forked from s444417/ProjektAI
357 lines
13 KiB
Python
357 lines
13 KiB
Python
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## pygame - Python Game Library
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## Copyright (C) 2007 Marcus von Appen
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##
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## This library is free software; you can redistribute it and/or
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## modify it under the terms of the GNU Library General Public
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## License as published by the Free Software Foundation; either
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## version 2 of the License, or (at your option) any later version.
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##
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## This library is distributed in the hope that it will be useful,
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## but WITHOUT ANY WARRANTY; without even the implied warranty of
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## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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## Library General Public License for more details.
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##
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## You should have received a copy of the GNU Library General Public
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## License along with this library; if not, write to the Free
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## Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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##
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## Marcus von Appen
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## mva@sysfault.org
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"""pygame module for accessing surface pixel data using numpy
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Functions to convert pixel data between pygame Surfaces and Numpy
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arrays. This module will only be available when pygame can use the
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external Numpy package.
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Note, that numpyarray is an optional module. It requires that Numpy is
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installed to be used. If not installed, an exception will be raised when
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it is used. eg. ImportError: no module named numpy
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Every pixel is stored as a single integer value to represent the red,
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green, and blue colors. The 8bit images use a value that looks into a
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colormap. Pixels with higher depth use a bit packing process to place
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three or four values into a single number.
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The Numpy arrays are indexed by the X axis first, followed by the Y
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axis. Arrays that treat the pixels as a single integer are referred to
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as 2D arrays. This module can also separate the red, green, and blue
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color values into separate indices. These types of arrays are referred
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to as 3D arrays, and the last index is 0 for red, 1 for green, and 2 for
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blue.
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In contrast to Numeric Numpy does use unsigned 16bit integers, images
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with 16bit data will be treated as unsigned integers.
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"""
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import pygame
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from pygame.compat import bytes_
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from pygame.pixelcopy import array_to_surface, surface_to_array, \
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map_array as pix_map_array, make_surface as pix_make_surface
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import numpy
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from numpy import array as numpy_array, empty as numpy_empty, \
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around as numpy_around, uint32 as numpy_uint32, \
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ndarray as numpy_ndarray
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#float96 not available on all numpy versions.
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numpy_floats = []
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for type_name in "float float32 float64 float96".split():
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if hasattr(numpy, type_name):
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numpy_floats.append(getattr(numpy, type_name))
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# Pixel sizes corresponding to NumPy supported integer sizes, and therefore
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# permissible for 2D reference arrays.
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_pixel2d_bitdepths = set([8, 16, 32])
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def blit_array (surface, array):
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"""pygame.surfarray.blit_array(Surface, array): return None
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Blit directly from a array values.
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Directly copy values from an array into a Surface. This is faster than
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converting the array into a Surface and blitting. The array must be the
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same dimensions as the Surface and will completely replace all pixel
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values. Only integer, ascii character and record arrays are accepted.
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This function will temporarily lock the Surface as the new values are
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copied.
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"""
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if isinstance(array, numpy_ndarray) and array.dtype in numpy_floats:
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array = array.round(0).astype(numpy_uint32)
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return array_to_surface(surface, array)
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def make_surface(array):
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"""pygame.surfarray.make_surface (array): return Surface
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Copy an array to a new surface.
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Create a new Surface that best resembles the data and format on the
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array. The array can be 2D or 3D with any sized integer values.
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"""
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if isinstance(array, numpy_ndarray) and array.dtype in numpy_floats:
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array = array.round(0).astype(numpy_uint32)
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return pix_make_surface (array)
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def array2d(surface):
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"""pygame.numpyarray.array2d(Surface): return array
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copy pixels into a 2d array
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Copy the pixels from a Surface into a 2D array. The bit depth of the
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surface will control the size of the integer values, and will work
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for any type of pixel format.
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This function will temporarily lock the Surface as pixels are copied
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(see the Surface.lock - lock the Surface memory for pixel access
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method).
