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ee8b284d117385168739ee9f6f459e077af2ec8c
blender-archive/source/blender/io/collada/ControllerExporter.cpp
Sybren A. Stüvel 11c4066159 Cleanup: partial Clang-Tidy modernize-loop-convert 
Modernize loops by using the `for(type variable : container)` syntax.

Some loops were trivial to fix, whereas others required more attention
to avoid semantic changes. I couldn't address all old-style loops, so
this commit doesn't enable the `modernize-loop-convert` rule.

Although Clang-Tidy's auto-fixer prefers to use `auto` for the loop
variable declaration, I made as many declarations as possible explicit.
To me this increases local readability, as you don't need to fully
understand the container in order to understand the loop variable type.

No functional changes.
2020-12-07 12:41:17 +01:00

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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.
*/
/** \file
* \ingroup collada
*/
#include "COLLADASWBaseInputElement.h"
#include "COLLADASWInstanceController.h"
#include "COLLADASWPrimitves.h"
#include "COLLADASWSource.h"
#include "DNA_action_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_modifier_types.h"
#include "BKE_action.h"
#include "BKE_armature.h"
#include "BKE_global.h"
#include "BKE_idprop.h"
#include "BKE_lib_id.h"
#include "BKE_mesh.h"
#include "ED_armature.h"
#include "BLI_listbase.h"
#include "ArmatureExporter.h"
#include "ControllerExporter.h"
#include "GeometryExporter.h"
#include "SceneExporter.h"
#include "collada_utils.h"
bool ControllerExporter::is_skinned_mesh(Object *ob)
{
return bc_get_assigned_armature(ob) != nullptr;
}
void ControllerExporter::write_bone_URLs(COLLADASW::InstanceController &ins,
Object *ob_arm,
Bone *bone)
{
if (bc_is_root_bone(bone, this->export_settings.get_deform_bones_only())) {
std::string node_id = translate_id(id_name(ob_arm) + "_" + bone->name);
ins.addSkeleton(COLLADABU::URI(COLLADABU::Utils::EMPTY_STRING, node_id));
}
else {
for (Bone *child = (Bone *)bone->childbase.first; child; child = child->next) {
write_bone_URLs(ins, ob_arm, child);
}
}
}
bool ControllerExporter::add_instance_controller(Object *ob)
{
Object *ob_arm = bc_get_assigned_armature(ob);
bArmature *arm = (bArmature *)ob_arm->data;
const std::string &controller_id = get_controller_id(ob_arm, ob);
COLLADASW::InstanceController ins(mSW);
ins.setUrl(COLLADASW::URI(COLLADABU::Utils::EMPTY_STRING, controller_id));
Mesh *me = (Mesh *)ob->data;
if (!me->dvert) {
return false;
}
/* write root bone URLs */
Bone *bone;
for (bone = (Bone *)arm->bonebase.first; bone; bone = bone->next) {
write_bone_URLs(ins, ob_arm, bone);
}
InstanceWriter::add_material_bindings(
ins.getBindMaterial(), ob, this->export_settings.get_active_uv_only());
ins.add();
return true;
}
void ControllerExporter::export_controllers()
{
Scene *sce = blender_context.get_scene();
openLibrary();
GeometryFunctor gf;
gf.forEachMeshObjectInExportSet<ControllerExporter>(
sce, *this, this->export_settings.get_export_set());
closeLibrary();
}
void ControllerExporter::operator()(Object *ob)
{
Object *ob_arm = bc_get_assigned_armature(ob);
Key *key = BKE_key_from_object(ob);
if (ob_arm) {
export_skin_controller(ob, ob_arm);
}
if (key && this->export_settings.get_include_shapekeys()) {
export_morph_controller(ob, key);
}
}
#if 0
bool ArmatureExporter::already_written(Object *ob_arm)
