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/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
 * Copyright by The HDF Group.                                               *
 * Copyright by the Board of Trustees of the University of Illinois.         *
 * All rights reserved.                                                      *
 *                                                                           *
 * This file is part of HDF5.  The full HDF5 copyright notice, including     *
 * terms governing use, modification, and redistribution, is contained in    *
 * the COPYING file, which can be found at the root of the source code       *
 * distribution tree, or in https://www.hdfgroup.org/licenses.               *
 * If you do not have access to either file, you may request a copy from     *
 * help@hdfgroup.org.                                                        *
 * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */

/*
 * Programmer:	Quincey Koziol
 *		Thursday, September 28, 2000
 *
 * Purpose:	This file contains declarations which are visible only within
 *		the H5S package.  Source files outside the H5S package should
 *		include H5Sprivate.h instead.
 */
#if !(defined H5S_FRIEND || defined H5S_MODULE)
#error "Do not include this file outside the H5S package!"
#endif

#ifndef _H5Spkg_H
#define _H5Spkg_H

/* Get package's private header */
#include "H5Sprivate.h"

/* Other private headers needed by this file */
#include "H5Oprivate.h" /* Object headers		  	*/

/* Flags to indicate special dataspace features are active */
#define H5S_VALID_MAX  0x01
#define H5S_VALID_PERM 0x02

/* Flags for serialization of selections */
#define H5S_HYPER_REGULAR    0x01
#define H5S_SELECT_FLAG_BITS (H5S_HYPER_REGULAR)

/* Versions for H5S_SEL_HYPER selection info */
#define H5S_HYPER_VERSION_1      1
#define H5S_HYPER_VERSION_2      2
#define H5S_HYPER_VERSION_3      3
#define H5S_HYPER_VERSION_LATEST H5S_HYPER_VERSION_3

/* Versions for H5S_SEL_POINTS selection info */
#define H5S_POINT_VERSION_1      1
#define H5S_POINT_VERSION_2      2
#define H5S_POINT_VERSION_LATEST H5S_POINT_VERSION_2

/* Versions for H5S_SEL_NONE selection info */
#define H5S_NONE_VERSION_1      1
#define H5S_NONE_VERSION_LATEST H5S_NONE_VERSION_1

/* Versions for H5S_SEL_ALL selection info */
#define H5S_ALL_VERSION_1      1
#define H5S_ALL_VERSION_LATEST H5S_ALL_VERSION_1

/* Encoded size of selection info for H5S_SEL_POINTS/H5S_SEL_HYPER */
#define H5S_SELECT_INFO_ENC_SIZE_2 0x02 /* 2 bytes: 16 bits */
#define H5S_SELECT_INFO_ENC_SIZE_4 0x04 /* 4 bytes: 32 bits */
#define H5S_SELECT_INFO_ENC_SIZE_8 0x08 /* 8 bytes: 64 bits */
#define H5S_SELECT_INFO_ENC_SIZE_BITS                                                                        \
    (H5S_SELECT_INFO_ENC_SIZE_2 | H5S_SELECT_INFO_ENC_SIZE_4 | H5S_SELECT_INFO_ENC_SIZE_8)

#define H5S_UINT16_MAX 0x0000FFFF       /* 2^16 - 1 = 65,535                            */
#define H5S_UINT32_MAX 0xFFFFFFFF       /* 2^32 - 1 = 4,294,967,295                     */
#define H5S_UINT64_MAX ((hsize_t)(-1L)) /* 2^64 - 1 = 18,446,744,073,709,551,615 */

/* Length of stack-allocated sequences for "project intersect" routines */
#define H5S_PROJECT_INTERSECT_NSEQS 256

/* Internal flags for initializing selection iterators */
#define H5S_SEL_ITER_API_CALL 0x1000 /* Selection iterator created from API call */

/* Initial version of the dataspace information */
#define H5O_SDSPACE_VERSION_1 1

/* This version adds support for "null" dataspaces, encodes the type of the
 *      dataspace in the message and eliminated the rest of the "reserved"
 *      bytes.
 */
#define H5O_SDSPACE_VERSION_2 2

/* The latest version of the format.  Look through the 'encode'
 *      and 'size' callbacks for places to change when updating this. */
#define H5O_SDSPACE_VERSION_LATEST H5O_SDSPACE_VERSION_2

/* Maximum dimension size (highest value that is not a special value e.g.
 * H5S_UNLIMITED) */
#define H5S_MAX_SIZE ((hsize_t)(hssize_t)(-2))

