Skip to content

[SYCL-PTX] Add builtins for the relational category #1831

New issue

Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.

Sign up for GitHub

By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.

Already on GitHub? Sign in to your account

Merged
merged 1 commit into from
Jun 23, 2020
Merged

[SYCL-PTX] Add builtins for the relational category #1831

Show file tree
Hide file tree
Changes from all commits
Commits
Show all changes
1 commit
Select commit
File filter

Filter by extension

Filter by extension
Conversations
Failed to load comments.
Loading
Jump to
Jump to file
Failed to load files.
Loading
Diff view
Diff view
7 changes: 7 additions & 0 deletions libclc/generic/include/clc/relational/floatn.inc
View file
Open in desktop
Original file line number Diff line number Diff line change
@@ -1,3 +1,10 @@
//===----------------------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//

#define __CLC_FLOATN float
#define __CLC_INTN int
Expand Down
251 changes: 139 additions & 112 deletions libclc/generic/include/relational.h
View file
Open in desktop
Original file line number Diff line number Diff line change
@@ -1,122 +1,149 @@
#ifndef CLC_RELATIONAL
#define CLC_RELATIONAL

#include <as_type.h>

/*
* Contains relational macros that have to return 1 for scalar and -1 for vector
* when the result is true.
*/

#define _CLC_DEFINE_RELATIONAL_UNARY_SCALAR(RET_TYPE, FUNCTION, BUILTIN_NAME, ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x){ \
return BUILTIN_NAME(x); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC2(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x) { \
return (RET_TYPE)( (RET_TYPE){FUNCTION(x.lo), FUNCTION(x.hi)} != (RET_TYPE)0); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC3(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x) { \
return (RET_TYPE)( (RET_TYPE){FUNCTION(x.s0), FUNCTION(x.s1), FUNCTION(x.s2)} != (RET_TYPE)0); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC4(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x) { \
return (RET_TYPE)( \
(RET_TYPE){ \
FUNCTION(x.s0), FUNCTION(x.s1), FUNCTION(x.s2), FUNCTION(x.s3) \
} != (RET_TYPE)0); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC8(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x) { \
return (RET_TYPE)( \
(RET_TYPE){ \
FUNCTION(x.s0), FUNCTION(x.s1), FUNCTION(x.s2), FUNCTION(x.s3), \
FUNCTION(x.s4), FUNCTION(x.s5), FUNCTION(x.s6), FUNCTION(x.s7) \
} != (RET_TYPE)0); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC16(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x) { \
return (RET_TYPE)( \
(RET_TYPE){ \
FUNCTION(x.s0), FUNCTION(x.s1), FUNCTION(x.s2), FUNCTION(x.s3), \
FUNCTION(x.s4), FUNCTION(x.s5), FUNCTION(x.s6), FUNCTION(x.s7), \
FUNCTION(x.s8), FUNCTION(x.s9), FUNCTION(x.sa), FUNCTION(x.sb), \
FUNCTION(x.sc), FUNCTION(x.sd), FUNCTION(x.se), FUNCTION(x.sf) \
} != (RET_TYPE)0); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC_ALL(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC2(RET_TYPE##2, FUNCTION, ARG_TYPE##2) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC3(RET_TYPE##3, FUNCTION, ARG_TYPE##3) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC4(RET_TYPE##4, FUNCTION, ARG_TYPE##4) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC8(RET_TYPE##8, FUNCTION, ARG_TYPE##8) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC16(RET_TYPE##16, FUNCTION, ARG_TYPE##16)

#define _CLC_DEFINE_RELATIONAL_UNARY(RET_TYPE, FUNCTION, BUILTIN_FUNCTION, ARG_TYPE) \
_CLC_DEFINE_RELATIONAL_UNARY_SCALAR(RET_TYPE, FUNCTION, BUILTIN_FUNCTION, ARG_TYPE) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC_ALL(RET_TYPE, FUNCTION, ARG_TYPE) \