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"""
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bpp = surface.get_bytesize()
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try:
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dtype = (numpy.uint8, numpy.uint16, numpy.int32, numpy.int32)[bpp - 1]
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except IndexError:
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raise ValueError("unsupported bit depth %i for 2D array" % (bpp * 8,))
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size = surface.get_size()
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array = numpy.empty(size, dtype)
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surface_to_array(array, surface)
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return array
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def pixels2d(surface):
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"""pygame.numpyarray.pixels2d(Surface): return array
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reference pixels into a 2d array
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Create a new 2D array that directly references the pixel values in a
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Surface. Any changes to the array will affect the pixels in the
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Surface. This is a fast operation since no data is copied.
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Pixels from a 24-bit Surface cannot be referenced, but all other
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Surface bit depths can.
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The Surface this references will remain locked for the lifetime of
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the array (see the Surface.lock - lock the Surface memory for pixel
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access method).
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"""
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if (surface.get_bitsize() not in _pixel2d_bitdepths):
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raise ValueError("unsupport bit depth for 2D reference array")
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try:
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return numpy_array(surface.get_view('2'), copy=False)
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except (ValueError, TypeError):
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raise ValueError("bit depth %i unsupported for 2D reference array" %
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(surface.get_bitsize(),))
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def array3d(surface):
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"""pygame.numpyarray.array3d(Surface): return array
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copy pixels into a 3d array
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Copy the pixels from a Surface into a 3D array. The bit depth of the
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surface will control the size of the integer values, and will work
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for any type of pixel format.
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This function will temporarily lock the Surface as pixels are copied
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(see the Surface.lock - lock the Surface memory for pixel access
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method).
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"""
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w, h = surface.get_size()
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array = numpy.empty((w, h, 3), numpy.uint8)
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surface_to_array(array, surface)
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return array
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def pixels3d (surface):
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"""pygame.numpyarray.pixels3d(Surface): return array
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reference pixels into a 3d array
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Create a new 3D array that directly references the pixel values in a
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Surface. Any changes to the array will affect the pixels in the
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Surface. This is a fast operation since no data is copied.
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This will only work on Surfaces that have 24-bit or 32-bit
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formats. Lower pixel formats cannot be referenced.
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The Surface this references will remain locked for the lifetime of
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the array (see the Surface.lock - lock the Surface memory for pixel
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access method).
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"""
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return numpy_array(surface.get_view('3'), copy=False)
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def array_alpha(surface):
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"""pygame.numpyarray.array_alpha(Surface): return array
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copy pixel alphas into a 2d array
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Copy the pixel alpha values (degree of transparency) from a Surface
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into a 2D array. This will work for any type of Surface
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format. Surfaces without a pixel alpha will return an array with all
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opaque values.
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This function will temporarily lock the Surface as pixels are copied
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(see the Surface.lock - lock the Surface memory for pixel access
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method).
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"""
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size = surface.get_size()
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array = numpy.empty(size, numpy.uint8)
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surface_to_array(array, surface, 'A')
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return array
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def pixels_alpha(surface):
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"""pygame.numpyarray.pixels_alpha(Surface): return array
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reference pixel alphas into a 2d array
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Create a new 2D array that directly references the alpha values
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(degree of transparency) in a Surface. Any changes to the array will
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affect the pixels in the Surface. This is a fast operation since no
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data is copied.
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This can only work on 32-bit Surfaces with a per-pixel alpha value.
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The Surface this array references will remain locked for the
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lifetime of the array.
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"""
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return numpy.array(surface.get_view('A'), copy=False)
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def pixels_red(surface):
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"""pygame.surfarray.pixels_red(Surface): return array
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Reference pixel red into a 2d array.
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Create a new 2D array that directly references the red values
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in a Surface. Any changes to the array will affect the pixels
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in the Surface. This is a fast operation since no data is copied.
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This can only work on 24-bit or 32-bit Surfaces.
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The Surface this array references will remain locked for the
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lifetime of the array.
