third-party/leptonica/src/dwacomblow.2.c
/*====================================================================*
- Copyright (C) 2001 Leptonica. All rights reserved.
-
- Redistribution and use in source and binary forms, with or without
- modification, are permitted provided that the following conditions
- are met:
- 1. Redistributions of source code must retain the above copyright
- notice, this list of conditions and the following disclaimer.
- 2. Redistributions in binary form must reproduce the above
- copyright notice, this list of conditions and the following
- disclaimer in the documentation and/or other materials
- provided with the distribution.
-
- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
- ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL ANY
- CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
- PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
- OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*====================================================================*/
/*!
* Low-level fast binary morphology with auto-generated sels
*
* Dispatcher:
* l_int32 fmorphopgen_low_2()
*
* Static Low-level:
* void fdilate_2_*()
* void ferode_2_*()
*/
#include "allheaders.h"
static void fdilate_2_0(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_0(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_1(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_1(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_2(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_2(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_3(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_3(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_4(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_4(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_5(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_5(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_6(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_6(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_7(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_7(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_8(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_8(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_9(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_9(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_10(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_10(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_11(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_11(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_12(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_12(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_13(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_13(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_14(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_14(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_15(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_15(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_16(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_16(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_17(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_17(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_18(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_18(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_19(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_19(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_20(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_20(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_21(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_21(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_22(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_22(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_23(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_23(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_24(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_24(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_25(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_25(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_26(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_26(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_27(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_27(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_28(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_28(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_29(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_29(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_30(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_30(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_31(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_31(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_32(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_32(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_33(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_33(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_34(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_34(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_35(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_35(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_36(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_36(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_37(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_37(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_38(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_38(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_39(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_39(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_40(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_40(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_41(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_41(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_42(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_42(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_43(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_43(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_44(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_44(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_45(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_45(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_46(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_46(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_47(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_47(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_48(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_48(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_49(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_49(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_50(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_50(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_51(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_51(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_52(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_52(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_53(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_53(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_54(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_54(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_55(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_55(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_56(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_56(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_57(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_57(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_58(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_58(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_59(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_59(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_60(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_60(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_61(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_61(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_62(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_62(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_63(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_63(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_64(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_64(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_65(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_65(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_66(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_66(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_67(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_67(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_68(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_68(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_69(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_69(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_70(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_70(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_71(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_71(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_72(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_72(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_73(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_73(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_74(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_74(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void fdilate_2_75(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
static void ferode_2_75(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32);
/*---------------------------------------------------------------------*
* Fast morph dispatcher *
*---------------------------------------------------------------------*/
