def get_raw(self):
""" get_raw() -> bytes
return a bytestring copy of the Sound samples.
"""
check_mixer()
return ffi.buffer(ffi.cast('char*', self.chunk.abuf),
self.chunk.alen)[:]
def get_raw(self):
""" get_raw() -> bytes
return a bytestring copy of the Sound samples.
"""
check_mixer()
return ffi.buffer(ffi.cast('char*', self.chunk.abuf),
self.chunk.alen)[:]
def obj_write(context, input, size, maxnum):
fileobj = ffi.from_handle(context.hidden.unknown.data1)
if not hasattr(fileobj, 'write'):
return -1
data = ffi.buffer(input, size * maxnum)
try:
fileobj.write(data)
except IOError:
return -1
return size * maxnum
def obj_write(context, input, size, maxnum):
fileobj = ffi.from_handle(context.hidden.unknown.data1)
if not hasattr(fileobj, 'write'):
return -1
data = ffi.buffer(input, size*maxnum)
try:
fileobj.write(data)
except IOError:
return -1
return size*maxnum
def tostring(surface, format, flipped=False):
""" tostring(Surface, format, flipped=False) -> string
transfer image to string buffer
"""
surf = surface._c_surface
if surf.flags & sdl.SDL_OPENGL:
raise NotImplementedError()
if format == "P":
if surf.format.BytesPerPixel != 1:
raise ValueError("Can only create \"P\" format data with "
"8bit Surfaces")
with locked(surf):
string = ffi.buffer(ffi.cast('char*', surf.pixels))[:]
else:
_tostring = globals().get('_tostring_%s' % format, None)
if _tostring is None:
raise ValueError("Unrecognized type of format")
with locked(surf):
string = _tostring(surf, flipped)
return string
def tostring(surface, format, flipped=False):
""" tostring(Surface, format, flipped=False) -> string
transfer image to string buffer
"""
surf = surface._c_surface
if surf.flags & sdl.SDL_OPENGL:
raise NotImplementedError()
if format == "P":
if surf.format.BytesPerPixel != 1:
raise ValueError("Can only create \"P\" format data with "
"8bit Surfaces")
with locked(surf):
string = ffi.buffer(ffi.cast('char*', surf.pixels))[:]
else:
_tostring = globals().get('_tostring_%s' % format, None)
if _tostring is None:
raise ValueError("Unrecognized type of format")
with locked(surf):
string = _tostring(surf, flipped)
return string
def _tostring_RGB(surf, flipped):
rmask, gmask, bmask, amask = (surf.format.Rmask,
surf.format.Gmask,
surf.format.Bmask,
surf.format.Amask)
rshift, gshift, bshift, ashift = (surf.format.Rshift,
surf.format.Gshift,
surf.format.Bshift,
surf.format.Ashift)
rloss, gloss, bloss, aloss = (surf.format.Rloss,
surf.format.Gloss,
surf.format.Bloss,
surf.format.Aloss)
bpp = surf.format.BytesPerPixel
h, w = surf.h, surf.w
data = ffi.new('char[]', w * h * 3)
if bpp == 1:
pixels = ffi.cast('uint8_t*', surf.pixels)
colors = surf.format.palette.colors
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 3 * (y * w + x)
color = pixels[src_start + x]
data[dest] = chr_(colors[color].r)
data[dest + 1] = chr_(colors[color].g)
data[dest + 2] = chr_(colors[color].b)
elif bpp == 2:
pixels = ffi.cast('uint16_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 3 * (y * w + x)
color = pixels[src_start + x]
data[dest] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + 1] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + 2] = chr_(((color & bmask) >> bshift) << bloss)
elif bpp == 3:
pixels = ffi.cast('uint8_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * surf.pitch if flipped \
else y * surf.pitch
for x in range(w):
dest = 3 * (y * w + x)
color = (pixels[src_start + x * 3 + BYTE0] +
(pixels[src_start + x * 3 + BYTE1] << 8) +
(pixels[src_start + x * 3 + BYTE2] << 16))
data[dest] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + 1] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + 2] = chr_(((color & bmask) >> bshift) << bloss)
elif bpp == 4:
pixels = ffi.cast('uint32_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 3 * (y * w + x)
color = pixels[src_start + x]
data[dest] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + 1] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + 2] = chr_(((color & bmask) >> bshift) << bloss)
else:
raise ValueError("invalid color depth")
return ffi.buffer(data)[:]
def _tostring_RGBA_PREMULT(surf, flipped, argb=False):
