/*====================================================================* - 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 hit-miss transform with auto-generated sels * * Dispatcher: * l_int32 fhmtgen_low_1() * * Static Low-level: * void fhmt_1_*() */ #include "allheaders.h" static void fhmt_1_0(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32); static void fhmt_1_1(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32); static void fhmt_1_2(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32); static void fhmt_1_3(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32); static void fhmt_1_4(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32); static void fhmt_1_5(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32); static void fhmt_1_6(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32); static void fhmt_1_7(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32); static void fhmt_1_8(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32); static void fhmt_1_9(l_uint32 *, l_int32, l_int32, l_int32, l_uint32 *, l_int32); /*---------------------------------------------------------------------* * Fast hmt dispatcher * *---------------------------------------------------------------------*/ /*! * fhmtgen_low_1() * * a dispatcher to appropriate low-level code */ l_int32 fhmtgen_low_1(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: fhmt_1_0(datad, w, h, wpld, datas, wpls); break; case 1: fhmt_1_1(datad, w, h, wpld, datas, wpls); break; case 2: fhmt_1_2(datad, w, h, wpld, datas, wpls); break; case 3: fhmt_1_3(datad, w, h, wpld, datas, wpls); break; case 4: fhmt_1_4(datad, w, h, wpld, datas, wpls); break; case 5: fhmt_1_5(datad, w, h, wpld, datas, wpls); break; case 6: fhmt_1_6(datad, w, h, wpld, datas, wpls); break; case 7: fhmt_1_7(datad, w, h, wpld, datas, wpls); break; case 8: fhmt_1_8(datad, w, h, wpld, datas, wpls); break; case 9: fhmt_1_9(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 fhmt_1_0(l_uint32 *datad, l_int32 w, l_int32 h, l_int32 wpld, l_uint32 *datas, l_int32 wpls) { l_int32 i; l_int32 j, pwpls; 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) >> 1) | (~*(sptr - wpls - 1) << 31)) & (~*(sptr - wpls)) & ((~*(sptr - wpls) << 1) | (~*(sptr - wpls + 1) >> 31)) & ((~*(sptr) >> 1) | (~*(sptr - 1) << 31)) & (*sptr) & ((~*(sptr) << 1) | (~*(sptr + 1) >> 31)) & ((~*(sptr + wpls) >> 1) | (~*(sptr + wpls - 1) << 31)) & (~*(sptr + wpls)) & ((~*(sptr + wpls) << 1) | (~*(sptr + wpls + 1) >> 31)); } } } static void fhmt_1_1(l_uint32 *datad, l_int32 w, l_int32 h, l_int32 wpld, l_uint32 *datas, l_int32 wpls) { l_int32 i; l_int32 j, pwpls; 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) & ((*(sptr) << 1) | (*(sptr + 1) >> 31)) & ((~*(sptr + wpls) >> 1) | (~*(sptr + wpls - 1) << 31)) & (~*(sptr + wpls)) & ((~*(sptr + wpls) << 1) | (~*(sptr + wpls + 1) >> 31)); } } } static void fhmt_1_2(l_uint32 *datad, l_int32 w, l_int32 h, l_int32 wpld, l_uint32 *datas, l_int32 wpls) { l_int32 i; l_int32 j, pwpls; 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) >> 1) | (~*(sptr - wpls - 1) << 31)) & (~*(sptr - wpls)) & ((~*(sptr - wpls) << 1) | (~*(sptr - wpls + 1) >> 31)) & ((*(sptr) >> 1) | (*(sptr - 1) << 31)) & (*sptr) & ((*(sptr) << 1) | (*(sptr + 1) >> 31)); } } } static void fhmt_1_3(l_uint32 *datad, l_int32 w, l_int32 h, l_int32 wpld, l_uint32 *datas, l_int32 wpls) { l_int32 i; l_int32 j, pwpls; 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) << 1) | (~*(sptr - wpls + 1) >> 31)) & (*sptr) & ((~*(sptr) << 1) | (~*(sptr + 1) >> 31)) & (*(sptr + wpls)) & ((~*(sptr + wpls) << 1) | (~*(sptr + wpls + 1) >> 31)); } } } static void fhmt_1_4(l_uint32 *datad, l_int32 w, l_int32 h, l_int32 wpld, l_uint32 *datas, l_int32 wpls) { l_int32 i; l_int32 j, pwpls; 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) >> 1) | (~*(sptr - wpls - 1) << 31)) & (*(sptr - wpls)) & ((~*(sptr) >> 1) | (~*(sptr - 1) << 31)) & (*sptr) & ((~*(sptr + wpls) >> 1) | (~*(sptr + wpls - 1) << 