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/*
 * Hash Array Mapped Trie (HAMT) implementation
 *
 *  Copyright (C) 2001-2007  Peter Johnson
 *
 *  Based on the paper "Ideal Hash Tries" by Phil Bagwell [2000].
 *  One algorithmic change from that described in the paper: we use the LSB's
 *  of the key to index the root table and move upward in the key rather than
 *  use the MSBs as described in the paper.  The LSBs have more entropy.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND OTHER CONTRIBUTORS ``AS IS''
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR OTHER CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 * POSSIBILITY OF SUCH DAMAGE.
 */
#include "util.h"

#include <ctype.h>

#include "libyasm-stdint.h"
#include "coretype.h"
#include "hamt.h"

struct HAMTEntry {
    STAILQ_ENTRY(HAMTEntry) next;       /* next hash table entry */
    /*@dependent@*/ const char *str;    /* string being hashed */
    /*@owned@*/ void *data;             /* data pointer being stored */
};

typedef struct HAMTNode {
    unsigned long BitMapKey;            /* 32 bits, bitmap or hash key */
    uintptr_t BaseValue;                /* Base of HAMTNode list or value */
} HAMTNode;

struct HAMT {
    STAILQ_HEAD(HAMTEntryHead, HAMTEntry) entries;
    HAMTNode *root;
    /*@exits@*/ void (*error_func) (const char *file, unsigned int line,
                                    const char *message);
    unsigned long (*HashKey) (const char *key);
    unsigned long (*ReHashKey) (const char *key, int Level);
    int (*CmpKey) (const char *s1, const char *s2);
};

/* XXX make a portable version of this.  This depends on the pointer being
 * 4 or 2-byte aligned (as it uses the LSB of the pointer variable to store
 * the subtrie flag!
 */
#define IsSubTrie(n)            ((n)->BaseValue & 1)
#define SetSubTrie(h, n, v)     do {                            \
        if ((uintptr_t)(v) & 1)                                 \
            h->error_func(__FILE__, __LINE__,                   \
                          N_("Subtrie is seen as subtrie before flag is set (misaligned?)"));   \
        (n)->BaseValue = (uintptr_t)(v) | 1;    \
    } while (0)
#define SetValue(h, n, v)       do {                            \
        if ((uintptr_t)(v) & 1)                                 \
            h->error_func(__FILE__, __LINE__,                   \
                          N_("Value is seen as subtrie (misaligned?)")); \
        (n)->BaseValue = (uintptr_t)(v);        \
    } while (0)
#define GetSubTrie(n)           (HAMTNode *)(((n)->BaseValue | 1) ^ 1)

static unsigned long
HashKey(const char *key)
{
    unsigned long a=31415, b=27183, vHash;
    for (vHash=0; *key; key++, a*=b)
        vHash = a*vHash + *key;
    return vHash;
}

static unsigned long
ReHashKey(const char *key, int Level)
{
    unsigned long a=31415, b=27183, vHash;
    for (vHash=0; *key; key++, a*=b)
        vHash = a*vHash*(unsigned long)Level + *key;
    return vHash;
}

static unsigned long
HashKey_nocase(const char *key)
{
    unsigned long a=31415, b=27183, vHash;
    for (vHash=0; *key; key++, a*=b)
        vHash = a*vHash + tolower(*key);
    return vHash;
}

static unsigned long
ReHashKey_nocase(const char *key, int Level)
{
    unsigned long a=31415, b=27183, vHash;
    for (vHash=0; *key; key++, a*=b)
        vHash = a*vHash*(unsigned long)Level + tolower(*key);
    return vHash;
}

HAMT *
HAMT_create(int nocase, /*@exits@*/ void (*error_func)
    (const char *file, unsigned int line, const char *message))
{
    /*@out@*/ HAMT *hamt = yasm_xmalloc(sizeof(HAMT));
    int i;

    STAILQ_INIT(&hamt->entries);
    hamt->root = yasm_xmalloc(32*sizeof(HAMTNode));

    for (i=0; i<32; i++) {
        hamt->root[i].BitMapKey = 0;
        hamt->root[i].BaseValue = 0;
    }

    hamt->error_func = error_func;
    if (nocase) {
        hamt->HashKey = HashKey_nocase;
        hamt->ReHashKey = ReHashKey_nocase;
        hamt->CmpKey = yasm__strcasecmp;
    } else {
        hamt->HashKey = HashKey;
        hamt->ReHashKey = ReHashKey;
        hamt->CmpKey = strcmp;
    }

    return hamt;
}

static void
HAMT_delete_trie(HAMTNode *node)
{
    if (IsSubTrie(node)) {
        unsigned long i, Size;