if surf.format.BytesPerPixel == 1 or surf.format.Amask == 0:
raise ValueError("Can only create pre-multiplied alpha strings if "
"the surface has per-pixel alpha")
rmask, gmask, bmask, amask = (surf.format.Rmask,
surf.format.Gmask,
surf.format.Bmask,
surf.format.Amask)
rshift, gshift, bshift, ashift = (surf.format.Rshift,
surf.format.Gshift,
surf.format.Bshift,
surf.format.Ashift)
rloss, gloss, bloss, aloss = (surf.format.Rloss,
surf.format.Gloss,
surf.format.Bloss,
surf.format.Aloss)
bpp = surf.format.BytesPerPixel
h, w = surf.h, surf.w
if argb:
ri, gi, bi, ai = 1, 2, 3, 0
else:
ri, gi, bi, ai = 0, 1, 2, 3
data = ffi.new('char[]', w * h * 4)
if bpp == 2:
pixels = ffi.cast('uint16_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 4 * (y * w + x)
color = pixels[src_start + x]
alpha = ((color & amask) >> ashift) << aloss
data[dest + ri] = chr_((((color & rmask) >> rshift) << rloss)
* alpha // 255)
data[dest + gi] = chr_((((color & gmask) >> gshift) << gloss)
* alpha // 255)
data[dest + bi] = chr_((((color & bmask) >> bshift) << bloss)
* alpha // 255)
data[dest + ai] = chr_(alpha)
elif bpp == 3:
pixels = ffi.cast('uint8_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * surf.pitch if flipped \
else y * surf.pitch
for x in range(w):
dest = 4 * (y * w + x)
color = (pixels[src_start + x * 3 + BYTE0] +
(pixels[src_start + x * 3 + BYTE1] << 8) +
(pixels[src_start + x * 3 + BYTE2] << 16))
alpha = ((color & amask) >> ashift) << aloss
data[dest + ri] = chr_((((color & rmask) >> rshift) << rloss)
* alpha // 255)
data[dest + gi] = chr_((((color & gmask) >> gshift) << gloss)
* alpha // 255)
data[dest + bi] = chr_((((color & bmask) >> bshift) << bloss)
* alpha // 255)
data[dest + ai] = chr_(alpha)
elif bpp == 4:
pixels = ffi.cast('uint32_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 4 * (y * w + x)
color = pixels[src_start + x]
alpha = ((color & amask) >> ashift) << aloss
if alpha == 0:
data[dest + ri] = data[dest + gi] = data[dest + bi] \
= chr_(0)
else:
data[dest + ri] = chr_(
(((color & rmask) >> rshift) << rloss) * alpha // 255)
data[dest + gi] = chr_(
(((color & gmask) >> gshift) << gloss) * alpha // 255)
data[dest + bi] = chr_(
(((color & bmask) >> bshift) << bloss) * alpha // 255)
data[dest + ai] = chr_(alpha)
else:
raise ValueError("invalid color depth")
return ffi.buffer(data)[:]
def _tostring_RGBA(surf, flipped, has_colorkey=True, argb=False):
rmask, gmask, bmask, amask = (surf.format.Rmask,
surf.format.Gmask,
surf.format.Bmask,
surf.format.Amask)
rshift, gshift, bshift, ashift = (surf.format.Rshift,
surf.format.Gshift,
surf.format.Bshift,
surf.format.Ashift)
rloss, gloss, bloss, aloss = (surf.format.Rloss,
surf.format.Gloss,
surf.format.Bloss,
surf.format.Aloss)
bpp = surf.format.BytesPerPixel
h, w = surf.h, surf.w
colorkey = surf.format.colorkey
if argb:
has_colorkey = False
ri, gi, bi, ai = 1, 2, 3, 0
else:
has_colorkey = (has_colorkey and surf.flags & sdl.SDL_SRCCOLORKEY
and not amask)
ri, gi, bi, ai = 0, 1, 2, 3
data = ffi.new('char[]', w * h * 4)
if bpp == 1:
pixels = ffi.cast('uint8_t*', surf.pixels)
colors = surf.format.palette.colors
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 4 * (y * w + x)
color = pixels[src_start + x]
data[dest + ri] = chr_(colors[color].r)
data[dest + gi] = chr_(colors[color].g)
data[dest + bi] = chr_(colors[color].b)
if has_colorkey:
data[dest + ai] = chr_(
ffi.cast('char', color != colorkey) * 255)
else:
data[dest + ai] = chr_(255)
elif bpp == 2:
pixels = ffi.cast('uint16_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 4 * (y * w + x)
color = pixels[src_start + x]
data[dest + ri] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + gi] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + bi] = chr_(((color & bmask) >> bshift) << bloss)
if has_colorkey:
data[dest + ai] = chr_(
ffi.cast('char', color != colorkey) * 255)
else:
data[dest + ai] = chr_(
(((color & amask) >> ashift) << aloss)
if amask else 255)
elif bpp == 3:
pixels = ffi.cast('uint8_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * surf.pitch if flipped \
else y * surf.pitch
for x in range(w):
dest = 4 * (y * w + x)
