# /* */ /* * Structure of the coremap and swapmap * arrays. Consists of non-zero count * and base address of that many * contiguous units. * (The coremap unit is 64 bytes, * the swapmap unit is 512 bytes) * The addresses are increasing and * the list is terminated with the * first zero count. */ struct map { char *m_size; char *m_addr; }; /* * Allocate size units from the given * map. Return the base of the allocated * space. * Algorithm is first fit. */ malloc(mp, size) struct map *mp; { register int a; register struct map *bp; for (bp = mp; bp->m_size; bp++) { if (bp->m_size >= size) { a = bp->m_addr; bp->m_addr =+ size; if ((bp->m_size =- size) == 0) do { bp++; (bp-1)->m_addr = bp->m_addr; } while ((bp-1)->m_size = bp->m_size); return(a); } } return(0); } /* * Free the previously allocated space aa * of size units into the specified map. * Sort aa into map and combine on * one or both ends if possible. */ mfree(mp, size, aa) struct map *mp; { register struct map *bp; register int t; register int a; a = aa; for (bp = mp; bp->m_addr<=a && bp->m_size!=0; bp++); if (bp>mp && (bp-1)->m_addr+(bp-1)->m_size == a) { (bp-1)->m_size =+ size; if (a+size == bp->m_addr) { (bp-1)->m_size =+ bp->m_size; while (bp->m_size) { bp++; (bp-1)->m_addr = bp->m_addr; (bp-1)->m_size = bp->m_size; } } } else { if (a+size == bp->m_addr && bp->m_size) { bp->m_addr =- size; bp->m_size =+ size; } else if (size) do { t = bp->m_addr; bp->m_addr = a; a = t; t = bp->m_size; bp->m_size = size; bp++; } while (size = t); } }