forked from OSchip/llvm-project
396 lines
13 KiB
Python
396 lines
13 KiB
Python
#!/usr/bin/env python3
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# OpenCL built-in library: type conversion functions
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#
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# Copyright (c) 2013 Victor Oliveira <victormatheus@gmail.com>
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# Copyright (c) 2013 Jesse Towner <jessetowner@lavabit.com>
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#
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# Permission is hereby granted, free of charge, to any person obtaining a copy
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# of this software and associated documentation files (the "Software"), to deal
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# in the Software without restriction, including without limitation the rights
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# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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# copies of the Software, and to permit persons to whom the Software is
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# furnished to do so, subject to the following conditions:
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#
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# The above copyright notice and this permission notice shall be included in
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# all copies or substantial portions of the Software.
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#
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# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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# THE SOFTWARE.
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# This script generates the file convert_type.cl, which contains all of the
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# OpenCL functions in the form:
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#
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# convert_<destTypen><_sat><_roundingMode>(<sourceTypen>)
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types = ['char', 'uchar', 'short', 'ushort', 'int', 'uint', 'long', 'ulong', 'float', 'double']
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int_types = ['char', 'uchar', 'short', 'ushort', 'int', 'uint', 'long', 'ulong']
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unsigned_types = ['uchar', 'ushort', 'uint', 'ulong']
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float_types = ['float', 'double']
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int64_types = ['long', 'ulong']
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float64_types = ['double']
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vector_sizes = ['', '2', '3', '4', '8', '16']
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half_sizes = [('2',''), ('4','2'), ('8','4'), ('16','8')]
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saturation = ['','_sat']
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rounding_modes = ['_rtz','_rte','_rtp','_rtn']
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float_prefix = {'float':'FLT_', 'double':'DBL_'}
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float_suffix = {'float':'f', 'double':''}
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bool_type = {'char' : 'char',
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'uchar' : 'char',
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'short' : 'short',
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'ushort': 'short',
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'int' : 'int',
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'uint' : 'int',
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'long' : 'long',
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'ulong' : 'long',
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'float' : 'int',
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'double' : 'long'}
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unsigned_type = {'char' : 'uchar',
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'uchar' : 'uchar',
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'short' : 'ushort',
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'ushort': 'ushort',
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'int' : 'uint',
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'uint' : 'uint',
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'long' : 'ulong',
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'ulong' : 'ulong'}
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sizeof_type = {'char' : 1, 'uchar' : 1,
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'short' : 2, 'ushort' : 2,
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'int' : 4, 'uint' : 4,
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'long' : 8, 'ulong' : 8,
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'float' : 4, 'double' : 8}
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limit_max = {'char' : 'CHAR_MAX',
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'uchar' : 'UCHAR_MAX',
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'short' : 'SHRT_MAX',
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'ushort': 'USHRT_MAX',
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'int' : 'INT_MAX',
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'uint' : 'UINT_MAX',
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'long' : 'LONG_MAX',
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'ulong' : 'ULONG_MAX'}
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limit_min = {'char' : 'CHAR_MIN',
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'uchar' : '0',
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'short' : 'SHRT_MIN',
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'ushort': '0',
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'int' : 'INT_MIN',
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'uint' : '0',
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'long' : 'LONG_MIN',
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'ulong' : '0'}
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def conditional_guard(src, dst):
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int64_count = 0
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float64_count = 0
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if src in int64_types:
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int64_count = int64_count +1
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elif src in float64_types:
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float64_count = float64_count + 1
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if dst in int64_types:
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int64_count = int64_count +1
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elif dst in float64_types:
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float64_count = float64_count + 1
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if float64_count > 0:
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#In embedded profile, if cl_khr_fp64 is supported cles_khr_int64 has to be
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print("#ifdef cl_khr_fp64")
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return True
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elif int64_count > 0:
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print("#if defined cles_khr_int64 || !defined(__EMBEDDED_PROFILE__)")
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return True
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return False
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print("""/* !!!! AUTOGENERATED FILE generated by convert_type.py !!!!!
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DON'T CHANGE THIS FILE. MAKE YOUR CHANGES TO convert_type.py AND RUN:
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$ ./generate-conversion-type-cl.sh
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OpenCL type conversion functions
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Copyright (c) 2013 Victor Oliveira <victormatheus@gmail.com>
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Copyright (c) 2013 Jesse Towner <jessetowner@lavabit.com>
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
|
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in the Software without restriction, including without limitation the rights
|
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to use, copy, modify, merge, publish, distribute, sublicense, 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:
|
|
|
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The above copyright notice and this permission notice shall be included in
|
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all copies or substantial portions of the Software.
|
|
|
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
|
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
|
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
|
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
|
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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*/
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#include <clc/clc.h>
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#ifdef cl_khr_fp64
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#pragma OPENCL EXTENSION cl_khr_fp64 : enable
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#if defined(__EMBEDDED_PROFILE__) && !defined(cles_khr_int64)
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#error Embedded profile that supports cl_khr_fp64 also has to support cles_khr_int64
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#endif
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#endif
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#ifdef cles_khr_int64
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#pragma OPENCL EXTENSION cles_khr_int64 : enable
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#endif
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""")
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#
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# Default Conversions
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#
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# All conversions are in accordance with the OpenCL specification,
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# which cites the C99 conversion rules.
