llvm-project/flang/runtime/ISO_Fortran_binding.cpp

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//===-- runtime/ISO_Fortran_binding.cpp -----------------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
// Implements the required interoperability API from ISO_Fortran_binding.h
// as specified in section 18.5.5 of Fortran 2018.
#include "../include/flang/ISO_Fortran_binding.h"
#include "descriptor.h"
#include <cstdlib>
namespace Fortran::ISO {
extern "C" {
static inline constexpr bool IsCharacterType(CFI_type_t ty) {
return ty == CFI_type_char;
}
static inline constexpr bool IsAssumedSize(const CFI_cdesc_t *dv) {
return dv->rank > 0 && dv->dim[dv->rank - 1].extent == -1;
}
void *CFI_address(
const CFI_cdesc_t *descriptor, const CFI_index_t subscripts[]) {
char *p{static_cast<char *>(descriptor->base_addr)};
const CFI_rank_t rank{descriptor->rank};
const CFI_dim_t *dim{descriptor->dim};
for (CFI_rank_t j{0}; j < rank; ++j, ++dim) {
p += (subscripts[j] - dim->lower_bound) * dim->sm;
}
return p;
}
int CFI_allocate(CFI_cdesc_t *descriptor, const CFI_index_t lower_bounds[],
const CFI_index_t upper_bounds[], std::size_t elem_len) {
if (!descriptor) {
return CFI_INVALID_DESCRIPTOR;
}
if (descriptor->version != CFI_VERSION) {
return CFI_INVALID_DESCRIPTOR;
}
if (descriptor->attribute != CFI_attribute_allocatable &&
descriptor->attribute != CFI_attribute_pointer) {
// Non-interoperable object
return CFI_INVALID_ATTRIBUTE;
}
if (descriptor->attribute == CFI_attribute_allocatable &&
descriptor->base_addr) {
return CFI_ERROR_BASE_ADDR_NOT_NULL;
}
if (descriptor->rank > CFI_MAX_RANK) {
return CFI_INVALID_RANK;
}
if (descriptor->type < CFI_type_signed_char ||
descriptor->type > CFI_type_struct) {
return CFI_INVALID_TYPE;
}
if (!IsCharacterType(descriptor->type)) {
elem_len = descriptor->elem_len;
if (elem_len <= 0) {
return CFI_INVALID_ELEM_LEN;
}
}
std::size_t rank{descriptor->rank};
CFI_dim_t *dim{descriptor->dim};
std::size_t byteSize{elem_len};
for (std::size_t j{0}; j < rank; ++j, ++dim) {
CFI_index_t lb{lower_bounds[j]};
CFI_index_t ub{upper_bounds[j]};
CFI_index_t extent{ub >= lb ? ub - lb + 1 : 0};
dim->lower_bound = lb;
dim->extent = extent;
dim->sm = byteSize;
byteSize *= extent;
}
void *p{std::malloc(byteSize)};
if (!p) {
return CFI_ERROR_MEM_ALLOCATION;
}
descriptor->base_addr = p;
descriptor->elem_len = elem_len;
return CFI_SUCCESS;
}
int CFI_deallocate(CFI_cdesc_t *descriptor) {
if (!descriptor) {
return CFI_INVALID_DESCRIPTOR;
}
if (descriptor->version != CFI_VERSION) {
return CFI_INVALID_DESCRIPTOR;
}
if (descriptor->attribute != CFI_attribute_allocatable &&
descriptor->attribute != CFI_attribute_pointer) {
// Non-interoperable object
return CFI_INVALID_DESCRIPTOR;
}
if (!descriptor->base_addr) {
return CFI_ERROR_BASE_ADDR_NULL;
}
std::free(descriptor->base_addr);
descriptor->base_addr = nullptr;
return CFI_SUCCESS;
}
static constexpr std::size_t MinElemLen(CFI_type_t type) {
std::size_t minElemLen{0};
switch (type) {
case CFI_type_signed_char:
minElemLen = sizeof(signed char);
break;
case CFI_type_short:
minElemLen = sizeof(short);
break;
case CFI_type_int:
minElemLen = sizeof(int);
break;
case CFI_type_long:
minElemLen = sizeof(long);
break;
case CFI_type_long_long:
minElemLen = sizeof(long long);
break;
case CFI_type_size_t:
minElemLen = sizeof(std::size_t);
break;
case CFI_type_int8_t:
minElemLen = sizeof(std::int8_t);
break;
case CFI_type_int16_t:
minElemLen = sizeof(std::int16_t);
break;
case CFI_type_int32_t:
minElemLen = sizeof(std::int32_t);
break;
case CFI_type_int64_t:
minElemLen = sizeof(std::int64_t);
break;
case CFI_type_int128_t:
minElemLen = 2 * sizeof(std::int64_t);
break;
case CFI_type_int_least8_t:
minElemLen = sizeof(std::int_least8_t);
break;
case CFI_type_int_least16_t:
minElemLen = sizeof(std::int_least16_t);
break;
case CFI_type_int_least32_t:
minElemLen = sizeof(std::int_least32_t);
break;
case CFI_type_int_least64_t:
minElemLen = sizeof(std::int_least64_t);
break;
case CFI_type_int_least128_t:
minElemLen = 2 * sizeof(std::int_least64_t);
break;
case CFI_type_int_fast8_t:
minElemLen = sizeof(std::int_fast8_t);
break;
case CFI_type_int_fast16_t:
minElemLen = sizeof(std::int_fast16_t);
break;
case CFI_type_int_fast32_t:
minElemLen = sizeof(std::int_fast32_t);
break;
case CFI_type_int_fast64_t:
minElemLen = sizeof(std::int_fast64_t);
break;
case CFI_type_intmax_t:
minElemLen = sizeof(std::intmax_t);
break;
case CFI_type_intptr_t:
minElemLen = sizeof(std::intptr_t);
break;
case CFI_type_ptrdiff_t:
minElemLen = sizeof(std::ptrdiff_t);
break;
case CFI_type_float:
minElemLen = sizeof(float);
break;
case CFI_type_double:
minElemLen = sizeof(double);
break;
case CFI_type_long_double:
minElemLen = sizeof(long double);
break;
case CFI_type_float_Complex:
minElemLen = 2 * sizeof(float);
break;
case CFI_type_double_Complex:
minElemLen = 2 * sizeof(double);
break;
case CFI_type_long_double_Complex:
minElemLen = 2 * sizeof(long double);
break;
case CFI_type_Bool:
minElemLen = 1;
break;
case CFI_type_cptr:
minElemLen = sizeof(void *);
break;
}
return minElemLen;
}
int CFI_establish(CFI_cdesc_t *descriptor, void *base_addr,
CFI_attribute_t attribute, CFI_type_t type, std::size_t elem_len,
CFI_rank_t rank, const CFI_index_t extents[]) {
if (attribute != CFI_attribute_other && attribute != CFI_attribute_pointer &&
attribute != CFI_attribute_allocatable) {
return CFI_INVALID_ATTRIBUTE;
}
if (rank > CFI_MAX_RANK) {
return CFI_INVALID_RANK;
}
if (base_addr && attribute == CFI_attribute_allocatable) {
return CFI_ERROR_BASE_ADDR_NOT_NULL;
}
if (rank > 0 && base_addr && !extents) {
return CFI_INVALID_EXTENT;
}
if (type < CFI_type_signed_char || type > CFI_type_struct) {
return CFI_INVALID_TYPE;
}
if (!descriptor) {
return CFI_INVALID_DESCRIPTOR;
}
std::size_t minElemLen{MinElemLen(type)};
if (minElemLen > 0) {
elem_len = minElemLen;
} else if (elem_len <= 0) {
return CFI_INVALID_ELEM_LEN;
}
descriptor->base_addr = base_addr;
descriptor->elem_len = elem_len;
descriptor->version = CFI_VERSION;
descriptor->rank = rank;
descriptor->type = type;
descriptor->attribute = attribute;
descriptor->f18Addendum = 0;
std::size_t byteSize{elem_len};
constexpr std::size_t lower_bound{0};
if (base_addr) {
for (std::size_t j{0}; j < rank; ++j) {
descriptor->dim[j].lower_bound = lower_bound;
descriptor->dim[j].extent = extents[j];
descriptor->dim[j].sm = byteSize;
byteSize *= extents[j];
}
}
return CFI_SUCCESS;
}
int CFI_is_contiguous(const CFI_cdesc_t *descriptor) {
CFI_index_t bytes = descriptor->elem_len;
for (int j{0}; j < descriptor->rank; ++j) {
if (bytes != descriptor->dim[j].sm) {
return 0;
}
bytes *= descriptor->dim[j].extent;
}
return 1;
}
int CFI_section(CFI_cdesc_t *result, const CFI_cdesc_t *source,
const CFI_index_t lower_bounds[], const CFI_index_t upper_bounds[],
const CFI_index_t strides[]) {
CFI_index_t extent[CFI_MAX_RANK];
CFI_index_t actualStride[CFI_MAX_RANK];
CFI_rank_t resRank{0};
if (!result || !source) {
return CFI_INVALID_DESCRIPTOR;
}
if (source->rank == 0) {
return CFI_INVALID_RANK;
}
if (IsAssumedSize(source) && !upper_bounds) {
return CFI_INVALID_DESCRIPTOR;
}
