# -*- Mode: Python; py-indent-offset: 4 -*- # vim: tabstop=4 shiftwidth=4 expandtab # copy this file to /usr/lib/python2.7/dist-packages/gi/overrides/ # This file is part of VIPS. # # VIPS 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 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 # # These files are distributed with VIPS - http://www.vips.ecs.soton.ac.uk import sys import re import logging from gi.overrides import override from gi.importer import modules from gi.repository import GObject Vips = modules['Vips']._introspection_module __all__ = [] # start up vips! Vips.init(sys.argv[0]) # need the gtypes for various vips types vips_type_array_int = GObject.GType.from_name("VipsArrayInt") vips_type_array_double = GObject.GType.from_name("VipsArrayDouble") vips_type_array_image = GObject.GType.from_name("VipsArrayImage") vips_type_blob = GObject.GType.from_name("VipsBlob") vips_type_image = GObject.GType.from_name("VipsImage") vips_type_operation = GObject.GType.from_name("VipsOperation") def imageize(match_image, value): if match_image is None: return value pixel = (Vips.Image.black(1, 1) + value).cast(match_image.format) image = pixel.embed(0, 0, match_image.width, match_image.height, extend = Vips.Extend.COPY) return image unpack_types = [Vips.Blob, Vips.ArrayDouble, Vips.ArrayImage, Vips.ArrayInt] def isunpack(obj): for t in unpack_types: if isinstance(obj, t): return True return False def array_image_new(array): match_image = None for i in range(0, len(array)): if isinstance(array[i], Vips.Image): match_image = array[i] break if match_image is None: raise Error('Unable to make image array argument.', 'Array must contain at least one image.') for i in range(0, len(array)): if not isinstance(array[i], Vips.Image): array[i] = imageize(match_image, array[i]) return Vips.ArrayImage.new(array) arrayize_types = [[vips_type_array_int, Vips.ArrayInt.new], [vips_type_array_double, Vips.ArrayDouble.new], [vips_type_array_image, array_image_new]] def arrayize(gtype, value): for t, cast in arrayize_types: if GObject.type_is_a(gtype, t): if not isinstance(value, list): value = [value] value = cast(value) return value class Error(Exception): """An error from vips. message -- a high-level description of the error detail -- a string with some detailed diagnostics """ def __init__(self, message, detail = None): self.message = message if detail == None: detail = Vips.error_buffer() Vips.error_clear() self.detail = detail logging.debug('Error %s %s', self.message, self.detail) def __str__(self): return '%s\n %s' % (self.message, self.detail) Vips.Error = Error class Argument: def __init__(self, op, prop): self.op = op; self.prop = prop; self.name = re.sub("-", "_", prop.name); self.flags = op.get_argument_flags(self.name) self.priority = op.get_argument_priority(self.name) self.isset = op.argument_isset(self.name) def set_value(self, match_image, value): logging.debug('assigning %s to %s' % (value, self.name)) logging.debug('%s needs a %s' % (self.name, self.prop.value_type)) # blob-ize if GObject.type_is_a(self.prop.value_type, vips_type_blob): if not isinstance(value, Vips.Blob): value = Vips.Blob.new(None, value) # image-ize if GObject.type_is_a(self.prop.value_type, vips_type_image): if not isinstance(value, Vips.Image): value = imageize(match_image, value) # array-ize some types, if necessary value = arrayize(self.prop.value_type, value) # MODIFY input images need to be copied before assigning them if self.flags & Vips.ArgumentFlags.MODIFY: value = value.copy() logging.debug('assigning %s' % self.prop.value_type) self.op.props.__setattr__(self.name, value) def get_value(self): value = self.op.props.__getattribute__(self.name) logging.debug('read out %s from %s' % (value, self.name)) # turn VipsBlobs into strings, VipsArrayDouble into lists etc. # FIXME ... this will involve a copy, we should use # buffer() instead if isunpack(value): value = value.get() return value Vips.Argument = Argument # search a list recursively for a Vips.Image object def find_image(x): if isinstance(x, Vips.Image): return x if isinstance(x, list): for i in x: y = find_image(i) if y is not None: return y return None def _call_base(name, required, optional, self = None, option_string = None): logging.debug('_call_base name=%s, required=%s optional=%s' % (name, required, optional)) if self: logging.debug('_call_base self=%s' % self) if option_string: logging.debug('_call_base option_string = %s' % option_string) try: op = Vips.Operation.new(name) except TypeError, e: raise Error('No such operator.') # set str options first so the user can't override things we set # deliberately and break stuff if option_string: if op.set_from_string(option_string) != 0: raise Error('Bad arguments.') # find all the args for this op, sort into priority order args = [Argument(op, x) for x in op.props] args.sort(lambda a, b: a.priority - b.priority) enm = Vips.ArgumentFlags # find all required, unassigned input args required_input = [x for x in args if x.flags & enm.INPUT and x.flags & enm.REQUIRED and not x.isset] # do we have a non-None self pointer? this is used to set the first # compatible input arg if self is not None: found = False for x in required_input: if GObject.type_is_a(self, x.prop.value_type): x.set_value(None, self) required_input.remove(x) found = True break if not found: raise Error('Bad arguments.', 'No %s argument to %s.' % (str(self.