Sergey Sharybin
aa4cb95a5c
This is mainly to make physics modifiers being able to work with it. For other cases this main is not needed.
509 lines
13 KiB
C
509 lines
13 KiB
C
/*
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* ***** BEGIN GPL LICENSE BLOCK *****
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (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, write to the Free Software Foundation,
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* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*
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* The Original Code is Copyright (C) 2005 by the Blender Foundation.
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* All rights reserved.
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*
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* Contributor(s): Daniel Dunbar
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* Ton Roosendaal,
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* Ben Batt,
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* Brecht Van Lommel,
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* Campbell Barton
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*
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* ***** END GPL LICENSE BLOCK *****
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*
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*/
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/** \file blender/modifiers/intern/MOD_cast.c
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* \ingroup modifiers
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*/
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#include "DNA_meshdata_types.h"
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#include "DNA_object_types.h"
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#include "BLI_math.h"
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#include "BLI_utildefines.h"
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#include "BKE_deform.h"
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#include "BKE_DerivedMesh.h"
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#include "BKE_modifier.h"
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#include "depsgraph_private.h"
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#include "MOD_util.h"
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static void initData(ModifierData *md)
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{
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CastModifierData *cmd = (CastModifierData *) md;
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cmd->fac = 0.5f;
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cmd->radius = 0.0f;
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cmd->size = 0.0f;
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cmd->flag = MOD_CAST_X | MOD_CAST_Y | MOD_CAST_Z | MOD_CAST_SIZE_FROM_RADIUS;
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cmd->type = MOD_CAST_TYPE_SPHERE;
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cmd->defgrp_name[0] = '\0';
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cmd->object = NULL;
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}
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static void copyData(ModifierData *md, ModifierData *target)
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{
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#if 0
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CastModifierData *cmd = (CastModifierData *) md;
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CastModifierData *tcmd = (CastModifierData *) target;
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#endif
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modifier_copyData_generic(md, target);
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}
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static bool isDisabled(ModifierData *md, int UNUSED(useRenderParams))
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{
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CastModifierData *cmd = (CastModifierData *) md;
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short flag;
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flag = cmd->flag & (MOD_CAST_X | MOD_CAST_Y | MOD_CAST_Z);
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if ((cmd->fac == 0.0f) || flag == 0) return true;
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return false;
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}
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static CustomDataMask requiredDataMask(Object *UNUSED(ob), ModifierData *md)
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{
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CastModifierData *cmd = (CastModifierData *)md;
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CustomDataMask dataMask = 0;
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/* ask for vertexgroups if we need them */
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if (cmd->defgrp_name[0]) dataMask |= CD_MASK_MDEFORMVERT;
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return dataMask;
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}
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static void foreachObjectLink(
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ModifierData *md, Object *ob,
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void (*walk)(void *userData, Object *ob, Object **obpoin),
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void *userData)
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{
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CastModifierData *cmd = (CastModifierData *) md;
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walk(userData, ob, &cmd->object);
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}
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static void updateDepgraph(ModifierData *md, DagForest *forest,
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struct Main *UNUSED(bmain),
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struct Scene *UNUSED(scene),
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Object *UNUSED(ob),
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DagNode *obNode)
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{
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CastModifierData *cmd = (CastModifierData *) md;
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if (cmd->object) {
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DagNode *curNode = dag_get_node(forest, cmd->object);
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dag_add_relation(forest, curNode, obNode, DAG_RL_OB_DATA,
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"Cast Modifier");
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}
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}
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static void sphere_do(
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CastModifierData *cmd, Object *ob, DerivedMesh *dm,
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float (*vertexCos)[3], int numVerts)
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{
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MDeformVert *dvert = NULL;
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Object *ctrl_ob = NULL;
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int i, defgrp_index;
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bool has_radius = false;
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short flag, type;
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float len = 0.0f;
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float fac = cmd->fac;
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float facm = 1.0f - fac;
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const float fac_orig = fac;
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float vec[3], center[3] = {0.0f, 0.0f, 0.0f};
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float mat[4][4], imat[4][4];
