# -*- Mode: Python; py-indent-offset: 4 -*- # vim: tabstop=4 shiftwidth=4 expandtab # # Gst.py # # Copyright (C) 2012 Thibault Saunier # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this program; if not, write to the # Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, # Boston, MA 02110-1301, USA. # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3, or (at your option) # any later version. import sys import inspect from ..overrides import override from ..importer import modules from gi.repository import GLib if sys.version_info >= (3, 0): _basestring = str _callable = lambda c: hasattr(c, '__call__') long = int else: _basestring = basestring _callable = callable Gst = modules['Gst']._introspection_module __all__ = [] if Gst._version == '0.10': import warnings warn_msg = "You have imported the Gst 0.10 module. Because Gst 0.10 \ was not designed for use with introspection some of the \ interfaces and API will fail. As such this is not supported \ by the GStreamer development team and we encourage you to \ port your app to Gst 1 or greater. gst-python is the recomended \ python module to use with Gst 0.10" warnings.warn(warn_msg, RuntimeWarning) class Bin(Gst.Bin): def __init__(self, name=None): Gst.Bin.__init__(self, name=name) def add(self, *args): for arg in args: if not Gst.Bin.add(self, arg): raise AddError(arg) Bin = override(Bin) __all__.append('Bin') class Caps(Gst.Caps): def __nonzero__(self): return not self.is_empty() def __new__(cls, *args): if not args: return Caps.new_empty() elif len(args) > 1: raise TypeError("wrong arguments when creating GstCaps object") elif isinstance(args[0], str): return Caps.from_string(args[0]) elif isinstance(args[0], Caps): return args[0].copy() elif isinstance(args[0], Structure): res = Caps.new_empty() res.append_structure(args[0]) return res elif isinstance(args[0], (list, tuple)): res = Caps.new_empty() for e in args[0]: res.append_structure(e) return res raise TypeError("wrong arguments when creating GstCaps object") def __init__(self, *args, **kwargs): return super(Caps, self).__init__() def __str__(self): return self.to_string() def __getitem__(self, index): if index >= self.get_size(): raise IndexError('structure index out of range') return self.get_structure(index) def __len__(self): return self.get_size() Caps = override(Caps) __all__.append('Caps') class Pad(Gst.Pad): def __init__(self, *args, **kwargs): self._real_chain_func = None self._real_event_func = None self._real_query_func = None super(Gst.Pad, self).__init__(*args, **kwargs) def _chain_override(self, pad, parent, buf): return self._real_chain_func(pad, buf) def _event_override(self, pad, parent, event): return self._real_event_func(pad, event) def _query_override(self, pad, parent, query): query.mini_object.refcount -= 1 try: res = self._real_query_func(pad, query) except TypeError: try: res = self._real_query_func(pad, parent, query) except TypeError: raise TypeError("Invalid query method %s, 2 or 3 arguments required" % self._real_query_func) query.mini_object.refcount += 1 return res def set_chain_function(self, func): self._real_chain_func = func self.set_chain_function_full(self._chain_override, None) def set_event_function(self, func): self._real_event_func = func self.set_event_function_full(self._event_override, None) def set_query_function(self, func): self._real_query_func = func self.set_query_function_full(self._query_override, None) def set_query_function_full(self, func, udata): self._real_query_func = func self._real_set_query_function_full(self._query_override, None) def query_caps(self, filter=None): return Gst.Pad.query_caps(self, filter) def link(self, pad): ret = Gst.Pad.link(self, pad) if ret != Gst.PadLinkReturn.OK: raise LinkError(ret) return ret Pad._real_set_query_function_full = Gst.Pad.set_query_function_full Pad = override(Pad) __all__.append('Pad') class GhostPad(Gst.GhostPad): def __init__(self, name, target=None, direction=None): if direction is None: if target is None: raise TypeError('you must pass at least one of target ' 'and direction') direction = target.props.direction Gst.GhostPad.__init__(self, name=name, direction=direction) self.construct() if target is not None: self.set_target(target) def query_caps(self, filter=None): return Gst.GhostPad.query_caps(self, filter) GhostPad = override(GhostPad) __all__.append('GhostPad') class IteratorError(Exception): pass __all__.append('IteratorError') class AddError(Exception): pass __all__.append('AddError') class LinkError(Exception): pass __all__.append('LinkError') class Iterator(Gst.Iterator): def __iter__(self): while True: result, value = self.next() if result == Gst.IteratorResult.DONE: break if result != Gst.IteratorResult.OK: raise IteratorError(result) yield value Iterator = override(Iterator) __all__.append('Iterator') class ElementFactory(Gst.ElementFactory): # ElementFactory def get_longname(self): return self.get_metadata("long-name") def get_description(self): return self.get_metadata("description") def get_klass(self): return self.get_metadata("klass") @classmethod def make(cls, factory_name, instance_name=None): return Gst.ElementFactory.make(factory_name, instance_name) class Pipeline(Gst.Pipeline): def __init__(self, name=None): Gst.Pipeline.