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Java example source code file (mlib_v_ImageChannelInsert.c)

This example Java source code file (mlib_v_ImageChannelInsert.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

a8d1, a8d2x4, a8d2x8, mlib_bit, mlib_byte, mlib_failure, mlib_image_aligned8, mlib_image_check, mlib_image_onedvector, mlib_image_stride8x, mlib_image_width4x, mlib_image_width8x, mlib_int, mlib_success

The mlib_v_ImageChannelInsert.c Java example source code

/*
 * Copyright (c) 1998, 2003, 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.
 */




/*
 * FUNCTIONS
 *      mlib_ImageChannelInsert   - Copy the source image into the selected
 *                                                        channels of the destination image
 *
 * SYNOPSIS
 *      mlib_status mlib_ImageChannelInsert(mlib_image *dst,
 *                                                                        mlib_image *src,
 *                                                                      mlib_s32   cmask);
 *
 * ARGUMENT
 *  dst     Pointer to destination image.
 *  src     Pointer to source image.
 *  cmask   Destination channel selection mask.
 *              The least significant bit (LSB) is corresponding to the
 *              last channel in the destination image data.
 *              The bits with value 1 stand for the channels selected.
 *              If more than N channels are selected, the leftmost N
 *              channels are inserted, where N is the number of channels
 *              in the source image.
 *
 * RESTRICTION
 *              The src and dst must have the same width, height and data type.
 *              The src and dst can have 1, 2, 3 or 4 channels.
 *              The src and dst can be either MLIB_BYTE, MLIB_SHORT, MLIB_INT,
 *          MLIB_FLOAT or MLIB_DOUBLE.
 *
 * DESCRIPTION
 *          Copy the source image into the selected channels of the destination
 *              image
 */

#include <stdlib.h>
#include "mlib_image.h"
#include "mlib_ImageCheck.h"

/***************************************************************/
/* functions defined in mlib_v_ImageChannelInsert_1.c */