/*!
* fmorphopgen_low_2()
*
* a dispatcher to appropriate low-level code
*/
l_int32
fmorphopgen_low_2(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls,
l_int32 index)
{
switch (index)
{
case 0:
fdilate_2_0(datad, w, h, wpld, datas, wpls);
break;
case 1:
ferode_2_0(datad, w, h, wpld, datas, wpls);
break;
case 2:
fdilate_2_1(datad, w, h, wpld, datas, wpls);
break;
case 3:
ferode_2_1(datad, w, h, wpld, datas, wpls);
break;
case 4:
fdilate_2_2(datad, w, h, wpld, datas, wpls);
break;
case 5:
ferode_2_2(datad, w, h, wpld, datas, wpls);
break;
case 6:
fdilate_2_3(datad, w, h, wpld, datas, wpls);
break;
case 7:
ferode_2_3(datad, w, h, wpld, datas, wpls);
break;
case 8:
fdilate_2_4(datad, w, h, wpld, datas, wpls);
break;
case 9:
ferode_2_4(datad, w, h, wpld, datas, wpls);
break;
case 10:
fdilate_2_5(datad, w, h, wpld, datas, wpls);
break;
case 11:
ferode_2_5(datad, w, h, wpld, datas, wpls);
break;
case 12:
fdilate_2_6(datad, w, h, wpld, datas, wpls);
break;
case 13:
ferode_2_6(datad, w, h, wpld, datas, wpls);
break;
case 14:
fdilate_2_7(datad, w, h, wpld, datas, wpls);
break;
case 15:
ferode_2_7(datad, w, h, wpld, datas, wpls);
break;
case 16:
fdilate_2_8(datad, w, h, wpld, datas, wpls);
break;
case 17:
ferode_2_8(datad, w, h, wpld, datas, wpls);
break;
case 18:
fdilate_2_9(datad, w, h, wpld, datas, wpls);
break;
case 19:
ferode_2_9(datad, w, h, wpld, datas, wpls);
break;
case 20:
fdilate_2_10(datad, w, h, wpld, datas, wpls);
break;
case 21:
ferode_2_10(datad, w, h, wpld, datas, wpls);
break;
case 22:
fdilate_2_11(datad, w, h, wpld, datas, wpls);
break;
case 23:
ferode_2_11(datad, w, h, wpld, datas, wpls);
break;
case 24:
fdilate_2_12(datad, w, h, wpld, datas, wpls);
break;
case 25:
ferode_2_12(datad, w, h, wpld, datas, wpls);
break;
case 26:
fdilate_2_13(datad, w, h, wpld, datas, wpls);
break;
case 27:
ferode_2_13(datad, w, h, wpld, datas, wpls);
break;
case 28:
fdilate_2_14(datad, w, h, wpld, datas, wpls);
break;
case 29:
ferode_2_14(datad, w, h, wpld, datas, wpls);
break;
case 30:
fdilate_2_15(datad, w, h, wpld, datas, wpls);
break;
case 31:
ferode_2_15(datad, w, h, wpld, datas, wpls);
break;
case 32:
fdilate_2_16(datad, w, h, wpld, datas, wpls);
break;
case 33:
ferode_2_16(datad, w, h, wpld, datas, wpls);
break;
case 34:
fdilate_2_17(datad, w, h, wpld, datas, wpls);
break;
case 35:
ferode_2_17(datad, w, h, wpld, datas, wpls);
break;
case 36:
fdilate_2_18(datad, w, h, wpld, datas, wpls);
break;
case 37:
ferode_2_18(datad, w, h, wpld, datas, wpls);
break;
case 38:
fdilate_2_19(datad, w, h, wpld, datas, wpls);
break;
case 39:
ferode_2_19(datad, w, h, wpld, datas, wpls);
break;
case 40:
fdilate_2_20(datad, w, h, wpld, datas, wpls);
break;
case 41:
ferode_2_20(datad, w, h, wpld, datas, wpls);
break;
case 42:
fdilate_2_21(datad, w, h, wpld, datas, wpls);
break;
case 43:
ferode_2_21(datad, w, h, wpld, datas, wpls);
break;
case 44:
fdilate_2_22(datad, w, h, wpld, datas, wpls);
break;
case 45:
ferode_2_22(datad, w, h, wpld, datas, wpls);
break;
case 46:
fdilate_2_23(datad, w, h, wpld, datas, wpls);
break;
case 47:
ferode_2_23(datad, w, h, wpld, datas, wpls);
break;
case 48:
fdilate_2_24(datad, w, h, wpld, datas, wpls);
break;
case 49:
ferode_2_24(datad, w, h, wpld, datas, wpls);
break;
case 50:
fdilate_2_25(datad, w, h, wpld, datas, wpls);
break;
case 51:
ferode_2_25(datad, w, h, wpld, datas, wpls);
break;
case 52:
fdilate_2_26(datad, w, h, wpld, datas, wpls);
break;
case 53:
ferode_2_26(datad, w, h, wpld, datas, wpls);
break;
case 54:
fdilate_2_27(datad, w, h, wpld, datas, wpls);
break;
case 55:
ferode_2_27(datad, w, h, wpld, datas, wpls);
break;
case 56:
fdilate_2_28(datad, w, h, wpld, datas, wpls);
break;
case 57:
ferode_2_28(datad, w, h, wpld, datas, wpls);
break;
case 58:
fdilate_2_29(datad, w, h, wpld, datas, wpls);
break;
case 59:
ferode_2_29(datad, w, h, wpld, datas, wpls);
break;
case 60:
fdilate_2_30(datad, w, h, wpld, datas, wpls);
break;
case 61:
ferode_2_30(datad, w, h, wpld, datas, wpls);
break;
case 62:
fdilate_2_31(datad, w, h, wpld, datas, wpls);
break;
case 63:
ferode_2_31(datad, w, h, wpld, datas, wpls);
break;
case 64:
fdilate_2_32(datad, w, h, wpld, datas, wpls);
break;
case 65:
ferode_2_32(datad, w, h, wpld, datas, wpls);
break;
case 66:
fdilate_2_33(datad, w, h, wpld, datas, wpls);
break;
case 67:
ferode_2_33(datad, w, h, wpld, datas, wpls);
break;
case 68:
fdilate_2_34(datad, w, h, wpld, datas, wpls);
break;
case 69:
ferode_2_34(datad, w, h, wpld, datas, wpls);
break;
case 70:
fdilate_2_35(datad, w, h, wpld, datas, wpls);
break;
case 71:
ferode_2_35(datad, w, h, wpld, datas, wpls);
break;
case 72:
fdilate_2_36(datad, w, h, wpld, datas, wpls);
break;
case 73:
ferode_2_36(datad, w, h, wpld, datas, wpls);
break;
case 74:
fdilate_2_37(datad, w, h, wpld, datas, wpls);
break;
case 75:
ferode_2_37(datad, w, h, wpld, datas, wpls);
break;
case 76:
fdilate_2_38(datad, w, h, wpld, datas, wpls);
break;
case 77:
ferode_2_38(datad, w, h, wpld, datas, wpls);
break;
case 78:
fdilate_2_39(datad, w, h, wpld, datas, wpls);
break;
case 79:
ferode_2_39(datad, w, h, wpld, datas, wpls);
break;
case 80:
fdilate_2_40(datad, w, h, wpld, datas, wpls);
break;
case 81:
ferode_2_40(datad, w, h, wpld, datas, wpls);
break;
case 82:
fdilate_2_41(datad, w, h, wpld, datas, wpls);
break;
case 83:
ferode_2_41(datad, w, h, wpld, datas, wpls);
break;
case 84:
fdilate_2_42(datad, w, h, wpld, datas, wpls);
break;
case 85:
ferode_2_42(datad, w, h, wpld, datas, wpls);
break;
case 86:
fdilate_2_43(datad, w, h, wpld, datas, wpls);
break;
case 87:
ferode_2_43(datad, w, h, wpld, datas, wpls);
break;
case 88:
fdilate_2_44(datad, w, h, wpld, datas, wpls);
break;
case 89:
ferode_2_44(datad, w, h, wpld, datas, wpls);
break;
case 90:
fdilate_2_45(datad, w, h, wpld, datas, wpls);
break;
case 91:
ferode_2_45(datad, w, h, wpld, datas, wpls);
break;
case 92:
fdilate_2_46(datad, w, h, wpld, datas, wpls);
break;
case 93:
ferode_2_46(datad, w, h, wpld, datas, wpls);
break;
case 94:
fdilate_2_47(datad, w, h, wpld, datas, wpls);
break;
case 95:
ferode_2_47(datad, w, h, wpld, datas, wpls);
break;
case 96:
fdilate_2_48(datad, w, h, wpld, datas, wpls);
break;
case 97:
ferode_2_48(datad, w, h, wpld, datas, wpls);
break;
case 98:
fdilate_2_49(datad, w, h, wpld, datas, wpls);
break;
case 99:
ferode_2_49(datad, w, h, wpld, datas, wpls);
break;
case 100:
fdilate_2_50(datad, w, h, wpld, datas, wpls);
break;
case 101:
ferode_2_50(datad, w, h, wpld, datas, wpls);
break;
case 102:
fdilate_2_51(datad, w, h, wpld, datas, wpls);
break;
case 103:
ferode_2_51(datad, w, h, wpld, datas, wpls);
break;
case 104:
fdilate_2_52(datad, w, h, wpld, datas, wpls);
break;
case 105:
ferode_2_52(datad, w, h, wpld, datas, wpls);
break;
case 106:
fdilate_2_53(datad, w, h, wpld, datas, wpls);
break;
case 107:
ferode_2_53(datad, w, h, wpld, datas, wpls);
break;
case 108:
fdilate_2_54(datad, w, h, wpld, datas, wpls);
break;
case 109:
ferode_2_54(datad, w, h, wpld, datas, wpls);
break;
case 110:
fdilate_2_55(datad, w, h, wpld, datas, wpls);
break;
case 111:
ferode_2_55(datad, w, h, wpld, datas, wpls);
break;
case 112:
fdilate_2_56(datad, w, h, wpld, datas, wpls);
break;
case 113:
ferode_2_56(datad, w, h, wpld, datas, wpls);
break;
case 114:
fdilate_2_57(datad, w, h, wpld, datas, wpls);
break;
case 115:
ferode_2_57(datad, w, h, wpld, datas, wpls);
break;
case 116:
fdilate_2_58(datad, w, h, wpld, datas, wpls);
break;
case 117:
ferode_2_58(datad, w, h, wpld, datas, wpls);
break;
case 118:
fdilate_2_59(datad, w, h, wpld, datas, wpls);
break;
case 119:
ferode_2_59(datad, w, h, wpld, datas, wpls);
break;
case 120:
fdilate_2_60(datad, w, h, wpld, datas, wpls);
break;
case 121:
ferode_2_60(datad, w, h, wpld, datas, wpls);
break;
case 122:
fdilate_2_61(datad, w, h, wpld, datas, wpls);
break;
case 123:
ferode_2_61(datad, w, h, wpld, datas, wpls);
break;
case 124:
fdilate_2_62(datad, w, h, wpld, datas, wpls);
break;
case 125:
ferode_2_62(datad, w, h, wpld, datas, wpls);
break;
case 126:
fdilate_2_63(datad, w, h, wpld, datas, wpls);
break;
case 127:
ferode_2_63(datad, w, h, wpld, datas, wpls);
break;
case 128:
fdilate_2_64(datad, w, h, wpld, datas, wpls);
break;
case 129:
ferode_2_64(datad, w, h, wpld, datas, wpls);
break;
case 130:
fdilate_2_65(datad, w, h, wpld, datas, wpls);
break;
case 131:
ferode_2_65(datad, w, h, wpld, datas, wpls);
break;
case 132:
fdilate_2_66(datad, w, h, wpld, datas, wpls);
break;
case 133:
ferode_2_66(datad, w, h, wpld, datas, wpls);
break;
case 134:
fdilate_2_67(datad, w, h, wpld, datas, wpls);
break;
case 135:
ferode_2_67(datad, w, h, wpld, datas, wpls);
break;
case 136:
fdilate_2_68(datad, w, h, wpld, datas, wpls);
break;
case 137:
ferode_2_68(datad, w, h, wpld, datas, wpls);
break;
case 138:
fdilate_2_69(datad, w, h, wpld, datas, wpls);
break;
case 139:
ferode_2_69(datad, w, h, wpld, datas, wpls);
break;
case 140:
fdilate_2_70(datad, w, h, wpld, datas, wpls);
break;
case 141:
ferode_2_70(datad, w, h, wpld, datas, wpls);
break;
case 142:
fdilate_2_71(datad, w, h, wpld, datas, wpls);
break;
case 143:
ferode_2_71(datad, w, h, wpld, datas, wpls);
break;
case 144:
fdilate_2_72(datad, w, h, wpld, datas, wpls);
break;
case 145:
ferode_2_72(datad, w, h, wpld, datas, wpls);
break;
case 146:
fdilate_2_73(datad, w, h, wpld, datas, wpls);
break;
case 147:
ferode_2_73(datad, w, h, wpld, datas, wpls);
break;
case 148:
fdilate_2_74(datad, w, h, wpld, datas, wpls);
break;
case 149:
ferode_2_74(datad, w, h, wpld, datas, wpls);
break;
case 150:
fdilate_2_75(datad, w, h, wpld, datas, wpls);
break;
case 151:
ferode_2_75(datad, w, h, wpld, datas, wpls);
break;
}
return 0;
}
/*--------------------------------------------------------------------------*
* Low-level auto-generated static routines *
*--------------------------------------------------------------------------*/
/*
* N.B. In all the low-level routines, the part of the image
* that is accessed has been clipped by 32 pixels on
* all four sides. This is done in the higher level
* code by redefining w and h smaller and by moving the
* start-of-image pointers up to the beginning of this
* interior rectangle.
