File: mem.c

package info (click to toggle)
graphviz 1.7.16-2
links: PTS
area: non-free
in suites: woody
size: 11,124 kB
ctags: 12,650
sloc: ansic: 131,002; sh: 7,483; makefile: 1,954; tcl: 1,760; yacc: 1,758; perl: 253; awk: 150; lex: 96
file content (395 lines) | stat: -rw-r--r-- 10,570 bytes
/*
    This software may only be used by you under license from AT&T Corp.
    ("AT&T").  A copy of AT&T's Source Code Agreement is available at
    AT&T's Internet website having the URL:
    <http://www.research.att.com/sw/tools/graphviz/license/source.html>
    If you received this software without first entering into a license
    with AT&T, you have an infringing copy of this software and cannot use
    it without violating AT&T's intellectual property rights.
*/

#pragma prototyped
/* Lefteris Koutsofios - AT&T Bell Laboratories */

#include "common.h"
#include "mem.h"

/* SHORTCUT: the following are imported from tbl.c */
extern void Tgchelper (void *), Tfreehelper (void *);

#define M_MAXTYPES 6

int Mhaspointers[M_MAXTYPES];
Mgcstate_t Mgcstate;
int Mcouldgc;

typedef struct buffer_t {
    void *data;
    struct buffer_t *next;
} buffer_t;
#define BUFFERSIZE sizeof (buffer_t)
static buffer_t *bufferlist;

typedef struct freeobj_t {
    Mheader_t head;
    void *next;
} freeobj_t;
#define FREEOBJSIZE sizeof (freeobj_t)
#define FREESIZE sizeof (void *)
static void **freearray;
static long freen;

#define MARKSIZE sizeof (void *)
#define MARKINCR 100
static void **markarray;
static long markn, marki;

#define OTSIZE sizeof (void *)
#define OTINCR 1000
static void **otarray[2];
static long otn, oti, otj;
static char otarea[2];

static void (*cbfunc) (void);

#define GCINCRSTEPS 4
static int gcsteps = GCINCRSTEPS;

#define NUMOFALLOCS 10
static int numofallocs = 0;

#define CALCNUM(size) ((size < 20) ? 1000 : ((size < 200) ? 100 : 1))

#ifdef STATS
static caddr_t origsbrk, finsbrk;
static long objnum, objsiz;
static long typenum[M_MAXTYPES], typesiz[M_MAXTYPES];
#endif

static void allocbuffer (long);

void Minit (void (*func) (void)) {

#ifdef STATS
    int i;

    origsbrk = (caddr_t) sbrk (0);
    for (i = 0; i < M_MAXTYPES; i++)
        typenum[i] = typesiz[i] = 0;
#endif

    freearray = Marrayalloc ((long) FREESIZE);
    freen = 1;
    freearray[0] = NULL;
    markarray = Marrayalloc ((long) MARKINCR * MARKSIZE);
    markn = MARKINCR;
    marki = 0;
    otarray[0] = Marrayalloc ((long) OTINCR * OTSIZE);
    otarray[1] = Marrayalloc ((long) OTINCR * OTSIZE);
    otn = OTINCR;
    oti = otj = 0;
    otarea[0] = 1, otarea[1] = 2;
    cbfunc = func;
    Mcouldgc = FALSE;
}

void Mterm (void) {
    buffer_t *bp;

#ifdef STATS
    finsbrk = (caddr_t) sbrk (0);
    printf ("memory used by data: %ld\n", (long) (finsbrk - origsbrk));
#endif

    Marrayfree (otarray[0]), Marrayfree (otarray[1]);
    otarray[0] = otarray[1] = NULL;
    otn = otj = oti = 0;
    Marrayfree (freearray), freearray = NULL, freen = 0;
    Marrayfree (markarray), markarray = NULL, markn = marki = 0;
    for (bp = bufferlist; bp; ) {
        free (bp->data);
        bufferlist = bp, bp = bp->next, free (bufferlist);
    }
    bufferlist = NULL;
}

void *Mnew (long size, int type) {
    freeobj_t *fp;

    size = (size < FREEOBJSIZE) ?
            M_BYTE2SIZE (FREEOBJSIZE) : M_BYTE2SIZE (size);
    if (size >= freen || !freearray[size]) {
        allocbuffer (size), numofallocs++;
        if (numofallocs == NUMOFALLOCS)
            Mdogc (M_GCFULL), gcsteps <<= 1, numofallocs = 0;
        else
            Mdogc (M_GCINCR);
    } else if (Mgcstate == M_GCON)
        Mdogc (M_GCINCR);
    fp = freearray[size], freearray[size] = fp->next;
    fp->head.type = type;
    Mmkcurr (fp);
    Mcouldgc = TRUE;