/* Macro for checking if two ranges overlap one another */
/*
 * Check for the inverse of whether the ranges are disjoint.  If they are
 * disjoint, then the low bound of one of the ranges must be greater than the
 * high bound of the other.
 */
/* (Assumes that low & high bounds are _inclusive_) */
#define H5S_RANGE_OVERLAP(L1, H1, L2, H2) (!((L1) > (H2) || (L2) > (H1)))

/*
 * Dataspace extent information
 */
/* Extent container */
struct H5S_extent_t {
    H5O_shared_t sh_loc; /* Shared message info (must be first) */

    H5S_class_t type;    /* Type of extent */
    unsigned    version; /* Version of object header message to encode this object with */
    hsize_t     nelem;   /* Number of elements in extent */

    unsigned rank; /* Number of dimensions */
    hsize_t *size; /* Current size of the dimensions */
    hsize_t *max;  /* Maximum size of the dimensions */
};

/*
 * Dataspace selection information
 */

/* Node in point selection list (typedef'd in H5Sprivate.h) */
struct H5S_pnt_node_t {
    struct H5S_pnt_node_t *next;  /* Pointer to next point in list */
    hsize_t                pnt[]; /* Selected point */
                                  /* (NOTE: This uses the C99 "flexible array member" feature) */
};

/* Information about point selection list (typedef'd in H5Sprivate.h) */
struct H5S_pnt_list_t {
    /* The following two fields defines the bounding box of the whole set of points, relative to the offset */
    hsize_t low_bounds[H5S_MAX_RANK];  /* The smallest element selected in each dimension */
    hsize_t high_bounds[H5S_MAX_RANK]; /* The largest element selected in each dimension */

    H5S_pnt_node_t *head; /* Pointer to head of point list */
    H5S_pnt_node_t *tail; /* Pointer to tail of point list */

    hsize_t last_idx; /* Index of the point after the last returned from H5S__get_select_elem_pointlist() */
    H5S_pnt_node_t *last_idx_pnt; /* Point after the last returned from H5S__get_select_elem_pointlist().
                                   * If we ever add a way to remove points or add points in the middle of
                                   * the pointlist we will need to invalidate these fields. */
};

/* Information about hyperslab spans */

/* Information a particular hyperslab span (typedef'd in H5Sprivate.h) */
struct H5S_hyper_span_t {
    hsize_t                       low, high; /* Low & high bounds of elements selected for span, inclusive */
    struct H5S_hyper_span_info_t *down;      /* Pointer to list of spans in next dimension down */
    struct H5S_hyper_span_t *     next;      /* Pointer to next span in list */
};

/* "Operation info" struct.  Used to hold temporary information during  copies,
 * 'adjust', 'nelem', and 'rebuild' operations, and higher level algorithms that
 * generate this information. */
typedef struct H5S_hyper_op_info_t {
    uint64_t op_gen; /* Generation of the scratch info */
    union {
        struct H5S_hyper_span_info_t *copied;  /* Pointer to already copied span tree */
        hsize_t                       nelmts;  /* # of elements */
        hsize_t                       nblocks; /* # of blocks */
#ifdef H5_HAVE_PARALLEL
        MPI_Datatype down_type; /* MPI datatype for span tree */
#endif                          /* H5_HAVE_PARALLEL */
    } u;
} H5S_hyper_op_info_t;

/* Information about a list of hyperslab spans in one dimension (typedef'd in H5Sprivate.h) */
struct H5S_hyper_span_info_t {
    unsigned count; /* Ref. count of number of spans which share this span */

    /* The following two fields define the bounding box of this set of spans
     *  and all lower dimensions, relative to the offset.
     */
    /* (NOTE: The bounds arrays are _relative_ to the depth of the span_info
     *          node in the span tree, so the top node in a 5-D span tree will
     *          use indices 0-4 in the arrays to store it's bounds information,
     *          but the next level down in the span tree will use indices 0-3.
     *          So, each level in the span tree will have the 0th index in the
     *          arrays correspond to the bounds in "this" dimension, even if
     *          it's not the highest level in the span tree.
     */
    hsize_t *low_bounds;  /* The smallest element selected in each dimension */
    hsize_t *high_bounds; /* The largest element selected in each dimension */

    /* "Operation info" fields */
    /* (Used during copies, 'adjust', 'nelem', and 'rebuild' operations) */
    /* Currently the maximum number of simultaneous operations is 2 */
    H5S_hyper_op_info_t op_info[2];

    struct H5S_hyper_span_t *head; /* Pointer to the first span of list of spans in the current dimension */
    struct H5S_hyper_span_t *tail; /* Pointer to the last span of list of spans in the current dimension */
    hsize_t                  bounds[]; /* Array for storing low & high bounds */
                                       /* (NOTE: This uses the C99 "flexible array member" feature) */
};