void
mlib_v_ImageChannelInsert_U8(mlib_u8  *src,  mlib_s32 slb,
                             mlib_u8  *dst,  mlib_s32 dlb,
                             mlib_s32 channels,
                             mlib_s32 channeld,
                             mlib_s32 width,  mlib_s32 height,
                             mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_D64(mlib_d64  *src,  mlib_s32 slb,
                              mlib_d64  *dst,  mlib_s32 dlb,
                              mlib_s32 channels,
                              mlib_s32 channeld,
                              mlib_s32 width,  mlib_s32 height,
                              mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16(mlib_s16 *src,  mlib_s32 slb,
                              mlib_s16 *dst,  mlib_s32 dlb,
                              mlib_s32 channels,
                              mlib_s32 channeld,
                              mlib_s32 width,  mlib_s32 height,
                              mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S32(mlib_s32 *src,  mlib_s32 slb,
                              mlib_s32 *dst,  mlib_s32 dlb,
                              mlib_s32 channels,
                              mlib_s32 channeld,
                              mlib_s32 width,  mlib_s32 height,
                              mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_12_A8D1X8(mlib_u8  *src,
                                                               mlib_u8  *dst,
                                                         mlib_s32 dsize,
                                                         mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_12_A8D2X8(mlib_u8  *src,  mlib_s32 slb,
                                                               mlib_u8  *dst,  mlib_s32 dlb,
                                                       mlib_s32 xsize, mlib_s32 ysize,
                                                               mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_12_D1(mlib_u8  *src,
                                                           mlib_u8  *dst,
                                                   mlib_s32 dsize,
                                                           mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_12(mlib_u8  *src,  mlib_s32 slb,
                                                        mlib_u8  *dst,  mlib_s32 dlb,
                                                mlib_s32 xsize, mlib_s32 ysize,
                                                        mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_13_A8D1X8(mlib_u8  *src,
                                                               mlib_u8  *dst,
                                                       mlib_s32 dsize,
                                                               mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_13_A8D2X8(mlib_u8  *src,  mlib_s32 slb,
                                                               mlib_u8  *dst,  mlib_s32 dlb,
                                                         mlib_s32 xsize, mlib_s32 ysize,
                                                               mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_13_D1(mlib_u8  *src,
                                                           mlib_u8  *dst,
                                                     mlib_s32 dsize,
                                                           mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_13(mlib_u8  *src,  mlib_s32 slb,
                                                        mlib_u8  *dst,  mlib_s32 dlb,
                                                  mlib_s32 xsize, mlib_s32 ysize,
                                                        mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_14_A8D1X8(mlib_u8  *src,
                                                               mlib_u8  *dst,
                                                       mlib_s32 dsize,
                                                               mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_14_A8D2X8(mlib_u8  *src,  mlib_s32 slb,
                                                               mlib_u8  *dst,  mlib_s32 dlb,
                                                       mlib_s32 xsize, mlib_s32 ysize,
                                                               mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_14_D1(mlib_u8  *src,
                                                           mlib_u8  *dst,
                                                   mlib_s32 dsize,
                                                           mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_U8_14(mlib_u8  *src,  mlib_s32 slb,
                                                        mlib_u8  *dst,  mlib_s32 dlb,
                                                mlib_s32 xsize, mlib_s32 ysize,
                                                        mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_12_A8D1X4(mlib_s16 *src,
                                                                      mlib_s16 *dst,
                                                        mlib_s32 dsize,
                                                                mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_12_A8D2X4(mlib_s16 *src,  mlib_s32 slb,
                                                                      mlib_s16 *dst,  mlib_s32 dlb,
                                                        mlib_s32 xsize, mlib_s32 ysize,
                                                                mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_12_D1(mlib_s16 *src,
                                                            mlib_s16 *dst,
                                                    mlib_s32 dsize,
                                                            mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_12(mlib_s16 *src,  mlib_s32 slb,
                                                        mlib_s16 *dst,  mlib_s32 dlb,
                                                  mlib_s32 xsize, mlib_s32 ysize,
                                                  mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_13_A8D1X4(mlib_s16 *src,
                                                                      mlib_s16 *dst,
                                                        mlib_s32 dsize,
                                                                mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_13_A8D2X4(mlib_s16 *src,  mlib_s32 slb,
                                                                      mlib_s16 *dst,  mlib_s32 dlb,
                                                        mlib_s32 xsize, mlib_s32 ysize,
                                                                mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_13_D1(mlib_s16 *src,
                                                            mlib_s16 *dst,
                                                    mlib_s32 dsize,
                                                            mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_13(mlib_s16 *src,  mlib_s32 slb,
                                                         mlib_s16 *dst,  mlib_s32 dlb,
                                                 mlib_s32 xsize, mlib_s32 ysize,
                                                         mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_14_A8D1X4(mlib_s16 *src,
                                                                      mlib_s16 *dst,
                                                          mlib_s32 dsize,
                                                                      mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_14_A8D2X4(mlib_s16 *src,  mlib_s32 slb,
                                                                      mlib_s16 *dst,  mlib_s32 dlb,
                                                          mlib_s32 xsize, mlib_s32 ysize,
                                                                      mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_14_D1(mlib_s16 *src,
                                                            mlib_s16 *dst,
                                                    mlib_s32 dsize,
                                                            mlib_s32 cmask);
void
mlib_v_ImageChannelInsert_S16_14(mlib_s16 *src,  mlib_s32 slb,
                                                         mlib_s16 *dst,  mlib_s32 dlb,
                                                 mlib_s32 xsize, mlib_s32 ysize,
                                                         mlib_s32 cmask);

/***************************************************************/
/* functions defined in mlib_v_ImageChannelInsert_34.c */