*/
static void
fdilate_2_0(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 1) | (*(sptr + 1) >> 31)) |
((*(sptr) >> 1) | (*(sptr - 1) << 31));
}
}
}
static void
ferode_2_0(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 1) | (*(sptr - 1) << 31)) &
((*(sptr) << 1) | (*(sptr + 1) >> 31));
}
}
}
static void
fdilate_2_1(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls)) |
(*(sptr - wpls));
}
}
}
static void
ferode_2_1(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls)) &
(*(sptr + wpls));
}
}
}
static void
fdilate_2_2(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*sptr);
}
}
}
static void
ferode_2_2(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*sptr);
}
}
}
static void
fdilate_2_3(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*sptr);
}
}
}
static void
ferode_2_3(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*sptr);
}
}
}
static void
fdilate_2_4(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 2) | (*(sptr + 1) >> 30)) |
((*(sptr) >> 1) | (*(sptr - 1) << 31));
}
}
}
static void
ferode_2_4(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 2) | (*(sptr - 1) << 30)) &
((*(sptr) << 1) | (*(sptr + 1) >> 31));
}
}
}
static void
fdilate_2_5(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls2;
wpls2 = 2 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls2)) |
(*(sptr - wpls));
}
}
}
static void
ferode_2_5(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls2;
wpls2 = 2 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls2)) &
(*(sptr + wpls));
}
}
}
static void
fdilate_2_6(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*sptr);
}
}
}
static void
ferode_2_6(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*sptr);
}
}
}
static void
fdilate_2_7(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*sptr);
}
}
}
static void
ferode_2_7(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*sptr);
}
}
}
static void
fdilate_2_8(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 2) | (*(sptr + 1) >> 30)) |
((*(sptr) >> 2) | (*(sptr - 1) << 30));
}
}
}
static void
ferode_2_8(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 2) | (*(sptr - 1) << 30)) &
((*(sptr) << 2) | (*(sptr + 1) >> 30));
}
}
}
static void
fdilate_2_9(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls2;
wpls2 = 2 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls2)) |
(*(sptr - wpls2));
}
}
}
static void
ferode_2_9(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls2;
wpls2 = 2 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls2)) &
(*(sptr + wpls2));
}
}
}
static void
fdilate_2_10(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 3) | (*(sptr + 1) >> 29)) |
(*sptr) |
((*(sptr) >> 3) | (*(sptr - 1) << 29));
}
}
}
static void
ferode_2_10(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 3) | (*(sptr - 1) << 29)) &
(*sptr) &
((*(sptr) << 3) | (*(sptr + 1) >> 29));
}
}
}
static void
fdilate_2_11(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
wpls3 = 3 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls3)) |
(*sptr) |
(*(sptr - wpls3));
}
}
}
static void
ferode_2_11(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
wpls3 = 3 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls3)) &
(*sptr) &
(*(sptr + wpls3));
}
}
}
static void
fdilate_2_12(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 3) | (*(sptr + 1) >> 29)) |
((*(sptr) >> 2) | (*(sptr - 1) << 30));
}
}
}
static void
ferode_2_12(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 3) | (*(sptr - 1) << 29)) &
((*(sptr) << 2) | (*(sptr + 1) >> 30));
}
}
}
static void
fdilate_2_13(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls2;
l_int32 wpls3;
wpls2 = 2 * wpls;
wpls3 = 3 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls3)) |
(*(sptr - wpls2));
}
}
}
static void
ferode_2_13(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls2;
l_int32 wpls3;
wpls2 = 2 * wpls;
wpls3 = 3 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls3)) &
(*(sptr + wpls2));
}
}
}
static void
fdilate_2_14(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 4) | (*(sptr + 1) >> 28)) |
(*sptr) |
((*(sptr) >> 4) | (*(sptr - 1) << 28));
}
}
}
static void
ferode_2_14(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 4) | (*(sptr - 1) << 28)) &
(*sptr) &
((*(sptr) << 4) | (*(sptr + 1) >> 28));
}
}
}
static void
fdilate_2_15(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls4;
wpls4 = 4 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls4)) |
(*sptr) |
(*(sptr - wpls4));
}
}
}
static void
ferode_2_15(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls4;
wpls4 = 4 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls4)) &
(*sptr) &
(*(sptr + wpls4));
}
}
}
static void
fdilate_2_16(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 4) | (*(sptr + 1) >> 28)) |
((*(sptr) >> 3) | (*(sptr - 1) << 29));
}
}
}
static void
ferode_2_16(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 4) | (*(sptr - 1) << 28)) &
((*(sptr) << 3) | (*(sptr + 1) >> 29));
}
}
}
static void
fdilate_2_17(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
l_int32 wpls4;
wpls3 = 3 * wpls;
wpls4 = 4 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls4)) |
(*(sptr - wpls3));
}
}
}
static void
ferode_2_17(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
l_int32 wpls4;
wpls3 = 3 * wpls;
wpls4 = 4 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls4)) &
(*(sptr + wpls3));
}
}
}
static void
fdilate_2_18(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 5) | (*(sptr + 1) >> 27)) |
(*sptr) |
((*(sptr) >> 5) | (*(sptr - 1) << 27));
}
}
}
static void
ferode_2_18(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 5) | (*(sptr - 1) << 27)) &
(*sptr) &
((*(sptr) << 5) | (*(sptr + 1) >> 27));
}
}
}
static void
fdilate_2_19(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls5;
wpls5 = 5 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls5)) |
(*sptr) |
(*(sptr - wpls5));
}
}
}
static void
ferode_2_19(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls5;
wpls5 = 5 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls5)) &