/* Enum for diminfo_valid field in H5S_hyper_sel_t */
typedef enum {
    H5S_DIMINFO_VALID_IMPOSSIBLE, /* 0: diminfo is not valid and can never be valid with the current selection
                                   */
    H5S_DIMINFO_VALID_NO,         /* 1: diminfo is not valid but may or may not be possible to constuct */
    H5S_DIMINFO_VALID_YES         /* 2: diminfo is valid */
} H5S_diminfo_valid_t;

/* Information about 'diminfo' form of hyperslab selection */
typedef struct {
    /* 'opt' points to a [potentially] optimized version of the user's
     * regular hyperslab information.  'app' points to the actual parameters
     * that the application used for setting the hyperslab selection.
     *
     * The 'app' values are only used for regurgitating the original values
     * used to set the hyperslab to the application when it queries the
     * hyperslab selection information.
     */
    H5S_hyper_dim_t app[H5S_MAX_RANK]; /* Application-set per-dim selection info */
    H5S_hyper_dim_t opt[H5S_MAX_RANK]; /* Optimized per-dim selection info */

    /* The following two fields defines the bounding box of the diminfo selection */
    /* (relative to the offset) */
    hsize_t low_bounds[H5S_MAX_RANK];  /* The smallest element selected in each dimension */
    hsize_t high_bounds[H5S_MAX_RANK]; /* The largest element selected in each dimension */
} H5S_hyper_diminfo_t;

/* Information about hyperslab selection */
typedef struct {
    H5S_diminfo_valid_t diminfo_valid; /* Whether the dataset has valid diminfo */

    H5S_hyper_diminfo_t diminfo;            /* Dimension info form of hyperslab selection */
    int                 unlim_dim;          /* Dimension where selection is unlimited, or -1 if none */
    hsize_t             num_elem_non_unlim; /* # of elements in a "slice" excluding the unlimited dimension */
    H5S_hyper_span_info_t *span_lst;        /* List of hyperslab span information of all dimensions */
} H5S_hyper_sel_t;

/* Selection information methods */
/* Method to copy a selection */
typedef herr_t (*H5S_sel_copy_func_t)(H5S_t *dst, const H5S_t *src, hbool_t share_selection);
/* Method to release current selection */
typedef herr_t (*H5S_sel_release_func_t)(H5S_t *space);
/* Method to determine if current selection is valid for dataspace */
typedef htri_t (*H5S_sel_is_valid_func_t)(const H5S_t *space);
/* Method to determine number of bytes required to store current selection */
typedef hssize_t (*H5S_sel_serial_size_func_t)(const H5S_t *space);
/* Method to store current selection in "serialized" form (a byte sequence suitable for storing on disk) */
typedef herr_t (*H5S_sel_serialize_func_t)(const H5S_t *space, uint8_t **p);
/* Method to create selection from "serialized" form (a byte sequence suitable for storing on disk) */
typedef herr_t (*H5S_sel_deserialize_func_t)(H5S_t **space, const uint8_t **p);
/* Method to determine smallest n-D bounding box containing the current selection */
typedef herr_t (*H5S_sel_bounds_func_t)(const H5S_t *space, hsize_t *start, hsize_t *end);
/* Method to determine linear offset of initial element in selection within dataspace */
typedef herr_t (*H5S_sel_offset_func_t)(const H5S_t *space, hsize_t *offset);
/* Method to get unlimited dimension of selection (or -1 for none) */
typedef int (*H5S_sel_unlim_dim_func_t)(const H5S_t *space);
/* Method to get the number of elements in a slice through the unlimited dimension */
typedef herr_t (*H5S_sel_num_elem_non_unlim_func_t)(const H5S_t *space, hsize_t *num_elem_non_unlim);
/* Method to determine if current selection is contiguous */
typedef htri_t (*H5S_sel_is_contiguous_func_t)(const H5S_t *space);
/* Method to determine if current selection is a single block */
typedef htri_t (*H5S_sel_is_single_func_t)(const H5S_t *space);
/* Method to determine if current selection is "regular" */
typedef htri_t (*H5S_sel_is_regular_func_t)(const H5S_t *space);
/* Method to determine if two dataspaces' selections are the same shape */
typedef htri_t (*H5S_sel_shape_same_func_t)(const H5S_t *space1, const H5S_t *space2);
/* Method to determine if selection intersects a block */
typedef htri_t (*H5S_sel_intersect_block_func_t)(const H5S_t *space, const hsize_t *start,
                                                 const hsize_t *end);
/* Method to adjust a selection by an offset */
typedef herr_t (*H5S_sel_adjust_u_func_t)(H5S_t *space, const hsize_t *offset);
/* Method to adjust a selection by an offset (signed) */
typedef herr_t (*H5S_sel_adjust_s_func_t)(H5S_t *space, const hssize_t *offset);
/* Method to construct single element projection onto scalar dataspace */
typedef herr_t (*H5S_sel_project_scalar)(const H5S_t *space, hsize_t *offset);
/* Method to construct selection projection onto/into simple dataspace */
typedef herr_t (*H5S_sel_project_simple)(const H5S_t *space, H5S_t *new_space, hsize_t *offset);
/* Method to initialize iterator for current selection */
typedef herr_t (*H5S_sel_iter_init_func_t)(const H5S_t *space, H5S_sel_iter_t *sel_iter);

