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|
#!/usr/bin/env python
'''
/**************************************************************************
*
* Copyright 2009-2010 VMware, Inc.
* All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sub license, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice (including the
* next paragraph) shall be included in all copies or substantial portions
* of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT.
* IN NO EVENT SHALL VMWARE AND/OR ITS SUPPLIERS BE LIABLE FOR
* ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
**************************************************************************/
/**
* @file
* Pixel format packing and unpacking functions.
*
* @author Jose Fonseca <jfonseca@vmware.com>
*/
'''
import sys
import math
from u_format_parse import *
def generate_format_type(format):
'''Generate a structure that describes the format.'''
assert format.layout == PLAIN
print 'union util_format_%s {' % format.short_name()
if format.block_size() in (8, 16, 32, 64):
print ' uint%u_t value;' % (format.block_size(),)
use_bitfields = False
for channel in format.channels:
if channel.size % 8 or not is_pot(channel.size):
use_bitfields = True
print ' struct {'
for channel in format.channels:
if use_bitfields:
if channel.type == VOID:
if channel.size:
print ' unsigned %s:%u;' % (channel.name, channel.size)
elif channel.type == UNSIGNED:
print ' unsigned %s:%u;' % (channel.name, channel.size)
elif channel.type in (SIGNED, FIXED):
print ' int %s:%u;' % (channel.name, channel.size)
elif channel.type == FLOAT:
if channel.size == 64:
print ' double %s;' % (channel.name)
elif channel.size == 32:
print ' float %s;' % (channel.name)
else:
print ' unsigned %s:%u;' % (channel.name, channel.size)
else:
assert 0
else:
assert channel.size % 8 == 0 and is_pot(channel.size)
if channel.type == VOID:
if channel.size:
print ' uint%u_t %s;' % (channel.size, channel.name)
elif channel.type == UNSIGNED:
print ' uint%u_t %s;' % (channel.size, channel.name)
elif channel.type in (SIGNED, FIXED):
print ' int%u_t %s;' % (channel.size, channel.name)
elif channel.type == FLOAT:
if channel.size == 64:
print ' double %s;' % (channel.name)
elif channel.size == 32:
print ' float %s;' % (channel.name)
elif channel.size == 16:
print ' uint16_t %s;' % (channel.name)
else:
assert 0
else:
assert 0
print ' } chan;'
print '};'
print
def bswap_format(format):
'''Generate a structure that describes the format.'''
if format.is_bitmask() and not format.is_array() and format.block_size() > 8:
print '#ifdef PIPE_ARCH_BIG_ENDIAN'
print ' pixel.value = util_bswap%u(pixel.value);' % format.block_size()
print '#endif'
def is_format_supported(format):
'''Determines whether we actually have the plumbing necessary to generate the
to read/write to/from this format.'''
# FIXME: Ideally we would support any format combination here.
if format.layout != PLAIN:
return False
for i in range(4):
channel = format.channels[i]
if channel.type not in (VOID, UNSIGNED, SIGNED, FLOAT, FIXED):
return False
if channel.type == FLOAT and channel.size not in (16, 32, 64):
return False
return True
def native_type(format):
'''Get the native appropriate for a format.'''
if format.layout == PLAIN:
if not format.is_array():
# For arithmetic pixel formats return the integer type that matches the whole pixel
return 'uint%u_t' % format.block_size()
else:
# For array pixel formats return the integer type that matches the color channel
channel = format.channels[0]
if channel.type in (UNSIGNED, VOID):
return 'uint%u_t' % channel.size
elif channel.type in (SIGNED, FIXED):
return 'int%u_t' % channel.size
elif channel.type == FLOAT:
if channel.size == 16:
return 'uint16_t'
elif channel.size == 32:
return 'float'
elif channel.size == 64:
return 'double'
else:
assert False
else:
assert False
else:
assert False
def intermediate_native_type(bits, sign):
'''Find a native type adequate to hold intermediate results of the request bit size.'''
