret, p1, p2 def do_wstring(self, p1, p2): # wstring do_wstring(in wstring p1, inout wstring p2, out wstring p3); ret = u"" if p1 is not None: ret = ret + p1 if p2 is not None: ret = ret + p2 return ret, p1, p2 def do_nsIIDRef(self, p1, p2): # nsIIDRef do_nsIIDRef(in nsIIDRef p1, inout nsIIDRef p2, out nsIIDRef p3); return p1, self._reg_clsid_, p2 def do_nsIPythonTestInterface(self, p1, p2): # nsIPythonTestInterface do_nsIPythonTestInterface(in nsIPythonTestInterface p1, inout nsIPythonTestInterface p2, out nsIPythonTestInterface p3); return p2, p1, self def do_nsISupports(self, p1, p2): # nsISupports do_nsISupports(in nsISupports p1, inout nsISupports p2, out nsISupports p3); return self, p1, p2 def do_nsISupportsIs(self, iid): # void do_nsISupportsIs(in nsIIDRef iid, [iid_is(iid),retval] out nsQIResult result) # Note the framework does the QI etc on us, so there is no real point me doing it. # (However, user code _should_ do the QI - otherwise any errors are deemed "internal" (as they # are raised by the C++ framework), and therefore logged to the console, etc. # A user QI allows the user to fail gracefully, whatever gracefully means for them! return self # Do I really need these?? ## def do_nsISupportsIs2(self, iid, interface): ## # void do_nsISupportsIs2(inout nsIIDRef iid, [iid_is(iid),retval] inout nsQIResult result); ## return iid, interface ## def do_nsISupportsIs3(self, interface): ## # void do_nsISupportsIs3(out nsIIDRef iid, [iid_is(iid)] inout nsQIResult result); ## return self._com_interfaces_, interface ## def do_nsISupportsIs4(self): ## # void do_nsISupportsIs4(out nsIIDRef iid, [iid_is(iid)] out nsQIResult result); ## return self._com_interfaces_, self # Methods from the nsIPythonTestInterfaceExtra interface # def MultiplyEachItemInIntegerArray(self, val, valueArray): # void MultiplyEachItemInIntegerArray( # in PRInt32 val, # in PRUint32 count, # [array, size_is(count)] inout PRInt32 valueArray); # NOTE - the "sizeis" params are never passed to or returned from Python! results = [] for item in valueArray: results.append(item * val) return results def MultiplyEachItemInIntegerArrayAndAppend(self, val, valueArray): #void MultiplyEachItemInIntegerArrayAndAppend( # in PRInt32 val, # inout PRUint32 count, # [array, size_is(count)] inout PRInt32 valueArray); results = valueArray[:] for item in valueArray: results.append(item * val) return results def DoubleStringArray(self, valueArray): # void DoubleStringArray(inout PRUint32 count, # [array, size_is(count)] inout string valueArray); results = [] for item in valueArray: results.append(item * 2) return results def ReverseStringArray(self, valueArray): # void ReverseStringArray(in PRUint32 count, # [array, size_is(count)] inout string valueArray); valueArray.reverse() return valueArray # Note that this method shares a single "size_is" between 2 params! def CompareStringArrays(self, ar1, ar2): # void CompareStringArrays([array, size_is(count)] in string arr1, # [array, size_is(count)] in string arr2, # in unsigned long count, # [retval] out short result); return cmp(ar1, ar2) def DoubleString(self, val): # void DoubleString(inout PRUint32 count, # [size_is(count)] inout string str); return val * 2 def DoubleString2(self, val): # void DoubleString2(in PRUint32 in_count, [size_is(in_count)] in string in_str, # out PRUint32 out_count, [size_is(out_count)] out string out_str); return val * 2 def DoubleString3(self, val): # void DoubleString3(in PRUint32 in_count, [size_is(in_count)] in string in_str, # out PRUint32 out_count, [size_is(out_count), retval] string out_str); return val * 2 def DoubleString4(self, val): # void DoubleString4([size_is(count)] in string in_str, inout PRUint32 count, [size_is(count)] out string out_str); return val * 2 def UpString(self, val): # // UpString defines the count as only "in" - meaning the result must be the same size # void UpString(in PRUint32 count, # [size_is(count)] inout string str); return val.upper() UpString2 = UpString # // UpString2 defines count as only "in", and a string as only "out" # void UpString2(in PRUint32 count, # [size_is(count)] inout string in_str, # [size_is(count)]out string out_str); def GetFixedString(self, count): # void GetFixedString(in PRUint32 count, [size_is(count)out string out_str); return "A" * count # DoubleWideString functions are identical to DoubleString, except use wide chars! def DoubleWideString(self, val): return val * 2 def DoubleWideString2(self, val): return val * 2 def DoubleWideString3(self, val): return val * 2 def DoubleWideString4(self, val): return val * 2 def UpWideString(self, val): return val.upper() UpWideString2 = UpWideString def CopyUTF8String(self, v): return v def CopyUTF8String2(self, v): return v.encode("utf8") # Test we can get an "out" array with an "in" size (and the size is not used anywhere as a size for an in!) def GetFixedWideString(self, count): # void GetFixedWideString(in