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#
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# Casting from floating point to integer results in conversions
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# with truncation, so it should be suitable for the default convert
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# functions.
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#
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# Conversions from integer to floating-point, and floating-point to
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# floating-point through casting is done with the default rounding
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# mode. While C99 allows dynamically changing the rounding mode
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# during runtime, it is not a supported feature in OpenCL according
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# to Section 7.1 - Rounding Modes in the OpenCL 1.2 specification.
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#
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# Therefore, we can assume for optimization purposes that the
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# rounding mode is fixed to round-to-nearest-even. Platform target
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# authors should ensure that the rounding-control registers remain
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# in this state, and that this invariant holds.
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#
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# Also note, even though the OpenCL specification isn't entirely
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# clear on this matter, we implement all rounding mode combinations
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# even for integer-to-integer conversions. When such a conversion
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# is used, the rounding mode is ignored.
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#
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def generate_default_conversion(src, dst, mode):
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close_conditional = conditional_guard(src, dst)
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# scalar conversions
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print("""_CLC_DEF _CLC_OVERLOAD
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{DST} convert_{DST}{M}({SRC} x)
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{{
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return ({DST})x;
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}}
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""".format(SRC=src, DST=dst, M=mode))
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# vector conversions, done through decomposition to components
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for size, half_size in half_sizes:
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print("""_CLC_DEF _CLC_OVERLOAD
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{DST}{N} convert_{DST}{N}{M}({SRC}{N} x)
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{{
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return ({DST}{N})(convert_{DST}{H}(x.lo), convert_{DST}{H}(x.hi));
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}}
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""".format(SRC=src, DST=dst, N=size, H=half_size, M=mode))
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# 3-component vector conversions
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print("""_CLC_DEF _CLC_OVERLOAD
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{DST}3 convert_{DST}3{M}({SRC}3 x)
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{{
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return ({DST}3)(convert_{DST}2(x.s01), convert_{DST}(x.s2));
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}}""".format(SRC=src, DST=dst, M=mode))
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if close_conditional:
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print("#endif")
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for src in types:
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for dst in types:
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generate_default_conversion(src, dst, '')
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for src in int_types:
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for dst in int_types:
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for mode in rounding_modes:
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generate_default_conversion(src, dst, mode)
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#
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# Saturated Conversions To Integers
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#
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# These functions are dependent on the unsaturated conversion functions
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# generated above, and use clamp, max, min, and select to eliminate
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# branching and vectorize the conversions.
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#
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# Again, as above, we allow all rounding modes for integer-to-integer
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# conversions with saturation.
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#
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def generate_saturated_conversion(src, dst, size):
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# Header
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close_conditional = conditional_guard(src, dst)
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print("""_CLC_DEF _CLC_OVERLOAD
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{DST}{N} convert_{DST}{N}_sat({SRC}{N} x)
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{{""".format(DST=dst, SRC=src, N=size))
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# FIXME: This is a work around for lack of select function with
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# signed third argument when the first two arguments are unsigned types.
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# We cast to the signed type for sign-extension, then do a bitcast to
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# the unsigned type.