__class__), name)) if len(required_input) != len(required): raise Error('Wrong number of arguments.', '%s needs %d arguments, you supplied %d.' % (name, len(required_input), len(required))) # if we need an image arg but the user supplied a number or list of # numbers, we expand it into an image automatically ... the number is # expanded to match self, or if that's None, the first image we can find in # the required or optional arguments match_image = self if match_image is None: for arg in required: match_image = find_image(arg) if match_image is not None: break if match_image is None: for arg_name in optional: match_image = find_image(optional[arg_name]) if match_image is not None: break for i in range(len(required_input)): required_input[i].set_value(match_image, required[i]) # find all optional, unassigned input args ... make a hash from name to # Argument optional_input = {x.name: x for x in args if x.flags & enm.INPUT and not x.flags & enm.REQUIRED and not x.isset} # find all optional output args ... we use "x = True" # in args to mean add that to output optional_output = {x.name: x for x in args if x.flags & enm.OUTPUT and not x.flags & enm.REQUIRED} # set optional input args for key in optional.keys(): if key in optional_input: optional_input[key].set_value(match_image, optional[key]) elif key in optional_output: # must be a literal True value if optional[key] is not True: raise Error('Optional output argument must be True.', 'Argument %s should equal True.' % key) else: raise Error('Unknown argument.', 'Operator %s has no argument %s.' % (name, key)) # call op2 = Vips.cache_operation_build(op) if op2 == None: raise Error('Error calling operator %s.' % name) # rescan args if op2 is different from op if op2 != op: args = [Argument(op2, x) for x in op2.props] args.sort(lambda a, b: a.priority - b.priority) optional_output = {x.name: x for x in args if x.flags & enm.OUTPUT and not x.flags & enm.REQUIRED} # gather output args out = [] for x in args: # required output arg if x.flags & enm.OUTPUT and x.flags & enm.REQUIRED: out.append(x.get_value()) # modified input arg ... this will get the result of the copy() we # did above if x.flags & enm.INPUT and x.flags & enm.MODIFY: out.append(x.get_value()) out_dict = {} for x in optional.keys(): if x in optional_output: out_dict[x] = optional_output[x].get_value() if out_dict != {}: out.append(out_dict) if len(out) == 1: out = out[0] elif len(out) == 0: out = None # unref everything now we have refs to all outputs we want op2.unref_outputs() logging.debug('success') return out # general user entrypoint def call(name, *args, **kwargs): return _call_base(name, args, kwargs) Vips.call = call # here from getattr ... try to run the attr as a method def _call_instance(self, name, args, kwargs): return _call_base(name, args, kwargs, self) @classmethod def vips_image_new_from_file(cls, vips_filename, **kwargs): filename = Vips.filename_get_filename(vips_filename) option_string = Vips.filename_get_options(vips_filename) loader = Vips.Foreign.find_load(filename) if loader == None: raise Error('No known loader for "%s".' % filename) logging.debug('Image.new_from_file: loader = %s' % loader) return _call_base(loader, [filename], kwargs, None, option_string) setattr(Vips.Image, 'new_from_file', vips_image_new_from_file) @classmethod def vips_image_new_from_buffer(cls, data, option_string, **kwargs): loader = Vips.Foreign.find_load_buffer(data) if loader == None: raise Error('No known loader for buffer.') logging.debug('Image.new_from_buffer: loader = %s' % loader) setattr(Vips.Image, 'new_from_buffer', vips_image_new_from_buffer) @classmethod def vips_image_new_from_array(cls, array, scale = 1, offset = 0): # we accept a 1D array and assume height == 1, or a 2D array and check all # lines are the same length if not isinstance(array, list): raise TypeError('new_from_array() takes a list argument') if not isinstance(array[0], list): height = 1 width = len(array) else: flat_array = array[0] height = len(array) width = len(array[0]) for i in range(1, height): if len(array[i]) != width: raise TypeError('new_from_array() array not rectangular') flat_array += array[i] array = flat_array image = cls.new_matrix_from_array(width, height, array) # be careful to set them as double image.set('scale', float(scale)) image.set('offset', float(offset)) return image setattr(Vips.Image, 'new_from_array', vips_image_new_from_array) # apply a function to a thing, or map over a list # we often need to do something like (1.0 / other) and need to work for lists # as well as scalars def smap(func, x): if isinstance(x, list): return map(func, x) else: return func(x) class Image(Vips.Image): # constructors, see class methods above def __init__(self): Vips.Image.