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blender-archive/source/blender/modifiers/intern/MOD_wave.c
Hans Goudey 05952aa94d Mesh: Remove redundant custom data pointers 
For copy-on-write, we want to share attribute arrays between meshes
where possible. Mutable pointers like `Mesh.mvert` make that difficult
by making ownership vague. They also make code more complex by adding
redundancy.

The simplest solution is just removing them and retrieving layers from
`CustomData` as needed. Similar changes have already been applied to
curves and point clouds (e9f82d3dc7, 410a6efb74). Removing use of
the pointers generally makes code more obvious and more reusable.

Mesh data is now accessed with a C++ API (`Mesh::edges()` or
`Mesh::edges_for_write()`), and a C API (`BKE_mesh_edges(mesh)`).

The CoW changes this commit makes possible are described in T95845
and T95842, and started in D14139 and D14140. The change also simplifies
the ongoing mesh struct-of-array refactors from T95965.

**RNA/Python Access Performance**
Theoretically, accessing mesh elements with the RNA API may become
slower, since the layer needs to be found on every random access.
However, overhead is already high enough that this doesn't make a
noticible differenc, and performance is actually improved in some
cases. Random access can be up to 10% faster, but other situations
might be a bit slower. Generally using `foreach_get/set` are the best
way to improve performance. See the differential revision for more
discussion about Python performance.

Cycles has been updated to use raw pointers and the internal Blender
mesh types, mostly because there is no sense in having this overhead
when it's already compiled with Blender. In my tests this roughly
halves the Cycles mesh creation time (0.19s to 0.10s for a 1 million
face grid).

Differential Revision: https://developer.blender.org/D15488
2022-09-05 11:56:34 -05:00

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/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2005 Blender Foundation. All rights reserved. */
/** \file
* \ingroup modifiers
*/
#include "BLI_utildefines.h"
#include "BLI_math.h"
#include "BLT_translation.h"
#include "DNA_defaults.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_object_types.h"
#include "DNA_scene_types.h"
#include "DNA_screen_types.h"
#include "BKE_context.h"
#include "BKE_deform.h"
#include "BKE_editmesh.h"
#include "BKE_lib_id.h"
#include "BKE_lib_query.h"
#include "BKE_mesh.h"
#include "BKE_mesh_wrapper.h"
#include "BKE_scene.h"
#include "BKE_screen.h"
#include "BKE_texture.h"
#include "UI_interface.h"
#include "UI_resources.h"
#include "RNA_access.h"
#include "RNA_prototypes.h"
#include "MEM_guardedalloc.h"
#include "RE_texture.h"
#include "MOD_modifiertypes.h"
#include "MOD_ui_common.h"
#include "MOD_util.h"
#include "DEG_depsgraph.h"
#include "DEG_depsgraph_query.h"
static void initData(ModifierData *md)
{
WaveModifierData *wmd = (WaveModifierData *)md;
BLI_assert(MEMCMP_STRUCT_AFTER_IS_ZERO(wmd, modifier));
MEMCPY_STRUCT_AFTER(wmd, DNA_struct_default_get(WaveModifierData), modifier);
}
