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blender-archive/source/blender/modifiers/intern/MOD_simpledeform.c
Sergey Sharybin 64c8d72ef1 Modifiers: Use object passed to evaluation 
This was wrong and violating design to force modifiers to query
evaluated objects and IDs. It is up to the caller to make sure
the object is properly evaluatable.

Effectively, reverting changes from de491abf99 (and possibly
other related changes).
2019-04-01 14:43:45 +02:00

450 lines
12 KiB
C
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/*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2005 by the Blender Foundation.
* All rights reserved.
*/
/** \file
* \ingroup modifiers
*/
#include "BLI_utildefines.h"
#include "BLI_math.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_object_types.h"
#include "BKE_editmesh.h"
#include "BKE_mesh.h"
#include "BKE_library.h"
#include "BKE_library_query.h"
#include "BKE_modifier.h"
#include "BKE_deform.h"
#include "DEG_depsgraph_query.h"
#include "MOD_util.h"
#include "bmesh.h"
#define BEND_EPS 0.000001f
/* Re-maps the indices for X Y Z by shifting them up and wrapping, such that
* X = Y, Y = Z, Z = X (for X axis), and X = Z, Y = X, Z = Y (for Y axis). This
* exists because the deformations (excluding bend) are based on the Z axis.
* Having this helps avoid long, drawn out switches. */
static const uint axis_map_table[3][3] = {
{1, 2, 0},
{2, 0, 1},
{0, 1, 2},
};
BLI_INLINE void copy_v3_v3_map(float a[3], const float b[3], const uint map[3])
{
a[0] = b[map[0]];
a[1] = b[map[1]];
a[2] = b[map[2]];
}
BLI_INLINE void copy_v3_v3_unmap(float a[3], const float b[3], const uint map[3])
{
a[map[0]] = b[0];
a[map[1]] = b[1];
a[map[2]] = b[2];
}
/* Clamps/Limits the given coordinate to: limits[0] <= co[axis] <= limits[1]
* The amount of clamp is saved on dcut */
static void axis_limit(const int axis, const float limits[2], float co[3], float dcut[3])
{
float val = co[axis];
if (limits[0] > val) val = limits[0];
if (limits[1] < val) val = limits[1];
dcut[axis] = co[axis] - val;
co[axis] = val;
}
static void simpleDeform_taper(const float factor, const int UNUSED(axis), const float dcut[3], float r_co[3])
{
float x = r_co[0], y = r_co[1], z = r_co[2];
float scale = z * factor;
r_co[0] = x + x * scale;
r_co[1] = y + y * scale;
r_co[2] = z;
add_v3_v3(r_co, dcut);
}
static void simpleDeform_stretch(const float factor, const int UNUSED(axis), const float dcut[3], float r_co[3])
{
float x = r_co[0], y = r_co[1], z = r_co[2];
float scale;
scale = (z * z * factor - factor + 1.0f);
r_co[0] = x * scale;
r_co[1] = y * scale;
r_co[2] = z * (1.0f + factor);
add_v3_v3(r_co, dcut);
}
static void simpleDeform_twist(const float factor, const int UNUSED(axis), const float *dcut, float r_co[3])
{
float x = r_co[0], y = r_co[1], z = r_co[2];
float theta, sint, cost;
theta = z * factor;
sint = sinf(theta);
cost = cosf(theta);
r_co[0] = x * cost - y * sint;
r_co[1] = x * sint + y * cost;
r_co[2] = z;
add_v3_v3(r_co, dcut);
}
static void simpleDeform_bend(const float factor, const int axis, const float dcut[3], float r_co[3])
{
float x = r_co[0], y = r_co[1], z = r_co[2];
float theta, sint, cost;
BLI_assert(!(fabsf(factor) < BEND_EPS));
switch (axis) {
case 0:
ATTR_FALLTHROUGH;
case 1:
theta = z * factor;
break;
default:
theta = x * factor;
}
sint = sinf(theta);
cost = cosf(theta);
switch (axis) {
case 0:
r_co[0] = x;
r_co[1] = (y - 1.0f / factor) * cost + 1.0f / factor;
r_co[2] = -(y - 1.0f / factor) * sint;
{
r_co[0] += dcut[0];
r_co[1] += sint * dcut[2];
r_co[2] += cost * dcut[2];
}
break;
case 1:
r_co[0] = (x - 1.0f / factor) * cost + 1.0f / factor;
r_co[1] = y;
r_co[2] = -(x - 1.0f / factor) * sint;
{
r_co[0] += sint * dcut[2];
r_co[1] += dcut[1];
r_co[2] += cost * dcut[2];
}
break;
default:
r_co[0] = -(y - 1.0f / factor) * sint;