(*sptr) &
(*(sptr + wpls5));
}
}
}
static void
fdilate_2_20(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 6) | (*(sptr + 1) >> 26)) |
((*(sptr) << 2) | (*(sptr + 1) >> 30)) |
((*(sptr) >> 2) | (*(sptr - 1) << 30)) |
((*(sptr) >> 6) | (*(sptr - 1) << 26));
}
}
}
static void
ferode_2_20(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 6) | (*(sptr - 1) << 26)) &
((*(sptr) >> 2) | (*(sptr - 1) << 30)) &
((*(sptr) << 2) | (*(sptr + 1) >> 30)) &
((*(sptr) << 6) | (*(sptr + 1) >> 26));
}
}
}
static void
fdilate_2_21(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls2;
l_int32 wpls6;
wpls2 = 2 * wpls;
wpls6 = 6 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls6)) |
(*(sptr + wpls2)) |
(*(sptr - wpls2)) |
(*(sptr - wpls6));
}
}
}
static void
ferode_2_21(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls2;
l_int32 wpls6;
wpls2 = 2 * wpls;
wpls6 = 6 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls6)) &
(*(sptr - wpls2)) &
(*(sptr + wpls2)) &
(*(sptr + wpls6));
}
}
}
static void
fdilate_2_22(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 6) | (*(sptr + 1) >> 26)) |
(*sptr) |
((*(sptr) >> 6) | (*(sptr - 1) << 26));
}
}
}
static void
ferode_2_22(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 6) | (*(sptr - 1) << 26)) &
(*sptr) &
((*(sptr) << 6) | (*(sptr + 1) >> 26));
}
}
}
static void
fdilate_2_23(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls6;
wpls6 = 6 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls6)) |
(*sptr) |
(*(sptr - wpls6));
}
}
}
static void
ferode_2_23(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls6;
wpls6 = 6 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls6)) &
(*sptr) &
(*(sptr + wpls6));
}
}
}
static void
fdilate_2_24(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 8) | (*(sptr + 1) >> 24)) |
((*(sptr) << 3) | (*(sptr + 1) >> 29)) |
((*(sptr) >> 2) | (*(sptr - 1) << 30)) |
((*(sptr) >> 7) | (*(sptr - 1) << 25));
}
}
}
static void
ferode_2_24(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 8) | (*(sptr - 1) << 24)) &
((*(sptr) >> 3) | (*(sptr - 1) << 29)) &
((*(sptr) << 2) | (*(sptr + 1) >> 30)) &
((*(sptr) << 7) | (*(sptr + 1) >> 25));
}
}
}
static void
fdilate_2_25(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls2;
l_int32 wpls3;
l_int32 wpls7;
l_int32 wpls8;
wpls2 = 2 * wpls;
wpls3 = 3 * wpls;
wpls7 = 7 * wpls;
wpls8 = 8 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls8)) |
(*(sptr + wpls3)) |
(*(sptr - wpls2)) |
(*(sptr - wpls7));
}
}
}
static void
ferode_2_25(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls2;
l_int32 wpls3;
l_int32 wpls7;
l_int32 wpls8;
wpls2 = 2 * wpls;
wpls3 = 3 * wpls;
wpls7 = 7 * wpls;
wpls8 = 8 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls8)) &
(*(sptr - wpls3)) &
(*(sptr + wpls2)) &
(*(sptr + wpls7));
}
}
}
static void
fdilate_2_26(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 7) | (*(sptr + 1) >> 25)) |
(*sptr) |
((*(sptr) >> 7) | (*(sptr - 1) << 25));
}
}
}
static void
ferode_2_26(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 7) | (*(sptr - 1) << 25)) &
(*sptr) &
((*(sptr) << 7) | (*(sptr + 1) >> 25));
}
}
}
static void
fdilate_2_27(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls7;
wpls7 = 7 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls7)) |
(*sptr) |
(*(sptr - wpls7));
}
}
}
static void
ferode_2_27(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls7;
wpls7 = 7 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls7)) &
(*sptr) &
(*(sptr + wpls7));
}
}
}
static void
fdilate_2_28(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 6) | (*(sptr + 1) >> 26)) |
((*(sptr) >> 5) | (*(sptr - 1) << 27));
}
}
}
static void
ferode_2_28(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 6) | (*(sptr - 1) << 26)) &
((*(sptr) << 5) | (*(sptr + 1) >> 27));
}
}
}
static void
fdilate_2_29(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls5;
l_int32 wpls6;
wpls5 = 5 * wpls;
wpls6 = 6 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls6)) |
(*(sptr - wpls5));
}
}
}
static void
ferode_2_29(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls5;
l_int32 wpls6;
wpls5 = 5 * wpls;
wpls6 = 6 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls6)) &
(*(sptr + wpls5));
}
}
}
static void
fdilate_2_30(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 9) | (*(sptr + 1) >> 23)) |
((*(sptr) << 3) | (*(sptr + 1) >> 29)) |
((*(sptr) >> 3) | (*(sptr - 1) << 29)) |
((*(sptr) >> 9) | (*(sptr - 1) << 23));
}
}
}
static void
ferode_2_30(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 9) | (*(sptr - 1) << 23)) &
((*(sptr) >> 3) | (*(sptr - 1) << 29)) &
((*(sptr) << 3) | (*(sptr + 1) >> 29)) &
((*(sptr) << 9) | (*(sptr + 1) >> 23));
}
}
}
static void
fdilate_2_31(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
l_int32 wpls9;
wpls3 = 3 * wpls;
wpls9 = 9 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls9)) |
(*(sptr + wpls3)) |
(*(sptr - wpls3)) |
(*(sptr - wpls9));
}
}
}
static void
ferode_2_31(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
l_int32 wpls9;
wpls3 = 3 * wpls;
wpls9 = 9 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls9)) &
(*(sptr - wpls3)) &
(*(sptr + wpls3)) &
(*(sptr + wpls9));
}
}
}
static void
fdilate_2_32(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 10) | (*(sptr + 1) >> 22)) |
((*(sptr) << 5) | (*(sptr + 1) >> 27)) |
(*sptr) |
((*(sptr) >> 5) | (*(sptr - 1) << 27)) |
((*(sptr) >> 10) | (*(sptr - 1) << 22));
}
}
}
static void
ferode_2_32(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 10) | (*(sptr - 1) << 22)) &
((*(sptr) >> 5) | (*(sptr - 1) << 27)) &
(*sptr) &
((*(sptr) << 5) | (*(sptr + 1) >> 27)) &
((*(sptr) << 10) | (*(sptr + 1) >> 22));
}
}
}
static void
fdilate_2_33(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls5;
l_int32 wpls10;
wpls5 = 5 * wpls;
wpls10 = 10 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls10)) |
(*(sptr + wpls5)) |
(*sptr) |
(*(sptr - wpls5)) |
(*(sptr - wpls10));
}
}
}
static void