static bool dependsOnTime(struct Scene *UNUSED(scene), ModifierData *UNUSED(md))
{
return true;
}
static void foreachIDLink(ModifierData *md, Object *ob, IDWalkFunc walk, void *userData)
{
WaveModifierData *wmd = (WaveModifierData *)md;
walk(userData, ob, (ID **)&wmd->texture, IDWALK_CB_USER);
walk(userData, ob, (ID **)&wmd->objectcenter, IDWALK_CB_NOP);
walk(userData, ob, (ID **)&wmd->map_object, IDWALK_CB_NOP);
}
static void foreachTexLink(ModifierData *md, Object *ob, TexWalkFunc walk, void *userData)
{
walk(userData, ob, md, "texture");
}
static void updateDepsgraph(ModifierData *md, const ModifierUpdateDepsgraphContext *ctx)
{
WaveModifierData *wmd = (WaveModifierData *)md;
bool need_transform_relation = false;
if (wmd->objectcenter != NULL) {
DEG_add_object_relation(ctx->node, wmd->objectcenter, DEG_OB_COMP_TRANSFORM, "Wave Modifier");
need_transform_relation = true;
}
if (wmd->texture != NULL) {
DEG_add_generic_id_relation(ctx->node, &wmd->texture->id, "Wave Modifier");
if ((wmd->texmapping == MOD_DISP_MAP_OBJECT) && wmd->map_object != NULL) {
MOD_depsgraph_update_object_bone_relation(
ctx->node, wmd->map_object, wmd->map_bone, "Wave Modifier");
need_transform_relation = true;
}
else if (wmd->texmapping == MOD_DISP_MAP_GLOBAL) {
need_transform_relation = true;
}
}
if (need_transform_relation) {
DEG_add_depends_on_transform_relation(ctx->node, "Wave Modifier");
}
}
static void requiredDataMask(Object *UNUSED(ob),
ModifierData *md,
CustomData_MeshMasks *r_cddata_masks)
{
WaveModifierData *wmd = (WaveModifierData *)md;
/* ask for UV coordinates if we need them */
if (wmd->texture && wmd->texmapping == MOD_DISP_MAP_UV) {
r_cddata_masks->fmask |= CD_MASK_MTFACE;
}
/* ask for vertexgroups if we need them */
if (wmd->defgrp_name[0] != '\0') {
r_cddata_masks->vmask |= CD_MASK_MDEFORMVERT;
}
}
static bool dependsOnNormals(ModifierData *md)
{
WaveModifierData *wmd = (WaveModifierData *)md;
return (wmd->flag & MOD_WAVE_NORM) != 0;
}
static void waveModifier_do(WaveModifierData *md,
const ModifierEvalContext *ctx,
Object *ob,
Mesh *mesh,
float (*vertexCos)[3],
int verts_num)
{
WaveModifierData *wmd = (WaveModifierData *)md;
const MDeformVert *dvert;
int defgrp_index;
float ctime = DEG_get_ctime(ctx->depsgraph);
float minfac = (float)(1.0 / exp(wmd->width * wmd->narrow * wmd->width * wmd->narrow));
float lifefac = wmd->height;
float(*tex_co)[3] = NULL;
const int wmd_axis = wmd->flag & (MOD_WAVE_X | MOD_WAVE_Y);
const float falloff = wmd->falloff;
float falloff_fac = 1.0f; /* when falloff == 0.0f this stays at 1.0f */
const bool invert_group = (wmd->flag & MOD_WAVE_INVERT_VGROUP) != 0;
const float(*vert_normals)[3] = NULL;
if ((wmd->flag & MOD_WAVE_NORM) && (mesh != NULL)) {
vert_normals = BKE_mesh_vertex_normals_ensure(mesh);
}
if (wmd->objectcenter != NULL) {
float mat[4][4];
/* get the control object's location in local coordinates */
invert_m4_m4(ob->imat, ob->obmat);
mul_m4_m4m4(mat, ob->imat, wmd->objectcenter->obmat);
wmd->startx = mat[3][0];
wmd->starty = mat[3][1];
}
/* get the index of the deform group */
MOD_get_vgroup(ob, mesh, wmd->defgrp_name, &dvert, &defgrp_index);
if (wmd->damp == 0.0f) {