__init__(self, name=name) Pipeline = override(Pipeline) __all__.append('Pipeline') class Structure(Gst.Structure): def __new__(cls, *args, **kwargs): if not args: if kwargs: raise TypeError("wrong arguments when creating GstStructure, first argument" " must be the structure name.") return Structure.new_empty() elif len(args) > 1: raise TypeError("wrong arguments when creating GstStructure object") elif isinstance(args[0], str): if not kwargs: return Structure.from_string(args[0])[0] struct = Structure.new_empty(args[0]) for k, v in kwargs.items(): struct[k] = v return struct elif isinstance(args[0], Structure): return args[0].copy() raise TypeError("wrong arguments when creating GstStructure object") def __init__(self, *args, **kwargs): pass def __getitem__(self, key): return self.get_value(key) def keys(self): keys = set() def foreach(fid, value, unused1, udata): keys.add(GLib.quark_to_string(fid)) return True self.foreach(foreach, None, None) return keys def __setitem__(self, key, value): return self.set_value(key, value) def __str__(self): return self.to_string() Structure = override(Structure) __all__.append('Structure') ElementFactory = override(ElementFactory) __all__.append('ElementFactory') class Fraction(Gst.Fraction): def __init__(self, num, denom=1): def __gcd(a, b): while b != 0: tmp = a a = b b = tmp % b return abs(a) def __simplify(): num = self.num denom = self.denom if num < 0: num = -num denom = -denom # Compute greatest common divisor gcd = __gcd(num, denom) if gcd != 0: num /= gcd denom /= gcd self.num = num self.denom = denom self.num = num self.denom = denom __simplify() self.type = "fraction" def __repr__(self): return '' % (str(self)) def __value__(self): return self.num / self.denom def __eq__(self, other): if isinstance(other, Fraction): return self.num * other.denom == other.num * self.denom return False def __ne__(self, other): return not self.__eq__(other) def __mul__(self, other): if isinstance(other, Fraction): return Fraction(self.num * other.num, self.denom * other.denom) elif isinstance(other, int): return Fraction(self.num * other, self.denom) raise TypeError("%s is not supported, use Gst.Fraction or int." % (type(other))) __rmul__ = __mul__ def __truediv__(self, other): if isinstance(other, Fraction): return Fraction(self.num * other.denom, self.denom * other.num) elif isinstance(other, int): return Fraction(self.num, self.denom * other) return TypeError("%s is not supported, use Gst.Fraction or int." % (type(other))) __div__ = __truediv__ def __rtruediv__(self, other): if isinstance(other, int): return Fraction(self.denom * other, self.num) return TypeError("%s is not an int." % (type(other))) __rdiv__ = __rtruediv__ def __float__(self): return float(self.num) / float(self.denom) def __str__(self): return '%d/%d' % (self.num, self.denom) Fraction = override(Fraction) __all__.append('Fraction') class IntRange(Gst.IntRange): def __init__(self, r): if not isinstance(r, range): raise TypeError("%s is not a range." % (type(r))) if (r.start >= r.stop): raise TypeError("Range start must be smaller then stop") if r.start % r.step != 0: raise TypeError("Range start must be a multiple of the step") if r.stop % r.step != 0: raise TypeError("Range stop must be a multiple of the step") self.range = r def __repr__(self): return '' % (self.range.start, self.range.stop, self.range.step) def __str__(self): if self.range.step == 1: return '[%d,%d]' % (self.range.start, self.range.stop) else: return '[%d,%d,%d]' % (self.range.start, self.range.stop, self.range.step) def __eq__(self, other): if isinstance(other, range): return self.range == other elif isinstance(other, IntRange): return self.range == other.range return False if sys.version_info >= (3, 0): IntRange = override(IntRange) __all__.append('IntRange') class Int64Range(Gst.Int64Range): def __init__(self, r): if not isinstance(r, range): raise TypeError("%s is not a range." % (type(r))) if (r.start >= r.stop): raise TypeError("Range start must be smaller then stop") if r.start % r.step != 0: raise TypeError("Range start must be a multiple of the step") if r.stop % r.step != 0: raise TypeError("Range stop must be a multiple of the step") self.range = r def __repr__(self): return '' % (self.range.start, self.range.stop, self.range.step) def __str__(self): if self.range.step == 1: return '(int64)[%d,%d]' % (self.range.start, self.range.stop) else: return '(int64)[%d,%d,%d]' % (self.range.start, self.range.stop, self.range.step) def __eq__(self, other): if isinstance(other, range): return self.range == other elif isinstance(other, IntRange): return self.range == other.range return False class Bitmask(Gst.Bitmask): def __init__(self, v): if not isinstance(v, long) and not isinstance(v, int): raise TypeError("%s is not an int or long." % (type(v))) self.v = long(v) def __str__(self): return hex(self.v) def __eq__(self, other): return self.v == other Bitmask = override(Bitmask) __all__.append('Bitmask') if sys.version_info >= (3, 0): Int64Range = override(Int64Range) __all__.append('Int64Range') class DoubleRange(Gst.DoubleRange): def __init__(self, start, stop): self.start = float(start) self.stop = float(stop) if (start >= stop): raise TypeError("Range start must be smaller then stop") def __repr__(self): return '' % (str(self.start), str(self.stop)) def __str__(self): return '(double)[%s,%s]' % (str(self.range.start), str(self.range.stop)) DoubleRange = override(DoubleRange) __all__.append('DoubleRange') class FractionRange(Gst.FractionRange): def __init__(self, start, stop): if not isinstance(start, Gst.Fraction): raise TypeError("%s is not a Gst.Fraction." % (type(start))) if not isinstance(stop, Gst.Fraction): raise TypeError("%s is not a Gst.Fraction." % (type(stop))) if (float(start) >= float(stop)): raise TypeError("Range start must be smaller then stop") self.start = start self.stop = stop def __repr__(self): return '' % (str(self.start), str(self.stop)) def __str__(self): return '(fraction)[%s,%s]' % (str(self.start), str(self.stop)) FractionRange = override(FractionRange) __all__.append('FractionRange') class ValueArray(Gst.ValueArray): def __init__(self, array): self.array = list(array) def __getitem__(self, index): return self.array[index] def __setitem__(self, index, value): self.array[index] = value def __len__(self): return len(self.array) def __str__(self): return '<' + ','.join(map(str,self.array)) + '>' def __repr__(self): return '' % (str(self)) ValueArray = override(ValueArray) __all__.append('ValueArray') class ValueList(Gst.ValueList): def __init__(self, array): self.array = list(array) def __getitem__(self, index): return self.array[index] def __setitem__(self, index, value): self.array[index] = value def __len__(self): return len(self.array) def __str__(self): return '{' + ','.join(map(str,self.array)) + '}' def __repr__(self): return '' % (str(self)) ValueList = override(ValueList) __all__.append('ValueList') def TIME_ARGS(time): if time == Gst.CLOCK_TIME_NONE: return "CLOCK_TIME_NONE" return "%u:%02u:%02u.%09u" % (time / (Gst.SECOND * 60 * 60), (time / (Gst.SECOND * 60)) % 60, (time / Gst.SECOND) % 60, time % Gst.SECOND) __all__.append('TIME_ARGS') from . import _gi_gst _gi_gst # maybe more python and less C some day if core turns a bit more introspection # and binding friendly in the debug area Gst.trace = _gi_gst.trace Gst.log = _gi_gst.log Gst.debug = _gi_gst.debug Gst.info = _gi_gst.info Gst.warning = _gi_gst.warning Gst.error = _gi_gst.error Gst.fixme = _gi_gst.fixme Gst.memdump = _gi_gst.memdump # Make sure PyGst is not usable if GStreamer has not been initialized class NotInitialized(Exception): pass __all__.append('NotInitialized') def fake_method(*args): raise NotInitialized("Please call Gst.init(argv) before using GStreamer") real_functions = [o for o in inspect.getmembers(Gst) if isinstance(o[1], type(Gst.init))] class_methods = [] for cname_klass in [o for o in inspect.getmembers(Gst) if isinstance(o[1], type(Gst.Element)) or isinstance(o[1], type(Gst.Caps))]: class_methods.append((cname_klass, [(o, cname_klass[1].__dict__[o]) for o in cname_klass[1].__dict__ if isinstance(cname_klass[1].__dict__[o], type(Gst.init))])) def init_pygst(): for fname, function in real_functions: if fname not in ["init", "init_check", "deinit"]: setattr(Gst, fname, function) for cname_class, methods in class_methods: for mname, method in methods: setattr(cname_class[1], mname, method) def deinit_pygst(): for fname, func in real_functions: if fname not in ["init", "init_check", "deinit"]: setattr(Gst, fname, fake_method) for cname_class, methods in class_methods: for mname, method in methods: setattr(cname_class[1], mname, fake_method) real_init = Gst.init def init(argv): init_pygst() return real_init(argv) Gst.init = init real_init_check = Gst.init_check def init_check(argv): init_pygst() return real_init_check(argv) Gst.init_check = init_check real_deinit = Gst.deinit def deinit(): deinit_pygst() return real_deinit() Gst.deinit = deinit if not Gst.is_initialized(): deinit_pygst()