ferode_2_33(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls5;
l_int32 wpls10;
wpls5 = 5 * wpls;
wpls10 = 10 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls10)) &
(*(sptr - wpls5)) &
(*sptr) &
(*(sptr + wpls5)) &
(*(sptr + wpls10));
}
}
}
static void
fdilate_2_34(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 9) | (*(sptr + 1) >> 23)) |
(*sptr) |
((*(sptr) >> 9) | (*(sptr - 1) << 23));
}
}
}
static void
ferode_2_34(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 9) | (*(sptr - 1) << 23)) &
(*sptr) &
((*(sptr) << 9) | (*(sptr + 1) >> 23));
}
}
}
static void
fdilate_2_35(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls9;
wpls9 = 9 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls9)) |
(*sptr) |
(*(sptr - wpls9));
}
}
}
static void
ferode_2_35(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls9;
wpls9 = 9 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls9)) &
(*sptr) &
(*(sptr + wpls9));
}
}
}
static void
fdilate_2_36(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 11) | (*(sptr + 1) >> 21)) |
((*(sptr) << 4) | (*(sptr + 1) >> 28)) |
((*(sptr) >> 3) | (*(sptr - 1) << 29)) |
((*(sptr) >> 10) | (*(sptr - 1) << 22));
}
}
}
static void
ferode_2_36(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 11) | (*(sptr - 1) << 21)) &
((*(sptr) >> 4) | (*(sptr - 1) << 28)) &
((*(sptr) << 3) | (*(sptr + 1) >> 29)) &
((*(sptr) << 10) | (*(sptr + 1) >> 22));
}
}
}
static void
fdilate_2_37(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
l_int32 wpls4;
l_int32 wpls10;
l_int32 wpls11;
wpls3 = 3 * wpls;
wpls4 = 4 * wpls;
wpls10 = 10 * wpls;
wpls11 = 11 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls11)) |
(*(sptr + wpls4)) |
(*(sptr - wpls3)) |
(*(sptr - wpls10));
}
}
}
static void
ferode_2_37(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
l_int32 wpls4;
l_int32 wpls10;
l_int32 wpls11;
wpls3 = 3 * wpls;
wpls4 = 4 * wpls;
wpls10 = 10 * wpls;
wpls11 = 11 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls11)) &
(*(sptr - wpls4)) &
(*(sptr + wpls3)) &
(*(sptr + wpls10));
}
}
}
static void
fdilate_2_38(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 12) | (*(sptr + 1) >> 20)) |
((*(sptr) << 6) | (*(sptr + 1) >> 26)) |
(*sptr) |
((*(sptr) >> 6) | (*(sptr - 1) << 26)) |
((*(sptr) >> 12) | (*(sptr - 1) << 20));
}
}
}
static void
ferode_2_38(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 12) | (*(sptr - 1) << 20)) &
((*(sptr) >> 6) | (*(sptr - 1) << 26)) &
(*sptr) &
((*(sptr) << 6) | (*(sptr + 1) >> 26)) &
((*(sptr) << 12) | (*(sptr + 1) >> 20));
}
}
}
static void
fdilate_2_39(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls6;
l_int32 wpls12;
wpls6 = 6 * wpls;
wpls12 = 12 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls12)) |
(*(sptr + wpls6)) |
(*sptr) |
(*(sptr - wpls6)) |
(*(sptr - wpls12));
}
}
}
static void
ferode_2_39(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls6;
l_int32 wpls12;
wpls6 = 6 * wpls;
wpls12 = 12 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls12)) &
(*(sptr - wpls6)) &
(*sptr) &
(*(sptr + wpls6)) &
(*(sptr + wpls12));
}
}
}
static void
fdilate_2_40(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 12) | (*(sptr + 1) >> 20)) |
((*(sptr) << 4) | (*(sptr + 1) >> 28)) |
((*(sptr) >> 4) | (*(sptr - 1) << 28)) |
((*(sptr) >> 12) | (*(sptr - 1) << 20));
}
}
}
static void
ferode_2_40(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 12) | (*(sptr - 1) << 20)) &
((*(sptr) >> 4) | (*(sptr - 1) << 28)) &
((*(sptr) << 4) | (*(sptr + 1) >> 28)) &
((*(sptr) << 12) | (*(sptr + 1) >> 20));
}
}
}
static void
fdilate_2_41(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls4;
l_int32 wpls12;
wpls4 = 4 * wpls;
wpls12 = 12 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls12)) |
(*(sptr + wpls4)) |
(*(sptr - wpls4)) |
(*(sptr - wpls12));
}
}
}
static void
ferode_2_41(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls4;
l_int32 wpls12;
wpls4 = 4 * wpls;
wpls12 = 12 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls12)) &
(*(sptr - wpls4)) &
(*(sptr + wpls4)) &
(*(sptr + wpls12));
}
}
}
static void
fdilate_2_42(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 11) | (*(sptr + 1) >> 21)) |
(*sptr) |
((*(sptr) >> 11) | (*(sptr - 1) << 21));
}
}
}
static void
ferode_2_42(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 11) | (*(sptr - 1) << 21)) &
(*sptr) &
((*(sptr) << 11) | (*(sptr + 1) >> 21));
}
}
}
static void
fdilate_2_43(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls11;
wpls11 = 11 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls11)) |
(*sptr) |
(*(sptr - wpls11));
}
}
}
static void
ferode_2_43(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls11;
wpls11 = 11 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls11)) &
(*sptr) &
(*(sptr + wpls11));
}
}
}
static void
fdilate_2_44(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 14) | (*(sptr + 1) >> 18)) |
((*(sptr) << 7) | (*(sptr + 1) >> 25)) |
(*sptr) |
((*(sptr) >> 7) | (*(sptr - 1) << 25)) |
((*(sptr) >> 14) | (*(sptr - 1) << 18));
}
}
}
static void
ferode_2_44(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 14) | (*(sptr - 1) << 18)) &
((*(sptr) >> 7) | (*(sptr - 1) << 25)) &
(*sptr) &
((*(sptr) << 7) | (*(sptr + 1) >> 25)) &
((*(sptr) << 14) | (*(sptr + 1) >> 18));
}
}
}
static void
fdilate_2_45(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls7;
l_int32 wpls14;
wpls7 = 7 * wpls;
wpls14 = 14 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls14)) |
(*(sptr + wpls7)) |
(*sptr) |
(*(sptr - wpls7)) |
(*(sptr - wpls14));
}
}
}
static void
ferode_2_45(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls7;
l_int32 wpls14;
wpls7 = 7 * wpls;
wpls14 = 14 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls14)) &
(*(sptr - wpls7)) &
(*sptr) &
(*(sptr + wpls7)) &
(*(sptr + wpls14));
}
}
}
static void
fdilate_2_46(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 15) | (*(sptr + 1) >> 17)) |
((*(sptr) << 9) | (*(sptr + 1) >> 23)) |
((*(sptr) << 3) | (*(sptr + 1) >> 29)) |
((*(sptr) >> 3) | (*(sptr - 1) << 29)) |