r_co[1] = (y - 1.0f / factor) * cost + 1.0f / factor;
r_co[2] = z;
{
r_co[0] += cost * dcut[0];
r_co[1] += sint * dcut[0];
r_co[2] += dcut[2];
}
}
}
/* simple deform modifier */
static void SimpleDeformModifier_do(
SimpleDeformModifierData *smd, const ModifierEvalContext *UNUSED(ctx),
struct Object *ob, struct Mesh *mesh,
float (*vertexCos)[3], int numVerts)
{
const float base_limit[2] = {0.0f, 0.0f};
int i;
float smd_limit[2], smd_factor;
SpaceTransform *transf = NULL, tmp_transf;
void (*simpleDeform_callback)(const float factor, const int axis, const float dcut[3], float co[3]) = NULL; /* Mode callback */
int vgroup;
MDeformVert *dvert;
/* This is historically the lock axis, _not_ the deform axis as the name would imply */
const int deform_axis = smd->deform_axis;
int lock_axis = smd->axis;
if (smd->mode == MOD_SIMPLEDEFORM_MODE_BEND) { /* Bend mode shouldn't have any lock axis */
lock_axis = 0;
}
else {
/* Don't lock axis if it is the chosen deform axis, as this flattens
* the geometry */
if (deform_axis == 0) {
lock_axis &= ~MOD_SIMPLEDEFORM_LOCK_AXIS_X;
}
if (deform_axis == 1) {
lock_axis &= ~MOD_SIMPLEDEFORM_LOCK_AXIS_Y;
}
if (deform_axis == 2) {
lock_axis &= ~MOD_SIMPLEDEFORM_LOCK_AXIS_Z;
}
}
/* Safe-check */
if (smd->origin == ob) smd->origin = NULL; /* No self references */
if (smd->limit[0] < 0.0f) smd->limit[0] = 0.0f;
if (smd->limit[0] > 1.0f) smd->limit[0] = 1.0f;
smd->limit[0] = min_ff(smd->limit[0], smd->limit[1]); /* Upper limit >= than lower limit */
/* Calculate matrixs do convert between coordinate spaces */
if (smd->origin != NULL) {
transf = &tmp_transf;
BLI_SPACE_TRANSFORM_SETUP(transf, ob, smd->origin);
}
/* Update limits if needed */
int limit_axis = deform_axis;
if (smd->mode == MOD_SIMPLEDEFORM_MODE_BEND) {
/* Bend is a special case. */
switch (deform_axis) {
case 0:
ATTR_FALLTHROUGH;
case 1:
limit_axis = 2;
break;
default:
limit_axis = 0;
}
}
{
float lower = FLT_MAX;
float upper = -FLT_MAX;
for (i = 0; i < numVerts; i++) {
float tmp[3];
copy_v3_v3(tmp, vertexCos[i]);
if (transf) {
BLI_space_transform_apply(transf, tmp);
}
lower = min_ff(lower, tmp[limit_axis]);
upper = max_ff(upper, tmp[limit_axis]);
}
/* SMD values are normalized to the BV, calculate the absolute values */
smd_limit[1] = lower + (upper - lower) * smd->limit[1];
smd_limit[0] = lower + (upper - lower) * smd->limit[0];
smd_factor = smd->factor / max_ff(FLT_EPSILON, smd_limit[1] - smd_limit[0]);
}
switch (smd->mode) {
case MOD_SIMPLEDEFORM_MODE_TWIST: simpleDeform_callback = simpleDeform_twist; break;
case MOD_SIMPLEDEFORM_MODE_BEND: simpleDeform_callback = simpleDeform_bend; break;
case MOD_SIMPLEDEFORM_MODE_TAPER: simpleDeform_callback = simpleDeform_taper; break;
case MOD_SIMPLEDEFORM_MODE_STRETCH: simpleDeform_callback = simpleDeform_stretch; break;
default:
return; /* No simpledeform mode? */
}
if (smd->mode == MOD_SIMPLEDEFORM_MODE_BEND) {
if (fabsf(smd_factor) < BEND_EPS) {
return;
}
}
MOD_get_vgroup(ob, mesh, smd->vgroup_name, &dvert, &vgroup);
const bool invert_vgroup = (smd->flag & MOD_SIMPLEDEFORM_FLAG_INVERT_VGROUP) != 0;
const uint *axis_map = axis_map_table[(smd->mode != MOD_SIMPLEDEFORM_MODE_BEND) ? deform_axis : 2];
for (i = 0; i < numVerts; i++) {
float weight = defvert_array_find_weight_safe(dvert, i, vgroup);
if (invert_vgroup) {
weight = 1.0f - weight;
}
if (weight != 0.0f) {
float co[3], dcut[3] = {0.0f, 0.0f, 0.0f};
if (transf) {
BLI_space_transform_apply(transf, vertexCos[i]);
}
copy_v3_v3(co, vertexCos[i]);
/* Apply axis limits, and axis mappings */
if (lock_axis & MOD_SIMPLEDEFORM_LOCK_AXIS_X) {
axis_limit(0, base_limit, co, dcut);
}
if (lock_axis & MOD_SIMPLEDEFORM_LOCK_AXIS_Y) {
axis_limit(1, base_limit, co, dcut);
}
if (lock_axis & MOD_SIMPLEDEFORM_LOCK_AXIS_Z) {
axis_limit(2, base_limit, co, dcut);
}
axis_limit(limit_axis, smd_limit, co, dcut);
