root/libgd/gd_io_dp.c

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DEFINITIONS

This source file includes following definitions.
  1. gdNewDynamicCtx
  2. gdNewDynamicCtxEx
  3. gdDPExtractData
  4. gdFreeDynamicCtx
  5. dynamicTell
  6. dynamicSeek
  7. newDynamic
  8. dynamicPutbuf
  9. dynamicPutchar
  10. dynamicGetbuf
  11. dynamicGetchar
  12. allocDynamic
  13. appendDynamic
  14. gdReallocDynamic
  15. trimDynamic

/*
   * io_dp.c
   *
   * Implements the dynamic pointer interface.
   *
   * Based on GD.pm code by Lincoln Stein for interfacing to libgd.
   * Added support for reading as well as support for 'tell' and 'seek'.
   *
   * As will all I/O modules, most functions are for local use only (called
   * via function pointers in the I/O context).
   *
   * gdDPExtractData is the exception to this: it will return the pointer to
   * the internal data, and reset the internal storage.
   *
   * Written/Modified 1999, Philip Warner.
   *
 */

#include <math.h>
#include <string.h>
#include <stdlib.h>
#include "gd.h"
#include "gdhelpers.h"

#define TRUE 1
#define FALSE 0

/* this is used for creating images in main memory */
typedef struct dpStruct
{
        void *data;
        int logicalSize;
        int realSize;
        int dataGood;
        int pos;
        int freeOK;
} dynamicPtr;

typedef struct dpIOCtx
{
        gdIOCtx ctx;
        dynamicPtr *dp;
} dpIOCtx;

typedef struct dpIOCtx *dpIOCtxPtr;

/* these functions operate on in-memory dynamic pointers */
static int allocDynamic (dynamicPtr * dp, int initialSize, void *data);
static int appendDynamic (dynamicPtr * dp, const void *src, int size);
static int gdReallocDynamic (dynamicPtr * dp, int required);
static int trimDynamic (dynamicPtr * dp);
static void gdFreeDynamicCtx (struct gdIOCtx *ctx);
static dynamicPtr *newDynamic (int initialSize, void *data, int freeOKFlag);

static int dynamicPutbuf (struct gdIOCtx *, const void *, int);
static void dynamicPutchar (struct gdIOCtx *, int a);

static int dynamicGetbuf (gdIOCtxPtr ctx, void *buf, int len);
static int dynamicGetchar (gdIOCtxPtr ctx);

static int dynamicSeek (struct gdIOCtx *, const int);
static long dynamicTell (struct gdIOCtx *);

/* return data as a dynamic pointer */
gdIOCtx * gdNewDynamicCtx (int initialSize, void *data)
{
        return gdNewDynamicCtxEx(initialSize, data, 1);
}

gdIOCtx * gdNewDynamicCtxEx (int initialSize, void *data, int freeOKFlag)
{
        dpIOCtx *ctx;
        dynamicPtr *dp;

        ctx = (dpIOCtx *) gdMalloc (sizeof (dpIOCtx));

        dp = newDynamic(initialSize, data, freeOKFlag);

        ctx->dp = dp;

        ctx->ctx.getC = dynamicGetchar;
        ctx->ctx.putC = dynamicPutchar;

        ctx->ctx.getBuf = dynamicGetbuf;
        ctx->ctx.putBuf = dynamicPutbuf;

        ctx->ctx.seek = dynamicSeek;
        ctx->ctx.tell = dynamicTell;

        ctx->ctx.gd_free = gdFreeDynamicCtx;

        return (gdIOCtx *) ctx;
}

void * gdDPExtractData (struct gdIOCtx *ctx, int *size)
{
        dynamicPtr *dp;
        dpIOCtx *dctx;
        void *data;

        dctx = (dpIOCtx *) ctx;
        dp = dctx->dp;

        /* clean up the data block and return it */
        if (dp->dataGood) {
                trimDynamic (dp);
                *size = dp->logicalSize;
                data = dp->data;
        } else {
                *size = 0;
                data = NULL;
                if (dp->data != NULL && dp->freeOK) {
                        gdFree(dp->data);
                }
        }

        dp->data = NULL;
        dp->realSize = 0;
        dp->logicalSize = 0;

        return data;
}

static void gdFreeDynamicCtx (struct gdIOCtx *ctx)
{
        dynamicPtr *dp;
        dpIOCtx *dctx;

        dctx = (dpIOCtx *) ctx;
        dp = dctx->dp;

        gdFree(ctx);

        dp->realSize = 0;
        dp->logicalSize = 0;

        gdFree(dp);
}

static long dynamicTell (struct gdIOCtx *ctx)
{
        dpIOCtx *dctx;

        dctx = (dpIOCtx *) ctx;

        return (dctx->dp->pos);
}

static int dynamicSeek (struct gdIOCtx *ctx, const int pos)
{
        int bytesNeeded;
        dynamicPtr *dp;
        dpIOCtx *dctx;

        dctx = (dpIOCtx *) ctx;
        dp = dctx->dp;

        if (!dp->dataGood) {
                return FALSE;
        }

        bytesNeeded = pos;
        if (bytesNeeded > dp->realSize) {
                /* 2.0.21 */
                if (!dp->freeOK) {
                        return FALSE;
                }
                gdReallocDynamic (dp, dp->realSize * 2);
        }