#define _CLC_DEFINE_RELATIONAL_BINARY_SCALAR(RET_TYPE, FUNCTION, BUILTIN_NAME, ARG0_TYPE, ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y){ \
return BUILTIN_NAME(x, y); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC(RET_TYPE, FUNCTION, ARG0_TYPE, ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return (RET_TYPE)( (RET_TYPE){FUNCTION(x.lo, y.lo), FUNCTION(x.hi, y.hi)} != (RET_TYPE)0); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC2(RET_TYPE, FUNCTION, ARG0_TYPE, ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return (RET_TYPE)( (RET_TYPE){FUNCTION(x.lo, y.lo), FUNCTION(x.hi, y.hi)} != (RET_TYPE)0); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC3(RET_TYPE, FUNCTION, ARG0_TYPE, ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return (RET_TYPE)( (RET_TYPE){FUNCTION(x.s0, y.s0), FUNCTION(x.s1, y.s1), FUNCTION(x.s2, y.s2)} != (RET_TYPE)0); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC4(RET_TYPE, FUNCTION, ARG0_TYPE, ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return (RET_TYPE)( \
(RET_TYPE){ \
FUNCTION(x.s0, y.s0), FUNCTION(x.s1, y.s1), FUNCTION(x.s2, y.s2), FUNCTION(x.s3, y.s3) \
} != (RET_TYPE)0); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC8(RET_TYPE, FUNCTION, ARG0_TYPE, ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return (RET_TYPE)( \
(RET_TYPE){ \
FUNCTION(x.s0, y.s0), FUNCTION(x.s1, y.s1), FUNCTION(x.s2, y.s2), FUNCTION(x.s3, y.s3), \
FUNCTION(x.s4, y.s4), FUNCTION(x.s5, y.s5), FUNCTION(x.s6, y.s6), FUNCTION(x.s7, y.s7) \
} != (RET_TYPE)0); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC16(RET_TYPE, FUNCTION, ARG0_TYPE, ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return (RET_TYPE)( \
(RET_TYPE){ \
FUNCTION(x.s0, y.s0), FUNCTION(x.s1, y.s1), FUNCTION(x.s2, y.s2), FUNCTION(x.s3, y.s3), \
FUNCTION(x.s4, y.s4), FUNCTION(x.s5, y.s5), FUNCTION(x.s6, y.s6), FUNCTION(x.s7, y.s7), \
FUNCTION(x.s8, y.s8), FUNCTION(x.s9, y.s9), FUNCTION(x.sa, y.sa), FUNCTION(x.sb, y.sb), \
FUNCTION(x.sc, y.sc), FUNCTION(x.sd, y.sd), FUNCTION(x.se, y.se), FUNCTION(x.sf, y.sf) \
} != (RET_TYPE)0); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC_ALL(RET_TYPE, FUNCTION, ARG0_TYPE, ARG1_TYPE) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC2(RET_TYPE##2, FUNCTION, ARG0_TYPE##2, ARG1_TYPE##2) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC3(RET_TYPE##3, FUNCTION, ARG0_TYPE##3, ARG1_TYPE##3) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC4(RET_TYPE##4, FUNCTION, ARG0_TYPE##4, ARG1_TYPE##4) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC8(RET_TYPE##8, FUNCTION, ARG0_TYPE##8, ARG1_TYPE##8) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC16(RET_TYPE##16, FUNCTION, ARG0_TYPE##16, ARG1_TYPE##16)

#define _CLC_DEFINE_RELATIONAL_BINARY(RET_TYPE, FUNCTION, BUILTIN_FUNCTION, ARG0_TYPE, ARG1_TYPE) \
_CLC_DEFINE_RELATIONAL_BINARY_SCALAR(RET_TYPE, FUNCTION, BUILTIN_FUNCTION, ARG0_TYPE, ARG1_TYPE) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC_ALL(RET_TYPE, FUNCTION, ARG0_TYPE, ARG1_TYPE)
#define _CLC_DEFINE_RELATIONAL_UNARY_SCALAR(RET_TYPE, FUNCTION, BUILTIN_NAME, \
ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x) { \
return BUILTIN_NAME(x); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC2(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x) { \
return as_##RET_TYPE( \
((RET_TYPE){FUNCTION(x.lo), FUNCTION(x.hi)} != (RET_TYPE)0)); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC3(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x) { \
return as_##RET_TYPE(((RET_TYPE){FUNCTION(x.s0), FUNCTION(x.s1), \
FUNCTION(x.s2)} != (RET_TYPE)0)); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC4(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x) { \
return as_##RET_TYPE( \
((RET_TYPE){FUNCTION(x.s0), FUNCTION(x.s1), FUNCTION(x.s2), \
FUNCTION(x.s3)} != (RET_TYPE)0)); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC8(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x) { \
return as_##RET_TYPE( \
((RET_TYPE){FUNCTION(x.s0), FUNCTION(x.s1), FUNCTION(x.s2), \
FUNCTION(x.s3), FUNCTION(x.s4), FUNCTION(x.s5), \
FUNCTION(x.s6), FUNCTION(x.s7)} != (RET_TYPE)0)); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC16(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG_TYPE x) { \
return as_##RET_TYPE( \
((RET_TYPE){FUNCTION(x.s0), FUNCTION(x.s1), FUNCTION(x.s2), \
FUNCTION(x.s3), FUNCTION(x.s4), FUNCTION(x.s5), \
FUNCTION(x.s6), FUNCTION(x.s7), FUNCTION(x.s8), \
FUNCTION(x.s9), FUNCTION(x.sa), FUNCTION(x.sb), \
FUNCTION(x.sc), FUNCTION(x.sd), FUNCTION(x.se), \
FUNCTION(x.sf)} != (RET_TYPE)0)); \
}

#define _CLC_DEFINE_RELATIONAL_UNARY_VEC_ALL(RET_TYPE, FUNCTION, ARG_TYPE) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC2(RET_TYPE##2, FUNCTION, ARG_TYPE##2) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC3(RET_TYPE##3, FUNCTION, ARG_TYPE##3) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC4(RET_TYPE##4, FUNCTION, ARG_TYPE##4) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC8(RET_TYPE##8, FUNCTION, ARG_TYPE##8) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC16(RET_TYPE##16, FUNCTION, ARG_TYPE##16)