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flag = cmd->flag;
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type = cmd->type; /* projection type: sphere or cylinder */
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if (type == MOD_CAST_TYPE_CYLINDER)
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flag &= ~MOD_CAST_Z;
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ctrl_ob = cmd->object;
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/* spherify's center is {0, 0, 0} (the ob's own center in its local
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* space), by default, but if the user defined a control object,
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* we use its location, transformed to ob's local space */
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if (ctrl_ob) {
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if (flag & MOD_CAST_USE_OB_TRANSFORM) {
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invert_m4_m4(imat, ctrl_ob->obmat);
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mul_m4_m4m4(mat, imat, ob->obmat);
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invert_m4_m4(imat, mat);
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}
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invert_m4_m4(ob->imat, ob->obmat);
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mul_v3_m4v3(center, ob->imat, ctrl_ob->obmat[3]);
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}
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/* now we check which options the user wants */
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/* 1) (flag was checked in the "if (ctrl_ob)" block above) */
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/* 2) cmd->radius > 0.0f: only the vertices within this radius from
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* the center of the effect should be deformed */
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if (cmd->radius > FLT_EPSILON) has_radius = 1;
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/* 3) if we were given a vertex group name,
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* only those vertices should be affected */
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modifier_get_vgroup(ob, dm, cmd->defgrp_name, &dvert, &defgrp_index);
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if (flag & MOD_CAST_SIZE_FROM_RADIUS) {
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len = cmd->radius;
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}
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else {
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len = cmd->size;
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}
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if (len <= 0) {
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for (i = 0; i < numVerts; i++) {
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len += len_v3v3(center, vertexCos[i]);
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}
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len /= numVerts;
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if (len == 0.0f) len = 10.0f;
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}
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for (i = 0; i < numVerts; i++) {
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float tmp_co[3];
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copy_v3_v3(tmp_co, vertexCos[i]);
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if (ctrl_ob) {
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if (flag & MOD_CAST_USE_OB_TRANSFORM) {
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mul_m4_v3(mat, tmp_co);
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}
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else {
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sub_v3_v3(tmp_co, center);
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}
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}
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copy_v3_v3(vec, tmp_co);
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if (type == MOD_CAST_TYPE_CYLINDER)
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vec[2] = 0.0f;
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if (has_radius) {
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if (len_v3(vec) > cmd->radius) continue;
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}
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if (dvert) {
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const float weight = defvert_find_weight(&dvert[i], defgrp_index);
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if (weight == 0.0f) {
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continue;
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}
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fac = fac_orig * weight;
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facm = 1.0f - fac;
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}
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normalize_v3(vec);
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if (flag & MOD_CAST_X)
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tmp_co[0] = fac * vec[0] * len + facm * tmp_co[0];
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if (flag & MOD_CAST_Y)
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tmp_co[1] = fac * vec[1] * len + facm * tmp_co[1];
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if (flag & MOD_CAST_Z)
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tmp_co[2] = fac * vec[2] * len + facm * tmp_co[2];
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if (ctrl_ob) {
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if (flag & MOD_CAST_USE_OB_TRANSFORM) {
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mul_m4_v3(imat, tmp_co);
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}
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else {
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add_v3_v3(tmp_co, center);
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}
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}
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copy_v3_v3(vertexCos[i], tmp_co);
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}
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}
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static void cuboid_do(
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CastModifierData *cmd, Object *ob, DerivedMesh *dm,
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float (*vertexCos)[3], int numVerts)
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{
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MDeformVert *dvert = NULL;
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Object *ctrl_ob = NULL;
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int i, defgrp_index;
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bool has_radius = false;
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short flag;
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float fac = cmd->fac;
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float facm = 1.0f - fac;
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const float fac_orig = fac;
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float min[3], max[3], bb[8][3];
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float center[3] = {0.0f, 0.0f, 0.0f};
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float mat[4][4], imat[4][4];
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flag = cmd->flag;
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ctrl_ob = cmd->object;
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/* now we check which options the user wants */
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/* 1) (flag was checked in the "if (ctrl_ob)" block above) */
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/* 2) cmd->radius > 0.0f: only the vertices within this radius from
