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beb5ac8b25
The single source file reduction.cpp is a little large in terms of both source lines and generated text bytes, so split SUM, PRODUCT, FINDLOC, and MAXLOC/MAXVAL/MINLOC/MINVAL off into their own C++ source files that share a set of implementation function templates now in a common header. Differential Revision: https://reviews.llvm.org/D101111
164 lines
6.5 KiB
C++
164 lines
6.5 KiB
C++
//===-- runtime/product.cpp -----------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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// Implements PRODUCT for all required operand types and shapes.
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#include "reduction-templates.h"
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#include "reduction.h"
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#include "flang/Common/long-double.h"
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#include <cinttypes>
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#include <complex>
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namespace Fortran::runtime {
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template <typename INTERMEDIATE> class NonComplexProductAccumulator {
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public:
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explicit NonComplexProductAccumulator(const Descriptor &array)
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: array_{array} {}
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void Reinitialize() { product_ = 1; }
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template <typename A> void GetResult(A *p, int /*zeroBasedDim*/ = -1) const {
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*p = static_cast<A>(product_);
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}
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template <typename A> bool AccumulateAt(const SubscriptValue at[]) {
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product_ *= *array_.Element<A>(at);
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return product_ != 0;
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}
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private:
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const Descriptor &array_;
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INTERMEDIATE product_{1};
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};
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template <typename PART> class ComplexProductAccumulator {
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public:
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explicit ComplexProductAccumulator(const Descriptor &array) : array_{array} {}
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void Reinitialize() { product_ = std::complex<PART>{1, 0}; }
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template <typename A> void GetResult(A *p, int /*zeroBasedDim*/ = -1) const {
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using ResultPart = typename A::value_type;
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*p = {static_cast<ResultPart>(product_.real()),
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static_cast<ResultPart>(product_.imag())};
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}
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template <typename A> bool AccumulateAt(const SubscriptValue at[]) {
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product_ *= *array_.Element<A>(at);
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return true;
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}
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private:
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const Descriptor &array_;
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std::complex<PART> product_{1, 0};
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};
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extern "C" {
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CppTypeFor<TypeCategory::Integer, 1> RTNAME(ProductInteger1)(
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const Descriptor &x, const char *source, int line, int dim,
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const Descriptor *mask) {
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return GetTotalReduction<TypeCategory::Integer, 1>(x, source, line, dim, mask,
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NonComplexProductAccumulator<CppTypeFor<TypeCategory::Integer, 4>>{x},
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"PRODUCT");
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}
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CppTypeFor<TypeCategory::Integer, 2> RTNAME(ProductInteger2)(
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const Descriptor &x, const char *source, int line, int dim,
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const Descriptor *mask) {
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return GetTotalReduction<TypeCategory::Integer, 2>(x, source, line, dim, mask,
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NonComplexProductAccumulator<CppTypeFor<TypeCategory::Integer, 4>>{x},
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"PRODUCT");
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}
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CppTypeFor<TypeCategory::Integer, 4> RTNAME(ProductInteger4)(
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const Descriptor &x, const char *source, int line, int dim,
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const Descriptor *mask) {
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return GetTotalReduction<TypeCategory::Integer, 4>(x, source, line, dim, mask,
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NonComplexProductAccumulator<CppTypeFor<TypeCategory::Integer, 4>>{x},
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"PRODUCT");
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}
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CppTypeFor<TypeCategory::Integer, 8> RTNAME(ProductInteger8)(
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const Descriptor &x, const char *source, int line, int dim,
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const Descriptor *mask) {
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return GetTotalReduction<TypeCategory::Integer, 8>(x, source, line, dim, mask,
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NonComplexProductAccumulator<CppTypeFor<TypeCategory::Integer, 8>>{x},
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"PRODUCT");
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}
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#ifdef __SIZEOF_INT128__
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CppTypeFor<TypeCategory::Integer, 16> RTNAME(ProductInteger16)(
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const Descriptor &x, const char *source, int line, int dim,