#define _CLC_DEFINE_RELATIONAL_UNARY(RET_TYPE, FUNCTION, BUILTIN_FUNCTION, \
ARG_TYPE) \
_CLC_DEFINE_RELATIONAL_UNARY_SCALAR(RET_TYPE, FUNCTION, BUILTIN_FUNCTION, \
ARG_TYPE) \
_CLC_DEFINE_RELATIONAL_UNARY_VEC_ALL(RET_TYPE, FUNCTION, ARG_TYPE)

#define _CLC_DEFINE_RELATIONAL_BINARY_SCALAR(RET_TYPE, FUNCTION, BUILTIN_NAME, \
ARG0_TYPE, ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return BUILTIN_NAME(x, y); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC(RET_TYPE, FUNCTION, ARG0_TYPE, \
ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return as_##RET_TYPE( \
(RET_TYPE)((RET_TYPE){FUNCTION(x.lo, y.lo), FUNCTION(x.hi, y.hi)} != \
(RET_TYPE)0)); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC2(RET_TYPE, FUNCTION, ARG0_TYPE, \
ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return as_##RET_TYPE(((RET_TYPE){FUNCTION(x.lo, y.lo), \
FUNCTION(x.hi, y.hi)} != (RET_TYPE)0)); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC3(RET_TYPE, FUNCTION, ARG0_TYPE, \
ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return as_##RET_TYPE( \
((RET_TYPE){FUNCTION(x.s0, y.s0), FUNCTION(x.s1, y.s1), \
FUNCTION(x.s2, y.s2)} != (RET_TYPE)0)); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC4(RET_TYPE, FUNCTION, ARG0_TYPE, \
ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return as_##RET_TYPE( \
((RET_TYPE){FUNCTION(x.s0, y.s0), FUNCTION(x.s1, y.s1), \
FUNCTION(x.s2, y.s2), \
FUNCTION(x.s3, y.s3)} != (RET_TYPE)0)); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC8(RET_TYPE, FUNCTION, ARG0_TYPE, \
ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return as_##RET_TYPE( \
((RET_TYPE){ \
FUNCTION(x.s0, y.s0), FUNCTION(x.s1, y.s1), FUNCTION(x.s2, y.s2), \
FUNCTION(x.s3, y.s3), FUNCTION(x.s4, y.s4), FUNCTION(x.s5, y.s5), \
FUNCTION(x.s6, y.s6), FUNCTION(x.s7, y.s7)} != (RET_TYPE)0)); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC16(RET_TYPE, FUNCTION, ARG0_TYPE, \
ARG1_TYPE) \
_CLC_DEF _CLC_OVERLOAD RET_TYPE FUNCTION(ARG0_TYPE x, ARG1_TYPE y) { \
return as_##RET_TYPE( \
((RET_TYPE){ \
FUNCTION(x.s0, y.s0), FUNCTION(x.s1, y.s1), FUNCTION(x.s2, y.s2), \
FUNCTION(x.s3, y.s3), FUNCTION(x.s4, y.s4), FUNCTION(x.s5, y.s5), \
FUNCTION(x.s6, y.s6), FUNCTION(x.s7, y.s7), FUNCTION(x.s8, y.s8), \
FUNCTION(x.s9, y.s9), FUNCTION(x.sa, y.sa), FUNCTION(x.sb, y.sb), \
FUNCTION(x.sc, y.sc), FUNCTION(x.sd, y.sd), FUNCTION(x.se, y.se), \
FUNCTION(x.sf, y.sf)} != (RET_TYPE)0)); \
}

#define _CLC_DEFINE_RELATIONAL_BINARY_VEC_ALL(RET_TYPE, FUNCTION, ARG0_TYPE, \
ARG1_TYPE) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC2(RET_TYPE##2, FUNCTION, ARG0_TYPE##2, \
ARG1_TYPE##2) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC3(RET_TYPE##3, FUNCTION, ARG0_TYPE##3, \
ARG1_TYPE##3) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC4(RET_TYPE##4, FUNCTION, ARG0_TYPE##4, \
ARG1_TYPE##4) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC8(RET_TYPE##8, FUNCTION, ARG0_TYPE##8, \
ARG1_TYPE##8) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC16(RET_TYPE##16, FUNCTION, ARG0_TYPE##16, \
ARG1_TYPE##16)

#define _CLC_DEFINE_RELATIONAL_BINARY(RET_TYPE, FUNCTION, BUILTIN_FUNCTION, \
ARG0_TYPE, ARG1_TYPE) \
_CLC_DEFINE_RELATIONAL_BINARY_SCALAR(RET_TYPE, FUNCTION, BUILTIN_FUNCTION, \
ARG0_TYPE, ARG1_TYPE) \
_CLC_DEFINE_RELATIONAL_BINARY_VEC_ALL(RET_TYPE, FUNCTION, ARG0_TYPE, \
ARG1_TYPE)

#endif // CLC_RELATIONAL
98 changes: 0 additions & 98 deletions libclc/generic/include/spirv/float/definitions.h
View file
Open in desktop

This file was deleted.

Loading