/* Selection class information */
typedef struct {
    H5S_sel_type type; /* Type of selection (all, none, points or hyperslab) */

    /* Methods */
    H5S_sel_copy_func_t     copy;     /* Method to make a copy of a selection */
    H5S_sel_release_func_t  release;  /* Method to release current selection */
    H5S_sel_is_valid_func_t is_valid; /* Method to determine if current selection is valid for dataspace */
    H5S_sel_serial_size_func_t
                             serial_size; /* Method to determine number of bytes required to store current selection */
    H5S_sel_serialize_func_t serialize;     /* Method to store current selection in "serialized" form (a byte
                                               sequence suitable for storing on disk) */
    H5S_sel_deserialize_func_t deserialize; /* Method to store create selection from "serialized" form (a byte
                                               sequence suitable for storing on disk) */
    H5S_sel_bounds_func_t
        bounds; /* Method to determine to smallest n-D bounding box containing the current selection */
    H5S_sel_offset_func_t
                             offset; /* Method to determine linear offset of initial element in selection within dataspace */
    H5S_sel_unlim_dim_func_t unlim_dim; /* Method to get unlimited dimension of selection (or -1 for none) */
    H5S_sel_num_elem_non_unlim_func_t num_elem_non_unlim; /* Method to get the number of elements in a slice
                                                             through the unlimited dimension */
    H5S_sel_is_contiguous_func_t is_contiguous; /* Method to determine if current selection is contiguous */
    H5S_sel_is_single_func_t     is_single;  /* Method to determine if current selection is a single block */
    H5S_sel_is_regular_func_t    is_regular; /* Method to determine if current selection is "regular" */
    H5S_sel_shape_same_func_t
        shape_same; /* Method to determine if two dataspaces' selections are the same shape */
    H5S_sel_intersect_block_func_t
                             intersect_block; /* Method to determine if a dataspaces' selection intersects a block */
    H5S_sel_adjust_u_func_t  adjust_u;        /* Method to adjust a selection by an offset */
    H5S_sel_adjust_s_func_t  adjust_s;        /* Method to adjust a selection by an offset (signed) */
    H5S_sel_project_scalar   project_scalar; /* Method to construct scalar dataspace projection */
    H5S_sel_project_simple   project_simple; /* Method to construct simple dataspace projection */
    H5S_sel_iter_init_func_t iter_init;      /* Method to initialize iterator for current selection */
} H5S_select_class_t;

/* Selection information object */
typedef struct {
    const H5S_select_class_t *type; /* Pointer to selection's class info */

    hbool_t  offset_changed;       /* Indicate that the offset for the selection has been changed */
    hssize_t offset[H5S_MAX_RANK]; /* Offset within the extent */

    hsize_t num_elem; /* Number of elements in selection */

    union {
        H5S_pnt_list_t * pnt_lst; /* Info about list of selected points (order is important) */
        H5S_hyper_sel_t *hslab;   /* Info about hyperslab selection */
    } sel_info;
} H5S_select_t;

/* Main dataspace structure (typedef'd in H5Sprivate.h) */
struct H5S_t {
    H5S_extent_t extent; /* Dataspace extent (must stay first) */
    H5S_select_t select; /* Dataspace selection */
};