wmd->damp = 10.0f;
}
if (wmd->lifetime != 0.0f) {
float x = ctime - wmd->timeoffs;
if (x > wmd->lifetime) {
lifefac = x - wmd->lifetime;
if (lifefac > wmd->damp) {
lifefac = 0.0;
}
else {
lifefac = (float)(wmd->height * (1.0f - sqrtf(lifefac / wmd->damp)));
}
}
}
Tex *tex_target = wmd->texture;
if (mesh != NULL && tex_target != NULL) {
tex_co = MEM_malloc_arrayN(verts_num, sizeof(*tex_co), "waveModifier_do tex_co");
MOD_get_texture_coords((MappingInfoModifierData *)wmd, ctx, ob, mesh, vertexCos, tex_co);
MOD_init_texture((MappingInfoModifierData *)wmd, ctx);
}
if (lifefac != 0.0f) {
/* avoid divide by zero checks within the loop */
float falloff_inv = falloff != 0.0f ? 1.0f / falloff : 1.0f;
int i;
for (i = 0; i < verts_num; i++) {
float *co = vertexCos[i];
float x = co[0] - wmd->startx;
float y = co[1] - wmd->starty;
float amplit = 0.0f;
float def_weight = 1.0f;
/* get weights */
if (dvert) {
def_weight = invert_group ? 1.0f - BKE_defvert_find_weight(&dvert[i], defgrp_index) :
BKE_defvert_find_weight(&dvert[i], defgrp_index);
/* if this vert isn't in the vgroup, don't deform it */
if (def_weight == 0.0f) {
continue;
}
}
switch (wmd_axis) {
case MOD_WAVE_X | MOD_WAVE_Y:
amplit = sqrtf(x * x + y * y);
break;
case MOD_WAVE_X:
amplit = x;
break;
case MOD_WAVE_Y:
amplit = y;
break;
}
/* this way it makes nice circles */
amplit -= (ctime - wmd->timeoffs) * wmd->speed;
if (wmd->flag & MOD_WAVE_CYCL) {
amplit = (float)fmodf(amplit - wmd->width, 2.0f * wmd->width) + wmd->width;
}
if (falloff != 0.0f) {
float dist = 0.0f;
switch (wmd_axis) {
case MOD_WAVE_X | MOD_WAVE_Y:
dist = sqrtf(x * x + y * y);
break;
case MOD_WAVE_X:
dist = fabsf(x);
break;
case MOD_WAVE_Y:
dist = fabsf(y);
break;
}
falloff_fac = (1.0f - (dist * falloff_inv));
CLAMP(falloff_fac, 0.0f, 1.0f);
}
/* GAUSSIAN */
if ((falloff_fac != 0.0f) && (amplit > -wmd->width) && (amplit < wmd->width)) {
amplit = amplit * wmd->narrow;
amplit = (float)(1.0f / expf(amplit * amplit) - minfac);
/* Apply texture. */
if (tex_co) {
Scene *scene = DEG_get_evaluated_scene(ctx->depsgraph);
TexResult texres;
BKE_texture_get_value(scene, tex_target, tex_co[i], &texres, false);
amplit *= texres.tin;
}
/* Apply weight & falloff. */
amplit *= def_weight * falloff_fac;
if (vert_normals) {
/* move along normals */
if (wmd->flag & MOD_WAVE_NORM_X) {
co[0] += (lifefac * amplit) * vert_normals[i][0];
}
if (wmd->flag & MOD_WAVE_NORM_Y) {
co[1] += (lifefac * amplit) * vert_normals[i][1];
}
if (wmd->flag & MOD_WAVE_NORM_Z) {
co[2] += (lifefac * amplit) * vert_normals[i][2];
}
}
else {
/* move along local z axis */
co[2] += lifefac * amplit;
}
}
}
}
MEM_SAFE_FREE(tex_co);
}
static void deformVerts(ModifierData *md,
const ModifierEvalContext *ctx,
Mesh *mesh,
float (*vertexCos)[3],
int verts_num)
{
WaveModifierData *wmd = (WaveModifierData *)md;
Mesh *mesh_src = NULL;
if (wmd->flag & MOD_WAVE_NORM) {
mesh_src = MOD_deform_mesh_eval_get(ctx->object, NULL, mesh, vertexCos, verts_num, false);
}
else if (wmd->texture != NULL || wmd->defgrp_name[0] != '\0') {
mesh_src = MOD_deform_mesh_eval_get(ctx->object, NULL, mesh, NULL, verts_num, false);
}