((*(sptr) >> 9) | (*(sptr - 1) << 23)) |
((*(sptr) >> 15) | (*(sptr - 1) << 17));
}
}
}
static void
ferode_2_46(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 15) | (*(sptr - 1) << 17)) &
((*(sptr) >> 9) | (*(sptr - 1) << 23)) &
((*(sptr) >> 3) | (*(sptr - 1) << 29)) &
((*(sptr) << 3) | (*(sptr + 1) >> 29)) &
((*(sptr) << 9) | (*(sptr + 1) >> 23)) &
((*(sptr) << 15) | (*(sptr + 1) >> 17));
}
}
}
static void
fdilate_2_47(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
l_int32 wpls9;
l_int32 wpls15;
wpls3 = 3 * wpls;
wpls9 = 9 * wpls;
wpls15 = 15 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls15)) |
(*(sptr + wpls9)) |
(*(sptr + wpls3)) |
(*(sptr - wpls3)) |
(*(sptr - wpls9)) |
(*(sptr - wpls15));
}
}
}
static void
ferode_2_47(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
l_int32 wpls9;
l_int32 wpls15;
wpls3 = 3 * wpls;
wpls9 = 9 * wpls;
wpls15 = 15 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls15)) &
(*(sptr - wpls9)) &
(*(sptr - wpls3)) &
(*(sptr + wpls3)) &
(*(sptr + wpls9)) &
(*(sptr + wpls15));
}
}
}
static void
fdilate_2_48(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 13) | (*(sptr + 1) >> 19)) |
(*sptr) |
((*(sptr) >> 13) | (*(sptr - 1) << 19));
}
}
}
static void
ferode_2_48(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 13) | (*(sptr - 1) << 19)) &
(*sptr) &
((*(sptr) << 13) | (*(sptr + 1) >> 19));
}
}
}
static void
fdilate_2_49(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls13;
wpls13 = 13 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls13)) |
(*sptr) |
(*(sptr - wpls13));
}
}
}
static void
ferode_2_49(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls13;
wpls13 = 13 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls13)) &
(*sptr) &
(*(sptr + wpls13));
}
}
}
static void
fdilate_2_50(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 16) | (*(sptr + 1) >> 16)) |
((*(sptr) << 8) | (*(sptr + 1) >> 24)) |
(*sptr) |
((*(sptr) >> 8) | (*(sptr - 1) << 24)) |
((*(sptr) >> 16) | (*(sptr - 1) << 16));
}
}
}
static void
ferode_2_50(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 16) | (*(sptr - 1) << 16)) &
((*(sptr) >> 8) | (*(sptr - 1) << 24)) &
(*sptr) &
((*(sptr) << 8) | (*(sptr + 1) >> 24)) &
((*(sptr) << 16) | (*(sptr + 1) >> 16));
}
}
}
static void
fdilate_2_51(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls8;
l_int32 wpls16;
wpls8 = 8 * wpls;
wpls16 = 16 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls16)) |
(*(sptr + wpls8)) |
(*sptr) |
(*(sptr - wpls8)) |
(*(sptr - wpls16));
}
}
}
static void
ferode_2_51(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls8;
l_int32 wpls16;
wpls8 = 8 * wpls;
wpls16 = 16 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls16)) &
(*(sptr - wpls8)) &
(*sptr) &
(*(sptr + wpls8)) &
(*(sptr + wpls16));
}
}
}
static void
fdilate_2_52(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 18) | (*(sptr + 1) >> 14)) |
((*(sptr) << 11) | (*(sptr + 1) >> 21)) |
((*(sptr) << 4) | (*(sptr + 1) >> 28)) |
((*(sptr) >> 3) | (*(sptr - 1) << 29)) |
((*(sptr) >> 10) | (*(sptr - 1) << 22)) |
((*(sptr) >> 17) | (*(sptr - 1) << 15));
}
}
}
static void
ferode_2_52(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 18) | (*(sptr - 1) << 14)) &
((*(sptr) >> 11) | (*(sptr - 1) << 21)) &
((*(sptr) >> 4) | (*(sptr - 1) << 28)) &
((*(sptr) << 3) | (*(sptr + 1) >> 29)) &
((*(sptr) << 10) | (*(sptr + 1) >> 22)) &
((*(sptr) << 17) | (*(sptr + 1) >> 15));
}
}
}
static void
fdilate_2_53(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
l_int32 wpls4;
l_int32 wpls10;
l_int32 wpls11;
l_int32 wpls17;
l_int32 wpls18;
wpls3 = 3 * wpls;
wpls4 = 4 * wpls;
wpls10 = 10 * wpls;
wpls11 = 11 * wpls;
wpls17 = 17 * wpls;
wpls18 = 18 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls18)) |
(*(sptr + wpls11)) |
(*(sptr + wpls4)) |
(*(sptr - wpls3)) |
(*(sptr - wpls10)) |
(*(sptr - wpls17));
}
}
}
static void
ferode_2_53(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls3;
l_int32 wpls4;
l_int32 wpls10;
l_int32 wpls11;
l_int32 wpls17;
l_int32 wpls18;
wpls3 = 3 * wpls;
wpls4 = 4 * wpls;
wpls10 = 10 * wpls;
wpls11 = 11 * wpls;
wpls17 = 17 * wpls;
wpls18 = 18 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls18)) &
(*(sptr - wpls11)) &
(*(sptr - wpls4)) &
(*(sptr + wpls3)) &
(*(sptr + wpls10)) &
(*(sptr + wpls17));
}
}
}
static void
fdilate_2_54(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 17) | (*(sptr + 1) >> 15)) |
((*(sptr) << 6) | (*(sptr + 1) >> 26)) |
((*(sptr) >> 5) | (*(sptr - 1) << 27)) |
((*(sptr) >> 16) | (*(sptr - 1) << 16));
}
}
}
static void
ferode_2_54(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 17) | (*(sptr - 1) << 15)) &
((*(sptr) >> 6) | (*(sptr - 1) << 26)) &
((*(sptr) << 5) | (*(sptr + 1) >> 27)) &
((*(sptr) << 16) | (*(sptr + 1) >> 16));
}
}
}
static void
fdilate_2_55(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls5;
l_int32 wpls6;
l_int32 wpls16;
l_int32 wpls17;
wpls5 = 5 * wpls;
wpls6 = 6 * wpls;
wpls16 = 16 * wpls;
wpls17 = 17 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls17)) |
(*(sptr + wpls6)) |
(*(sptr - wpls5)) |
(*(sptr - wpls16));
}
}
}
static void
ferode_2_55(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls5;
l_int32 wpls6;
l_int32 wpls16;
l_int32 wpls17;
wpls5 = 5 * wpls;
wpls6 = 6 * wpls;
wpls16 = 16 * wpls;
wpls17 = 17 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls17)) &
(*(sptr - wpls6)) &
(*(sptr + wpls5)) &
(*(sptr + wpls16));
}
}
}
static void
fdilate_2_56(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 18) | (*(sptr + 1) >> 14)) |
((*(sptr) << 9) | (*(sptr + 1) >> 23)) |
(*sptr) |
((*(sptr) >> 9) | (*(sptr - 1) << 23)) |
((*(sptr) >> 18) | (*(sptr - 1) << 14));
}
}
}
static void
ferode_2_56(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 18) | (*(sptr - 1) << 14)) &
((*(sptr) >> 9) | (*(sptr - 1) << 23)) &
(*sptr) &
((*(sptr) << 9) | (*(sptr + 1) >> 23)) &
((*(sptr) << 18) | (*(sptr + 1) >> 14));
}
}
}
static void
fdilate_2_57(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls9;
l_int32 wpls18;
wpls9 = 9 * wpls;