        /* Count total number of bits in bitmap to determine size */
        BitCount(Size, node->BitMapKey);
        Size &= 0x1F;
        if (Size == 0)
            Size = 32;

        for (i=0; i<Size; i++)
            HAMT_delete_trie(&(GetSubTrie(node))[i]);
        yasm_xfree(GetSubTrie(node));
    }
}

void
HAMT_destroy(HAMT *hamt, void (*deletefunc) (/*@only@*/ void *data))
{
    int i;

    /* delete entries */
    while (!STAILQ_EMPTY(&hamt->entries)) {
        HAMTEntry *entry;
        entry = STAILQ_FIRST(&hamt->entries);
        STAILQ_REMOVE_HEAD(&hamt->entries, next);
        deletefunc(entry->data);
        yasm_xfree(entry);
    }

    /* delete trie */
    for (i=0; i<32; i++)
        HAMT_delete_trie(&hamt->root[i]);

    yasm_xfree(hamt->root);
    yasm_xfree(hamt);
}

int
HAMT_traverse(HAMT *hamt, void *d,
              int (*func) (/*@dependent@*/ /*@null@*/ void *node,
                            /*@null@*/ void *d))
{
    HAMTEntry *entry;
    STAILQ_FOREACH(entry, &hamt->entries, next) {
        int retval = func(entry->data, d);
        if (retval != 0)
            return retval;
    }
    return 0;
}

const HAMTEntry *
HAMT_first(const HAMT *hamt)
{
    return STAILQ_FIRST(&hamt->entries);
}

const HAMTEntry *
HAMT_next(const HAMTEntry *prev)
{
    return STAILQ_NEXT(prev, next);
}

void *
HAMTEntry_get_data(const HAMTEntry *entry)
{
    return entry->data;
}

/*@-temptrans -kepttrans -mustfree@*/
void *
HAMT_insert(HAMT *hamt, const char *str, void *data, int *replace,
            void (*deletefunc) (/*@only@*/ void *data))
{
    HAMTNode *node, *newnodes;
    HAMTEntry *entry;
    unsigned long key, keypart, Map;
    int keypartbits = 0;
    int level = 0;

    key = hamt->HashKey(str);
    keypart = key & 0x1F;
    node = &hamt->root[keypart];

    if (!node->BaseValue) {
        node->BitMapKey = key;
        entry = yasm_xmalloc(sizeof(HAMTEntry));
        entry->str = str;
        entry->data = data;
        STAILQ_INSERT_TAIL(&hamt->entries, entry, next);
        SetValue(hamt, node, entry);
        if (IsSubTrie(node))
            hamt->error_func(__FILE__, __LINE__,
                             N_("Data is seen as subtrie (misaligned?)"));
        *replace = 1;
        return data;
    }

    for (;;) {
        if (!(IsSubTrie(node))) {
            if (node->BitMapKey == key
                && hamt->CmpKey(((HAMTEntry *)(node->BaseValue))->str,
                                str) == 0) {
                /*@-branchstate@*/
                if (*replace) {
                    deletefunc(((HAMTEntry *)(node->BaseValue))->data);
                    ((HAMTEntry *)(node->BaseValue))->str = str;
                    ((HAMTEntry *)(node->BaseValue))->data = data;
                } else
                    deletefunc(data);
                /*@=branchstate@*/
                return ((HAMTEntry *)(node->BaseValue))->data;
            } else {
                unsigned long key2 = node->BitMapKey;
                /* build tree downward until keys differ */
                for (;;) {
                    unsigned long keypart2;

                    /* replace node with subtrie */
                    keypartbits += 5;
                    if (keypartbits > 30) {
                        /* Exceeded 32 bits: rehash */
                        key = hamt->ReHashKey(str, level);
                        key2 = hamt->ReHashKey(
                            ((HAMTEntry *)(node->BaseValue))->str, level);
                        keypartbits = 0;
                    }
                    keypart = (key >> keypartbits) & 0x1F;
                    keypart2 = (key2 >> keypartbits) & 0x1F;

                    if (keypart == keypart2) {
                        /* Still equal, build one-node subtrie and continue
                         * downward.
                         */
                        newnodes = yasm_xmalloc(sizeof(HAMTNode));
                        newnodes[0].BitMapKey = key2;
                        newnodes[0].BaseValue = node->BaseValue;
                        node->BitMapKey = 1<<keypart;
                        SetSubTrie(hamt, node, newnodes);
                        node = &newnodes[0];
                        level++;
                    } else {
                        /* partitioned: allocate two-node subtrie */
                        newnodes = yasm_xmalloc(2*sizeof(HAMTNode));

