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Edit file: /usr/share/doc/python3-pycparser/examples/c_files/memmgr.c

//----------------------------------------------------------------
// Statically-allocated memory manager
//
// by Eli Bendersky (eliben@gmail.com)
//
// This code is in the public domain.
//----------------------------------------------------------------
#include "memmgr.h"

typedef ulong Align;

union mem_header_union
{
    struct
    {
        // Pointer to the next block in the free list
        //
        union mem_header_union* next;

// Size of the block (in quantas of sizeof(mem_header_t))
        //
        ulong size;
    } s;

// Used to align headers in memory to a boundary
    //
    Align align_dummy;
};

typedef union mem_header_union mem_header_t;

// Initial empty list
//
static mem_header_t base;

// Start of free list
//
static mem_header_t* freep = 0;

// Static pool for new allocations
//
static byte pool[POOL_SIZE] = {0};
static ulong pool_free_pos = 0;

void memmgr_init()
{
    base.s.next = 0;
    base.s.size = 0;
    freep = 0;
    pool_free_pos = 0;
}

static mem_header_t* get_mem_from_pool(ulong nquantas)
{
    ulong total_req_size;

mem_header_t* h;

if (nquantas < MIN_POOL_ALLOC_QUANTAS)
        nquantas = MIN_POOL_ALLOC_QUANTAS;

total_req_size = nquantas * sizeof(mem_header_t);

if (pool_free_pos + total_req_size <= POOL_SIZE)
    {
        h = (mem_header_t*) (pool + pool_free_pos);
        h->s.size = nquantas;
        memmgr_free((void*) (h + 1));
        pool_free_pos += total_req_size;
    }
    else
    {
        return 0;
    }

return freep;
}

// Allocations are done in 'quantas' of header size.
// The search for a free block of adequate size begins at the point 'freep'
// where the last block was found.
// If a too-big block is found, it is split and the tail is returned (this
// way the header of the original needs only to have its size adjusted).
// The pointer returned to the user points to the free space within the block,
// which begins one quanta after the header.
//
void* memmgr_alloc(ulong nbytes)
{
    mem_header_t* p;
    mem_header_t* prevp;

// Calculate how many quantas are required: we need enough to house all
    // the requested bytes, plus the header. The -1 and +1 are there to make sure
    // that if nbytes is a multiple of nquantas, we don't allocate too much
    //
    ulong nquantas = (nbytes + sizeof(mem_header_t) - 1) / sizeof(mem_header_t) + 1;

// First alloc call, and no free list yet ? Use 'base' for an initial
    // denegerate block of size 0, which points to itself
    //
    if ((prevp = freep) == 0)
    {
        base.s.next = freep = prevp = &base;
        base.s.size = 0;
    }

for (p = prevp->s.next; ; prevp = p, p = p->s.next)
    {
        // big enough ?
        if (p->s.size >= nquantas)
        {
            // exactly ?
            if (p->s.size == nquantas)
            {
                // just eliminate this block from the free list by pointing
                // its prev's next to its next
                //
                prevp->s.next = p->s.next;
            }
            else // too big
            {
                p->s.size -= nquantas;
                p += p->s.size;
                p->s.size = nquantas;
            }

freep = prevp;
            return (void*) (p + 1);
        }
        // Reached end of free list ?
        // Try to allocate the block from the pool. If that succeeds,
        // get_mem_from_pool adds the new block to the free list and
        // it will be found in the following iterations. If the call
        // to get_mem_from_pool doesn't succeed, we've run out of
        // memory
        //
        else if (p == freep)
        {
            if ((p = get_mem_from_pool(nquantas)) == 0)
            {
                #ifdef DEBUG_MEMMGR_FATAL
                printf("!! Memory allocation failed !!\n");
                #endif
                return 0;
            }
        }
    }
}

// Scans the free list, starting at freep, looking the the place to insert the
// free block. This is either between two existing blocks or at the end of the
// list. In any case, if the block being freed is adjacent to either neighbor,
// the adjacent blocks are combined.
//
void memmgr_free(void* ap)
{
    mem_header_t* block;
    mem_header_t* p;

// acquire pointer to block header
    block = ((mem_header_t*) ap) - 1;

// Find the correct place to place the block in (the free list is sorted by
    // address, increasing order)
    //
    for (p = freep; !(block > p && block < p->s.next); p = p->s.next)
    {
        // Since the free list is circular, there is one link where a
        // higher-addressed block points to a lower-addressed block.
        // This condition checks if the block should be actually
        // inserted between them
        //
        if (p >= p->s.next && (block > p || block < p->s.next))
            break;
    }

// Try to combine with the higher neighbor
    //
    if (block + block->s.size == p->s.next)
    {
        block->s.size += p->s.next->s.size;
        block->s.next = p->s.next->s.next;
    }
    else
    {
        block->s.next = p->s.next;
    }

// Try to combine with the lower neighbor
    //
    if (p + p->s.size == block)
    {
        p->s.size += block->s.size;
        p->s.next = block->s.next;
    }
    else
    {
        p->s.next = block;
    }

freep = p;
}

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