waveModifier_do(wmd, ctx, ctx->object, mesh_src, vertexCos, verts_num);
if (!ELEM(mesh_src, NULL, mesh)) {
BKE_id_free(NULL, mesh_src);
}
}
static void deformVertsEM(ModifierData *md,
const ModifierEvalContext *ctx,
struct BMEditMesh *editData,
Mesh *mesh,
float (*vertexCos)[3],
int verts_num)
{
WaveModifierData *wmd = (WaveModifierData *)md;
Mesh *mesh_src = NULL;
if (wmd->flag & MOD_WAVE_NORM) {
mesh_src = MOD_deform_mesh_eval_get(ctx->object, editData, mesh, vertexCos, verts_num, false);
}
else if (wmd->texture != NULL || wmd->defgrp_name[0] != '\0') {
mesh_src = MOD_deform_mesh_eval_get(ctx->object, editData, mesh, NULL, verts_num, false);
}
/* TODO(@campbellbarton): use edit-mode data only (remove this line). */
if (mesh_src != NULL) {
BKE_mesh_wrapper_ensure_mdata(mesh_src);
}
waveModifier_do(wmd, ctx, ctx->object, mesh_src, vertexCos, verts_num);
if (!ELEM(mesh_src, NULL, mesh)) {
/* Important not to free `vertexCos` owned by the caller. */
EditMeshData *edit_data = mesh_src->runtime.edit_data;
if (edit_data->vertexCos == vertexCos) {
edit_data->vertexCos = NULL;
}
BKE_id_free(NULL, mesh_src);
}
}
static void panel_draw(const bContext *UNUSED(C), Panel *panel)
{
uiLayout *sub, *row, *col;
uiLayout *layout = panel->layout;
PointerRNA ob_ptr;
PointerRNA *ptr = modifier_panel_get_property_pointers(panel, &ob_ptr);
uiLayoutSetPropSep(layout, true);
row = uiLayoutRowWithHeading(layout, true, IFACE_("Motion"));
uiItemR(row, ptr, "use_x", UI_ITEM_R_TOGGLE | UI_ITEM_R_FORCE_BLANK_DECORATE, NULL, ICON_NONE);
uiItemR(row, ptr, "use_y", UI_ITEM_R_TOGGLE | UI_ITEM_R_FORCE_BLANK_DECORATE, NULL, ICON_NONE);
uiItemR(layout, ptr, "use_cyclic", 0, NULL, ICON_NONE);
row = uiLayoutRowWithHeading(layout, true, IFACE_("Along Normals"));
uiItemR(row, ptr, "use_normal", 0, "", ICON_NONE);
sub = uiLayoutRow(row, true);
uiLayoutSetActive(sub, RNA_boolean_get(ptr, "use_normal"));
uiItemR(sub, ptr, "use_normal_x", UI_ITEM_R_TOGGLE, "X", ICON_NONE);
uiItemR(sub, ptr, "use_normal_y", UI_ITEM_R_TOGGLE, "Y", ICON_NONE);
uiItemR(sub, ptr, "use_normal_z", UI_ITEM_R_TOGGLE, "Z", ICON_NONE);
col = uiLayoutColumn(layout, false);
uiItemR(col, ptr, "falloff_radius", 0, IFACE_("Falloff"), ICON_NONE);
uiItemR(col, ptr, "height", UI_ITEM_R_SLIDER, NULL, ICON_NONE);
uiItemR(col, ptr, "width", UI_ITEM_R_SLIDER, NULL, ICON_NONE);
uiItemR(col, ptr, "narrowness", UI_ITEM_R_SLIDER, NULL, ICON_NONE);
modifier_vgroup_ui(layout, ptr, &ob_ptr, "vertex_group", "invert_vertex_group", NULL);
modifier_panel_end(layout, ptr);
}
static void position_panel_draw(const bContext *UNUSED(C), Panel *panel)
{
uiLayout *col;
uiLayout *layout = panel->layout;
PointerRNA *ptr = modifier_panel_get_property_pointers(panel, NULL);
uiLayoutSetPropSep(layout, true);
uiItemR(layout, ptr, "start_position_object", 0, IFACE_("Object"), ICON_NONE);
col = uiLayoutColumn(layout, true);
uiItemR(col, ptr, "start_position_x", 0, IFACE_("Start Position X"), ICON_NONE);
uiItemR(col, ptr, "start_position_y", 0, "Y", ICON_NONE);
}
static void time_panel_draw(const bContext *UNUSED(C), Panel *panel)
{
uiLayout *col;
uiLayout *layout = panel->layout;
