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Java example source code file (mlib_ImageConvMxN.c)

This example Java source code file (mlib_ImageConvMxN.c) is included in the alvinalexander.com "Java Source Code Warehouse" project. The intent of this project is to help you "Learn Java by Example" TM.

Learn more about this Java project at its project page.

Java - Java tags/keywords

mlib_byte, mlib_double, mlib_edge_dst_copy_src, mlib_edge_dst_no_write, mlib_edge_src_extend, mlib_failure, mlib_float, mlib_image_check, mlib_int, mlib_nullpointer, mlib_short, mlib_success, mlib_ushort, null

The mlib_ImageConvMxN.c Java example source code

/*
 * Copyright (c) 2003, 2011, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */


/*
 * FUNCTION
 *      mlib_ImageConvMxN - image convolution with edge condition
 *
 * SYNOPSIS
 *      mlib_status mlib_ImageConvMxN(mlib_image       *dst,
 *                                    const mlib_image *src,
 *                                    const mlib_s32   *kernel,
 *                                    mlib_s32         m,
 *                                    mlib_s32         n,
 *                                    mlib_s32         dm,
 *                                    mlib_s32         dn,
 *                                    mlib_s32         scale,
 *                                    mlib_s32         cmask,
 *                                    mlib_edge        edge)
 *
 * ARGUMENTS
 *      dst       Pointer to destination image.
 *      src       Pointer to source image.
 *      m         Kernel width (m must be not less than 1).
 *      n         Kernel height (n must be not less than 1).
 *      dm, dn    Position of key element in convolution kernel.
 *      kernel    Pointer to convolution kernel.
 *      scale     The scaling factor to convert the input integer
 *                coefficients into floating-point coefficients:
 *                floating-point coefficient = integer coefficient * 2^(-scale)
 *      cmask     Channel mask to indicate the channels to be convolved.
 *                Each bit of which represents a channel in the image. The
 *                channels corresponded to 1 bits are those to be processed.
 *      edge      Type of edge condition.
 *
 * DESCRIPTION
 *      2-D convolution, MxN kernel.
 *
 *      The center of the source image is mapped to the center of the
 *      destination image.
 *      The unselected channels are not overwritten. If both src and dst have
 *      just one channel, cmask is ignored.
 *
 *      The edge condition can be one of the following:
 *              MLIB_EDGE_DST_NO_WRITE  (default)
 *              MLIB_EDGE_DST_FILL_ZERO
 *              MLIB_EDGE_DST_COPY_SRC
 *              MLIB_EDGE_SRC_EXTEND
 *
 * RESTRICTION
 *      The src and the dst must be the same type and have same number
 *      of channels (1, 2, 3, or 4). They can be in MLIB_BIT, MLIB_BYTE,
 *      MLIB_SHORT, MLIB_USHORT or MLIB_INT data type.
 *      m >= 1, n >= 1,
 *      0 <= dm < m, 0 <= dn < n.
 *      For data type MLIB_BYTE:   16 <= scale <= 31 (to be compatible with VIS version)
 *      For data type MLIB_SHORT:  17 <= scale <= 32 (to be compatible with VIS version)
 *      For data type MLIB_USHORT: 17 <= scale <= 32 (to be compatible with VIS version)
 *      For data type MLIB_INT:    scale >= 0
 */

#include "mlib_image.h"
#include "mlib_ImageCheck.h"
#include "mlib_ImageConv.h"
#include "mlib_ImageCreate.h"
#include "mlib_c_ImageConv.h"
#include "mlib_ImageClipping.h"
#include "mlib_ImageConvEdge.h"

