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| author | Peter Klausler <35819229+klausler@users.noreply.github.com> | 2024-06-13 15:39:08 -0700 |
|---|---|---|
| committer | GitHub <noreply@github.com> | 2024-06-13 15:39:08 -0700 |
| commit | c54f5f67b80a41abfb1848aba480fee43b5d8245 (patch) | |
| tree | 7c1779b174c84339e50bad08507f5f7f36466f68 /flang | |
| parent | 01a429c432620cad6deac99d48cf6ef96c7f86e8 (diff) | |
| download | llvm-c54f5f67b80a41abfb1848aba480fee43b5d8245.zip llvm-c54f5f67b80a41abfb1848aba480fee43b5d8245.tar.gz llvm-c54f5f67b80a41abfb1848aba480fee43b5d8245.tar.bz2 | |
[flang] Address missed cases for REDUCE change, fixes shared lib build (#95481)
My recent change that distinguishes pass-by-reference from pass-by-value
reduction operation functions missed the "CppReduceComplex" cases, and
also broke the shared library build-bots. Fix.
Diffstat (limited to 'flang')
| -rw-r--r-- | flang/runtime/complex-reduction.c | 34 | ||||
| -rw-r--r-- | flang/runtime/complex-reduction.h | 96 |
2 files changed, 94 insertions, 36 deletions
diff --git a/flang/runtime/complex-reduction.c b/flang/runtime/complex-reduction.c index 7654de8..37ce3fa 100644 --- a/flang/runtime/complex-reduction.c +++ b/flang/runtime/complex-reduction.c @@ -157,23 +157,39 @@ ADAPT_REDUCTION(DotProductComplex16, CFloat128ComplexType, CppComplexFloat128, #endif /* REDUCE() */ -#define RARGS REDUCE_ARGS(float_Complex_t) -ADAPT_REDUCTION(ReduceComplex4, float_Complex_t, CppComplexFloat, CMPLXF, RARGS, - REDUCE_ARG_NAMES) +#define RARGS REDUCE_ARGS(float_Complex_t, float_Complex_t_ref_op) +ADAPT_REDUCTION(ReduceComplex4Ref, float_Complex_t, CppComplexFloat, CMPLXF, + RARGS, REDUCE_ARG_NAMES) +#undef RARGS +#define RARGS REDUCE_ARGS(float_Complex_t, float_Complex_t_value_op) +ADAPT_REDUCTION(ReduceComplex4Value, float_Complex_t, CppComplexFloat, CMPLXF, + RARGS, REDUCE_ARG_NAMES) +#undef RARGS +#define RARGS REDUCE_ARGS(double_Complex_t, double_Complex_t_ref_op) +ADAPT_REDUCTION(ReduceComplex8Ref, double_Complex_t, CppComplexDouble, CMPLX, + RARGS, REDUCE_ARG_NAMES) #undef RARGS -#define RARGS REDUCE_ARGS(double_Complex_t) -ADAPT_REDUCTION(ReduceComplex8, double_Complex_t, CppComplexDouble, CMPLX, +#define RARGS REDUCE_ARGS(double_Complex_t, double_Complex_t_value_op) +ADAPT_REDUCTION(ReduceComplex8Value, double_Complex_t, CppComplexDouble, CMPLX, RARGS, REDUCE_ARG_NAMES) #undef RARGS #if LDBL_MANT_DIG == 64 -#define RARGS REDUCE_ARGS(long_double_Complex_t) -ADAPT_REDUCTION(ReduceComplex10, long_double_Complex_t, CppComplexLongDouble, +#define RARGS REDUCE_ARGS(long_double_Complex_t, long_double_Complex_t_ref_op) +ADAPT_REDUCTION(ReduceComplex10Ref, long_double_Complex_t, CppComplexLongDouble, CMPLXL, RARGS, REDUCE_ARG_NAMES) #undef RARGS +#define RARGS REDUCE_ARGS(long_double_Complex_t, long_double_Complex_t_value_op) +ADAPT_REDUCTION(ReduceComplex10Value, long_double_Complex_t, + CppComplexLongDouble, CMPLXL, RARGS, REDUCE_ARG_NAMES) +#undef RARGS #endif #if LDBL_MANT_DIG == 113 || HAS_FLOAT128 -#define RARGS REDUCE_ARGS(CFloat128ComplexType) -ADAPT_REDUCTION(ReduceComplex16, CFloat128ComplexType, CppComplexFloat128, +#define RARGS