void
mlib_v_ImageChannelInsert_U8_34R_A8D1X8(mlib_u8  *src,
                                                                mlib_u8  *dst,
                                                                mlib_s32 dsize);
void
mlib_v_ImageChannelInsert_U8_34R_A8D2X8(mlib_u8  *src,  mlib_s32 slb,
                                                                mlib_u8  *dst,  mlib_s32 dlb,
                                                                mlib_s32 xsize, mlib_s32 ysize);
void
mlib_v_ImageChannelInsert_U8_34R_D1(mlib_u8  *src,
                                                            mlib_u8  *dst,
                                                            mlib_s32 dsize);
void
mlib_v_ImageChannelInsert_U8_34R(mlib_u8  *src,  mlib_s32 slb,
                                                 mlib_u8  *dst,  mlib_s32 dlb,
                                                         mlib_s32 xsize, mlib_s32 ysize);
void
mlib_v_ImageChannelInsert_S16_34R_A8D1X4(mlib_s16 *src,
                                                                 mlib_s16 *dst,
                                                                 mlib_s32 dsize);
void
mlib_v_ImageChannelInsert_S16_34R_A8D2X4(mlib_s16 *src,  mlib_s32 slb,
                                                                 mlib_s16 *dst,  mlib_s32 dlb,
                                                                 mlib_s32 xsize, mlib_s32 ysize);
void
mlib_v_ImageChannelInsert_S16_34R_D1(mlib_s16 *src,
                                                             mlib_s16 *dst,
                                                             mlib_s32 dsize);
void
mlib_v_ImageChannelInsert_S16_34R(mlib_s16 *src,  mlib_s32 slb,
                                                          mlib_s16 *dst,  mlib_s32 dlb,
                                                          mlib_s32 xsize, mlib_s32 ysize);
void
mlib_v_ImageChannelInsert_U8_34L_A8D1X8(mlib_u8  *src,
                                                                mlib_u8  *dst,
                                                                mlib_s32 dsize);
void
mlib_v_ImageChannelInsert_U8_34L_A8D2X8(mlib_u8  *src,  mlib_s32 slb,
                                                                mlib_u8  *dst,  mlib_s32 dlb,
                                                        mlib_s32 xsize, mlib_s32 ysize);
void
mlib_v_ImageChannelInsert_U8_34L_D1(mlib_u8  *src,
                                                            mlib_u8  *dst,
                                                            mlib_s32 dsize);
void
mlib_v_ImageChannelInsert_U8_34L(mlib_u8  *src,  mlib_s32 slb,
                                                         mlib_u8  *dst,  mlib_s32 dlb,
                                                         mlib_s32 xsize, mlib_s32 ysize);
void
mlib_v_ImageChannelInsert_S16_34L_A8D1X4(mlib_s16 *src,
                                                                 mlib_s16 *dst,
                                                                 mlib_s32 dsize);
void
mlib_v_ImageChannelInsert_S16_34L_A8D2X4(mlib_s16 *src,  mlib_s32 slb,
                                                                 mlib_s16 *dst,  mlib_s32 dlb,
                                                                 mlib_s32 xsize, mlib_s32 ysize);
void
mlib_v_ImageChannelInsert_S16_34L_D1(mlib_s16 *src,
                                                             mlib_s16 *dst,
                                                             mlib_s32 dsize);
void
mlib_v_ImageChannelInsert_S16_34L(mlib_s16 *src,  mlib_s32 slb,
                                                          mlib_s16 *dst,  mlib_s32 dlb,
                                                          mlib_s32 xsize, mlib_s32 ysize);


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

#ifdef MLIB_TEST
mlib_status
mlib_v_ImageChannelInsert(mlib_image *dst,
                                            mlib_image *src,
                                          mlib_s32   cmask)
#else
mlib_status
mlib_ImageChannelInsert(mlib_image *dst,
                                        mlib_image *src,
                                        mlib_s32   cmask)
#endif
{
  const mlib_s32  X8 = 0x7;
  const mlib_s32  X4 = 0x3;
  const mlib_s32  X2 = 0x1;
  const mlib_s32  A8D1   = MLIB_IMAGE_ALIGNED8 | MLIB_IMAGE_ONEDVECTOR;
  const mlib_s32  A8D2X8 = MLIB_IMAGE_ALIGNED8 | MLIB_IMAGE_STRIDE8X | MLIB_IMAGE_WIDTH8X;
  const mlib_s32  A8D2X4 = MLIB_IMAGE_ALIGNED8 | MLIB_IMAGE_STRIDE8X | MLIB_IMAGE_WIDTH4X;
  const mlib_s32  A8D2X2 = MLIB_IMAGE_ALIGNED8 | MLIB_IMAGE_STRIDE8X | MLIB_IMAGE_WIDTH2X;

  void      *sp;                      /* pointer for pixel in src */
  void      *dp;                      /* pointer for pixel in dst */
  mlib_s32  ncmask = 0;         /* normalized channel mask */
  mlib_s32  channels;             /* number of channels for src */
  mlib_s32  channeld;             /* number of channels for dst */
  mlib_s32  width, height;/* for src and dst */
  mlib_s32  strides;              /* strides in bytes for src */
  mlib_s32  strided;            /* strides in bytes for dst */
  mlib_s32  flags;
  mlib_s32  flagd;
  mlib_s32  dsize;
  int         i, bit1count = 0;