                        entry = yasm_xmalloc(sizeof(HAMTEntry));
                        entry->str = str;
                        entry->data = data;
                        STAILQ_INSERT_TAIL(&hamt->entries, entry, next);

                        /* Copy nodes into subtrie based on order */
                        if (keypart2 < keypart) {
                            newnodes[0].BitMapKey = key2;
                            newnodes[0].BaseValue = node->BaseValue;
                            newnodes[1].BitMapKey = key;
                            SetValue(hamt, &newnodes[1], entry);
                        } else {
                            newnodes[0].BitMapKey = key;
                            SetValue(hamt, &newnodes[0], entry);
                            newnodes[1].BitMapKey = key2;
                            newnodes[1].BaseValue = node->BaseValue;
                        }

                        /* Set bits in bitmap corresponding to keys */
                        node->BitMapKey = (1UL<<keypart) | (1UL<<keypart2);
                        SetSubTrie(hamt, node, newnodes);
                        *replace = 1;
                        return data;
                    }
                }
            }
        }

        /* Subtrie: look up in bitmap */
        keypartbits += 5;
        if (keypartbits > 30) {
            /* Exceeded 32 bits of current key: rehash */
            key = hamt->ReHashKey(str, level);
            keypartbits = 0;
        }
        keypart = (key >> keypartbits) & 0x1F;
        if (!(node->BitMapKey & (1<<keypart))) {
            /* bit is 0 in bitmap -> add node to table */
            unsigned long Size;

            /* set bit to 1 */
            node->BitMapKey |= 1<<keypart;

            /* Count total number of bits in bitmap to determine new size */
            BitCount(Size, node->BitMapKey);
            Size &= 0x1F;
            if (Size == 0)
                Size = 32;
            newnodes = yasm_xmalloc(Size*sizeof(HAMTNode));

            /* Count bits below to find where to insert new node at */
            BitCount(Map, node->BitMapKey & ~((~0UL)<<keypart));
            Map &= 0x1F;        /* Clamp to <32 */
            /* Copy existing nodes leaving gap for new node */
            memcpy(newnodes, GetSubTrie(node), Map*sizeof(HAMTNode));
            memcpy(&newnodes[Map+1], &(GetSubTrie(node))[Map],
                   (Size-Map-1)*sizeof(HAMTNode));
            /* Delete old subtrie */
            yasm_xfree(GetSubTrie(node));
            /* Set up new node */
            newnodes[Map].BitMapKey = key;
            entry = yasm_xmalloc(sizeof(HAMTEntry));
            entry->str = str;
            entry->data = data;
            STAILQ_INSERT_TAIL(&hamt->entries, entry, next);
            SetValue(hamt, &newnodes[Map], entry);
            SetSubTrie(hamt, node, newnodes);

            *replace = 1;
            return data;
        }

        /* Count bits below */
        BitCount(Map, node->BitMapKey & ~((~0UL)<<keypart));
        Map &= 0x1F;    /* Clamp to <32 */

        /* Go down a level */
        level++;
        node = &(GetSubTrie(node))[Map];
    }
}
/*@=temptrans =kepttrans =mustfree@*/

void *
HAMT_search(HAMT *hamt, const char *str)
{
    HAMTNode *node;
    unsigned long key, keypart, Map;
    int keypartbits = 0;
    int level = 0;
    
    key = hamt->HashKey(str);
    keypart = key & 0x1F;
    node = &hamt->root[keypart];

    if (!node->BaseValue)
        return NULL;

    for (;;) {
        if (!(IsSubTrie(node))) {
            if (node->BitMapKey == key
                && hamt->CmpKey(((HAMTEntry *)(node->BaseValue))->str,
                                str) == 0)
                return ((HAMTEntry *)(node->BaseValue))->data;
            else
                return NULL;
        }

        /* Subtree: look up in bitmap */
        keypartbits += 5;
        if (keypartbits > 30) {
            /* Exceeded 32 bits of current key: rehash */
            key = hamt->ReHashKey(str, level);
            keypartbits = 0;
        }
        keypart = (key >> keypartbits) & 0x1F;
        if (!(node->BitMapKey & (1<<keypart)))
            return NULL;        /* bit is 0 in bitmap -> no match */

        /* Count bits below */
        BitCount(Map, node->BitMapKey & ~((~0UL)<<keypart));
        Map &= 0x1F;    /* Clamp to <32 */

        /* Go down a level */
        level++;
        node = &(GetSubTrie(node))[Map];
    }
}