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* the center of the effect should be deformed */
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if (cmd->radius > FLT_EPSILON) has_radius = 1;
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/* 3) if we were given a vertex group name,
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* only those vertices should be affected */
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modifier_get_vgroup(ob, dm, cmd->defgrp_name, &dvert, &defgrp_index);
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if (ctrl_ob) {
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if (flag & MOD_CAST_USE_OB_TRANSFORM) {
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invert_m4_m4(imat, ctrl_ob->obmat);
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mul_m4_m4m4(mat, imat, ob->obmat);
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invert_m4_m4(imat, mat);
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}
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invert_m4_m4(ob->imat, ob->obmat);
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mul_v3_m4v3(center, ob->imat, ctrl_ob->obmat[3]);
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}
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if ((flag & MOD_CAST_SIZE_FROM_RADIUS) && has_radius) {
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for (i = 0; i < 3; i++) {
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min[i] = -cmd->radius;
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max[i] = cmd->radius;
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}
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}
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else if (!(flag & MOD_CAST_SIZE_FROM_RADIUS) && cmd->size > 0) {
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for (i = 0; i < 3; i++) {
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min[i] = -cmd->size;
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max[i] = cmd->size;
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}
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}
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else {
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/* get bound box */
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/* We can't use the object's bound box because other modifiers
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* may have changed the vertex data. */
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INIT_MINMAX(min, max);
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/* Cast's center is the ob's own center in its local space,
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* by default, but if the user defined a control object, we use
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* its location, transformed to ob's local space. */
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if (ctrl_ob) {
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float vec[3];
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/* let the center of the ctrl_ob be part of the bound box: */
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minmax_v3v3_v3(min, max, center);
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for (i = 0; i < numVerts; i++) {
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sub_v3_v3v3(vec, vertexCos[i], center);
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minmax_v3v3_v3(min, max, vec);
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}
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}
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else {
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for (i = 0; i < numVerts; i++) {
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minmax_v3v3_v3(min, max, vertexCos[i]);
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}
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}
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/* we want a symmetric bound box around the origin */
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if (fabsf(min[0]) > fabsf(max[0])) max[0] = fabsf(min[0]);
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if (fabsf(min[1]) > fabsf(max[1])) max[1] = fabsf(min[1]);
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if (fabsf(min[2]) > fabsf(max[2])) max[2] = fabsf(min[2]);
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min[0] = -max[0];
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min[1] = -max[1];
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min[2] = -max[2];
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}
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/* building our custom bounding box */
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bb[0][0] = bb[2][0] = bb[4][0] = bb[6][0] = min[0];
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bb[1][0] = bb[3][0] = bb[5][0] = bb[7][0] = max[0];
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bb[0][1] = bb[1][1] = bb[4][1] = bb[5][1] = min[1];
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bb[2][1] = bb[3][1] = bb[6][1] = bb[7][1] = max[1];
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bb[0][2] = bb[1][2] = bb[2][2] = bb[3][2] = min[2];
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bb[4][2] = bb[5][2] = bb[6][2] = bb[7][2] = max[2];
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/* ready to apply the effect, one vertex at a time */
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for (i = 0; i < numVerts; i++) {
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int octant, coord;
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float d[3], dmax, apex[3], fbb;
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float tmp_co[3];
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copy_v3_v3(tmp_co, vertexCos[i]);
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if (ctrl_ob) {
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if (flag & MOD_CAST_USE_OB_TRANSFORM) {
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mul_m4_v3(mat, tmp_co);
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}
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else {
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sub_v3_v3(tmp_co, center);
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}
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}
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if (has_radius) {
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if (fabsf(tmp_co[0]) > cmd->radius ||
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fabsf(tmp_co[1]) > cmd->radius ||
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fabsf(tmp_co[2]) > cmd->radius)
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{
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continue;
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}
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}
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if (dvert) {
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const float weight = defvert_find_weight(&dvert[i], defgrp_index);
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if (weight == 0.0f) {
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continue;
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}
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fac = fac_orig * weight;
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facm = 1.0f - fac;
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}
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/* The algo used to project the vertices to their
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* bounding box (bb) is pretty simple:
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* for each vertex v:
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* 1) find in which octant v is in;
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* 2) find which outer "wall" of that octant is closer to v;
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* 3) calculate factor (var fbb) to project v to that wall;