bytes = 4 # don't use anything smaller than 32bits
while bytes * 8 < bits:
bytes *= 2
bits = bytes*8
if sign:
return 'int%u_t' % bits
else:
return 'uint%u_t' % bits
def get_one_shift(type):
'''Get the number of the bit that matches unity for this type.'''
if type.type == 'FLOAT':
assert False
if not type.norm:
return 0
if type.type == UNSIGNED:
return type.size
if type.type == SIGNED:
return type.size - 1
if type.type == FIXED:
return type.size / 2
assert False
def value_to_native(type, value):
'''Get the value of unity for this type.'''
if type.type == FLOAT:
return value
if type.type == FIXED:
return int(value * (1 << (type.size/2)))
if not type.norm:
return int(value)
if type.type == UNSIGNED:
return int(value * ((1 << type.size) - 1))
if type.type == SIGNED:
return int(value * ((1 << (type.size - 1)) - 1))
assert False
def native_to_constant(type, value):
'''Get the value of unity for this type.'''
if type.type == FLOAT:
if type.size <= 32:
return "%ff" % value
else:
return "%ff" % value
else:
return str(int(value))
def get_one(type):
'''Get the value of unity for this type.'''
return value_to_native(type, 1)
def clamp_expr(src_channel, dst_channel, dst_native_type, value):
'''Generate the expression to clamp the value in the source type to the
destination type range.'''
if src_channel == dst_channel:
return value
src_min = src_channel.min()
src_max = src_channel.max()
dst_min = dst_channel.min()
dst_max = dst_channel.max()
# Translate the destination range to the src native value
dst_min_native = value_to_native(src_channel, dst_min)
dst_max_native = value_to_native(src_channel, dst_max)
if src_min < dst_min and src_max > dst_max:
return 'CLAMP(%s, %s, %s)' % (value, dst_min_native, dst_max_native)
if src_max > dst_max:
return 'MIN2(%s, %s)' % (value, dst_max_native)
if src_min < dst_min:
return 'MAX2(%s, %s)' % (value, dst_min_native)
return value
def conversion_expr(src_channel,
dst_channel, dst_native_type,
value,
clamp=True,
src_colorspace = RGB,
dst_colorspace = RGB):
'''Generate the expression to convert a value between two types.'''
if src_colorspace != dst_colorspace:
if src_colorspace == SRGB:
assert src_channel.type == UNSIGNED
assert src_channel.norm
assert src_channel.size == 8
assert dst_colorspace == RGB
if dst_channel.type == FLOAT:
return 'util_format_srgb_8unorm_to_linear_float(%s)' % value
else:
assert dst_channel.type == UNSIGNED
assert dst_channel.norm
assert dst_channel.size == 8
return 'util_format_srgb_to_linear_8unorm(%s)' % value
elif dst_colorspace == SRGB:
assert dst_channel.type == UNSIGNED
assert dst_channel.norm
assert dst_channel.size == 8
assert src_colorspace == RGB
if src_channel.type == FLOAT:
return 'util_format_linear_float_to_srgb_8unorm(%s)' % value
else:
assert src_channel.type == UNSIGNED
assert src_channel.norm
assert src_channel.size == 8
return 'util_format_linear_to_srgb_8unorm(%s)' % value
elif src_colorspace == ZS:
pass
elif dst_colorspace == ZS:
pass
else:
assert 0
if src_channel == dst_channel:
return value
src_type = src_channel.type
src_size = src_channel.size
src_norm = src_channel.norm
# Promote half to float
if src_type == FLOAT and src_size == 16:
value = 'util_half_to_float(%s)' % value
src_size = 32
# Special case for float <-> ubytes for more accurate results
# Done before clamping since these functions already take care of that
if src_type == UNSIGNED and src_norm and src_size == 8 and dst_channel.type == FLOAT and dst_channel.size == 32:
return 'ubyte_to_float(%s)' % value
if src_type == FLOAT and src_size == 32 and dst_channel.type == UNSIGNED and dst_channel.norm and dst_channel.size == 8:
return 'float_to_ubyte(%s)' % value
if clamp:
if dst_channel.type != FLOAT or src_type != FLOAT:
value = clamp_expr(src_channel, dst_channel, dst_native_type, value)
if src_type in (SIGNED, UNSIGNED) and dst_channel.type in (SIGNED, UNSIGNED):
if not src_norm and not dst_channel.norm:
# neither is normalized -- just cast
return '(%s)%s' % (dst_native_type, value)
src_one = get_one(src_channel)
dst_one = get_one(dst_channel)
if src_one > dst_one and src_norm and dst_channel.norm:
# We can just bitshift
src_shift = get_one_shift(src_channel)
dst_shift = get_one_shift(dst_channel)
value = '(%s >> %s)' % (value, src_shift - dst_shift)
else:
# We need to rescale using an intermediate type big enough to hold the multiplication of both
tmp_native_type = intermediate_native_type(src_size + dst_channel.size, src_channel.sign and dst_channel.sign)
value = '((%s)%s)' % (tmp_native_type, value)
value = '(%s * 0x%x / 0x%x)' % (value, dst_one, src_one)
value = '(%s)%s' % (dst_native_type, value)
return value
# Promote to either float or double
if src_type != FLOAT:
if src_norm or src_type == FIXED:
one = get_one(src_channel)
if src_size <= 23:
value = '(%s * (1.0f/0x%x))' % (value, one)
if dst_channel.size <= 32:
value = '(float)%s' % value
src_size = 32
else:
# bigger than single precision mantissa, use double
value = '(%s * (1.0/0x%x))' % (value, one)
src_size = 64
src_norm = False
else:
if src_size <= 23 or dst_channel.size <= 32:
value = '(float)%s' % value
src_size = 32
else:
# bigger than single precision mantissa, use double
value = '(double)%s' % value
src_size = 64
src_type = FLOAT
# Convert double or float to non-float
if dst_channel.type != FLOAT:
if dst_channel.norm or dst_channel.type == FIXED:
dst_one = get_one(dst_channel)
if dst_channel.size <= 23:
value = '(%s * 0x%x)' % (value, dst_one)
else:
# bigger than single precision mantissa, use double
value = '(%s * (double)0x%x)' % (value, dst_one)
value = '(%s)%s' % (dst_native_type, value)
else:
# Cast double to float when converting to either half or float
if dst_channel.size <= 32 and src_size > 32:
value = '(float)%s' % value
src_size = 32
if dst_channel.size == 16:
value = 'util_float_to_half(%s)' % value
elif dst_channel.size == 64 and src_size < 64:
value = '(double)%s' % value
return value
def generate_unpack_kernel(format, dst_channel, dst_native_type):
if not is_format_supported(format):
return
assert format.layout == PLAIN
src_native_type = native_type(format)
if format.is_bitmask():
depth = format.block_size()
print ' uint%u_t value = *(const uint%u_t *)src;' % (depth, depth)
# Declare the intermediate variables
for i in range(format.nr_channels()):
src_channel = format.channels[i]
if src_channel.type == UNSIGNED:
print ' uint%u_t %s;' % (depth, src_channel.name)
elif src_channel.type == SIGNED:
print ' int%u_t %s;' % (depth, src_channel.name)
if depth > 8:
print '#ifdef PIPE_ARCH_BIG_ENDIAN'
print ' value = util_bswap%u(value);' % depth
print '#endif'
# Compute the intermediate unshifted values
shift = 0
for i in range(format.nr_channels()):
src_channel = format.channels[i]
value = 'value'
if src_channel.type == UNSIGNED:
if shift:
value = '%s >> %u' % (value, shift)
if shift + src_channel.size < depth:
value = '(%s) & 0x%x' % (value, (1 << src_channel.size) - 1)
