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c2969ff6e7
CLA: trivial Reviewed-by: Richard Levitte <levitte@openssl.org> Reviewed-by: Matthias St. Pierre <Matthias.St.Pierre@ncp-e.com> (Merged from https://github.com/openssl/openssl/pull/9288)
156 lines
5.6 KiB
Plaintext
156 lines
5.6 KiB
Plaintext
The sparse_array.c file contains an implementation of a sparse array that
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attempts to be both space and time efficient.
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The sparse array is represented using a tree structure. Each node in the
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tree contains a block of pointers to either the user supplied leaf values or
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to another node.
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There are a number of parameters used to define the block size:
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OPENSSL_SA_BLOCK_BITS Specifies the number of bits covered by each block
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SA_BLOCK_MAX Specifies the number of pointers in each block
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SA_BLOCK_MASK Specifies a bit mask to perform modulo block size
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SA_BLOCK_MAX_LEVELS Indicates the maximum possible height of the tree
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These constants are inter-related:
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SA_BLOCK_MAX = 2 ^ OPENSSL_SA_BLOCK_BITS
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SA_BLOCK_MASK = SA_BLOCK_MAX - 1
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SA_BLOCK_MAX_LEVELS = number of bits in size_t divided by
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OPENSSL_SA_BLOCK_BITS rounded up to the next multiple
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of OPENSSL_SA_BLOCK_BITS
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OPENSSL_SA_BLOCK_BITS can be defined at compile time and this overrides the
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built in setting.
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As a space and performance optimisation, the height of the tree is usually
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less than the maximum possible height. Only sufficient height is allocated to
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accommodate the largest index added to the data structure.
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The largest index used to add a value to the array determines the tree height:
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+----------------------+---------------------+
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| Largest Added Index | Height of Tree |
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+----------------------+---------------------+
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| SA_BLOCK_MAX - 1 | 1 |
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| SA_BLOCK_MAX ^ 2 - 1 | 2 |
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| SA_BLOCK_MAX ^ 3 - 1 | 3 |
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| ... | ... |
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| size_t max | SA_BLOCK_MAX_LEVELS |
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+----------------------+---------------------+
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The tree height is dynamically increased as needed based on additions.
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An empty tree is represented by a NULL root pointer. Inserting a value at
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index 0 results in the allocation of a top level node full of null pointers
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except for the single pointer to the user's data (N = SA_BLOCK_MAX for
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brevity):
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+----+
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|Root|
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|Node|
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+-+--+
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v
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+-+-+---+---+---+---+
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| 0 | 1 | 2 |...|N-1|
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| |nil|nil|...|nil|
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+-+-+---+---+---+---+
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v
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+-+--+
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|User|
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|Data|
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+----+
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Index 0
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Inserting at element 2N+1 creates a new root node and pushes down the old root
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node. It then creates a second second level node to hold the pointer to the
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user's new data:
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+----+
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|Root|
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|Node|
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+-+--+
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v
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+-+-+---+---+---+---+
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| 0 | 1 | 2 |...|N-1|
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| |nil| |...|nil|
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+-+-+---+-+-+---+---+
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| +------------------+
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v v
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+-+-+---+---+---+---+ +-+-+---+---+---+---+
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| 0 | 1 | 2 |...|N-1| | 0 | 1 | 2 |...|N-1|
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|nil| |nil|...|nil| |nil| |nil|...|nil|
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+-+-+---+---+---+---+ +---+-+-+---+---+---+
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v v
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+-+--+ +-+--+
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|User| |User|
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|Data| |Data|
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+----+ +----+
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Index 0 Index 2N+1
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The nodes themselves are allocated in a sparse manner. Only nodes which exist
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along a path from the root of the tree to an added leaf will be allocated.
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The complexity is hidden and nodes are allocated on an as needed basis.
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Because the data is expected to be sparse this doesn't result in a large waste
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of space.
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Values can be removed from the sparse array by setting their index position to
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NULL. The data structure does not attempt to reclaim nodes or reduce the
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height of the tree on removal. For example, now setting index 0 to NULL would
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result in:
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+----+
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|Root|
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|Node|
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+-+--+
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v
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+-+-+---+---+---+---+
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| 0 | 1 | 2 |...|N-1|
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| |nil| |...|nil|
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+-+-+---+-+-+---+---+
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| +------------------+
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v v
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+-+-+---+---+---+---+ +-+-+---+---+---+---+
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| 0 | 1 | 2 |...|N-1| | 0 | 1 | 2 |...|N-1|
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|nil|nil|nil|...|nil| |nil| |nil|...|nil|
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+---+---+---+---+---+ +---+-+-+---+---+---+
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v
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+-+--+
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|User|
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|Data|
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+----+
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Index 2N+1
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Accesses to elements in the sparse array take O(log n) time where n is the
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largest element. The base of the logarithm is SA_BLOCK_MAX, so for moderately
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small indices (e.g. NIDs), single level (constant time) access is achievable.
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Space usage is O(minimum(m, n log(n)) where m is the number of elements in the
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array.
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Note: sparse arrays only include pointers to types. Thus, SPARSE_ARRAY_OF(char)
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can be used to store a string.
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