#ifdef STATS
    objnum++, objsiz += size;
    typenum[type]++, typesiz[type] += size;
#endif

    return fp;
}

void *Mallocate (long size) {
    freeobj_t *fp;

    size = (size < FREEOBJSIZE) ?
            M_BYTE2SIZE (FREEOBJSIZE) : M_BYTE2SIZE (size);
    if (size >= freen || !freearray[size])
        allocbuffer (size);
    fp = freearray[size], freearray[size] = fp->next;
    return fp;
}

void Mfree (void *p, long size) {
    freeobj_t *fp;

    fp = p;
    fp->head.size = size;
    fp->head.area = 0;
    fp->head.type = 0;
    fp->next = freearray[fp->head.size], freearray[fp->head.size] = fp;
}

#ifndef FEATURE_MS

void *Marrayalloc (long size) {
    void *p;

    if (!(p = malloc (size)))
        panic (POS, "Marrayallocate", "cannot allocate array");
    return p;
}

void *Marraygrow (void *p, long size) {
    if (!(p = realloc (p, size)))
        panic (POS, "Marrayreallocate", "cannot re-allocate array");
    return p;
}

void Marrayfree (void *p) {
    free (p);
}

#else

static struct arraymap_t {
    HGLOBAL k;
    void *v;
} arraymap[100];

void *Marrayalloc (long size) {
    int i;

    for (i = 0; i < 100; i++)
        if (!arraymap[i].k)
            break;
    if (i == 100)
        panic (POS, "Marrayalloc", "out of space in arraymap");
    if (!(arraymap[i].k = GlobalAlloc (GPTR, size)))
        panic (POS, "Marrayallocate", "cannot allocate array");
    arraymap[i].v = GlobalLock (arraymap[i].k);
    return arraymap[i].v;
}

void *Marraygrow (void *p, long size) {
    int i;

    for (i = 0; i < 100; i++)
        if (arraymap[i].v == p)
            break;
    if (i == 100)
        panic (POS, "Marraygrow", "cannot locate pointer");
    if (!(arraymap[i].k = GlobalReAlloc (arraymap[i].k, size, GMEM_MOVEABLE)))
        panic (POS, "Marraygrow", "cannot re-allocate array");
    arraymap[i].v = GlobalLock (arraymap[i].k);
    return arraymap[i].v;
}

void Marrayfree (void *p) {
    int i;

    for (i = 0; i < 100; i++)
        if (arraymap[i].v == p)
            break;
    if (i == 100)
        panic (POS, "Marrayfree", "cannot locate pointer");
    GlobalUnlock (arraymap[i].k);
    GlobalFree (arraymap[i].k);
    arraymap[i].k = 0;
}

#endif

long Mpushmark (void *p) {
    if (marki == markn) {
        markarray = Marraygrow (markarray,
                (long) (markn + MARKINCR) * MARKSIZE);
        markn += MARKINCR;
    }
    markarray[marki++] = p;
    if (Mgcstate == M_GCON)
        Mmkcurr (p);
    return marki - 1;
}

void Mpopmark (long m) {
    marki = m;
}

void Mresetmark (long m, void *p) {
    markarray[m] = p;
    if (Mgcstate == M_GCON)
        Mmkcurr (p);
}

void Mmkcurr (void *p) {
    if (!p || M_AREAOF (p) == otarea[0])
        return;
    if (oti >= otn) {
        otarray[0] = Marraygrow (otarray[0], (long) (otn +OTINCR) * OTSIZE);
        otarray[1] = Marraygrow (otarray[1], (long) (otn +OTINCR) * OTSIZE);
        otn += OTINCR;
    }
    otarray[0][oti++] = p;
    ((Mheader_t *) p)->area = otarea[0];
}

void Mdogc (Mgctype_t gctype) {
    void *p;
    long i;
    char n;
    static long prevoti;