REDUCE_ARGS(CFloat128ComplexType, CFloat128ComplexType_ref_op) +ADAPT_REDUCTION(ReduceComplex16Ref, CFloat128ComplexType, CppComplexFloat128, + CMPLXF128, RARGS, REDUCE_ARG_NAMES) +#undef RARGS +#define RARGS REDUCE_ARGS(CFloat128ComplexType, CFloat128ComplexType_value_op) +ADAPT_REDUCTION(ReduceComplex16Value, CFloat128ComplexType, CppComplexFloat128, CMPLXF128, RARGS, REDUCE_ARG_NAMES) #undef RARGS #endif diff --git a/flang/runtime/complex-reduction.h b/flang/runtime/complex-reduction.h index 98b20d1..b0f1962 100644 --- a/flang/runtime/complex-reduction.h +++ b/flang/runtime/complex-reduction.h @@ -69,49 +69,91 @@ long_double_Complex_t RTNAME(DotProductComplex10)(DOT_PRODUCT_ARGS); CFloat128ComplexType RTNAME(DotProductComplex16)(DOT_PRODUCT_ARGS); #endif -#define REDUCE_ARGS(T) \ - T##_op operation, const struct CppDescriptor *x, \ - const struct CppDescriptor *y, const char *source, int line, \ - int dim /*=0*/, const struct CppDescriptor *mask /*=NULL*/, \ - const T *identity /*=NULL*/, _Bool ordered /*=true*/ +#define REDUCE_ARGS(T, OP) \ + OP operation, const struct CppDescriptor *x, const struct CppDescriptor *y, \ + const char *source, int line, int dim /*=0*/, \ + const struct CppDescriptor *mask /*=NULL*/, const T *identity /*=NULL*/, \ + _Bool ordered /*=true*/ #define REDUCE_ARG_NAMES \ operation, x, y, source, line, dim, mask, identity, ordered -typedef float_Complex_t (*float_Complex_t_op)( +typedef float_Complex_t (*float_Complex_t_ref_op)( const float_Complex_t *, const float_Complex_t *); -typedef double_Complex_t (*double_Complex_t_op)( +typedef float_Complex_t (*float_Complex_t_value_op)( + float_Complex_t, float_Complex_t); +typedef double_Complex_t (*double_Complex_t_ref_op)( const double_Complex_t *, const double_Complex_t *); -typedef long_double_Complex_t (*long_double_Complex_t_op)( +typedef double_Complex_t (*double_Complex_t_value_op)( + double_Complex_t, double_Complex_t); +typedef long_double_Complex_t (*long_double_Complex_t_ref_op)( const long_double_Complex_t *, const long_double_Complex_t *); - -float_Complex_t RTNAME(ReduceComplex2)(REDUCE_ARGS(float_Complex_t)); -float_Complex_t RTNAME(ReduceComplex3)(REDUCE_ARGS(float_Complex_t)); -float_Complex_t RTNAME(ReduceComplex4)(REDUCE_ARGS(float_Complex_t)); -double_Complex_t RTNAME(ReduceComplex8)(REDUCE_ARGS(double_Complex_t)); -long_double_Complex_t RTNAME(ReduceComplex10)( - REDUCE_ARGS(long_double_Complex_t)); +typedef long_double_Complex_t (*long_double_Complex_t_value_op)( + long_double_Complex_t, long_double_Complex_t); + +float_Complex_t RTNAME(ReduceComplex2Ref)( + REDUCE_ARGS(float_Complex_t, float_Complex_t_ref_op)); +float_Complex_t RTNAME(ReduceComplex2Value)( + REDUCE_ARGS(float_Complex_t, float_Complex_t_value_op)); +float_Complex_t RTNAME(ReduceComplex3Ref)( + REDUCE_ARGS(float_Complex_t, float_Complex_t_ref_op)); +float_Complex_t RTNAME(ReduceComplex3Value)( + REDUCE_ARGS(float_Complex_t, float_Complex_t_value_op)); +float_Complex_t RTNAME(ReduceComplex4Ref)( + REDUCE_ARGS(float_Complex_t, float_Complex_t_ref_op)); +float_Complex_t RTNAME(ReduceComplex4Value)( + REDUCE_ARGS(float_Complex_t, float_Complex_t_value_op)); +double_Complex_t RTNAME(ReduceComplex8Ref)( + REDUCE_ARGS(double_Complex_t, double_Complex_t_ref_op)); +double_Complex_t RTNAME(ReduceComplex8Value)( + REDUCE_ARGS(double_Complex_t, double_Complex_t_value_op)); +long_double_Complex_t