/***************************************************************/
mlib_status mlib_ImageConvMxN(mlib_image       *dst,
                              const mlib_image *src,
                              const mlib_s32   *kernel,
                              mlib_s32         m,
                              mlib_s32         n,
                              mlib_s32         dm,
                              mlib_s32         dn,
                              mlib_s32         scale,
                              mlib_s32         cmask,
                              mlib_edge        edge)
{
  MLIB_IMAGE_CHECK(dst);

  switch (mlib_ImageGetType(dst)) {
    case MLIB_BYTE:

      if (scale < 16 || scale > 31)
        return MLIB_FAILURE;
      break;
    case MLIB_SHORT:
    case MLIB_USHORT:

      if (scale < 17 || scale > 32)
        return MLIB_FAILURE;
      break;
    case MLIB_INT:

      if (scale < 0)
        return MLIB_FAILURE;
      break;
    default:
      return MLIB_FAILURE;
  }

  return mlib_ImageConvMxN_f(dst, src, kernel, m, n, dm, dn, scale, cmask, edge);
}

/***************************************************************/
mlib_status mlib_ImageConvMxN_f(mlib_image       *dst,
                                const mlib_image *src,
                                const void       *kernel,
                                mlib_s32         m,
                                mlib_s32         n,
                                mlib_s32         dm,
                                mlib_s32         dn,
                                mlib_s32         scale,
                                mlib_s32         cmask,
                                mlib_edge        edge)
{
  mlib_image dst_i[1], src_i[1], dst_e[1], src_e[1];
  mlib_type type;
  mlib_s32 nchan, dx_l, dx_r, dy_t, dy_b;
  mlib_s32 edg_sizes[8];
  mlib_status ret;

  if (m < 1 || n < 1 || dm < 0 || dm > m - 1 || dn < 0 || dn > n - 1)
    return MLIB_FAILURE;

  if (kernel == NULL)
    return MLIB_NULLPOINTER;

  ret =
    mlib_ImageClippingMxN(dst_i, src_i, dst_e, src_e, edg_sizes, dst, src, m, n, dm, dn);

  if (ret != MLIB_SUCCESS)
    return ret;

  nchan = mlib_ImageGetChannels(dst);
  type = mlib_ImageGetType(dst);

  if (nchan == 1)
    cmask = 1;

  if ((cmask & ((1 << nchan) - 1)) == 0)
    return MLIB_SUCCESS;

  dx_l = edg_sizes[0];
  dx_r = edg_sizes[1];
  dy_t = edg_sizes[2];
  dy_b = edg_sizes[3];

  if (dx_l + dx_r + dy_t + dy_b == 0)
    edge = MLIB_EDGE_DST_NO_WRITE;

  if (edge != MLIB_EDGE_SRC_EXTEND) {
    if (mlib_ImageGetWidth(dst_i) >= m && mlib_ImageGetHeight(dst_i) >= n) {
      switch (type) {
        case MLIB_BYTE:
          ret = mlib_convMxNnw_u8(dst_i, src_i, kernel, m, n, dm, dn, scale, cmask);
          break;
        case MLIB_SHORT:
#ifdef __sparc
          ret = mlib_convMxNnw_s16(dst_i, src_i, kernel, m, n, dm, dn, scale, cmask);
#else

          if (mlib_ImageConvVersion(m, n, scale, type) == 0)
            ret = mlib_convMxNnw_s16(dst_i, src_i, kernel, m, n, dm, dn, scale, cmask);
          else
            ret = mlib_i_convMxNnw_s16(dst_i, src_i, kernel, m, n, dm, dn, scale, cmask);
#endif /* __sparc */
          break;
        case MLIB_USHORT:
#ifdef __sparc
          ret = mlib_convMxNnw_u16(dst_i, src_i, kernel, m, n, dm, dn, scale, cmask);
#else

          if (mlib_ImageConvVersion(m, n, scale, type) == 0)
            ret = mlib_convMxNnw_u16(dst_i, src_i, kernel, m, n, dm, dn, scale, cmask);
          else
            ret = mlib_i_convMxNnw_u16(dst_i, src_i, kernel, m, n, dm, dn, scale, cmask);
#endif /* __sparc */
          break;
        case MLIB_INT:
          ret = mlib_convMxNnw_s32(dst_i, src_i, kernel, m, n, dm, dn, scale, cmask);
          break;
        case MLIB_FLOAT:
          ret = mlib_convMxNnw_f32(dst_i, src_i, kernel, m, n, dm, dn, cmask);
          break;
        case MLIB_DOUBLE:
          ret = mlib_convMxNnw_d64(dst_i, src_i, kernel, m, n, dm, dn, cmask);
          break;