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* 4) project. */
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/* find in which octant this vertex is in */
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octant = 0;
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if (tmp_co[0] > 0.0f) octant += 1;
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if (tmp_co[1] > 0.0f) octant += 2;
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if (tmp_co[2] > 0.0f) octant += 4;
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/* apex is the bb's vertex at the chosen octant */
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copy_v3_v3(apex, bb[octant]);
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/* find which bb plane is closest to this vertex ... */
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d[0] = tmp_co[0] / apex[0];
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d[1] = tmp_co[1] / apex[1];
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d[2] = tmp_co[2] / apex[2];
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/* ... (the closest has the higher (closer to 1) d value) */
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dmax = d[0];
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coord = 0;
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if (d[1] > dmax) {
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dmax = d[1];
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coord = 1;
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}
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if (d[2] > dmax) {
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/* dmax = d[2]; */ /* commented, we don't need it */
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coord = 2;
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}
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/* ok, now we know which coordinate of the vertex to use */
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if (fabsf(tmp_co[coord]) < FLT_EPSILON) /* avoid division by zero */
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continue;
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/* finally, this is the factor we wanted, to project the vertex
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* to its bounding box (bb) */
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fbb = apex[coord] / tmp_co[coord];
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/* calculate the new vertex position */
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if (flag & MOD_CAST_X)
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tmp_co[0] = facm * tmp_co[0] + fac * tmp_co[0] * fbb;
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if (flag & MOD_CAST_Y)
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tmp_co[1] = facm * tmp_co[1] + fac * tmp_co[1] * fbb;
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if (flag & MOD_CAST_Z)
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tmp_co[2] = facm * tmp_co[2] + fac * tmp_co[2] * fbb;
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if (ctrl_ob) {
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if (flag & MOD_CAST_USE_OB_TRANSFORM) {
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mul_m4_v3(imat, tmp_co);
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}
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else {
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add_v3_v3(tmp_co, center);
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}
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}
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copy_v3_v3(vertexCos[i], tmp_co);
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}
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}
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static void deformVerts(ModifierData *md, Object *ob,
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DerivedMesh *derivedData,
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float (*vertexCos)[3],
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int numVerts,
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ModifierApplyFlag UNUSED(flag))
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{
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DerivedMesh *dm = NULL;
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CastModifierData *cmd = (CastModifierData *)md;
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dm = get_dm(ob, NULL, derivedData, NULL, false, false);
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if (cmd->type == MOD_CAST_TYPE_CUBOID) {
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cuboid_do(cmd, ob, dm, vertexCos, numVerts);
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}
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else { /* MOD_CAST_TYPE_SPHERE or MOD_CAST_TYPE_CYLINDER */
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sphere_do(cmd, ob, dm, vertexCos, numVerts);
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}
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if (dm != derivedData)
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dm->release(dm);
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}
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static void deformVertsEM(
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ModifierData *md, Object *ob, struct BMEditMesh *editData,
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DerivedMesh *derivedData, float (*vertexCos)[3], int numVerts)
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{
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DerivedMesh *dm = get_dm(ob, editData, derivedData, NULL, false, false);
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CastModifierData *cmd = (CastModifierData *)md;
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if (cmd->type == MOD_CAST_TYPE_CUBOID) {
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cuboid_do(cmd, ob, dm, vertexCos, numVerts);
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}
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else { /* MOD_CAST_TYPE_SPHERE or MOD_CAST_TYPE_CYLINDER */
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sphere_do(cmd, ob, dm, vertexCos, numVerts);
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}
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if (dm != derivedData)
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dm->release(dm);
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}
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ModifierTypeInfo modifierType_Cast = {
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/* name */ "Cast",
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/* structName */ "CastModifierData",
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/* structSize */ sizeof(CastModifierData),
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/* type */ eModifierTypeType_OnlyDeform,
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/* flags */ eModifierTypeFlag_AcceptsCVs |
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eModifierTypeFlag_SupportsEditmode,
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/* copyData */ copyData,
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/* deformVerts */ deformVerts,
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/* deformMatrices */ NULL,
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/* deformVertsEM */ deformVertsEM,
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/* deformMatricesEM */ NULL,
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/* applyModifier */ NULL,
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/* applyModifierEM */ NULL,
|
|
/* initData */ initData,
|
|
/* requiredDataMask */ requiredDataMask,
|
|
/* freeData */ NULL,
|
|
/* isDisabled */ isDisabled,
|
|
/* updateDepgraph */ updateDepgraph,
|
|
/* dependsOnTime */ NULL,
|
|
/* dependsOnNormals */ NULL,
|
|
/* foreachObjectLink */ foreachObjectLink,
|
|
/* foreachIDLink */ NULL,
|
|
/* foreachTexLink */ NULL,
|
|
};
|