  MLIB_IMAGE_CHECK(src);
  MLIB_IMAGE_CHECK(dst);
  MLIB_IMAGE_TYPE_EQUAL(src,dst);
  MLIB_IMAGE_SIZE_EQUAL(src,dst);

  channels = mlib_ImageGetChannels(src);
  channeld = mlib_ImageGetChannels(dst);
  width    = mlib_ImageGetWidth(src);
  height   = mlib_ImageGetHeight(src);
  strides  = mlib_ImageGetStride(src);
  strided  = mlib_ImageGetStride(dst);
  sp       = mlib_ImageGetData(src);
  dp       = mlib_ImageGetData(dst);
  flags    = mlib_ImageGetFlags(src);
  flagd    = mlib_ImageGetFlags(dst);
  dsize    = width * height;

  /* normalize the cmask, and count the number of bit with value 1 */
  for (i = (channeld - 1); i >= 0; i--) {
    if (((cmask & (1 << i)) != 0) && (bit1count < channels)) {
      ncmask += (1 << i);
      bit1count++;
    }
  }

  /* do not support the cases in which the number of selected channels is
   * less than the nubmber of channels in the source image */
  if (bit1count < channels) {
    return MLIB_FAILURE;
  }

  if (((channels == 1) && (channeld == 1)) ||
      ((channels == 2) && (channeld == 2)) ||
      ((channels == 3) && (channeld == 3)) ||
      ((channels == 4) && (channeld == 4))) {
      return mlib_ImageCopy(dst, src);
  }

  switch (mlib_ImageGetType(src)) {
    case MLIB_BYTE:
      if (channels == 1) {
        switch (channeld) {
          case 2:
            if (((flags & A8D1) == 0) &&
                ((flagd & A8D1) == 0) &&
                ((dsize & X8)   == 0)) {
                mlib_v_ImageChannelInsert_U8_12_A8D1X8((mlib_u8 *)sp,
                                                                             (mlib_u8 *)dp,
                                                                             dsize,
                                                                                     ncmask);
            }
            else if (((flags & A8D2X8) == 0) &&
              ((flagd & A8D2X8) == 0)) {
              mlib_v_ImageChannelInsert_U8_12_A8D2X8((mlib_u8 *)sp, strides,
                                                                             (mlib_u8 *)dp, strided,
                                                                             width, height,
                                                                                     ncmask);
            }
            else if (((flags & MLIB_IMAGE_ONEDVECTOR) == 0) &&
               ((flagd & MLIB_IMAGE_ONEDVECTOR) == 0)) {
                mlib_v_ImageChannelInsert_U8_12_D1((mlib_u8 *)sp,
                                                                                 (mlib_u8 *)dp,
                                                                                 dsize,
                                                                                 ncmask);
            }
            else {
                mlib_v_ImageChannelInsert_U8_12((mlib_u8 *)sp, strides,
                                                                      (mlib_u8 *)dp, strided,
                                                                      width, height,
                                                                              ncmask);
            }
            break;

          case 3:
            if (((flags & A8D1) == 0) &&
                ((flagd & A8D1) == 0) &&
                ((dsize & X8)   == 0)) {
                mlib_v_ImageChannelInsert_U8_13_A8D1X8((mlib_u8 *)sp,
                                                                                 (mlib_u8 *)dp,
                                                                               dsize,
                                                                                           ncmask);
            }
            else if (((flags & A8D2X8) == 0) &&
              ((flagd & A8D2X8) == 0)) {
                mlib_v_ImageChannelInsert_U8_13_A8D2X8((mlib_u8 *)sp, strides,
                                                                                     (mlib_u8 *)dp, strided,
                                                                             width, height,
                                                                                     ncmask);
            }
            else if (((flags & MLIB_IMAGE_ONEDVECTOR) == 0) &&
               ((flagd & MLIB_IMAGE_ONEDVECTOR) == 0)) {
                mlib_v_ImageChannelInsert_U8_13_D1((mlib_u8 *)sp,
                                                                                 (mlib_u8 *)dp,
                                                                                 dsize,
                                                                                 ncmask);
            }
            else {
              mlib_v_ImageChannelInsert_U8_13((mlib_u8 *)sp, strides,
                                                                      (mlib_u8 *)dp, strided,
                                                                      width, height,
                                                                      ncmask);
            }
            break;