/* Selection iteration methods */
/* Method to retrieve the current coordinates of iterator for current selection */
typedef herr_t (*H5S_sel_iter_coords_func_t)(const H5S_sel_iter_t *iter, hsize_t *coords);
/* Method to retrieve the current block of iterator for current selection */
typedef herr_t (*H5S_sel_iter_block_func_t)(const H5S_sel_iter_t *iter, hsize_t *start, hsize_t *end);
/* Method to determine number of elements left in iterator for current selection */
typedef hsize_t (*H5S_sel_iter_nelmts_func_t)(const H5S_sel_iter_t *iter);
/* Method to determine if there are more blocks left in the current selection */
typedef htri_t (*H5S_sel_iter_has_next_block_func_t)(const H5S_sel_iter_t *iter);
/* Method to move selection iterator to the next element in the selection */
typedef herr_t (*H5S_sel_iter_next_func_t)(H5S_sel_iter_t *iter, size_t nelem);
/* Method to move selection iterator to the next block in the selection */
typedef herr_t (*H5S_sel_iter_next_block_func_t)(H5S_sel_iter_t *iter);
/* Method to retrieve a list of offset/length sequences for selection iterator */
typedef herr_t (*H5S_sel_iter_get_seq_list_func_t)(H5S_sel_iter_t *iter, size_t maxseq, size_t maxbytes,
                                                   size_t *nseq, size_t *nbytes, hsize_t *off, size_t *len);
/* Method to release iterator for current selection */
typedef herr_t (*H5S_sel_iter_release_func_t)(H5S_sel_iter_t *iter);

/* Selection iteration class */
typedef struct H5S_sel_iter_class_t {
    H5S_sel_type type; /* Type of selection (all, none, points or hyperslab) */

    /* Methods on selections */
    H5S_sel_iter_coords_func_t
        iter_coords; /* Method to retrieve the current coordinates of iterator for current selection */
    H5S_sel_iter_block_func_t
        iter_block; /* Method to retrieve the current block of iterator for current selection */
    H5S_sel_iter_nelmts_func_t
        iter_nelmts; /* Method to determine number of elements left in iterator for current selection */
    H5S_sel_iter_has_next_block_func_t
        iter_has_next_block; /* Method to query if there is another block left in the selection */
    H5S_sel_iter_next_func_t
        iter_next; /* Method to move selection iterator to the next element in the selection */
    H5S_sel_iter_next_block_func_t
        iter_next_block; /* Method to move selection iterator to the next block in the selection */
    H5S_sel_iter_get_seq_list_func_t
                                iter_get_seq_list; /* Method to retrieve a list of offset/length sequences for selection iterator */
    H5S_sel_iter_release_func_t iter_release; /* Method to release iterator for current selection */
} H5S_sel_iter_class_t;

/*
 * All selection class methods.
 */
H5_DLLVAR const H5S_select_class_t H5S_sel_all[1];

/*
 * Hyperslab selection class methods.
 */
H5_DLLVAR const H5S_select_class_t H5S_sel_hyper[1];

/*
 * None selection class methods.
 */
H5_DLLVAR const H5S_select_class_t H5S_sel_none[1];

/*
 * Pointer selection class methods.
 */
H5_DLLVAR const H5S_select_class_t H5S_sel_point[1];

/* Array of versions for Dataspace */
H5_DLLVAR const unsigned H5O_sdspace_ver_bounds[H5F_LIBVER_NBOUNDS];

/* Extent functions */
H5_DLL herr_t H5S__extent_release(H5S_extent_t *extent);
H5_DLL herr_t H5S__extent_copy_real(H5S_extent_t *dst, const H5S_extent_t *src, hbool_t copy_max);

/* Operations on hyperslab selections */
H5_DLL uint64_t H5S__hyper_get_op_gen(void);
H5_DLL void     H5S__hyper_rebuild(H5S_t *space);
H5_DLL herr_t   H5S__modify_select(H5S_t *space1, H5S_seloper_t op, H5S_t *space2);
H5_DLL herr_t   H5S__hyper_project_intersection(const H5S_t *src_space, const H5S_t *dst_space,
                                                const H5S_t *src_intersect_space, H5S_t *proj_space,
                                                hbool_t share_space);

/* Testing functions */
#ifdef H5S_TESTING
H5_DLL herr_t H5S__get_rebuild_status_test(hid_t space_id, H5S_diminfo_valid_t *status1,
                                           H5S_diminfo_valid_t *status2);
H5_DLL herr_t H5S__get_diminfo_status_test(hid_t space_id, H5S_diminfo_valid_t *status);
H5_DLL htri_t H5S__internal_consistency_test(hid_t space_id);
#endif /* H5S_TESTING */

#endif /*_H5Spkg_H*/