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I'm just applying doc/memory_view.md as a doxygen comment. [ci skip]
321 lines
11 KiB
C++
321 lines
11 KiB
C++
#ifndef RUBY_MEMORY_VIEW_H /*-*-C++-*-vi:se ft=cpp:*/
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#define RUBY_MEMORY_VIEW_H 1
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/**
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* @file
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* @author Ruby developers <ruby-core@ruby-lang.org>
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* @copyright This file is a part of the programming language Ruby.
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* Permission is hereby granted, to either redistribute and/or
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* modify this file, provided that the conditions mentioned in the
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* file COPYING are met. Consult the file for details.
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* @brief Memory View.
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*/
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#include "ruby/internal/config.h"
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#ifdef STDC_HEADERS
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# include <stddef.h> /* size_t */
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#endif
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#if HAVE_SYS_TYPES_H
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# include <sys/types.h> /* ssize_t */
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#endif
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#include "ruby/internal/attr/pure.h" /* RBIMPL_ATTR_PURE */
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#include "ruby/internal/core/rtypeddata.h" /* rb_data_type_t */
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#include "ruby/internal/dllexport.h" /* RUBY_EXTERN */
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#include "ruby/internal/stdbool.h" /* bool */
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#include "ruby/internal/value.h" /* VALUE */
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/**
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* Flags passed to rb_memory_view_get(), then to ::rb_memory_view_get_func_t.
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*/
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enum ruby_memory_view_flags {
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RUBY_MEMORY_VIEW_SIMPLE = 0,
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RUBY_MEMORY_VIEW_WRITABLE = (1<<0),
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RUBY_MEMORY_VIEW_FORMAT = (1<<1),
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RUBY_MEMORY_VIEW_MULTI_DIMENSIONAL = (1<<2),
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RUBY_MEMORY_VIEW_STRIDES = (1<<3) | RUBY_MEMORY_VIEW_MULTI_DIMENSIONAL,
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RUBY_MEMORY_VIEW_ROW_MAJOR = (1<<4) | RUBY_MEMORY_VIEW_STRIDES,
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RUBY_MEMORY_VIEW_COLUMN_MAJOR = (1<<5) | RUBY_MEMORY_VIEW_STRIDES,
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RUBY_MEMORY_VIEW_ANY_CONTIGUOUS = RUBY_MEMORY_VIEW_ROW_MAJOR | RUBY_MEMORY_VIEW_COLUMN_MAJOR,
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RUBY_MEMORY_VIEW_INDIRECT = (1<<6) | RUBY_MEMORY_VIEW_STRIDES,
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};
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/** Memory view component metadata. */
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typedef struct {
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/** @see ::rb_memory_view_t::format */
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char format;
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/** :FIXME: what is a "native" size is unclear. */
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unsigned native_size_p: 1;
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/** Endian of the component */
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unsigned little_endian_p: 1;
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/** The component's offset. */
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size_t offset;
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/** The component's size. */
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size_t size;
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/**
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* How many numbers of components are there. For instance "CCC"'s repeat is
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* 3.
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*/
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size_t repeat;
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} rb_memory_view_item_component_t;
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/**
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* A MemoryView structure, `rb_memory_view_t`, is used for exporting objects'
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* MemoryView.
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*
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* This structure contains the reference of the object, which is the owner of
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* the MemoryView, the pointer to the head of exported memory, and the metadata
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* that describes the structure of the memory. The metadata can describe
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* multidimensional arrays with strides.
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*/
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typedef struct {
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/**
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* The original object that has the memory exported via this memory view.
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*/
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VALUE obj;
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/** The pointer to the exported memory. */
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void *data;
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/** The number of bytes in data. */
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ssize_t byte_size;
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/** true for readonly memory, false for writable memory. */
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bool readonly;
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/**
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* A string to describe the format of an element, or NULL for unsigned bytes.