wpls18 = 18 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls18)) |
(*(sptr + wpls9)) |
(*sptr) |
(*(sptr - wpls9)) |
(*(sptr - wpls18));
}
}
}
static void
ferode_2_57(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls9;
l_int32 wpls18;
wpls9 = 9 * wpls;
wpls18 = 18 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls18)) &
(*(sptr - wpls9)) &
(*sptr) &
(*(sptr + wpls9)) &
(*(sptr + wpls18));
}
}
}
static void
fdilate_2_58(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 20) | (*(sptr + 1) >> 12)) |
((*(sptr) << 12) | (*(sptr + 1) >> 20)) |
((*(sptr) << 4) | (*(sptr + 1) >> 28)) |
((*(sptr) >> 4) | (*(sptr - 1) << 28)) |
((*(sptr) >> 12) | (*(sptr - 1) << 20)) |
((*(sptr) >> 20) | (*(sptr - 1) << 12));
}
}
}
static void
ferode_2_58(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 20) | (*(sptr - 1) << 12)) &
((*(sptr) >> 12) | (*(sptr - 1) << 20)) &
((*(sptr) >> 4) | (*(sptr - 1) << 28)) &
((*(sptr) << 4) | (*(sptr + 1) >> 28)) &
((*(sptr) << 12) | (*(sptr + 1) >> 20)) &
((*(sptr) << 20) | (*(sptr + 1) >> 12));
}
}
}
static void
fdilate_2_59(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls4;
l_int32 wpls12;
l_int32 wpls20;
wpls4 = 4 * wpls;
wpls12 = 12 * wpls;
wpls20 = 20 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls20)) |
(*(sptr + wpls12)) |
(*(sptr + wpls4)) |
(*(sptr - wpls4)) |
(*(sptr - wpls12)) |
(*(sptr - wpls20));
}
}
}
static void
ferode_2_59(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls4;
l_int32 wpls12;
l_int32 wpls20;
wpls4 = 4 * wpls;
wpls12 = 12 * wpls;
wpls20 = 20 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls20)) &
(*(sptr - wpls12)) &
(*(sptr - wpls4)) &
(*(sptr + wpls4)) &
(*(sptr + wpls12)) &
(*(sptr + wpls20));
}
}
}
static void
fdilate_2_60(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 21) | (*(sptr + 1) >> 11)) |
((*(sptr) << 14) | (*(sptr + 1) >> 18)) |
((*(sptr) << 7) | (*(sptr + 1) >> 25)) |
(*sptr) |
((*(sptr) >> 7) | (*(sptr - 1) << 25)) |
((*(sptr) >> 14) | (*(sptr - 1) << 18)) |
((*(sptr) >> 21) | (*(sptr - 1) << 11));
}
}
}
static void
ferode_2_60(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 21) | (*(sptr - 1) << 11)) &
((*(sptr) >> 14) | (*(sptr - 1) << 18)) &
((*(sptr) >> 7) | (*(sptr - 1) << 25)) &
(*sptr) &
((*(sptr) << 7) | (*(sptr + 1) >> 25)) &
((*(sptr) << 14) | (*(sptr + 1) >> 18)) &
((*(sptr) << 21) | (*(sptr + 1) >> 11));
}
}
}
static void
fdilate_2_61(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls7;
l_int32 wpls14;
l_int32 wpls21;
wpls7 = 7 * wpls;
wpls14 = 14 * wpls;
wpls21 = 21 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls21)) |
(*(sptr + wpls14)) |
(*(sptr + wpls7)) |
(*sptr) |
(*(sptr - wpls7)) |
(*(sptr - wpls14)) |
(*(sptr - wpls21));
}
}
}
static void
ferode_2_61(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls7;
l_int32 wpls14;
l_int32 wpls21;
wpls7 = 7 * wpls;
wpls14 = 14 * wpls;
wpls21 = 21 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls21)) &
(*(sptr - wpls14)) &
(*(sptr - wpls7)) &
(*sptr) &
(*(sptr + wpls7)) &
(*(sptr + wpls14)) &
(*(sptr + wpls21));
}
}
}
static void
fdilate_2_62(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 20) | (*(sptr + 1) >> 12)) |
((*(sptr) << 10) | (*(sptr + 1) >> 22)) |
(*sptr) |
((*(sptr) >> 10) | (*(sptr - 1) << 22)) |
((*(sptr) >> 20) | (*(sptr - 1) << 12));
}
}
}
static void
ferode_2_62(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 20) | (*(sptr - 1) << 12)) &
((*(sptr) >> 10) | (*(sptr - 1) << 22)) &
(*sptr) &
((*(sptr) << 10) | (*(sptr + 1) >> 22)) &
((*(sptr) << 20) | (*(sptr + 1) >> 12));
}
}
}
static void
fdilate_2_63(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls10;
l_int32 wpls20;
wpls10 = 10 * wpls;
wpls20 = 20 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls20)) |
(*(sptr + wpls10)) |
(*sptr) |
(*(sptr - wpls10)) |
(*(sptr - wpls20));
}
}
}
static void
ferode_2_63(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls10;
l_int32 wpls20;
wpls10 = 10 * wpls;
wpls20 = 20 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls20)) &
(*(sptr - wpls10)) &
(*sptr) &
(*(sptr + wpls10)) &
(*(sptr + wpls20));
}
}
}
static void
fdilate_2_64(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 20) | (*(sptr + 1) >> 12)) |
((*(sptr) << 7) | (*(sptr + 1) >> 25)) |
((*(sptr) >> 6) | (*(sptr - 1) << 26)) |
((*(sptr) >> 19) | (*(sptr - 1) << 13));
}
}
}
static void
ferode_2_64(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 20) | (*(sptr - 1) << 12)) &
((*(sptr) >> 7) | (*(sptr - 1) << 25)) &
((*(sptr) << 6) | (*(sptr + 1) >> 26)) &
((*(sptr) << 19) | (*(sptr + 1) >> 13));
}
}
}
static void
fdilate_2_65(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls6;
l_int32 wpls7;
l_int32 wpls19;
l_int32 wpls20;
wpls6 = 6 * wpls;
wpls7 = 7 * wpls;
wpls19 = 19 * wpls;
wpls20 = 20 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls20)) |
(*(sptr + wpls7)) |
(*(sptr - wpls6)) |
(*(sptr - wpls19));
}
}
}
static void
ferode_2_65(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls6;
l_int32 wpls7;
l_int32 wpls19;
l_int32 wpls20;
wpls6 = 6 * wpls;
wpls7 = 7 * wpls;
wpls19 = 19 * wpls;
wpls20 = 20 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls20)) &
(*(sptr - wpls7)) &
(*(sptr + wpls6)) &
(*(sptr + wpls19));
}
}
}
static void
fdilate_2_66(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 23) | (*(sptr + 1) >> 9)) |
((*(sptr) << 14) | (*(sptr + 1) >> 18)) |
((*(sptr) << 5) | (*(sptr + 1) >> 27)) |
((*(sptr) >> 4) | (*(sptr - 1) << 28)) |
((*(sptr) >> 13) | (*(sptr - 1) << 19)) |
((*(sptr) >> 22) | (*(sptr - 1) << 10));
}
}
}
static void
ferode_2_66(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 23) | (*(sptr - 1) << 9)) &
((*(sptr) >> 14) | (*(sptr - 1) << 18)) &
((*(sptr) >> 5) | (*(sptr - 1) << 27)) &
((*(sptr) << 4) | (*(sptr + 1) >> 28)) &
((*(sptr) << 13) | (*(sptr + 1) >> 19)) &
((*(sptr) << 22) | (*(sptr + 1) >> 10));
}
}
}
static void
fdilate_2_67(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls4;
l_int32 wpls5;
l_int32 wpls13;
l_int32 wpls14;
l_int32 wpls22;
l_int32 wpls23;