elif src_channel.type == SIGNED:
if shift + src_channel.size < depth:
# Align the sign bit
lshift = depth - (shift + src_channel.size)
value = '%s << %u' % (value, lshift)
# Cast to signed
value = '(int%u_t)(%s) ' % (depth, value)
if src_channel.size < depth:
# Align the LSB bit
rshift = depth - src_channel.size
value = '(%s) >> %u' % (value, rshift)
else:
value = None
if value is not None:
print ' %s = %s;' % (src_channel.name, value)
shift += src_channel.size
# Convert, swizzle, and store final values
for i in range(4):
swizzle = format.swizzles[i]
if swizzle < 4:
src_channel = format.channels[swizzle]
src_colorspace = format.colorspace
if src_colorspace == SRGB and i == 3:
# Alpha channel is linear
src_colorspace = RGB
value = src_channel.name
value = conversion_expr(src_channel,
dst_channel, dst_native_type,
value,
src_colorspace = src_colorspace)
elif swizzle == SWIZZLE_0:
value = '0'
elif swizzle == SWIZZLE_1:
value = get_one(dst_channel)
elif swizzle == SWIZZLE_NONE:
value = '0'
else:
assert False
print ' dst[%u] = %s; /* %s */' % (i, value, 'rgba'[i])
else:
print ' union util_format_%s pixel;' % format.short_name()
print ' memcpy(&pixel, src, sizeof pixel);'
bswap_format(format)
for i in range(4):
swizzle = format.swizzles[i]
if swizzle < 4:
src_channel = format.channels[swizzle]
src_colorspace = format.colorspace
if src_colorspace == SRGB and i == 3:
# Alpha channel is linear
src_colorspace = RGB
value = 'pixel.chan.%s' % src_channel.name
value = conversion_expr(src_channel,
dst_channel, dst_native_type,
value,
src_colorspace = src_colorspace)
elif swizzle == SWIZZLE_0:
value = '0'
elif swizzle == SWIZZLE_1:
value = get_one(dst_channel)
elif swizzle == SWIZZLE_NONE:
value = '0'
else:
assert False
print ' dst[%u] = %s; /* %s */' % (i, value, 'rgba'[i])
def generate_pack_kernel(format, src_channel, src_native_type):
if not is_format_supported(format):
return
dst_native_type = native_type(format)
assert format.layout == PLAIN
inv_swizzle = format.inv_swizzles()
if format.is_bitmask():
depth = format.block_size()
print ' uint%u_t value = 0;' % depth
shift = 0
for i in range(4):
dst_channel = format.channels[i]
if inv_swizzle[i] is not None:
value ='src[%u]' % inv_swizzle[i]
dst_colorspace = format.colorspace
if dst_colorspace == SRGB and inv_swizzle[i] == 3:
# Alpha channel is linear
dst_colorspace = RGB
value = conversion_expr(src_channel,
dst_channel, dst_native_type,
value,
dst_colorspace = dst_colorspace)
if dst_channel.type in (UNSIGNED, SIGNED):
if shift + dst_channel.size < depth:
value = '(%s) & 0x%x' % (value, (1 << dst_channel.size) - 1)
if shift:
value = '(%s) << %u' % (value, shift)
if dst_channel.type == SIGNED:
# Cast to unsigned
value = '(uint%u_t)(%s) ' % (depth, value)
else:
value = None
if value is not None:
print ' value |= %s;' % (value)
shift += dst_channel.size
if depth > 8:
print '#ifdef PIPE_ARCH_BIG_ENDIAN'
print ' value = util_bswap%u(value);' % depth
print '#endif'
print ' *(uint%u_t *)dst = value;' % depth
else:
print ' union util_format_%s pixel;' % format.short_name()
for i in range(4):
dst_channel = format.channels[i]
width = dst_channel.size
if inv_swizzle[i] is None:
continue
dst_colorspace = format.colorspace
if dst_colorspace == SRGB and inv_swizzle[i] == 3:
# Alpha channel is linear
dst_colorspace = RGB
value ='src[%u]' % inv_swizzle[i]
value = conversion_expr(src_channel,
dst_channel, dst_native_type,
value,
dst_colorspace = dst_colorspace)