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"""
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return numpy.array(surface.get_view('R'), copy=False)
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def array_red(surface):
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"""pygame.numpyarray.array_red(Surface): return array
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copy pixel red into a 2d array
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Copy the pixel red values from a Surface into a 2D array. This will work
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for any type of Surface format.
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This function will temporarily lock the Surface as pixels are copied
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(see the Surface.lock - lock the Surface memory for pixel access
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method).
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"""
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size = surface.get_size()
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array = numpy.empty(size, numpy.uint8)
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surface_to_array(array, surface, 'R')
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return array
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def pixels_green(surface):
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"""pygame.surfarray.pixels_green(Surface): return array
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Reference pixel green into a 2d array.
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Create a new 2D array that directly references the green values
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in a Surface. Any changes to the array will affect the pixels
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in the Surface. This is a fast operation since no data is copied.
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This can only work on 24-bit or 32-bit Surfaces.
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The Surface this array references will remain locked for the
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lifetime of the array.
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"""
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return numpy.array(surface.get_view('G'), copy=False)
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def array_green(surface):
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"""pygame.numpyarray.array_green(Surface): return array
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copy pixel green into a 2d array
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Copy the pixel green values from a Surface into a 2D array. This will work
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for any type of Surface format.
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This function will temporarily lock the Surface as pixels are copied
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(see the Surface.lock - lock the Surface memory for pixel access
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method).
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"""
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size = surface.get_size()
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array = numpy.empty(size, numpy.uint8)
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surface_to_array(array, surface, 'G')
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return array
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def pixels_blue (surface):
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"""pygame.surfarray.pixels_blue(Surface): return array
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Reference pixel blue into a 2d array.
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Create a new 2D array that directly references the blue values
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in a Surface. Any changes to the array will affect the pixels
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in the Surface. This is a fast operation since no data is copied.
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This can only work on 24-bit or 32-bit Surfaces.
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The Surface this array references will remain locked for the
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lifetime of the array.
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"""
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return numpy.array(surface.get_view('B'), copy=False)
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def array_blue(surface):
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"""pygame.numpyarray.array_blue(Surface): return array
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copy pixel blue into a 2d array
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Copy the pixel blue values from a Surface into a 2D array. This will work
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for any type of Surface format.
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This function will temporarily lock the Surface as pixels are copied
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(see the Surface.lock - lock the Surface memory for pixel access
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method).
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"""
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size = surface.get_size()
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array = numpy.empty(size, numpy.uint8)
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surface_to_array(array, surface, 'B')
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return array
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def array_colorkey(surface):
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"""pygame.numpyarray.array_colorkey(Surface): return array
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copy the colorkey values into a 2d array
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Create a new array with the colorkey transparency value from each
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pixel. If the pixel matches the colorkey it will be fully
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tranparent; otherwise it will be fully opaque.
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This will work on any type of Surface format. If the image has no
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colorkey a solid opaque array will be returned.
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This function will temporarily lock the Surface as pixels are
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copied.
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"""
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size = surface.get_size()
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array = numpy.empty(size, numpy.uint8)
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surface_to_array(array, surface, 'C')
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return array
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def map_array(surface, array):
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"""pygame.numpyarray.map_array(Surface, array3d): return array2d
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map a 3d array into a 2d array
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Convert a 3D array into a 2D array. This will use the given Surface
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format to control the conversion.
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Note: arrays do not need to be 3D, as long as the minor axis has
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three elements giving the component colours, any array shape can be
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used (for example, a single colour can be mapped, or an array of
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colours). The array shape is limited to eleven dimensions maximum,
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including the three element minor axis.
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"""
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if array.ndim == 0:
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raise ValueError("array must have at least 1 dimension")
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shape = array.shape
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if shape[-1] != 3:
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raise ValueError("array must be a 3d array of 3-value color data")
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target = numpy_empty(shape[:-1], numpy.int32)
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pix_map_array(target, array, surface)
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return target
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