wpls4 = 4 * wpls;
wpls5 = 5 * wpls;
wpls13 = 13 * wpls;
wpls14 = 14 * wpls;
wpls22 = 22 * wpls;
wpls23 = 23 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls23)) |
(*(sptr + wpls14)) |
(*(sptr + wpls5)) |
(*(sptr - wpls4)) |
(*(sptr - wpls13)) |
(*(sptr - wpls22));
}
}
}
static void
ferode_2_67(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls4;
l_int32 wpls5;
l_int32 wpls13;
l_int32 wpls14;
l_int32 wpls22;
l_int32 wpls23;
wpls4 = 4 * wpls;
wpls5 = 5 * wpls;
wpls13 = 13 * wpls;
wpls14 = 14 * wpls;
wpls22 = 22 * wpls;
wpls23 = 23 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls23)) &
(*(sptr - wpls14)) &
(*(sptr - wpls5)) &
(*(sptr + wpls4)) &
(*(sptr + wpls13)) &
(*(sptr + wpls22));
}
}
}
static void
fdilate_2_68(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 22) | (*(sptr + 1) >> 10)) |
((*(sptr) << 11) | (*(sptr + 1) >> 21)) |
(*sptr) |
((*(sptr) >> 11) | (*(sptr - 1) << 21)) |
((*(sptr) >> 22) | (*(sptr - 1) << 10));
}
}
}
static void
ferode_2_68(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 22) | (*(sptr - 1) << 10)) &
((*(sptr) >> 11) | (*(sptr - 1) << 21)) &
(*sptr) &
((*(sptr) << 11) | (*(sptr + 1) >> 21)) &
((*(sptr) << 22) | (*(sptr + 1) >> 10));
}
}
}
static void
fdilate_2_69(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls11;
l_int32 wpls22;
wpls11 = 11 * wpls;
wpls22 = 22 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls22)) |
(*(sptr + wpls11)) |
(*sptr) |
(*(sptr - wpls11)) |
(*(sptr - wpls22));
}
}
}
static void
ferode_2_69(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls11;
l_int32 wpls22;
wpls11 = 11 * wpls;
wpls22 = 22 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls22)) &
(*(sptr - wpls11)) &
(*sptr) &
(*(sptr + wpls11)) &
(*(sptr + wpls22));
}
}
}
static void
fdilate_2_70(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 24) | (*(sptr + 1) >> 8)) |
((*(sptr) << 16) | (*(sptr + 1) >> 16)) |
((*(sptr) << 8) | (*(sptr + 1) >> 24)) |
(*sptr) |
((*(sptr) >> 8) | (*(sptr - 1) << 24)) |
((*(sptr) >> 16) | (*(sptr - 1) << 16)) |
((*(sptr) >> 24) | (*(sptr - 1) << 8));
}
}
}
static void
ferode_2_70(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 24) | (*(sptr - 1) << 8)) &
((*(sptr) >> 16) | (*(sptr - 1) << 16)) &
((*(sptr) >> 8) | (*(sptr - 1) << 24)) &
(*sptr) &
((*(sptr) << 8) | (*(sptr + 1) >> 24)) &
((*(sptr) << 16) | (*(sptr + 1) >> 16)) &
((*(sptr) << 24) | (*(sptr + 1) >> 8));
}
}
}
static void
fdilate_2_71(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls8;
l_int32 wpls16;
l_int32 wpls24;
wpls8 = 8 * wpls;
wpls16 = 16 * wpls;
wpls24 = 24 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls24)) |
(*(sptr + wpls16)) |
(*(sptr + wpls8)) |
(*sptr) |
(*(sptr - wpls8)) |
(*(sptr - wpls16)) |
(*(sptr - wpls24));
}
}
}
static void
ferode_2_71(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls8;
l_int32 wpls16;
l_int32 wpls24;
wpls8 = 8 * wpls;
wpls16 = 16 * wpls;
wpls24 = 24 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls24)) &
(*(sptr - wpls16)) &
(*(sptr - wpls8)) &
(*sptr) &
(*(sptr + wpls8)) &
(*(sptr + wpls16)) &
(*(sptr + wpls24));
}
}
}
static void
fdilate_2_72(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 25) | (*(sptr + 1) >> 7)) |
((*(sptr) << 15) | (*(sptr + 1) >> 17)) |
((*(sptr) << 5) | (*(sptr + 1) >> 27)) |
((*(sptr) >> 5) | (*(sptr - 1) << 27)) |
((*(sptr) >> 15) | (*(sptr - 1) << 17)) |
((*(sptr) >> 25) | (*(sptr - 1) << 7));
}
}
}
static void
ferode_2_72(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 25) | (*(sptr - 1) << 7)) &
((*(sptr) >> 15) | (*(sptr - 1) << 17)) &
((*(sptr) >> 5) | (*(sptr - 1) << 27)) &
((*(sptr) << 5) | (*(sptr + 1) >> 27)) &
((*(sptr) << 15) | (*(sptr + 1) >> 17)) &
((*(sptr) << 25) | (*(sptr + 1) >> 7));
}
}
}
static void
fdilate_2_73(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls5;
l_int32 wpls15;
l_int32 wpls25;
wpls5 = 5 * wpls;
wpls15 = 15 * wpls;
wpls25 = 25 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls25)) |
(*(sptr + wpls15)) |
(*(sptr + wpls5)) |
(*(sptr - wpls5)) |
(*(sptr - wpls15)) |
(*(sptr - wpls25));
}
}
}
static void
ferode_2_73(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls5;
l_int32 wpls15;
l_int32 wpls25;
wpls5 = 5 * wpls;
wpls15 = 15 * wpls;
wpls25 = 25 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls25)) &
(*(sptr - wpls15)) &
(*(sptr - wpls5)) &
(*(sptr + wpls5)) &
(*(sptr + wpls15)) &
(*(sptr + wpls25));
}
}
}
static void
fdilate_2_74(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) << 27) | (*(sptr + 1) >> 5)) |
((*(sptr) << 18) | (*(sptr + 1) >> 14)) |
((*(sptr) << 9) | (*(sptr + 1) >> 23)) |
(*sptr) |
((*(sptr) >> 9) | (*(sptr - 1) << 23)) |
((*(sptr) >> 18) | (*(sptr - 1) << 14)) |
((*(sptr) >> 27) | (*(sptr - 1) << 5));
}
}
}
static void
ferode_2_74(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = ((*(sptr) >> 27) | (*(sptr - 1) << 5)) &
((*(sptr) >> 18) | (*(sptr - 1) << 14)) &
((*(sptr) >> 9) | (*(sptr - 1) << 23)) &
(*sptr) &
((*(sptr) << 9) | (*(sptr + 1) >> 23)) &
((*(sptr) << 18) | (*(sptr + 1) >> 14)) &
((*(sptr) << 27) | (*(sptr + 1) >> 5));
}
}
}
static void
fdilate_2_75(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls9;
l_int32 wpls18;
l_int32 wpls27;
wpls9 = 9 * wpls;
wpls18 = 18 * wpls;
wpls27 = 27 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr + wpls27)) |
(*(sptr + wpls18)) |
(*(sptr + wpls9)) |
(*sptr) |
(*(sptr - wpls9)) |
(*(sptr - wpls18)) |
(*(sptr - wpls27));
}
}
}
static void
ferode_2_75(l_uint32 *datad,
l_int32 w,
l_int32 h,
l_int32 wpld,
l_uint32 *datas,
l_int32 wpls)
{
l_int32 i;
register l_int32 j, pwpls;
register l_uint32 *sptr, *dptr;
l_int32 wpls9;
l_int32 wpls18;
l_int32 wpls27;
wpls9 = 9 * wpls;
wpls18 = 18 * wpls;
wpls27 = 27 * wpls;
pwpls = (l_uint32)(w + 31) / 32; /* proper wpl of src */
for (i = 0; i < h; i++) {
sptr = datas + i * wpls;
dptr = datad + i * wpld;
for (j = 0; j < pwpls; j++, sptr++, dptr++) {
*dptr = (*(sptr - wpls27)) &
(*(sptr - wpls18)) &
(*(sptr - wpls9)) &
(*sptr) &
(*(sptr + wpls9)) &
(*(sptr + wpls18)) &
(*(sptr + wpls27));
}
}
}