          case 4:
            if (((flags & A8D1) == 0) &&
                ((flagd & A8D1) == 0) &&
                ((dsize & X8)   == 0)) {
                  mlib_v_ImageChannelInsert_U8_14_A8D1X8((mlib_u8 *)sp,
                                                                                   (mlib_u8 *)dp,
                                                                                 dsize,
                                                                                             ncmask);
            }
            else if (((flags & A8D2X8) == 0) &&
               ((flagd & A8D2X8) == 0)) {
               mlib_v_ImageChannelInsert_U8_14_A8D2X8((mlib_u8 *)sp, strides,
                                                                      (mlib_u8 *)dp, strided,
                                                                              width, height,
                                                                                          ncmask);
            }
            else if (((flags & MLIB_IMAGE_ONEDVECTOR) == 0) &&
              ((flagd & MLIB_IMAGE_ONEDVECTOR) == 0)) {
                mlib_v_ImageChannelInsert_U8_14_D1((mlib_u8 *)sp,
                                                                                 (mlib_u8 *)dp,
                                                                                 dsize,
                                                                                 ncmask);
            }
            else {
              mlib_v_ImageChannelInsert_U8_14((mlib_u8 *)sp, strides,
                                                                      (mlib_u8 *)dp, strided,
                                                                      width, height,
                                                                      ncmask);
            }
            break;

          default:
            return MLIB_FAILURE;
        }
      }
      else {
        if ((channels == 3) && (channeld == 4) && (ncmask == 7)) {
          if (((flags & A8D1) == 0) &&
            ((flagd & A8D1) == 0) &&
            ((dsize & X8)   == 0)) {
            mlib_v_ImageChannelInsert_U8_34R_A8D1X8((mlib_u8 *)sp,
                                                                          (mlib_u8 *)dp,
                                                                          dsize);
          }
        else if (((flags & A8D2X8) == 0) &&
               ((flagd & A8D2X8) == 0)) {
              mlib_v_ImageChannelInsert_U8_34R_A8D2X8((mlib_u8 *)sp, strides,
                                                                                    (mlib_u8 *)dp, strided,
                                                                              width, height);
        }
        else if (((flags & MLIB_IMAGE_ONEDVECTOR) == 0) &&
               ((flagd & MLIB_IMAGE_ONEDVECTOR) == 0)) {
              mlib_v_ImageChannelInsert_U8_34R_D1((mlib_u8 *)sp,
                                                                          (mlib_u8 *)dp,
                                                                          dsize);
        }
        else {
              mlib_v_ImageChannelInsert_U8_34R((mlib_u8 *)sp, strides,
                                                                      (mlib_u8 *)dp, strided,
                                                                      width, height);
        }
      }
      else if ((channels == 3) && (channeld == 4) && (ncmask == 14)) {
        if (((flags & A8D1) == 0) &&
            ((flagd & A8D1) == 0) &&
            ((dsize & X8)   == 0)) {
            mlib_v_ImageChannelInsert_U8_34L_A8D1X8((mlib_u8 *)sp,
                                                                            (mlib_u8 *)dp,
                                                                          dsize);
              }
        else if (((flags & A8D2X8) == 0) &&
                 ((flagd & A8D2X8) == 0)) {
                 mlib_v_ImageChannelInsert_U8_34L_A8D2X8((mlib_u8 *)sp, strides,
                                                                                  (mlib_u8 *)dp, strided,
                                                                          width, height);
        }
        else if (((flags & MLIB_IMAGE_ONEDVECTOR) == 0) &&
                 ((flagd & MLIB_IMAGE_ONEDVECTOR) == 0)) {
                 mlib_v_ImageChannelInsert_U8_34L_D1((mlib_u8 *)sp,
                                                                      (mlib_u8 *)dp,
                                                                      dsize);
        }
        else mlib_v_ImageChannelInsert_U8_34L((mlib_u8 *)sp, strides,
                                                                   (mlib_u8 *)dp, strided,
                                                                   width, height);
        }
      else {