RTNAME(ReduceComplex10Ref)( + REDUCE_ARGS(long_double_Complex_t, long_double_Complex_t_ref_op)); +long_double_Complex_t RTNAME(ReduceComplex10Value)( + REDUCE_ARGS(long_double_Complex_t, long_double_Complex_t_value_op)); #if LDBL_MANT_DIG == 113 || HAS_FLOAT128 -typedef CFloat128ComplexType (*CFloat128ComplexType_op)( +typedef CFloat128ComplexType (*CFloat128ComplexType_ref_op)( const CFloat128ComplexType *, const CFloat128ComplexType *); -CFloat128ComplexType RTNAME(ReduceComplex16)(REDUCE_ARGS(CFloat128ComplexType)); +typedef CFloat128ComplexType (*CFloat128ComplexType_value_op)( + CFloat128ComplexType, CFloat128ComplexType); +CFloat128ComplexType RTNAME(ReduceComplex16Ref)( + REDUCE_ARGS(CFloat128ComplexType, CFloat128ComplexType_ref_op)); +CFloat128ComplexType RTNAME(ReduceComplex16Value)( + REDUCE_ARGS(CFloat128ComplexType, CFloat128ComplexType_value_op)); #endif -#define REDUCE_DIM_ARGS(T) \ - struct CppDescriptor *result, T##_op operation, \ - const struct CppDescriptor *x, const struct CppDescriptor *y, \ - const char *source, int line, int dim, \ +#define REDUCE_DIM_ARGS(T, OP) \ + struct CppDescriptor *result, OP operation, const struct CppDescriptor *x, \ + const struct CppDescriptor *y, const char *source, int line, int dim, \ const struct CppDescriptor *mask /*=NULL*/, const T *identity /*=NULL*/, \ _Bool ordered /*=true*/ #define REDUCE_DIM_ARG_NAMES \ result, operation, x, y, source, line, dim, mask, identity, ordered -void RTNAME(ReduceComplex2Dim)(REDUCE_DIM_ARGS(float_Complex_t)); -void RTNAME(ReduceComplex3Dim)(REDUCE_DIM_ARGS(float_Complex_t)); -void RTNAME(ReduceComplex4Dim)(REDUCE_DIM_ARGS(float_Complex_t)); -void RTNAME(ReduceComplex8Dim)(REDUCE_DIM_ARGS(double_Complex_t)); -void RTNAME(ReduceComplex10Dim)(REDUCE_DIM_ARGS(long_double_Complex_t)); +void RTNAME(ReduceComplex2DimRef)( + REDUCE_DIM_ARGS(float_Complex_t, float_Complex_t_ref_op)); +void RTNAME(ReduceComplex2DimValue)( + REDUCE_DIM_ARGS(float_Complex_t, float_Complex_t_value_op)); +void RTNAME(ReduceComplex3DimRef)( + REDUCE_DIM_ARGS(float_Complex_t, float_Complex_t_ref_op)); +void RTNAME(ReduceComplex3DimValue)( + REDUCE_DIM_ARGS(float_Complex_t, float_Complex_t_value_op)); +void RTNAME(ReduceComplex4DimRef)( + REDUCE_DIM_ARGS(float_Complex_t, float_Complex_t_ref_op)); +void RTNAME(ReduceComplex4DimValue)( + REDUCE_DIM_ARGS(float_Complex_t, float_Complex_t_value_op)); +void RTNAME(ReduceComplex8DimRef)( + REDUCE_DIM_ARGS(double_Complex_t, double_Complex_t_ref_op)); +void RTNAME(ReduceComplex8DimValue)( + REDUCE_DIM_ARGS(double_Complex_t, double_Complex_t_value_op)); +void RTNAME(ReduceComplex10DimRef)( + REDUCE_DIM_ARGS(long_double_Complex_t, long_double_Complex_t_ref_op)); +void RTNAME(ReduceComplex10DimValue)( + REDUCE_DIM_ARGS(long_double_Complex_t, long_double_Complex_t_value_op)); #if LDBL_MANT_DIG == 113 || HAS_FLOAT128 -void RTNAME(ReduceComplex16Dim)(REDUCE_DIM_ARGS(CFloat128ComplexType)); +void RTNAME(ReduceComplex16DimRef)( + REDUCE_DIM_ARGS(CFloat128ComplexType, CFloat128ComplexType_ref_op)); +void RTNAME(ReduceComplex16DimValue)( + REDUCE_DIM_ARGS(CFloat128ComplexType, CFloat128ComplexType_value_op)); #endif #endif // FORTRAN_RUNTIME_COMPLEX_REDUCTION_H_ |