mirror of
https://github.com/libretro/scummvm.git
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241 lines
6.4 KiB
C++
241 lines
6.4 KiB
C++
/* ScummVM - Graphic Adventure Engine
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*
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* ScummVM is the legal property of its developers, whose names
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* are too numerous to list here. Please refer to the COPYRIGHT
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* file distributed with this source distribution.
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*
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* Additional copyright for this file:
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* Copyright (C) 1999-2000 Revolution Software Ltd.
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* This code is based on source code created by Revolution Software,
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* used with permission.
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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*/
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#include "engines/icb/common/px_common.h"
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#include "engines/icb/softskin_pc.h"
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#include "engines/icb/common/px_capri_maths.h"
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#include "common/util.h"
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namespace ICB {
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int32 softskinPC(rap_API *rap, int32 poseBone, MATRIXPC *lw, SVECTORPC *local, int16 *xminLocal, int16 *xmaxLocal, int16 *yminLocal, int16 *ymaxLocal, int16 *zminLocal,
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int16 *zmaxLocal, int32 screenShift) {
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// step 1 : make all the local-world and local-screen matrices
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// This is done prior to this function
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// step 2 : take all the offsets from the mesh file
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// and make them into screen positions using the
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// correct co-ordinate system
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// step 3 : draw the polygons using the list of created screen positions
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//
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// step 2
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rap_API *pLink = rap;
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uint32 nNone = pLink->nNone;
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uint32 nSingle = pLink->nSingle;
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uint32 nMulti = pLink->nMultiple;
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uint32 i, vIndex;
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Vertex *noneLink = rap->GetNoneLinkPtr();
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VertexLink *singleLink = rap->GetSingleLinkPtr();
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WeightedVertexLink *multiLink = rap->GetMultiLinkPtr();
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uint32 prim;
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uint32 nVertices = 0;
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uint32 bothScaleShift = rap->bothScaleShift;
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// uint32 bothScale = (1 << bothScaleShift);
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uint32 worldScaleShift = rap->worldScaleShift;
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bothScaleShift -= screenShift;
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worldScaleShift -= screenShift;
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// uint32 worldScale = (1 << worldScaleShift );
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// loop over the vertices
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SVECTORPC *plocal = local;
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VECTOR lvert, lvert2;
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int32 flag;
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uint32 oldPrim = rap->nBones;
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int32 xmin = *xminLocal;
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int32 ymin = *yminLocal;
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int32 zmin = *zminLocal;
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int32 xmax = *xmaxLocal;
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int32 ymax = *ymaxLocal;
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int32 zmax = *zmaxLocal;
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int32 lvx, lvy, lvz;
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if (poseBone == -1) {
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for (i = 0; i < nNone; i++) {
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vIndex = noneLink->vertId;
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plocal = local + vIndex;
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if (vIndex > nVertices)
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nVertices = vIndex;
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plocal->vx = noneLink->vx;
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plocal->vy = noneLink->vy;
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plocal->vz = noneLink->vz;
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lvx = plocal->vx;
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lvy = plocal->vy;
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lvz = plocal->vz;
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xmin = MIN(lvx, xmin);
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ymin = MIN(lvy, ymin);
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zmin = MIN(lvz, zmin);
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xmax = MAX(lvx, xmax);
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ymax = MAX(lvy, ymax);
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zmax = MAX(lvz, zmax);
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noneLink++;
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}
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} else {
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// Do the pose vertices
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gte_SetRotMatrix_pc(lw + poseBone);
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gte_SetTransMatrix_pc(lw + poseBone);
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for (i = 0; i < nNone; i++) {
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gte_RotTrans_pc((SVECTOR *)&(noneLink->vx), &lvert2, &flag);
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vIndex = noneLink->vertId;
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plocal = local + vIndex;
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plocal->vx = (int16)(lvert2.vx >> worldScaleShift);
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plocal->vy = (int16)(lvert2.vy >> worldScaleShift);
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plocal->vz = (int16)(lvert2.vz >> worldScaleShift);
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lvx = plocal->vx;
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lvy = plocal->vy;
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lvz = plocal->vz;