      mlib_v_ImageChannelInsert_U8((mlib_u8 *)sp, strides,
                                                     (mlib_u8 *)dp, strided,
                                                     channels, channeld,
                                                     width, height,
                                                     ncmask);
      }
  }
  break;

    case MLIB_SHORT:
      if (channels == 1) {
        switch (channeld) {
          case 2:
            if (((flags & A8D1) == 0) &&
                ((flagd & A8D1) == 0) &&
                ((dsize & X4)   == 0)) {
              mlib_v_ImageChannelInsert_S16_12_A8D1X4((mlib_s16 *)sp,
                                                                                    (mlib_s16 *)dp,
                                                                                      dsize,
                                                                                      ncmask);
            }
            else if (((flags & A8D2X4) == 0) &&
               ((flagd & A8D2X4) == 0)) {
              mlib_v_ImageChannelInsert_S16_12_A8D2X4((mlib_s16 *)sp, strides,
                                                                              (mlib_s16 *)dp, strided,
                                                                              width, height,
                                                                                      ncmask);
            }
            else if (((flags & MLIB_IMAGE_ONEDVECTOR) == 0) &&
               ((flagd & MLIB_IMAGE_ONEDVECTOR) == 0)) {
             mlib_v_ImageChannelInsert_S16_12_D1((mlib_s16 *)sp,
                                                                           (mlib_s16 *)dp,
                                                                          dsize,
                                                                                  ncmask);
            }
            else {
              mlib_v_ImageChannelInsert_S16_12((mlib_s16 *)sp, strides,
                                                                       (mlib_s16 *)dp, strided,
                                                                       width, height,
                                                                       ncmask);
            }
            break;

          case 3:
            if (((flags & A8D1) == 0) &&
                ((flagd & A8D1) == 0) &&
                ((dsize & X4)   == 0)) {
              mlib_v_ImageChannelInsert_S16_13_A8D1X4((mlib_s16 *)sp,
                                                                              (mlib_s16 *)dp,
                                                                                      dsize,
                                                                                      ncmask);
            }
            else if (((flags & A8D2X4) == 0) &&
               ((flagd & A8D2X4) == 0)) {
              mlib_v_ImageChannelInsert_S16_13_A8D2X4((mlib_s16 *)sp, strides,
                                                                              (mlib_s16 *)dp, strided,
                                                                              width, height,
                                                                                      ncmask);
            }
            else if (((flags & MLIB_IMAGE_ONEDVECTOR) == 0) &&
               ((flagd & MLIB_IMAGE_ONEDVECTOR) == 0)) {
                mlib_v_ImageChannelInsert_S16_13_D1((mlib_s16 *)sp,
                                                                                  (mlib_s16 *)dp,
                                                                                  dsize,
                                                                                  ncmask);
            }
            else {
              mlib_v_ImageChannelInsert_S16_13((mlib_s16 *)sp, strides,
                                                                       (mlib_s16 *)dp, strided,
                                                                       width, height,
                                                                       ncmask);
            }
            break;