__init__(self) # output def write_to_file(self, vips_filename, **kwargs): filename = Vips.filename_get_filename(vips_filename) option_string = Vips.filename_get_options(vips_filename) saver = Vips.Foreign.find_save(filename) if saver == None: raise Error('No known saver for "%s".' % filename) logging.debug('Image.write_to_file: saver = %s' % saver) _call_base(saver, [filename], kwargs, self, option_string) def write_to_buffer(self, vips_filename, **kwargs): filename = Vips.filename_get_filename(vips_filename) option_string = Vips.filename_get_options(vips_filename) saver = Vips.Foreign.find_save_buffer(filename) if saver == None: raise Error('No known saver for "%s".' % filename) logging.debug('Image.write_to_buffer: saver = %s' % saver) return _call_base(saver, [], kwargs, self, option_string) # we can use Vips.Image.write_to_memory() directly # operator overloads def __getattr__(self, name): logging.debug('Image.__getattr__ %s' % name) # look up in props first, eg. x.props.width if name in dir(self.props): return getattr(self.props, name) return lambda *args, **kwargs: _call_instance(self, name, args, kwargs) def __add__(self, other): if isinstance(other, Vips.Image): return self.add(other) else: return self.linear(1, other) def __radd__(self, other): return self.__add__(other) def __sub__(self, other): if isinstance(other, Vips.Image): return self.subtract(other) else: return self.linear(1, smap(lambda x: -1 * x, other)) def __rsub__(self, other): return self.linear(-1, other) def __mul__(self, other): if isinstance(other, Vips.Image): return self.multiply(other) else: return self.linear(other, 0) def __rmul__(self, other): return self.__mul__(other) def __div__(self, other): if isinstance(other, Vips.Image): return self.divide(other) else: return self.linear(smap(lambda x: 1.0 / x, other), 0) def __rdiv__(self, other): return (self ** -1) * other def __floordiv__(self, other): if isinstance(other, Vips.Image): return self.divide(other).floor() else: return self.linear(smap(lambda x: 1.0 / x, other), 0).floor() def __rfloordiv__(self, other): return ((self ** -1) * other).floor() def __mod__(self, other): if isinstance(other, Vips.Image): return self.remainder(other) else: return self.remainder_const(other) def __pow__(self, other): if isinstance(other, Vips.Image): return self.math2(other, Vips.OperationMath2.POW) else: return self.math2_const(other, Vips.OperationMath2.POW) def __rpow__(self, other): return self.math2_const(other, Vips.OperationMath2.WOP) def __abs__(self): return self.abs() def __lshift__(self, other): if isinstance(other, Vips.Image): return self.boolean(other, Vips.OperationBoolean.LSHIFT) else: return self.boolean_const(other, Vips.OperationBoolean.LSHIFT) def __rshift__(self, other): if isinstance(other, Vips.Image): return self.boolean(other, Vips.OperationBoolean.RSHIFT) else: return self.boolean_const(other, Vips.OperationBoolean.RSHIFT) def __and__(self, other): if isinstance(other, Vips.Image): return self.boolean(other, Vips.OperationBoolean.AND) else: return self.boolean_const(other, Vips.OperationBoolean.AND) def __rand__(self, other): return self.__and__(other) def __or__(self, other): if isinstance(other, Vips.Image): return self.boolean(other, Vips.OperationBoolean.OR) else: return self.boolean_const(other, Vips.OperationBoolean.OR) def __ror__(self, other): return self.__or__(other) def __xor__(self, other): if isinstance(other, Vips.Image): return self.boolean(other, Vips.OperationBoolean.EOR) else: return self.boolean_const(other, Vips.OperationBoolean.EOR) def __rxor__(self, other): return self.