color = (pixels[src_start + x * 3 + BYTE0] +
(pixels[src_start + x * 3 + BYTE1] << 8) +
(pixels[src_start + x * 3 + BYTE2] << 16))
data[dest + ri] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + gi] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + bi] = chr_(((color & bmask) >> bshift) << bloss)
if has_colorkey:
data[dest + ai] = chr_(
ffi.cast('char', color != colorkey) * 255)
else:
data[dest + ai] = chr_(
(((color & amask) >> ashift) << aloss)
if amask else 255)
elif bpp == 4:
pixels = ffi.cast('uint32_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 4 * (y * w + x)
color = pixels[src_start + x]
data[dest + ri] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + gi] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + bi] = chr_(((color & bmask) >> bshift) << bloss)
if has_colorkey:
data[dest + ai] = chr_(
ffi.cast('char', color != colorkey) * 255)
else:
data[dest + ai] = chr_(
(((color & amask) >> ashift) << aloss)
if amask else 255)
else:
raise ValueError("invalid color depth")
return ffi.buffer(data)[:]
def _tostring_RGB(surf, flipped):
rmask, gmask, bmask, amask = (surf.format.Rmask, surf.format.Gmask,
surf.format.Bmask, surf.format.Amask)
rshift, gshift, bshift, ashift = (surf.format.Rshift, surf.format.Gshift,
surf.format.Bshift, surf.format.Ashift)
rloss, gloss, bloss, aloss = (surf.format.Rloss, surf.format.Gloss,
surf.format.Bloss, surf.format.Aloss)
bpp = surf.format.BytesPerPixel
h, w = surf.h, surf.w
data = ffi.new('char[]', w * h * 3)
if bpp == 1:
pixels = ffi.cast('uint8_t*', surf.pixels)
colors = surf.format.palette.colors
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 3 * (y * w + x)
color = pixels[src_start + x]
data[dest] = chr_(colors[color].r)
data[dest + 1] = chr_(colors[color].g)
data[dest + 2] = chr_(colors[color].b)
elif bpp == 2:
pixels = ffi.cast('uint16_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 3 * (y * w + x)
color = pixels[src_start + x]
data[dest] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + 1] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + 2] = chr_(((color & bmask) >> bshift) << bloss)
elif bpp == 3:
pixels = ffi.cast('uint8_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * surf.pitch if flipped \
else y * surf.pitch
for x in range(w):
dest = 3 * (y * w + x)
color = (pixels[src_start + x * 3 + BYTE0] +
(pixels[src_start + x * 3 + BYTE1] << 8) +
(pixels[src_start + x * 3 + BYTE2] << 16))
data[dest] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + 1] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + 2] = chr_(((color & bmask) >> bshift) << bloss)
elif bpp == 4:
pixels = ffi.cast('uint32_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 3 * (y * w + x)
color = pixels[src_start + x]
data[dest] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + 1] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + 2] = chr_(((color & bmask) >> bshift) << bloss)
else:
raise ValueError("invalid color depth")
return ffi.buffer(data)[:]
def _tostring_RGBA_PREMULT(surf, flipped, argb=False):
if surf.format.BytesPerPixel == 1 or surf.format.Amask == 0:
raise ValueError("Can only create pre-multiplied alpha strings if "
"the surface has per-pixel alpha")
rmask, gmask, bmask, amask = (surf.format.Rmask, surf.format.Gmask,
surf.format.Bmask, surf.format.Amask)
rshift, gshift, bshift, ashift = (surf.format.Rshift, surf.format.Gshift,
surf.format.Bshift, surf.format.Ashift)
rloss, gloss, bloss, aloss = (surf.format.Rloss, surf.format.Gloss,
surf.format.Bloss, surf.format.Aloss)
bpp = surf.format.BytesPerPixel
h, w = surf.h, surf.w
if argb:
ri, gi, bi, ai = 1, 2, 3, 0
else:
ri, gi, bi, ai = 0, 1, 2, 3
data = ffi.new('char[]', w * h * 4)
if bpp == 2:
pixels = ffi.cast('uint16_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 4 * (y * w + x)
color = pixels[src_start + x]
alpha = ((color & amask) >> ashift) << aloss
data[dest + ri] = chr_(
(((color & rmask) >> rshift) << rloss) * alpha // 255)
data[dest + gi] = chr_(
(((color & gmask) >> gshift) << gloss) * alpha // 255)
data[dest + bi] = chr_(
(((color & bmask) >> bshift) << bloss) * alpha // 255)
data[dest + ai] = chr_(alpha)
elif bpp == 3:
pixels = ffi.cast('uint8_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * surf.pitch if flipped \
else y * surf.pitch
for x in range(w):
dest = 4 * (y * w + x)
color = (pixels[src_start + x * 3 + BYTE0] +
(pixels[src_start + x * 3 + BYTE1] << 8) +
(pixels[src_start + x * 3 + BYTE2] << 16))
alpha = ((color & amask) >> ashift) << aloss
data[dest + ri] = chr_(
(((color & rmask) >> rshift) << rloss) * alpha // 255)
data[dest + gi] = chr_(
(((color & gmask) >> gshift) << gloss) * alpha // 255)
data[dest + bi] = chr_(
(((color & bmask) >> bshift) << bloss) * alpha // 255)
data[dest + ai] = chr_(alpha)
elif bpp == 4:
pixels = ffi.cast('uint32_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 4 * (y * w + x)
color = pixels[src_start + x]
alpha = ((color & amask) >> ashift) << aloss
if alpha == 0:
data[dest + ri] = data[dest + gi] = data[dest + bi] \
= chr_(0)
else:
data[dest + ri] = chr_(
(((color & rmask) >> rshift) << rloss) * alpha // 255)
data[dest + gi] = chr_(
(((color & gmask) >> gshift) << gloss) * alpha // 255)
data[dest + bi] = chr_(
(((color & bmask) >> bshift) << bloss) * alpha // 255)
data[dest + ai] = chr_(alpha)
else:
raise ValueError("invalid color depth")
return ffi.buffer(data)[:]
def _tostring_RGBA(surf, flipped, has_colorkey=True, argb=False):
rmask, gmask, bmask, amask = (surf.format.Rmask, surf.format.Gmask,
surf.format.Bmask, surf.format.Amask)
rshift, gshift, bshift, ashift = (surf.format.Rshift, surf.format.Gshift,
surf.format.Bshift, surf.format.Ashift)
rloss, gloss, bloss, aloss = (surf.format.Rloss, surf.format.Gloss,
surf.format.Bloss, surf.format.Aloss)
bpp = surf.format.BytesPerPixel
h, w = surf.h, surf.w
colorkey = surf.format.colorkey
if argb:
has_colorkey = False
ri, gi, bi, ai = 1, 2, 3, 0
else:
has_colorkey = (has_colorkey and surf.flags & sdl.SDL_SRCCOLORKEY
and not amask)
ri, gi, bi, ai = 0, 1, 2, 3
data = ffi.new('char[]', w * h * 4)
if bpp == 1:
pixels = ffi.cast('uint8_t*', surf.pixels)
colors = surf.format.palette.colors
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 4 * (y * w + x)
color = pixels[src_start + x]
data[dest + ri] = chr_(colors[color].r)
data[dest + gi] = chr_(colors[color].g)
data[dest + bi] = chr_(colors[color].b)
if has_colorkey:
data[dest + ai] = chr_(
ffi.cast('char', color != colorkey) * 255)
else:
data[dest + ai] = chr_(255)
elif bpp == 2:
pixels = ffi.cast('uint16_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 4 * (y * w + x)
color = pixels[src_start + x]
data[dest + ri] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + gi] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + bi] = chr_(((color & bmask) >> bshift) << bloss)
if has_colorkey:
data[dest + ai] = chr_(
ffi.cast('char', color != colorkey) * 255)
else:
data[dest + ai] = chr_(((
(color & amask) >> ashift) << aloss) if amask else 255)
elif bpp == 3:
pixels = ffi.cast('uint8_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * surf.pitch if flipped \
else y * surf.pitch
for x in range(w):
dest = 4 * (y * w + x)
color = (pixels[src_start + x * 3 + BYTE0] +
(pixels[src_start + x * 3 + BYTE1] << 8) +
(pixels[src_start + x * 3 + BYTE2] << 16))
data[dest + ri] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + gi] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + bi] = chr_(((color & bmask) >> bshift) << bloss)
if has_colorkey:
data[dest + ai] = chr_(
ffi.cast('char', color != colorkey) * 255)
else:
data[dest + ai] = chr_(((
(color & amask) >> ashift) << aloss) if amask else 255)
elif bpp == 4:
pixels = ffi.cast('uint32_t*', surf.pixels)
for y in range(h):
src_start = (h - 1 - y) * w if flipped \
else y * w
for x in range(w):
dest = 4 * (y * w + x)
color = pixels[src_start + x]
data[dest + ri] = chr_(((color & rmask) >> rshift) << rloss)
data[dest + gi] = chr_(((color & gmask) >> gshift) << gloss)
data[dest + bi] = chr_(((color & bmask) >> bshift) << bloss)
if has_colorkey:
data[dest + ai] = chr_(
ffi.cast('char', color != colorkey) * 255)
else:
data[dest + ai] = chr_(((
(color & amask) >> ashift) << aloss) if amask else 255)
else:
raise ValueError("invalid color depth")
return ffi.buffer(data)[:]