PRUint32 count, [size_is(count)out string out_str); return u"A" * count def GetStrings(self): # void GetStrings(out PRUint32 count, # [retval, array, size_is(count)] out string str); return "Hello from the Python test component".split() # Some tests for our special "PRUint8" support. def UpOctetArray( self, data ): # void UpOctetArray(inout PRUint32 count, # [array, size_is(count)] inout PRUint8 data); return data.upper() def UpOctetArray2( self, data ): # void UpOctetArray2(inout PRUint32 count, # [array, size_is(count)] inout PRUint8 data); data = data.upper() # This time we return a list of integers. return map( ord, data ) # Arrays of interfaces def CheckInterfaceArray(self, interfaces): # void CheckInterfaceArray(in PRUint32 count, # [array, size_is(count)] in nsISupports data, # [retval] out PRBool all_non_null); ret = 1 for i in interfaces: if i is None: ret = 0 break return ret def CopyInterfaceArray(self, a): return a def GetInterfaceArray(self): # void GetInterfaceArray(out PRUint32 count, # [array, size_is(count)] out nsISupports data); return self, self, self, None def ExtendInterfaceArray(self, data): # void ExtendInterfaceArray(inout PRUint32 count, # [array, size_is(count)] inout nsISupports data); return data * 2 # Arrays of IIDs def CheckIIDArray(self, data): # void CheckIIDArray(in PRUint32 count, # [array, size_is(count)] in nsIIDRef data, # [retval] out PRBool all_mine); ret = 1 for i in data: if i!= self._com_interfaces_ and i != self._reg_clsid_: ret = 0 break return ret def GetIIDArray(self): # void GetIIDArray(out PRUint32 count, # [array, size_is(count)] out nsIIDRef data); return self._com_interfaces_, self._reg_clsid_ def ExtendIIDArray(self, data): # void ExtendIIDArray(inout PRUint32 count, # [array, size_is(count)] inout nsIIDRef data); return data * 2 # Test our count param can be shared as an "in" param. def SumArrays(self, array1, array2): # void SumArrays(in PRUint32 count, [array, size_is(count)]in array1, [array, size_is(count)]in array2, [retval]result); if len(array1)!=len(array2): print "SumArrays - not expecting different lengths!" result = 0 for i in array1: result = result + i for i in array2: result = result+i return result # Test our count param can be shared as an "out" param. def GetArrays(self): # void GetArrays(out PRUint32 count, [array, size_is(count)]out array1, [array, size_is(count)]out array2); return (1,2,3), (4,5,6) # Test we can get an "out" array with an "in" size def GetFixedArray(self, size): # void GetFixedArray(in PRUint32 count, [array, size_is(count)]out PRInt32 array1]); return 0 * size # Test our "in" count param can be shared as one "in", plus one "out" param. def CopyArray(self, array1): # void CopyArray(in PRUint32 count, [array, size_is(count)]in array1, [array, size_is(count)]out array2); return array1 # Test our "in-out" count param can be shared as one "in", plus one "out" param. def CopyAndDoubleArray(self, array): # void CopyAndDoubleArray(inout PRUint32 count, [array, size_is(count)]in array1, [array, size_is(count)]out array2); return array + array # Test our "in-out" count param can be shared as one "in", plus one "in-out" param. def AppendArray(self, array1, array2): # void AppendArray(inout PRUint32 count, [array, size_is(count)]in array1, [array, size_is(count)]inout array2); rc = array1 if array2 is not None: rc.extend(array2) return rc # Test nsIVariant support def AppendVariant(self, invar, inresult): if type(invar)==type([]): invar_use = invar[0] for v in invar[1:]: invar_use += v else: invar_use = invar if type(inresult)==type([]): inresult_use = inresult[0] for v in inresult[1:]: inresult_use += v else: inresult_use = inresult if inresult_use is None and invar_use is None: return None return inresult_use + invar_use def CopyVariant(self, invar): return invar # Some tests for the "new" (Feb-2001) DOMString type. def GetDOMStringResult( self, length ): # Result: DOMString & if length == -1: return None return "P" * length def GetDOMStringOut( self, length ): # Result: DOMString & if length == -1: return None return "y" * length def GetDOMStringLength( self, param0 ): # Result: uint32 # In: param0: DOMString & if param0 is None: return -1 return len(param0) def GetDOMStringRefLength( self, param0 ): # Result: uint32 # In: param0: DOMString & if param0 is None: return -1 return len(param0) def GetDOMStringPtrLength( self, param0 ): # Result: uint32 # In: param0: DOMString * if param0 is None: return -1 return len(param0) def ConcatDOMStrings( self, param0, param1 ): # Result: void - None # In: param0: DOMString & # In: param1: DOMString & # Out: DOMString & return param0 + param1 def get_domstring_value( self ): # Result: DOMString & return self.domstring_value def set_domstring_value( self, param0 ): # Result: void - None # In: param0: DOMString & self.domstring_value = param0 def get_domstring_value_ro( self ): # Result: DOMString & return self.domstring_value