if ((result->type != source->type) ||
(result->elem_len != source->elem_len)) {
return CFI_INVALID_DESCRIPTOR;
}
if (result->attribute == CFI_attribute_allocatable) {
return CFI_INVALID_ATTRIBUTE;
}
if (!source->base_addr) {
return CFI_ERROR_BASE_ADDR_NULL;
}
char *shiftedBaseAddr{static_cast<char *>(source->base_addr)};
bool isZeroSized{false};
for (int j{0}; j < source->rank; ++j) {
const CFI_dim_t &dim{source->dim[j]};
const CFI_index_t srcLB{dim.lower_bound};
const CFI_index_t srcUB{srcLB + dim.extent - 1};
const CFI_index_t lb{lower_bounds ? lower_bounds[j] : srcLB};
const CFI_index_t ub{upper_bounds ? upper_bounds[j] : srcUB};
const CFI_index_t stride{strides ? strides[j] : 1};
if (stride == 0 && lb != ub) {
return CFI_ERROR_OUT_OF_BOUNDS;
}
if ((lb <= ub && stride >= 0) || (lb >= ub && stride < 0)) {
if ((lb < srcLB) || (lb > srcUB) || (ub < srcLB) || (ub > srcUB)) {
return CFI_ERROR_OUT_OF_BOUNDS;
}
shiftedBaseAddr += (lb - srcLB) * dim.sm;
extent[j] = stride != 0 ? 1 + (ub - lb) / stride : 1;
} else {
isZeroSized = true;
extent[j] = 0;
}
actualStride[j] = stride;
resRank += (stride != 0);
}
if (resRank != result->rank) {
return CFI_INVALID_DESCRIPTOR;
}
// For zero-sized arrays, base_addr is processor-dependent (see 18.5.3).
// We keep it on the source base_addr
result->base_addr = isZeroSized ? source->base_addr : shiftedBaseAddr;
resRank = 0;
for (int j{0}; j < source->rank; ++j) {
if (actualStride[j] != 0) {
result->dim[resRank].lower_bound = 0;
result->dim[resRank].extent = extent[j];
result->dim[resRank].sm = actualStride[j] * source->dim[j].sm;
++resRank;
}
}
return CFI_SUCCESS;
}
int CFI_select_part(CFI_cdesc_t *result, const CFI_cdesc_t *source,
std::size_t displacement, std::size_t elem_len) {
if (!result || !source) {
return CFI_INVALID_DESCRIPTOR;
}
if (result->rank != source->rank) {
return CFI_INVALID_RANK;
}
if (result->attribute == CFI_attribute_allocatable) {
return CFI_INVALID_ATTRIBUTE;
}
if (!source->base_addr) {
return CFI_ERROR_BASE_ADDR_NULL;
}
if (IsAssumedSize(source)) {
return CFI_INVALID_DESCRIPTOR;
}
if (!IsCharacterType(result->type)) {
elem_len = result->elem_len;
}
if (displacement + elem_len > source->elem_len) {
return CFI_INVALID_ELEM_LEN;
}
result->base_addr = displacement + static_cast<char *>(source->base_addr);
result->elem_len = elem_len;
for (int j{0}; j < source->rank; ++j) {
result->dim[j].lower_bound = 0;
result->dim[j].extent = source->dim[j].extent;
result->dim[j].sm = source->dim[j].sm;
}
return CFI_SUCCESS;
}
int CFI_setpointer(CFI_cdesc_t *result, const CFI_cdesc_t *source,
const CFI_index_t lower_bounds[]) {
if (!result) {
return CFI_INVALID_DESCRIPTOR;
}
if (result->attribute != CFI_attribute_pointer) {
return CFI_INVALID_ATTRIBUTE;
}
if (!source) {
result->base_addr = nullptr;
return CFI_SUCCESS;
}
if (source->rank != result->rank) {
return CFI_INVALID_RANK;
}
if (source->type != result->type) {
return CFI_INVALID_TYPE;
}
if (source->elem_len != result->elem_len) {
return CFI_INVALID_ELEM_LEN;
}
if (!source->base_addr && source->attribute != CFI_attribute_pointer) {
return CFI_ERROR_BASE_ADDR_NULL;
}
if (IsAssumedSize(source)) {
return CFI_INVALID_DESCRIPTOR;
}
const bool copySrcLB{!lower_bounds};
result->base_addr = source->base_addr;
if (source->base_addr) {
for (int j{0}; j < result->rank; ++j) {
result->dim[j].extent = source->dim[j].extent;
result->dim[j].sm = source->dim[j].sm;
result->dim[j].lower_bound =
copySrcLB ? source->dim[j].lower_bound : lower_bounds[j];
}
}
return CFI_SUCCESS;
}
} // extern "C"
} // namespace Fortran::ISO