/* apply the deform to a mapped copy of the vertex, and then re-map it back. */
float co_remap[3];
float dcut_remap[3];
copy_v3_v3_map(co_remap, co, axis_map);
copy_v3_v3_map(dcut_remap, dcut, axis_map);
simpleDeform_callback(smd_factor, deform_axis, dcut_remap, co_remap); /* apply deform */
copy_v3_v3_unmap(co, co_remap, axis_map);
interp_v3_v3v3(vertexCos[i], vertexCos[i], co, weight); /* Use vertex weight has coef of linear interpolation */
if (transf) {
BLI_space_transform_invert(transf, vertexCos[i]);
}
}
}
}
/* SimpleDeform */
static void initData(ModifierData *md)
{
SimpleDeformModifierData *smd = (SimpleDeformModifierData *) md;
smd->mode = MOD_SIMPLEDEFORM_MODE_TWIST;
smd->axis = 0;
smd->deform_axis = 0;
smd->origin = NULL;
smd->factor = DEG2RADF(45.0f);
smd->limit[0] = 0.0f;
smd->limit[1] = 1.0f;
}
static void requiredDataMask(Object *UNUSED(ob), ModifierData *md, CustomData_MeshMasks *r_cddata_masks)
{
SimpleDeformModifierData *smd = (SimpleDeformModifierData *)md;
/* ask for vertexgroups if we need them */
if (smd->vgroup_name[0] != '\0') {
r_cddata_masks->vmask |= CD_MASK_MDEFORMVERT;
}
}
static void foreachObjectLink(
ModifierData *md, Object *ob,
ObjectWalkFunc walk, void *userData)
{
SimpleDeformModifierData *smd = (SimpleDeformModifierData *)md;
walk(userData, ob, &smd->origin, IDWALK_CB_NOP);
}
static void updateDepsgraph(ModifierData *md, const ModifierUpdateDepsgraphContext *ctx)
{
SimpleDeformModifierData *smd = (SimpleDeformModifierData *)md;
if (smd->origin != NULL) {
DEG_add_object_relation(ctx->node, smd->origin, DEG_OB_COMP_TRANSFORM, "SimpleDeform Modifier");
DEG_add_modifier_to_transform_relation(ctx->node, "SimpleDeform Modifier");
}
}
static void deformVerts(
ModifierData *md, const ModifierEvalContext *ctx,
struct Mesh *mesh,
float (*vertexCos)[3],
int numVerts)
{
SimpleDeformModifierData *sdmd = (SimpleDeformModifierData *)md;
Mesh *mesh_src = NULL;
if (ctx->object->type == OB_MESH && sdmd->vgroup_name[0] != '\0') {
/* mesh_src is only needed for vgroups. */
mesh_src = MOD_deform_mesh_eval_get(ctx->object, NULL, mesh, NULL, numVerts, false, false);
}
SimpleDeformModifier_do(sdmd, ctx, ctx->object, mesh_src, vertexCos, numVerts);
if (!ELEM(mesh_src, NULL, mesh)) {
BKE_id_free(NULL, mesh_src);
}
}
static void deformVertsEM(
ModifierData *md, const ModifierEvalContext *ctx,
struct BMEditMesh *editData,
struct Mesh *mesh,
float (*vertexCos)[3],
int numVerts)
{
SimpleDeformModifierData *sdmd = (SimpleDeformModifierData *)md;
Mesh *mesh_src = NULL;
if (ctx->object->type == OB_MESH && sdmd->vgroup_name[0] != '\0') {
/* mesh_src is only needed for vgroups. */
mesh_src = MOD_deform_mesh_eval_get(ctx->object, editData, mesh, NULL, numVerts, false, false);
}
SimpleDeformModifier_do(sdmd, ctx, ctx->object, mesh_src, vertexCos, numVerts);
if (!ELEM(mesh_src, NULL, mesh)) {
BKE_id_free(NULL, mesh_src);
}
}
ModifierTypeInfo modifierType_SimpleDeform = {
/* name */ "SimpleDeform",
/* structName */ "SimpleDeformModifierData",
/* structSize */ sizeof(SimpleDeformModifierData),
/* type */ eModifierTypeType_OnlyDeform,
/* flags */ eModifierTypeFlag_AcceptsMesh |
eModifierTypeFlag_AcceptsCVs |
eModifierTypeFlag_AcceptsLattice |
eModifierTypeFlag_SupportsEditmode |
eModifierTypeFlag_EnableInEditmode,
/* copyData */ modifier_copyData_generic,
/* deformVerts */ deformVerts,
/* deformMatrices */ NULL,
/* deformVertsEM */ deformVertsEM,
/* deformMatricesEM */ NULL,
/* applyModifier */ NULL,
/* initData */ initData,
/* requiredDataMask */ requiredDataMask,
/* freeData */ NULL,
/* isDisabled */ NULL,
/* updateDepsgraph */ updateDepsgraph,
/* dependsOnTime */ NULL,
/* dependsOnNormals */ NULL,
/* foreachObjectLink */ foreachObjectLink,
/* foreachIDLink */ NULL,
/* foreachTexLink */ NULL,
/* freeRuntimeData */ NULL,
};
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