          case 4:
            if (((flags & A8D1) == 0) &&
                ((flagd & A8D1) == 0) &&
                ((dsize & X4)   == 0)) {
              mlib_v_ImageChannelInsert_S16_14_A8D1X4((mlib_s16 *)sp,
                                                                                    (mlib_s16 *)dp,
                                                      dsize,
                                                      ncmask);
            }
            else if (((flags & A8D2X4) == 0) &&
               ((flagd & A8D2X4) == 0)) {
              mlib_v_ImageChannelInsert_S16_14_A8D2X4((mlib_s16 *)sp, strides,
                                                                              (mlib_s16 *)dp, strided,
                                                                              width, height,
                                                                                      ncmask);
            }
            else if (((flags & MLIB_IMAGE_ONEDVECTOR) == 0) &&
               ((flagd & MLIB_IMAGE_ONEDVECTOR) == 0)) {
              mlib_v_ImageChannelInsert_S16_14_D1((mlib_s16 *)sp,
                                                                          (mlib_s16 *)dp,
                                                                          dsize,
                                                                                  ncmask);
            }
            else {
              mlib_v_ImageChannelInsert_S16_14((mlib_s16 *)sp, strides,
                                                                       (mlib_s16 *)dp, strided,
                                                                       width, height,
                                                                       ncmask);
            }
            break;
          default:
            return MLIB_FAILURE;
        }
      }
      else if ((channels == 3) && (channeld == 4) && (ncmask == 7)) {
        if (((flags & A8D1) == 0) &&
            ((flagd & A8D1) == 0) &&
            ((dsize & X4)   == 0)) {
          mlib_v_ImageChannelInsert_S16_34R_A8D1X4((mlib_s16 *)sp,
                                                                           (mlib_s16 *)dp,
                                                                           dsize);
        }
        else if (((flags & A8D2X4) == 0) &&
           ((flagd & A8D2X4) == 0)) {
          mlib_v_ImageChannelInsert_S16_34R_A8D2X4((mlib_s16 *)sp, strides,
                                                                           (mlib_s16 *)dp, strided,
                                                                           width, height);
        }
        else if (((flags & MLIB_IMAGE_ONEDVECTOR) == 0) &&
           ((flagd & MLIB_IMAGE_ONEDVECTOR) == 0)) {
          mlib_v_ImageChannelInsert_S16_34R_D1((mlib_s16 *)sp,
                                                                       (mlib_s16 *)dp,
                                                                       dsize);
        }
        else {
          mlib_v_ImageChannelInsert_S16_34R((mlib_s16 *)sp, strides,
                                                                    (mlib_s16 *)dp, strided,
                                                                     width, height);
        }
      }
      else if ((channels == 3) && (channeld == 4) && (ncmask == 14)) {
        if (((flags & A8D1) == 0) &&
            ((flagd & A8D1) == 0) &&
            ((dsize & X4)   == 0)) {
          mlib_v_ImageChannelInsert_S16_34L_A8D1X4((mlib_s16 *)sp,
                                                                           (mlib_s16 *)dp,
                                                                           dsize);
        }
        else if (((flags & A8D2X4) == 0) &&
           ((flagd & A8D2X4) == 0)) {
          mlib_v_ImageChannelInsert_S16_34L_A8D2X4((mlib_s16 *)sp, strides,
                                                                           (mlib_s16 *)dp, strided,
                                                                           width, height);
        }
        else if (((flags & MLIB_IMAGE_ONEDVECTOR) == 0) &&
           ((flagd & MLIB_IMAGE_ONEDVECTOR) == 0)) {
          mlib_v_ImageChannelInsert_S16_34L_D1((mlib_s16 *)sp,
                                                                       (mlib_s16 *)dp,
                                                                       dsize);
        }
        else {
          mlib_v_ImageChannelInsert_S16_34L((mlib_s16 *)sp, strides,
                                                                    (mlib_s16 *)dp, strided,
                                                                    width, height);
        }
      }
      else {
        mlib_v_ImageChannelInsert_S16((mlib_s16 *)sp, strides,
                                                              (mlib_s16 *)dp, strided,
                                                              channels,  channeld,
                                                              width, height,
                                                              ncmask);
      }
      break;

    case MLIB_INT:
        mlib_v_ImageChannelInsert_S32((mlib_s32 *)sp, strides,
                                      (mlib_s32 *)dp, strided,
                                      channels, channeld,
                                      width, height,
                                      ncmask);
        break;

    case MLIB_FLOAT:
        mlib_v_ImageChannelInsert_S32((mlib_s32 *)sp, strides,
                                      (mlib_s32 *)dp, strided,
                                      channels, channeld,
                                      width, height,
                                      ncmask);
        break;


    case MLIB_DOUBLE:
        mlib_v_ImageChannelInsert_D64((mlib_d64 *)sp, strides,
                                      (mlib_d64 *)dp, strided,
                                      channels, channeld,
                                      width, height,
                                      ncmask);
        break;


    case MLIB_BIT:
    default:
        return MLIB_FAILURE;    /* MLIB_BIT is not supported here */
  }

  return MLIB_SUCCESS;
}
/***************************************************************/

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