    if (Mgcstate == M_GCOFF) {
        Mgcstate = M_GCON;
        p = otarray[0], otarray[0] = otarray[1], otarray[1] = p;
        n = otarea[0], otarea[0] = otarea[1], otarea[1] = n;
        prevoti = oti, oti = otj = 0;
        for (i = 0; i < marki; i++)
            Mmkcurr (markarray[i]);
    }
    if (gctype == M_GCFULL) {
        while (otj != oti) {
            p = otarray[0][otj];
            if (Mhaspointers[M_TYPEOF (p)])
                Tgchelper (p);
            otj++;
        }
    } else {
        for (i = 0; i < gcsteps && otj != oti; i++) {
            p = otarray[0][otj];
            if (Mhaspointers[M_TYPEOF (p)])
                Tgchelper (p);
            otj++;
        }
        if (otj < oti)
            return;
    }
    for (i = 0; i < prevoti; i++) {
        p = otarray[1][i];
        if (p && M_AREAOF (p) == otarea[1]) {
            if (Mhaspointers[M_TYPEOF (p)])
                Tfreehelper (p);
            Mfree (p, (long) ((Mheader_t *) p)->size);
        }
    }
    if (gctype == M_GCINCR) {
        if (numofallocs < NUMOFALLOCS / 2) {
            gcsteps = (gcsteps > GCINCRSTEPS) ? gcsteps >>= 1 : GCINCRSTEPS;
            numofallocs = 0;
        }
    }
    if (cbfunc)
        (*cbfunc) ();
    Mgcstate = M_GCOFF;
    Mcouldgc = FALSE;
}

void Mreport (void) {
    Mheader_t *p;
    long num[M_MAXTYPES], siz[M_MAXTYPES];
    long i, n;
    freeobj_t *fp;

    Mdogc (M_GCFULL);
    Mdogc (M_GCFULL);
    for (i = 0; i < M_MAXTYPES; i++)
        num[i] = siz[i] = 0;
    for (i = 0; i < oti; i++) {
        p = otarray[0][i];
        siz[0] += p->size;
        siz[M_TYPEOF (p)] += p->size;
        num[M_TYPEOF (p)]++;
        num[0]++;
    }
    fprintf (stderr, "live objects:      %8d (", num[0]);
    for (i = 1; i < M_MAXTYPES; i++)
        fprintf (stderr, "%8d%s", num[i], (i == M_MAXTYPES - 1) ? "" : ",");
    fprintf (stderr, ")\n       sizes:      %8d (", siz[0]);
    for (i = 1; i < M_MAXTYPES; i++)
        fprintf (stderr, "%8d%s", siz[i], (i == M_MAXTYPES - 1) ? "" : ",");
    fprintf (stderr, ")\n");
    fprintf (stderr, "free lists: %d\n", freen);
    for (i = 0; i < freen; i++) {
        for (n = 0, fp = freearray[i]; fp; fp = fp->next)
            n++;
        if (n > 0)
            fprintf (stderr, "free list: %d - %d\n", i, n);
    }
#ifdef STATS
    printf ("objects allocated: %8d (", objnum);
    for (i = 1; i < M_MAXTYPES; i++)
        printf ("%8d%s", typenum[i], (i == M_MAXTYPES - 1) ? "" : ",");
    printf (")\n            sizes: %8d (", objsiz);
    for (i = 1; i < M_MAXTYPES; i++)
        printf ("%8d%s", typesiz[i], (i == M_MAXTYPES - 1) ? "" : ",");
    printf (")\n");
    finsbrk = (caddr_t) sbrk (0);
    printf ("memory used by data: %ld\n", (long) (finsbrk - origsbrk));
#endif
}

static void allocbuffer (long size) {
    buffer_t *bp;
    char *p;
    long i, bytes, n;

    if (size >= freen) {
        if (size > M_SIZEMAX)
            panic (POS, "allocbuffer", "size is too big");
        freearray = Marraygrow (freearray, (long) (size + 1) * FREESIZE);
        for (i = freen; i < size + 1; i++)
            freearray[i] = NULL;
        freen = size + 1;
    }
    n = CALCNUM (size);
    if (!freearray[size]) {
        if (!(bp = malloc (BUFFERSIZE)))
            panic (POS, "allocbuffer", "cannot allocate buffer struct");
        if (!(bp->data = malloc (size * M_UNITSIZE * n)))
            panic (POS, "allocbuffer", "cannot allocate buffer");
        bp->next = bufferlist, bufferlist = bp;
        bytes = size * M_UNITSIZE;
        for (i = 0, p = bp->data; i < n - 1; i++, p += bytes) {
            ((freeobj_t *) p)->next = p + bytes;
            ((freeobj_t *) p)->head.size = (Msize_t) size;
            ((freeobj_t *) p)->head.area = 0;
            ((freeobj_t *) p)->head.type = 0;
        }
        ((freeobj_t *) p)->next = NULL;
        ((freeobj_t *) p)->head.size = (Msize_t) size;
        ((freeobj_t *) p)->head.area = 0;
        ((freeobj_t *) p)->head.type = 0;
        freearray[size] = bp->data;
    }
}