      default:
        /* For some reasons, there is no convolution routine for type MLIB_BIT.
         * For now, we silently ignore it (because this image type is not used by java),
         * but probably we have to report an error.
         */
        break;
      }
    }

    switch (edge) {
      case MLIB_EDGE_DST_FILL_ZERO:
        mlib_ImageConvZeroEdge(dst_e, dx_l, dx_r, dy_t, dy_b, cmask);
        break;
      case MLIB_EDGE_DST_COPY_SRC:
        mlib_ImageConvCopyEdge(dst_e, src_e, dx_l, dx_r, dy_t, dy_b, cmask);
        break;
    default:
      /* Other edge conditions do not need additional handling.
       *  Note also that they are not exposed in public Java API
       */
      break;
    }
  }
  else {                                    /* MLIB_EDGE_SRC_EXTEND */
    /* adjust src_e image */
    mlib_ImageSetSubimage(src_e, src_e, dx_l - dm, dy_t - dn,
                          mlib_ImageGetWidth(src_e), mlib_ImageGetHeight(src_e));

    switch (type) {
      case MLIB_BYTE:
        ret =
          mlib_convMxNext_u8(dst_e, src_e, kernel, m, n, dx_l, dx_r, dy_t, dy_b, scale,
                             cmask);
        break;
      case MLIB_SHORT:
#ifdef __sparc
        ret =
          mlib_convMxNext_s16(dst_e, src_e, kernel, m, n, dx_l, dx_r, dy_t, dy_b, scale,
                              cmask);
#else

        if (mlib_ImageConvVersion(m, n, scale, type) == 0)
          ret =
            mlib_convMxNext_s16(dst_e, src_e, kernel, m, n, dx_l, dx_r, dy_t, dy_b, scale,
                                cmask);
        else
          ret =
            mlib_i_convMxNext_s16(dst_e, src_e, kernel, m, n, dx_l, dx_r, dy_t, dy_b,
                                  scale, cmask);
#endif /* __sparc */
        break;
      case MLIB_USHORT:
#ifdef __sparc
        ret =
          mlib_convMxNext_u16(dst_e, src_e, kernel, m, n, dx_l, dx_r, dy_t, dy_b, scale,
                              cmask);
#else

        if (mlib_ImageConvVersion(m, n, scale, type) == 0)
          ret =
            mlib_convMxNext_u16(dst_e, src_e, kernel, m, n, dx_l, dx_r, dy_t, dy_b, scale,
                                cmask);
        else
          ret =
            mlib_i_convMxNext_u16(dst_e, src_e, kernel, m, n, dx_l, dx_r, dy_t, dy_b,
                                  scale, cmask);
#endif /* __sparc */
        break;
      case MLIB_INT:
        ret =
          mlib_convMxNext_s32(dst_e, src_e, kernel, m, n, dx_l, dx_r, dy_t, dy_b, scale,
                              cmask);
        break;
      case MLIB_FLOAT:
        mlib_convMxNext_f32(dst_e, src_e, kernel, m, n, dx_l, dx_r, dy_t, dy_b, cmask);
        break;
      case MLIB_DOUBLE:
        mlib_convMxNext_d64(dst_e, src_e, kernel, m, n, dx_l, dx_r, dy_t, dy_b, cmask);
        break;
    default:
      /* For some reasons, there is no convolution routine for type MLIB_BIT.
       * For now, we silently ignore it (because this image type is not used by java),
       * but probably we have to report an error.
       */
      break;
    }
  }

  return ret;
}

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

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