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* The format string is a sequence of the following pack-template specifiers:
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*
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* c, C, s, s!, S, S!, n, v, i, i!, I, I!, l, l!, L, L!,
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* N, V, f, e, g, q, q!, Q, Q!, d, E, G, j, J, x
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*
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* For example, "dd" for an element that consists of two double values,
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* and "CCC" for an element that consists of three bytes, such as
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* an RGB color triplet.
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*
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* Also, the value endianness can be explicitly specified by '<' or '>'
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* following a value type specifier.
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*
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* The items are packed contiguously. When you emulate the alignment of
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* structure members, put '|' at the beginning of the format string,
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* like "|iqc". On x86_64 Linux ABI, the size of the item by this format
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* is 24 bytes instead of 13 bytes.
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*/
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const char *format;
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/**
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* The number of bytes in each element.
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* item_size should equal to rb_memory_view_item_size_from_format(format). */
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ssize_t item_size;
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/** Description of each components. */
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struct {
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/**
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* The array of rb_memory_view_item_component_t that describes the
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* item structure. rb_memory_view_prepare_item_desc and
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* rb_memory_view_get_item allocate this memory if needed,
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* and rb_memory_view_release frees it. */
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const rb_memory_view_item_component_t *components;
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/** The number of components in an item. */
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size_t length;
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} item_desc;
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/** The number of dimension. */
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ssize_t ndim;
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/**
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* ndim size array indicating the number of elements in each dimension.
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* This can be NULL when ndim == 1. */
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const ssize_t *shape;
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/**
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* ndim size array indicating the number of bytes to skip to go to the
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* next element in each dimension. */
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const ssize_t *strides;
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/**
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* The offset in each dimension when this memory view exposes a nested array.
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* Or, NULL when this memory view exposes a flat array. */
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const ssize_t *sub_offsets;
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/** the private data for managing this exported memory */
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void *private_data;
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} rb_memory_view_t;
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/** Type of function of ::rb_memory_view_entry_t::get_func. */
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typedef bool (* rb_memory_view_get_func_t)(VALUE obj, rb_memory_view_t *view, int flags);
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/** Type of function of ::rb_memory_view_entry_t::release_func. */
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typedef bool (* rb_memory_view_release_func_t)(VALUE obj, rb_memory_view_t *view);
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/** Type of function of ::rb_memory_view_entry_t::available_p_func. */
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typedef bool (* rb_memory_view_available_p_func_t)(VALUE obj);
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/** Operations applied to a specific kind of a memory view. */
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typedef struct {
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/** Exports a memory view from a Ruby object. */
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rb_memory_view_get_func_t get_func;
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/**
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* Releases a memory view that was previously generated using
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* ::rb_memory_view_entry_t::get_func.
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*/
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rb_memory_view_release_func_t release_func;
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/**
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* Queries if an object understands memory view protocol.
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*/
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rb_memory_view_available_p_func_t available_p_func;
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} rb_memory_view_entry_t;
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RBIMPL_SYMBOL_EXPORT_BEGIN()
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/* memory_view.c */
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/**
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* Associates the passed class with the passed memory view entry. This has to
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* be called before actually creating a memory view from an instance.
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*/
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bool rb_memory_view_register(VALUE klass, const rb_memory_view_entry_t *entry);
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RBIMPL_ATTR_PURE()
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/**
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* Return `true` if the data in the MemoryView `view` is row-major contiguous.
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*
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* Return `false` otherwise.
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*/
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bool rb_memory_view_is_row_major_contiguous(const rb_memory_view_t *view);
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RBIMPL_ATTR_PURE()
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/**
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* Return `true` if the data in the MemoryView `view` is column-major
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* contiguous.
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*
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* Return `false` otherwise.
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*/
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bool rb_memory_view_is_column_major_contiguous(const rb_memory_view_t *view);
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RBIMPL_ATTR_NOALIAS()
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/**
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* Fill the `strides` array with byte-Strides of a contiguous array of the
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* given shape with the given element size.