__xor__(other) def __neg__(self): return -1 * self def __pos__(self): return self def __invert__(self): return self ^ -1 def __gt__(self, other): if isinstance(other, Vips.Image): return self.relational(other, Vips.OperationRelational.MORE) else: return self.relational_const(other, Vips.OperationRelational.MORE) def __ge__(self, other): if isinstance(other, Vips.Image): return self.relational(other, Vips.OperationRelational.MOREEQ) else: return self.relational_const(other, Vips.OperationRelational.MOREEQ) def __lt__(self, other): if isinstance(other, Vips.Image): return self.relational(other, Vips.OperationRelational.LESS) else: return self.relational_const(other, Vips.OperationRelational.LESS) def __le__(self, other): if isinstance(other, Vips.Image): return self.relational(other, Vips.OperationRelational.LESSEQ) else: return self.relational_const(other, Vips.OperationRelational.LESSEQ) def __eq__(self, other): if isinstance(other, Vips.Image): return self.relational(other, Vips.OperationRelational.EQUAL) else: return self.relational_const(other, Vips.OperationRelational.EQUAL) def __ne__(self, other): if isinstance(other, Vips.Image): return self.relational(other, Vips.OperationRelational.NOTEQ) else: return self.relational_const(other, Vips.OperationRelational.NOTEQ) # the cast operators int(), long() and float() must return numeric types, # so we can't define them for images # a few useful things def get_value(self, field): value = self.get(field) logging.debug('read out %s from %s' % (value, self)) # turn VipsBlobs into strings, VipsArrayDouble into lists etc. # FIXME ... this will involve a copy, we should use # buffer() instead if isunpack(value): value = value.get() return value def set_value(self, field, value): gtype = self.get_typeof(field) logging.debug('assigning %s to %s' % (value, self)) logging.debug('%s needs a %s' % (self, gtype)) # blob-ize if GObject.type_is_a(gtype, vips_type_blob): if not isinstance(value, Vips.Blob): value = Vips.Blob.new(None, value) # image-ize if GObject.type_is_a(gtype, vips_type_image): if not isinstance(value, Vips.Image): value = imageize(match_image, value) # array-ize some types, if necessary value = arrayize(gtype, value) self.set(field, value) def floor(self): return self.round(Vips.OperationRound.FLOOR) def ceil(self): return self.round(Vips.OperationRound.CEIL) def rint(self): return self.round(Vips.OperationRound.RINT) def bandsplit(self): return [self.extract_band(i) for i in range(0, self.bands)] def bandjoin(self, other): if not isinstance(other, list): other = [other] return Vips.Image.bandjoin([self] + other) def maxpos(self): v, opts = self.max(x = True, y = True) x = opts['x'] y = opts['y'] return v, x, y def minpos(self): v, opts = self.min(x = True, y = True) x = opts['x'] y = opts['y'] return v, x, y def real(self): return self.complexget(Vips.OperationComplexget.REAL) def imag(self): return self.complexget(Vips.OperationComplexget.IMAG) def polar(self): return self.complex(Vips.OperationComplex.POLAR) def rect(self): return self.complex(Vips.OperationComplex.RECT) def conj(self): return self.complex(Vips.OperationComplex.CONJ) def sin(self): return self.math(Vips.OperationMath.SIN) def cos(self): return self.math(Vips.OperationMath.COS) def tan(self): return self.math(Vips.OperationMath.TAN) def asin(self): return self.math(Vips.OperationMath.ASIN) def acos(self): return self.math(Vips.OperationMath.ACOS) def atan(self): return self.math(Vips.OperationMath.ATAN) def log(self): return self.math(Vips.OperationMath.LOG) def log10(self): return self.math(Vips.OperationMath.LOG10) def exp(self): return self.math(Vips.OperationMath.EXP) def exp10(self): return self.math(Vips.OperationMath.EXP10) # we need different imageize rules for this operator ... we need to # imageize th and el to match each other first def ifthenelse(self, th, el, **kwargs): for match_image in [th, el, self]: if isinstance(match_image, Vips.Image): break if not isinstance(th, Vips.Image): th = imageize(match_image, th) if not isinstance(el, Vips.Image): el = imageize(match_image, el) return _call_base("ifthenelse", [th, el], kwargs, self) # add operators which needs to be class methods # use find_class_methods.py to generate this list class_methods = [ "system", "sum", "bandjoin", "bandrank", "black", "gaussnoise", "text", "xyz", "gaussmat", "logmat", "eye", "grey", "zone", "sines", "mask_ideal", "mask_ideal_ring", "mask_ideal_band", "mask_butterworth", "mask_butterworth_ring", "mask_butterworth_band", "mask_gaussian", "mask_gaussian_ring", "mask_gaussian_band", "mask_fractal", "tonelut", "identity", "fractsurf", "radload", "ppmload", "csvload", "matrixload", "analyzeload", "rawload", "vipsload", "pngload", "pngload_buffer", "matload", "jpegload", "jpegload_buffer", "webpload", "webpload_buffer", "tiffload", "tiffload_buffer", "openslideload", "magickload", "fitsload", "openexrload"] def generate_class_method(name): @classmethod def class_method(cls, *args, **kwargs): return _call_base(name, args, kwargs) return class_method for nickname in class_methods: logging.debug('adding %s as a class method' % nickname) method = generate_class_method(nickname) setattr(Vips.Image, nickname, method) Image = override(Image) __all__.append('Image')