        /* if we get here, we can be sure that we have enough bytes to copy safely */

        /* Extend the logical size if we seek beyond EOF. */
        if (pos > dp->logicalSize) {
                dp->logicalSize = pos;
        }

        dp->pos = pos;

        return TRUE;
}

/* return data as a dynamic pointer */
static dynamicPtr * newDynamic (int initialSize, void *data, int freeOKFlag)
{
        dynamicPtr *dp;
        dp = (dynamicPtr *) gdMalloc (sizeof (dynamicPtr));

        allocDynamic (dp, initialSize, data);

        dp->pos = 0;
        dp->freeOK = freeOKFlag;

        return dp;
}

static int
dynamicPutbuf (struct gdIOCtx *ctx, const void *buf, int size)
{
  dpIOCtx *dctx;
  dctx = (dpIOCtx *) ctx;

  appendDynamic (dctx->dp, buf, size);

  if (dctx->dp->dataGood)
    {
      return size;
    }
  else
    {
      return -1;
    };

}

static void dynamicPutchar (struct gdIOCtx *ctx, int a)
{
        unsigned char b;
        dpIOCtxPtr dctx;

        b = a;
        dctx = (dpIOCtxPtr) ctx;

        appendDynamic(dctx->dp, &b, 1);
}

static int dynamicGetbuf (gdIOCtxPtr ctx, void *buf, int len)
{
        int rlen, remain;
        dpIOCtxPtr dctx;
        dynamicPtr *dp;

        dctx = (dpIOCtxPtr) ctx;
        dp = dctx->dp;

        remain = dp->logicalSize - dp->pos;
        if (remain >= len) {
                rlen = len;
        } else {
                if (remain == 0) {
                        return EOF;
                }
                rlen = remain;
        }

        memcpy(buf, (void *) ((char *) dp->data + dp->pos), rlen);
        dp->pos += rlen;

        return rlen;
}

static int dynamicGetchar (gdIOCtxPtr ctx)
{
        unsigned char b;
        int rv;

        rv = dynamicGetbuf (ctx, &b, 1);
        if (rv != 1) {
                return EOF;
        } else {
                return b;               /* (b & 0xff); */
        }
}

/* *********************************************************************

 * InitDynamic - Return a dynamically resizable void*
 *
 * *********************************************************************
 */
static int
allocDynamic (dynamicPtr * dp, int initialSize, void *data)
{

        if (data == NULL) {
                dp->logicalSize = 0;
                dp->dataGood = FALSE;
                dp->data = gdMalloc(initialSize);
        } else {
                dp->logicalSize = initialSize;
                dp->dataGood = TRUE;
                dp->data = data;
        }

        dp->realSize = initialSize;
        dp->dataGood = TRUE;
        dp->pos = 0;

        return TRUE;
}

/* append bytes to the end of a dynamic pointer */
static int appendDynamic (dynamicPtr * dp, const void *src, int size)
{
        int bytesNeeded;
        char *tmp;

        if (!dp->dataGood) {
                return FALSE;
        }

        /*  bytesNeeded = dp->logicalSize + size; */
        bytesNeeded = dp->pos + size;

        if (bytesNeeded > dp->realSize) {
                /* 2.0.21 */
                if (!dp->freeOK) {
                        return FALSE;
                }
                gdReallocDynamic(dp, bytesNeeded * 2);
        }

        /* if we get here, we can be sure that we have enough bytes to copy safely */
        /*printf("Mem OK Size: %d, Pos: %d\n", dp->realSize, dp->pos); */

        tmp = (char *) dp->data;
        memcpy((void *) (tmp + (dp->pos)), src, size);
        dp->pos += size;

        if (dp->pos > dp->logicalSize) {
                dp->logicalSize = dp->pos;
        }

        return TRUE;
}

/* grow (or shrink) dynamic pointer */
static int gdReallocDynamic (dynamicPtr * dp, int required)
{
        void *newPtr;

        /* First try gdRealloc(). If that doesn't work, make a new memory block and copy. */
        if ((newPtr = gdRealloc(dp->data, required))) {
                dp->realSize = required;
                dp->data = newPtr;
                return TRUE;
        }

        /* create a new pointer */
        newPtr = gdMalloc(required);

        /* copy the old data into it */
        memcpy(newPtr, dp->data, dp->logicalSize);
        gdFree(dp->data);
        dp->data = newPtr;

        dp->realSize = required;

        return TRUE;
}

/* trim pointer so that its real and logical sizes match */
static int trimDynamic (dynamicPtr * dp)
{
        /* 2.0.21: we don't reallocate memory we don't own */
        if (!dp->freeOK) {
                return FALSE;
        }
        return gdReallocDynamic(dp, dp->logicalSize);
}

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