31)) & (*(sptr + wpls)); } } } static void fhmt_1_5(l_uint32 *datad, l_int32 w, l_int32 h, l_int32 wpld, l_uint32 *datas, l_int32 wpls) { l_int32 i; l_int32 j, pwpls; l_uint32 *sptr, *dptr; l_int32 wpls2, wpls3, wpls4; l_int32 wpls5, wpls6; wpls2 = 2 * wpls; wpls3 = 3 * wpls; wpls4 = 4 * wpls; 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) << 1) | (~*(sptr - wpls6 + 1) >> 31)) & ((*(sptr - wpls6) << 3) | (*(sptr - wpls6 + 1) >> 29)) & (~*(sptr - wpls2)) & ((*(sptr - wpls2) << 2) | (*(sptr - wpls2 + 1) >> 30)) & ((~*(sptr + wpls2) >> 1) | (~*(sptr + wpls2 - 1) << 31)) & ((*(sptr + wpls2) << 1) | (*(sptr + wpls2 + 1) >> 31)) & ((~*(sptr + wpls6) >> 2) | (~*(sptr + wpls6 - 1) << 30)) & (*(sptr + wpls6)); } } } static void fhmt_1_6(l_uint32 *datad, l_int32 w, l_int32 h, l_int32 wpld, l_uint32 *datas, l_int32 wpls) { l_int32 i; l_int32 j, pwpls; 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 - wpls) >> 1) | (~*(sptr - wpls - 1) << 31)) & (~*(sptr - wpls)) & ((~*(sptr - wpls) << 1) | (~*(sptr - wpls + 1) >> 31)) & ((~*(sptr - wpls) << 2) | (~*(sptr - wpls + 1) >> 30)) & ((~*(sptr) >> 1) | (~*(sptr - 1) << 31)) & ((*(sptr) << 2) | (*(sptr + 1) >> 30)) & ((~*(sptr + wpls) >> 1) | (~*(sptr + wpls - 1) << 31)) & ((*(sptr + wpls) << 1) | (*(sptr + wpls + 1) >> 31)) & ((*(sptr + wpls) << 2) | (*(sptr + wpls + 1) >> 30)) & ((~*(sptr + wpls2) >> 1) | (~*(sptr + wpls2 - 1) << 31)) & (*(sptr + wpls2)) & ((*(sptr + wpls2) << 1) | (*(sptr + wpls2 + 1) >> 31)) & ((*(sptr + wpls2) << 2) | (*(sptr + wpls2 + 1) >> 30)); } } } static void fhmt_1_7(l_uint32 *datad, l_int32 w, l_int32 h, l_int32 wpld, l_uint32 *datas, l_int32 wpls) { l_int32 i; l_int32 j, pwpls; 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 - wpls) >> 2) | (~*(sptr - wpls - 1) << 30)) & ((~*(sptr - wpls) >> 1) | (~*(sptr - wpls - 1) << 31)) & (~*(sptr - wpls)) & ((~*(sptr - wpls) << 1) | (~*(sptr - wpls + 1) >> 31)) & ((*(sptr) >> 2) | (*(sptr - 1) << 30)) & ((~*(sptr) << 1) | (~*(sptr + 1) >> 31)) & ((*(sptr + wpls) >> 2) | (*(sptr + wpls - 1) << 30)) & ((*(sptr + wpls) >> 1) | (*(sptr + wpls - 1) << 31)) & ((~*(sptr + wpls) << 1) | (~*(sptr + wpls + 1) >> 31)) & ((*(sptr + wpls2) >> 2) | (*(sptr + wpls2 - 1) << 30)) & ((*(sptr + wpls2) >> 1) | (*(sptr + wpls2 - 1) << 31)) & (*(sptr + wpls2)) & ((~*(sptr + wpls2) << 1) | (~*(sptr + wpls2 + 1) >> 31)); } } } static void fhmt_1_8(l_uint32 *datad, l_int32 w, l_int32 h, l_int32 wpld, l_uint32 *datas, l_int32 wpls) { l_int32 i; l_int32 j, pwpls; 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) >> 1) | (~*(sptr - wpls2 - 1) << 31)) & (*(sptr - wpls2)) & ((*(sptr - wpls2) << 1) | (*(sptr - wpls2 + 1) >> 31)) & ((*(sptr - wpls2) << 2) | (*(sptr - wpls2 + 1) >> 30)) & ((~*(sptr - wpls) >> 1) | (~*(sptr - wpls - 1) << 31)) & ((*(sptr - wpls) << 1) | (*(sptr - wpls + 1) >> 31)) & ((*(sptr - wpls) << 2) | (*(sptr - wpls + 1) >> 30)) & ((~*(sptr) >> 1) | (~*(sptr - 1) << 31)) & ((*(sptr) << 2) | (*(sptr + 1) >> 30)) & ((~*(sptr + wpls) >> 1) | (~*(sptr + wpls - 1) << 31)) & (~*(sptr + wpls)) & ((~*(sptr + wpls) << 1) | (~*(sptr + wpls + 1) >> 31)) & ((~*(sptr + wpls) << 2) | (~*(sptr + wpls + 1) >> 30)); } } } static void fhmt_1_9(l_uint32 *datad, l_int32 w, l_int32 h, l_int32 wpld, l_uint32 *datas, l_int32 wpls) { l_int32 i; l_int32 j, pwpls; 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) >> 2) | (*(sptr - wpls2 - 1) << 30)) & ((*(sptr - wpls2) >> 1) | (*(sptr - wpls2 - 1) << 31)) & (*(sptr - wpls2)) & ((~*(sptr - wpls2) << 1) | (~*(sptr - wpls2 + 1) >> 31)) & ((*(sptr - wpls) >> 2) | (*(sptr - wpls - 1) << 30)) & ((*(sptr - wpls) >> 1) | (*(sptr - wpls - 1) << 31)) & ((~*(sptr - wpls) << 1) | (~*(sptr - wpls + 1) >> 31)) & ((*(sptr) >> 2) | (*(sptr - 1) << 30)) & ((~*(sptr) << 1) | (~*(sptr + 1) >> 31)) & ((~*(sptr + wpls) >> 2) | (~*(sptr + wpls - 1) << 30)) & ((~*(sptr + wpls) >> 1) | (~*(sptr + wpls - 1) << 31)) & (~*(sptr + wpls)) & ((~*(sptr + wpls) << 1) | (~*(sptr + wpls + 1) >> 31)); } } }