print ' pixel.chan.%s = %s;' % (dst_channel.name, value)
bswap_format(format)
print ' memcpy(dst, &pixel, sizeof pixel);'
def generate_format_unpack(format, dst_channel, dst_native_type, dst_suffix):
'''Generate the function to unpack pixels from a particular format'''
name = format.short_name()
print 'static INLINE void'
print 'util_format_%s_unpack_%s(%s *dst_row, unsigned dst_stride, const uint8_t *src_row, unsigned src_stride, unsigned width, unsigned height)' % (name, dst_suffix, dst_native_type)
print '{'
if is_format_supported(format):
print ' unsigned x, y;'
print ' for(y = 0; y < height; y += %u) {' % (format.block_height,)
print ' %s *dst = dst_row;' % (dst_native_type)
print ' const uint8_t *src = src_row;'
print ' for(x = 0; x < width; x += %u) {' % (format.block_width,)
generate_unpack_kernel(format, dst_channel, dst_native_type)
print ' src += %u;' % (format.block_size() / 8,)
print ' dst += 4;'
print ' }'
print ' src_row += src_stride;'
print ' dst_row += dst_stride/sizeof(*dst_row);'
print ' }'
print '}'
print
def generate_format_pack(format, src_channel, src_native_type, src_suffix):
'''Generate the function to pack pixels to a particular format'''
name = format.short_name()
print 'static INLINE void'
print 'util_format_%s_pack_%s(uint8_t *dst_row, unsigned dst_stride, const %s *src_row, unsigned src_stride, unsigned width, unsigned height)' % (name, src_suffix, src_native_type)
print '{'
if is_format_supported(format):
print ' unsigned x, y;'
print ' for(y = 0; y < height; y += %u) {' % (format.block_height,)
print ' const %s *src = src_row;' % (src_native_type)
print ' uint8_t *dst = dst_row;'
print ' for(x = 0; x < width; x += %u) {' % (format.block_width,)
generate_pack_kernel(format, src_channel, src_native_type)
print ' src += 4;'
print ' dst += %u;' % (format.block_size() / 8,)
print ' }'
print ' dst_row += dst_stride;'
print ' src_row += src_stride/sizeof(*src_row);'
print ' }'
print '}'
print
def generate_format_fetch(format, dst_channel, dst_native_type, dst_suffix):
'''Generate the function to unpack pixels from a particular format'''
name = format.short_name()
print 'static INLINE void'
print 'util_format_%s_fetch_%s(%s *dst, const uint8_t *src, unsigned i, unsigned j)' % (name, dst_suffix, dst_native_type)
print '{'
if is_format_supported(format):
generate_unpack_kernel(format, dst_channel, dst_native_type)
print '}'
print
def is_format_hand_written(format):
return format.layout in ('s3tc', 'subsampled', 'other') or format.colorspace == ZS
def generate(formats):
print
print '#include "pipe/p_compiler.h"'
print '#include "u_math.h"'
print '#include "u_half.h"'
print '#include "u_format.h"'
print '#include "u_format_other.h"'
print '#include "u_format_srgb.h"'
print '#include "u_format_yuv.h"'
print '#include "u_format_zs.h"'
print
for format in formats:
if not is_format_hand_written(format):
if is_format_supported(format):
generate_format_type(format)
channel = Channel(FLOAT, False, 32)
native_type = 'float'
suffix = 'rgba_float'
generate_format_unpack(format, channel, native_type, suffix)
generate_format_pack(format, channel, native_type, suffix)
generate_format_fetch(format, channel, native_type, suffix)
channel = Channel(UNSIGNED, True, 8)
native_type = 'uint8_t'
suffix = 'rgba_8unorm'
generate_format_unpack(format, channel, native_type, suffix)
generate_format_pack(format, channel, native_type, suffix)
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