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const Descriptor *mask) {
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return GetTotalReduction<TypeCategory::Integer, 16>(x, source, line, dim,
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mask,
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NonComplexProductAccumulator<CppTypeFor<TypeCategory::Integer, 16>>{x},
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"PRODUCT");
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}
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#endif
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// TODO: real/complex(2 & 3)
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CppTypeFor<TypeCategory::Real, 4> RTNAME(ProductReal4)(const Descriptor &x,
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const char *source, int line, int dim, const Descriptor *mask) {
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return GetTotalReduction<TypeCategory::Real, 4>(x, source, line, dim, mask,
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NonComplexProductAccumulator<CppTypeFor<TypeCategory::Real, 8>>{x},
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"PRODUCT");
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}
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CppTypeFor<TypeCategory::Real, 8> RTNAME(ProductReal8)(const Descriptor &x,
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const char *source, int line, int dim, const Descriptor *mask) {
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return GetTotalReduction<TypeCategory::Real, 8>(x, source, line, dim, mask,
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NonComplexProductAccumulator<CppTypeFor<TypeCategory::Real, 8>>{x},
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"PRODUCT");
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}
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#if LONG_DOUBLE == 80
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CppTypeFor<TypeCategory::Real, 10> RTNAME(ProductReal10)(const Descriptor &x,
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const char *source, int line, int dim, const Descriptor *mask) {
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return GetTotalReduction<TypeCategory::Real, 10>(x, source, line, dim, mask,
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NonComplexProductAccumulator<CppTypeFor<TypeCategory::Real, 10>>{x},
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"PRODUCT");
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}
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#elif LONG_DOUBLE == 128
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CppTypeFor<TypeCategory::Real, 16> RTNAME(ProductReal16)(const Descriptor &x,
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const char *source, int line, int dim, const Descriptor *mask) {
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return GetTotalReduction<TypeCategory::Real, 16>(x, source, line, dim, mask,
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NonComplexProductAccumulator<CppTypeFor<TypeCategory::Real, 16>>{x},
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"PRODUCT");
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}
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#endif
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void RTNAME(CppProductComplex4)(CppTypeFor<TypeCategory::Complex, 4> &result,
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const Descriptor &x, const char *source, int line, int dim,
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const Descriptor *mask) {
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result = GetTotalReduction<TypeCategory::Complex, 4>(x, source, line, dim,
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mask, ComplexProductAccumulator<CppTypeFor<TypeCategory::Real, 8>>{x},
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"PRODUCT");
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}
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void RTNAME(CppProductComplex8)(CppTypeFor<TypeCategory::Complex, 8> &result,
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const Descriptor &x, const char *source, int line, int dim,
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const Descriptor *mask) {
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result = GetTotalReduction<TypeCategory::Complex, 8>(x, source, line, dim,
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mask, ComplexProductAccumulator<CppTypeFor<TypeCategory::Real, 8>>{x},
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"PRODUCT");
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}
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#if LONG_DOUBLE == 80
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void RTNAME(CppProductComplex10)(CppTypeFor<TypeCategory::Complex, 10> &result,
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const Descriptor &x, const char *source, int line, int dim,
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const Descriptor *mask) {
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result = GetTotalReduction<TypeCategory::Complex, 10>(x, source, line, dim,
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mask, ComplexProductAccumulator<CppTypeFor<TypeCategory::Real, 10>>{x},
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"PRODUCT");
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}
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#elif LONG_DOUBLE == 128
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void RTNAME(CppProductComplex16)(CppTypeFor<TypeCategory::Complex, 16> &result,
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const Descriptor &x, const char *source, int line, int dim,
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const Descriptor *mask) {
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result = GetTotalReduction<TypeCategory::Complex, 16>(x, source, line, dim,
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mask, ComplexProductAccumulator<CppTypeFor<TypeCategory::Real, 16>>{x},
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"PRODUCT");
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}
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#endif
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void RTNAME(ProductDim)(Descriptor &result, const Descriptor &x, int dim,
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const char *source, int line, const Descriptor *mask) {
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TypedPartialNumericReduction<NonComplexProductAccumulator,
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NonComplexProductAccumulator, ComplexProductAccumulator>(
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result, x, dim, source, line, mask, "PRODUCT");
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}
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} // extern "C"
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} // namespace Fortran::runtime
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