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if dst in unsigned_types:
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bool_prefix = "as_{DST}{N}(convert_{BOOL}{N}".format(DST=dst, BOOL=bool_type[dst], N=size);
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bool_suffix = ")"
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else:
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bool_prefix = "convert_{BOOL}{N}".format(BOOL=bool_type[dst], N=size);
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bool_suffix = ""
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# Body
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if src == dst:
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# Conversion between same types
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print(" return x;")
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elif src in float_types:
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# Conversion from float to int
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print(""" {DST}{N} y = convert_{DST}{N}(x);
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y = select(y, ({DST}{N}){DST_MIN}, {BP}(x < ({SRC}{N}){DST_MIN}){BS});
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y = select(y, ({DST}{N}){DST_MAX}, {BP}(x > ({SRC}{N}){DST_MAX}){BS});
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return y;""".format(SRC=src, DST=dst, N=size,
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DST_MIN=limit_min[dst], DST_MAX=limit_max[dst],
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BP=bool_prefix, BS=bool_suffix))
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else:
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# Integer to integer convesion with sizeof(src) == sizeof(dst)
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if sizeof_type[src] == sizeof_type[dst]:
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if src in unsigned_types:
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print(" x = min(x, ({SRC}){DST_MAX});".format(SRC=src, DST_MAX=limit_max[dst]))
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else:
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print(" x = max(x, ({SRC})0);".format(SRC=src))
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# Integer to integer conversion where sizeof(src) > sizeof(dst)
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elif sizeof_type[src] > sizeof_type[dst]:
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if src in unsigned_types:
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print(" x = min(x, ({SRC}){DST_MAX});".format(SRC=src, DST_MAX=limit_max[dst]))
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else:
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print(" x = clamp(x, ({SRC}){DST_MIN}, ({SRC}){DST_MAX});"
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.format(SRC=src, DST_MIN=limit_min[dst], DST_MAX=limit_max[dst]))
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# Integer to integer conversion where sizeof(src) < sizeof(dst)
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elif src not in unsigned_types and dst in unsigned_types:
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print(" x = max(x, ({SRC})0);".format(SRC=src))
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print(" return convert_{DST}{N}(x);".format(DST=dst, N=size))
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# Footer
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print("}")
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if close_conditional:
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print("#endif")
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for src in types:
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for dst in int_types:
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for size in vector_sizes:
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generate_saturated_conversion(src, dst, size)
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def generate_saturated_conversion_with_rounding(src, dst, size, mode):
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# Header
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close_conditional = conditional_guard(src, dst)
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# Body
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print("""_CLC_DEF _CLC_OVERLOAD
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{DST}{N} convert_{DST}{N}_sat{M}({SRC}{N} x)
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{{
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return convert_{DST}{N}_sat(x);
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}}
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""".format(DST=dst, SRC=src, N=size, M=mode))
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# Footer
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if close_conditional:
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print("#endif")
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for src in int_types:
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for dst in int_types:
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for size in vector_sizes:
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for mode in rounding_modes:
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generate_saturated_conversion_with_rounding(src, dst, size, mode)
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#
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# Conversions To/From Floating-Point With Rounding
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#
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# Note that we assume as above that casts from floating-point to
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# integer are done with truncation, and that the default rounding
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# mode is fixed to round-to-nearest-even, as per C99 and OpenCL
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# rounding rules.
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#
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# These functions rely on the use of abs, ceil, fabs, floor,
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# nextafter, sign, rint and the above generated conversion functions.
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#
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# Only conversions to integers can have saturation.
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#
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def generate_float_conversion(src, dst, size, mode, sat):
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# Header
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close_conditional = conditional_guard(src, dst)
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print("""_CLC_DEF _CLC_OVERLOAD
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{DST}{N} convert_{DST}{N}{S}{M}({SRC}{N} x)
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{{""".format(SRC=src, DST=dst, N=size, M=mode, S=sat))
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# Perform conversion
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if dst in int_types:
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if mode == '_rte':
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print(" x = rint(x);");
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elif mode == '_rtp':
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print(" x = ceil(x);");
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elif mode == '_rtn':
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print(" x = floor(x);");
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print(" return convert_{DST}{N}{S}(x);".format(DST=dst, N=size, S=sat))
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elif mode == '_rte':
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print(" return convert_{DST}{N}(x);".format(DST=dst, N=size))
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else:
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print(" {DST}{N} r = convert_{DST}{N}(x);".format(DST=dst, N=size))
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print(" {SRC}{N} y = convert_{SRC}{N}(y);".format(SRC=src, N=size))
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if mode == '_rtz':
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if src in int_types:
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print(" {USRC}{N} abs_x = abs(x);".format(USRC=unsigned_type[src], N=size))
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print(" {USRC}{N} abs_y = abs(y);".format(USRC=unsigned_type[src], N=size))
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else:
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print(" {SRC}{N} abs_x = fabs(x);".format(SRC=src, N=size))
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print(" {SRC}{N} abs_y = fabs(y);".format(SRC=src, N=size))
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print(" return select(r, nextafter(r, sign(r) * ({DST}{N})-INFINITY), convert_{BOOL}{N}(abs_y > abs_x));"
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.format(DST=dst, N=size, BOOL=bool_type[dst]))
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if mode == '_rtp':
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print(" return select(r, nextafter(r, ({DST}{N})INFINITY), convert_{BOOL}{N}(y < x));"
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.format(DST=dst, N=size, BOOL=bool_type[dst]))
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if mode == '_rtn':
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print(" return select(r, nextafter(r, ({DST}{N})-INFINITY), convert_{BOOL}{N}(y > x));"
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.format(DST=dst, N=size, BOOL=bool_type[dst]))
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# Footer
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print("}")
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if close_conditional:
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print("#endif")
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for src in float_types:
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for dst in int_types:
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for size in vector_sizes:
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for mode in rounding_modes:
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for sat in saturation:
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generate_float_conversion(src, dst, size, mode, sat)
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for src in types:
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for dst in float_types:
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for size in vector_sizes:
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for mode in rounding_modes:
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generate_float_conversion(src, dst, size, mode, '')
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