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xmin = MIN(lvx, xmin);
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ymin = MIN(lvy, ymin);
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zmin = MIN(lvz, zmin);
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xmax = MAX(lvx, xmax);
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ymax = MAX(lvy, ymax);
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zmax = MAX(lvz, zmax);
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noneLink++;
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}
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nVertices = nNone;
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}
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for (i = 0; i < nSingle; i++) {
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prim = singleLink->primId; // which co-ordinate system to use
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// Put the correct rot and trans matrix in place
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// transform to world space : local2world is in workm
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if (prim != oldPrim) {
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gte_SetRotMatrix_pc(lw + prim);
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gte_SetTransMatrix_pc(lw + prim);
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oldPrim = prim;
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}
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gte_RotTrans_pc((SVECTOR *)&(singleLink->vx), &lvert2, &flag);
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plocal = local + singleLink->vertId;
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if (singleLink->vertId > nVertices)
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nVertices = singleLink->vertId;
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plocal->vx = (int16)(lvert2.vx >> worldScaleShift);
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plocal->vy = (int16)(lvert2.vy >> worldScaleShift);
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plocal->vz = (int16)(lvert2.vz >> worldScaleShift);
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lvx = plocal->vx;
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lvy = plocal->vy;
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lvz = plocal->vz;
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xmin = MIN(lvx, xmin);
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ymin = MIN(lvy, ymin);
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zmin = MIN(lvz, zmin);
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xmax = MAX(lvx, xmax);
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ymax = MAX(lvy, ymax);
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zmax = MAX(lvz, zmax);
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singleLink++;
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}
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uint32 curVert = multiLink->link.vertId;
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lvert.vx = 0;
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lvert.vy = 0;
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lvert.vz = 0;
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for (i = 0; i < nMulti; i++) {
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uint32 weight = multiLink->weight;
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prim = multiLink->link.primId; // which co-ordinate system to use
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// Put the correct rot and trans matrix in place
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// transform to world space : local2world is in workm
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if (prim != oldPrim) {
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gte_SetRotMatrix_pc(lw + prim);
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gte_SetTransMatrix_pc(lw + prim);
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oldPrim = prim;
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}
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gte_RotTrans_pc((SVECTOR *)&(multiLink->link.vx), &lvert2, &flag);
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// Do a weighted average of this vector (lvert2)
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// with the stored weighted average (lvert)
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// gte_LoadAverage0( &lvert, &lvert2, 1, weight, &lvert );
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// gte_LoadAverage0 is not any quicker - and more inaccurate
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lvert.vx += lvert2.vx * weight;
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lvert.vy += lvert2.vy * weight;
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lvert.vz += lvert2.vz * weight;
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multiLink++;
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vIndex = multiLink->link.vertId;
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// A new vertex so tidy up the old one
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if (vIndex != curVert) {
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if (curVert > nVertices)
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nVertices = curVert;
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plocal = local + curVert;
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plocal->vx = (int16)(lvert.vx >> bothScaleShift);
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plocal->vy = (int16)(lvert.vy >> bothScaleShift);
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plocal->vz = (int16)(lvert.vz >> bothScaleShift);
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curVert = vIndex;
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lvert.vx = 0;
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lvert.vy = 0;
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lvert.vz = 0;
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lvx = plocal->vx;
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lvy = plocal->vy;
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lvz = plocal->vz;
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xmin = MIN(lvx, xmin);
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ymin = MIN(lvy, ymin);
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zmin = MIN(lvz, zmin);
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xmax = MAX(lvx, xmax);
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ymax = MAX(lvy, ymax);
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zmax = MAX(lvz, zmax);
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}
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}
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*xminLocal = (int16)xmin;
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*yminLocal = (int16)ymin;
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*zminLocal = (int16)zmin;
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*xmaxLocal = (int16)xmax;
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*ymaxLocal = (int16)ymax;
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*zmaxLocal = (int16)zmax;
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nVertices++;
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return nVertices;
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}
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} // End of namespace ICB
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