This part of the documentation covers all the interfaces of Pyobjus.

Reflection functions#

pyobjus.autoclass(name[, copy_properties=None, load_class_methods=None, load_instance_methods=None, reset_autoclass=None])#

Get and load an Objective C class

  • name – Name of the Objective C class which you want to load.

  • copy_properties (None or Boolean) – Denotes whether to copy the properties of the Objective C class or not. The default is to copy all properties.

  • load_class_methods (None or List) – If this argument is omitted or None, all class methods will be loaded. You can use it to force only certain class methods to be loaded eg. load_class_methods=[‘alloc’].

  • load_instance_methods (None or List) – If this argument is omitted or set to None, all instance methods will be loaded. You can use it force only instance methods to be loaded, eg. load_instance_methods=[‘init’].

  • reset_autoclass (None or Boolean) – If this argument is set to True and the class was previously loaded with a restricted subset of methods, when you call the autoclass function again with this argument for the same class, all the methods will be loaded.

Return type:

Return a ObjClass that represents the class passed from name.

>>> from pyobjus import autoclass
>>> autoclass('NSString')
<class '__main__.NSString'>

Utility functions#


Get the selector for the method specified by the objc_method parameter


objc_method (String) – Name of the Objective C method for which we want to get the SEL.

Return type:

ObjcSelector, which is a Python representation for the Objective C SEL type.

pyobjus.dereference(objc_reference[, of_type=None, return_count=None, partition=None])#

Dereference the C pointer to get the actual values

  • objc_referenceObjcReferenceToType Python representation of the C pointer.

  • of_type – If the function which you call returns a value, for example an int, float, etc., pyobjus can determine the type which to convert it to. But if you return a void pointer for eg. then you need to specify the type to which you want to convert it. An example of this is: dereference(someObjcReferenceToType, of_type=ObjcInt).

  • return_count (Integer) – When you are returning a C array, you can/need specify number of returned values with this argument.

  • partition – When you want to dereference a multidimensional array, you need to specify it’s dimensions. Provide a list with numbers which denote it’s dimensions. For example, with int array[10][10], you need to specify partition=[10, 10].

Return type:

Actual value for some ObjcReferenceToType type.


Initialize NSNumber with a Char type.


some_char – Char parameter

Return type:

NSNumber.numberWithChar: Python representation


Initialize NSNumber with an Int type.


some_int – Int parameter

Return type:

NSNumber.numberWithInt: Python representation


Initialize NSNumber with an Unsigned Int type.


some_unsigned_int – Unsigned Int parameter

Return type:

NSNumber.numberWithUnsignedInt: Python representation


Initialize NSNumber with a Long type.


some_char – Long parameter

Return type:

NSNumber.numberWithLong: Python representation


Initialize NSNumber with a Long Long type.


some_long_long – Long Long parameter

Return type:

NSNumber.numberWithLongLong: Python representation


Initialize NSNumber with a Float type.


some_float – Float parameter

Return type:

NSNumber.numberWithFloat: Python representation


Initialize NSNumber with a Double type.


some_double – Double parameter

Return type:

NSNumber.numberWithDouble: Python representation


Initialize NSNumber with a Bool type.


some_char – Bool parameter

Return type:

NSNumber.numberWithBool: Python representation


Initialize NSNumber with a NSString type.


some_string – String parameter

Return type:

NSString.stringWithUTF8String: Python representation


Initialize a NSArray type


some_array – List of parameters. For eg:

objc_arr(objc_str('Hello'), objc_str('some str'), objc_i(42))
Return type:

NSArray Python representation


Initialize a NSDictionary type


some_dict – Dict parameter. For eg:

    'name': objc_str('User name'),
    'date': autoclass('NSDate').date(),
    'processInfo': autoclass('NSProcessInfo').processInfo()
Return type:

NSDictionary Python representation

Global variables#


Platform for which pyobjus is compiled

Pyobjus Objective C types#

class pyobjus.ObjcChar#

Objective C char representation

class pyobjus.ObjcInt#

Objective C int representation

class pyobjus.ObjcShort#

Objective C short representation

class pyobjus.ObjcLong#

Objective C long representation

class pyobjus.ObjcLongLong#

Objective C long long representation

class pyobjus.ObjcUChar#

Objective C unsigned char representation

class pyobjus.ObjcUInt#

Objective C unsigned int representation

class pyobjus.ObjcUShort#

Objective C unsigned short representation

class pyobjus.ObjcULong#

Objective C unsigned long representation

class pyobjus.ObjcULongLong#

Objective C unsigned long long representation

class pyobjus.ObjcFloat#

Objective C float` representation

class pyobjus.ObjcDouble#

Objective C double representation

class pyobjus.ObjcBool#

Objective C bool representation

class pyobjus.ObjcBOOL#

Objective C BOOL representation

class pyobjus.ObjcVoid#

Objective C void representation

class pyobjus.ObjcString#

Objective C char* representation

class pyobjus.ObjcClassInstance#

Representation of an Objective C class instance

class pyobjus.ObjcClass#

Representation of an Objective C Class

class pyobjus.ObjcSelector#

Representation of an Objective C SEL

class pyobjus.ObjcMethod#

Representation of an Objective C method

class pyobjus.CArray#

Representation of an Objective C (C) array

class pyobjus.CArrayCount#

Representation of a type which holds outCount* for some C array -> number of received array elements

exception pyobjus.ObjcException#

Representation of some Objective C exception

Structure types#

class pyobjus.objc_py_types.NSRange#
unsigned long long location#
unsigned long long length#
class pyobjus.objc_py_types.NSPoint#
double x#
double y#
class pyobjus.objc_py_types.NSSize#
double width#
double height#
class pyobjus.objc_py_types.NSRect#
NSPoint origin#
NSSize size#

Enumeration types#

class pyobjus.objc_py_types.NSComparisonResult#
NSOrderedAscending = -1
NSOrderedSame = 0
NSOrderedDescending = 1
class pyobjus.objc_py_types.NSStringEncoding#
NSASCIIStringEncoding = 1
NSNEXTSTEPStringEncoding = 2
NSJapaneseEUCStringEncoding = 3
NSUTF8StringEncoding = 4
NSISOLatin1StringEncoding = 5
NSSymbolStringEncoding = 6
NSNonLossyASCIIStringEncoding = 7
NSShiftJISStringEncoding = 8
NSISOLatin2StringEncoding = 9
NSUnicodeStringEncoding = 10
NSWindowsCP1251StringEncoding = 11
NSWindowsCP1252StringEncoding = 12
NSWindowsCP1253StringEncoding = 13
NSWindowsCP1254StringEncoding = 14
NSWindowsCP1250StringEncoding = 15
NSISO2022JPStringEncoding = 21
NSMacOSRomanStringEncoding = 30
NSUTF16StringEncoding = 10
NSUTF16BigEndianStringEncoding = 0x90000100
NSUTF16LittleEndianStringEncoding = 0x94000100
NSUTF32StringEncoding = 0x8c000100
NSUTF32BigEndianStringEncoding = 0x98000100
NSUTF32LittleEndianStringEncoding = 0x9c000100
NSProprietaryStringEncoding = 65536

Dynamic library manager#


Function for loading a user defined dylib.


path – Path to some dylib.

pyobjus.dylib_manager.make_dylib(path[, frameworks=None, out=None, options=None])#

Function for making a dylib from Python.

  • path – Path to the file.

  • frameworks (List) – List of frameworks to link with.

  • options (List) – List of options for the compiler

  • out – Out location. The default is to write to the location specified by the path argument.


Function that loads an Objective C framework via NSBundle.


framework (String) – Path to the framework.


ObjcException if the framework can’t be found.

Objective-C signature format#

Objective C signatures have a special format that can be difficult to understand at first. Let’s look into the details. A signature is in the format:

<return type><offset0><argument1><offset1><argument2><offset2><...>

The offset represents how many bytes the previous argument is from the start of the allocated memory.

All the types for any part of the signature can be one of:

  • c = represent a char

  • i = represent an int

  • s = represent a short

  • l = represent a long (l is treated as a 32-bit quantity on 64-bit programs.)

  • q = represent a long long

  • c = represent an unsigned char

  • i = represent an unsigned int

  • s = represent an unsigned short

  • l = represent an unsigned long

  • q = represent an unsigned long long

  • f = represent a float

  • d = represent a double

  • b = represent a c++ bool or a c99 _bool

  • v = represent a void

  • * = represent a character string (char *)

  • @ = represent an object (whether statically typed or typed id)

  • # = represent a class object (class)

  • : = represent a method selector (sel)

  • [array type] = represent an array

  • {name=type…} = represent a structure

  • (name=type…) = represent a union

  • bnum = represent a bit field of num bits

  • ^ = represent type a pointer to type

  • ? = represent an unknown type (among other things, this code is used for function pointers)