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*/
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void rb_memory_view_fill_contiguous_strides(const ssize_t ndim, const ssize_t item_size, const ssize_t *const shape, const bool row_major_p, ssize_t *const strides);
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RBIMPL_ATTR_NOALIAS()
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/**
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* Fill the members of `view` as an 1-dimensional byte array.
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*/
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bool rb_memory_view_init_as_byte_array(rb_memory_view_t *view, VALUE obj, void *data, const ssize_t len, const bool readonly);
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/**
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* Deconstructs the passed format string, as describe in
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* ::rb_memory_view_t::format.
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*/
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ssize_t rb_memory_view_parse_item_format(const char *format,
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rb_memory_view_item_component_t **members,
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size_t *n_members, const char **err);
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/**
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* Calculate the number of bytes occupied by an element.
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*
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* When the calculation fails, the failed location in `format` is stored into
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* `err`, and returns `-1`.
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*/
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ssize_t rb_memory_view_item_size_from_format(const char *format, const char **err);
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/**
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* Calculate the location of the item indicated by the given `indices`.
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*
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* The length of `indices` must equal to `view->ndim`.
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*
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* This function initializes `view->item_desc` if needed.
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*/
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void *rb_memory_view_get_item_pointer(rb_memory_view_t *view, const ssize_t *indices);
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/**
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* Return a value that consists of item members.
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*
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* When an item is a single member, the return value is a single value.
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*
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* When an item consists of multiple members, an array will be returned.
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*/
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VALUE rb_memory_view_extract_item_members(const void *ptr, const rb_memory_view_item_component_t *members, const size_t n_members);
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/** Fill the `item_desc` member of `view`. */
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void rb_memory_view_prepare_item_desc(rb_memory_view_t *view);
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/** * Return a value that consists of item members in the given memory view. */
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VALUE rb_memory_view_get_item(rb_memory_view_t *view, const ssize_t *indices);
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/**
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* Return `true` if `obj` supports to export a MemoryView. Return `false`
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* otherwise.
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*
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* If this function returns `true`, it doesn't mean the function
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* `rb_memory_view_get` will succeed.
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*/
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bool rb_memory_view_available_p(VALUE obj);
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/**
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* If the given `obj` supports to export a MemoryView that conforms the given
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* `flags`, this function fills `view` by the information of the MemoryView and
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* returns `true`. In this case, the reference count of `obj` is increased.
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*
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* If the given combination of `obj` and `flags` cannot export a MemoryView,
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* this function returns `false`. The content of `view` is not touched in this
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* case.
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*
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* The exported MemoryView must be released by `rb_memory_view_release` when
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* the MemoryView is no longer needed.
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*/
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bool rb_memory_view_get(VALUE obj, rb_memory_view_t* memory_view, int flags);
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/**
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* Release the given MemoryView `view` and decrement the reference count of
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* `memory_view->obj`.
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*
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* Consumers must call this function when the MemoryView is no longer needed.
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* Missing to call this function leads memory leak.
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*/
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bool rb_memory_view_release(rb_memory_view_t* memory_view);
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/* for testing */
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/** @cond INTERNAL_MACRO */
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RUBY_EXTERN VALUE rb_memory_view_exported_object_registry;
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RUBY_EXTERN const rb_data_type_t rb_memory_view_exported_object_registry_data_type;
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/** @endcond */
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RBIMPL_SYMBOL_EXPORT_END()
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RBIMPL_ATTR_PURE()
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/**
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* Return `true` if the data in the MemoryView `view` is row-major or
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* column-major contiguous.
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*
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* Return `false` otherwise.
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*/
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static inline bool
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rb_memory_view_is_contiguous(const rb_memory_view_t *view)
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{
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if (rb_memory_view_is_row_major_contiguous(view)) {
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return true;
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}
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else if (rb_memory_view_is_column_major_contiguous(view)) {
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return true;
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}
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else {
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return false;
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}
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}
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#endif /* RUBY_BUFFER_H */
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