PointerRNA *ptr = modifier_panel_get_property_pointers(panel, NULL);
uiLayoutSetPropSep(layout, true);
col = uiLayoutColumn(layout, false);
uiItemR(col, ptr, "time_offset", 0, IFACE_("Offset"), ICON_NONE);
uiItemR(col, ptr, "lifetime", 0, IFACE_("Life"), ICON_NONE);
uiItemR(col, ptr, "damping_time", 0, IFACE_("Damping"), ICON_NONE);
uiItemR(col, ptr, "speed", UI_ITEM_R_SLIDER, NULL, ICON_NONE);
}
static void texture_panel_draw(const bContext *C, Panel *panel)
{
uiLayout *col;
uiLayout *layout = panel->layout;
PointerRNA ob_ptr;
PointerRNA *ptr = modifier_panel_get_property_pointers(panel, &ob_ptr);
int texture_coords = RNA_enum_get(ptr, "texture_coords");
uiTemplateID(layout, C, ptr, "texture", "texture.new", NULL, NULL, 0, ICON_NONE, NULL);
uiLayoutSetPropSep(layout, true);
col = uiLayoutColumn(layout, false);
uiItemR(col, ptr, "texture_coords", 0, IFACE_("Coordinates"), ICON_NONE);
if (texture_coords == MOD_DISP_MAP_OBJECT) {
uiItemR(col, ptr, "texture_coords_object", 0, IFACE_("Object"), ICON_NONE);
PointerRNA texture_coords_obj_ptr = RNA_pointer_get(ptr, "texture_coords_object");
if (!RNA_pointer_is_null(&texture_coords_obj_ptr) &&
(RNA_enum_get(&texture_coords_obj_ptr, "type") == OB_ARMATURE)) {
PointerRNA texture_coords_obj_data_ptr = RNA_pointer_get(&texture_coords_obj_ptr, "data");
uiItemPointerR(col,
ptr,
"texture_coords_bone",
&texture_coords_obj_data_ptr,
"bones",
IFACE_("Bone"),
ICON_NONE);
}
}
else if (texture_coords == MOD_DISP_MAP_UV && RNA_enum_get(&ob_ptr, "type") == OB_MESH) {
PointerRNA obj_data_ptr = RNA_pointer_get(&ob_ptr, "data");
uiItemPointerR(col, ptr, "uv_layer", &obj_data_ptr, "uv_layers", NULL, ICON_NONE);
}
}
static void panelRegister(ARegionType *region_type)
{
PanelType *panel_type = modifier_panel_register(region_type, eModifierType_Wave, panel_draw);
modifier_subpanel_register(
region_type, "position", "Start Position", NULL, position_panel_draw, panel_type);
modifier_subpanel_register(region_type, "time", "Time", NULL, time_panel_draw, panel_type);
modifier_subpanel_register(
region_type, "texture", "Texture", NULL, texture_panel_draw, panel_type);
}
ModifierTypeInfo modifierType_Wave = {
/* name */ N_("Wave"),
/* structName */ "WaveModifierData",
/* structSize */ sizeof(WaveModifierData),
/* srna */ &RNA_WaveModifier,
/* type */ eModifierTypeType_OnlyDeform,
/* flags */ eModifierTypeFlag_AcceptsCVs | eModifierTypeFlag_AcceptsVertexCosOnly |
eModifierTypeFlag_SupportsEditmode,
/* icon */ ICON_MOD_WAVE,
/* copyData */ BKE_modifier_copydata_generic,
/* deformVerts */ deformVerts,
/* deformMatrices */ NULL,
/* deformVertsEM */ deformVertsEM,
/* deformMatricesEM */ NULL,
/* modifyMesh */ NULL,
/* modifyGeometrySet */ NULL,
/* initData */ initData,
/* requiredDataMask */ requiredDataMask,
/* freeData */ NULL,
/* isDisabled */ NULL,
/* updateDepsgraph */ updateDepsgraph,
/* dependsOnTime */ dependsOnTime,
/* dependsOnNormals */ dependsOnNormals,
/* foreachIDLink */ foreachIDLink,
/* foreachTexLink */ foreachTexLink,
/* freeRuntimeData */ NULL,
/* panelRegister */ panelRegister,
/* blendWrite */ NULL,
/* blendRead */ NULL,
};
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