{
return std::find(written_armatures.begin(), written_armatures.end(), ob_arm) !=
written_armatures.end();
}
void ArmatureExporter::wrote(Object *ob_arm)
{
written_armatures.push_back(ob_arm);
}
void ArmatureExporter::find_objects_using_armature(Object *ob_arm,
std::vector<Object *> &objects,
Scene *sce)
{
objects.clear();
Base *base = (Base *)sce->base.first;
while (base) {
Object *ob = base->object;
if (ob->type == OB_MESH && get_assigned_armature(ob) == ob_arm) {
objects.push_back(ob);
}
base = base->next;
}
}
#endif
std::string ControllerExporter::get_controller_id(Object *ob_arm, Object *ob)
{
return translate_id(id_name(ob_arm)) + "_" + translate_id(id_name(ob)) +
SKIN_CONTROLLER_ID_SUFFIX;
}
std::string ControllerExporter::get_controller_id(Key *key, Object *ob)
{
return translate_id(id_name(ob)) + MORPH_CONTROLLER_ID_SUFFIX;
}
/* ob should be of type OB_MESH
* both args are required */
void ControllerExporter::export_skin_controller(Object *ob, Object *ob_arm)
{
/* joint names
* joint inverse bind matrices
* vertex weights */
/* input:
* joint names: ob -> vertex group names
* vertex group weights: me->dvert -> groups -> index, weight */
bool use_instantiation = this->export_settings.get_use_object_instantiation();
Mesh *me;
if (((Mesh *)ob->data)->dvert == nullptr) {
return;
}
me = bc_get_mesh_copy(blender_context,
ob,
this->export_settings.get_export_mesh_type(),
this->export_settings.get_apply_modifiers(),
this->export_settings.get_triangulate());
std::string controller_name = id_name(ob_arm);
std::string controller_id = get_controller_id(ob_arm, ob);
openSkin(controller_id,
controller_name,
COLLADABU::URI(COLLADABU::Utils::EMPTY_STRING, get_geometry_id(ob, use_instantiation)));
add_bind_shape_mat(ob);
std::string joints_source_id = add_joints_source(ob_arm, &ob->defbase, controller_id);
std::string inv_bind_mat_source_id = add_inv_bind_mats_source(
ob_arm, &ob->defbase, controller_id);
std::list<int> vcounts;
std::list<int> joints;
std::list<float> weights;
{
int i, j;
/* def group index -> joint index */
std::vector<int> joint_index_by_def_index;
bDeformGroup *def;
for (def = (bDeformGroup *)ob->defbase.first, i = 0, j = 0; def; def = def->next, i++) {
if (is_bone_defgroup(ob_arm, def)) {
joint_index_by_def_index.push_back(j++);
}
else {
joint_index_by_def_index.push_back(-1);
}
}
int oob_counter = 0;
for (i = 0; i < me->totvert; i++) {
MDeformVert *vert = &me->dvert[i];
std::map<int, float> jw;
/* We're normalizing the weights later */
float sumw = 0.0f;
for (j = 0; j < vert->totweight; j++) {
uint idx = vert->dw[j].def_nr;
if (idx >= joint_index_by_def_index.size()) {
/* XXX: Maybe better find out where and
* why the Out Of Bound indexes get created ? */
oob_counter += 1;
}
else {
int joint_index = joint_index_by_def_index[idx];
if (joint_index != -1 && vert->dw[j].weight > 0.0f) {
jw[joint_index] += vert->dw[j].weight;
sumw += vert->dw[j].weight;
}
}
}
if (sumw > 0.0f) {
float invsumw = 1.0f / sumw;
vcounts.push_back(jw.size());
for (auto &index_and_weight : jw) {
joints.push_back(index_and_weight.first);
weights.push_back(invsumw * index_and_weight.second);
}
}
else {
vcounts.push_back(0);
#if 0
vcounts.push_back(1);
joints.push_back(-1);
weights.push_back(1.0f);
#endif
}
}
if (oob_counter > 0) {
fprintf(stderr,
"Ignored %d Vertex weights which use index to non existing VGroup %zu.\n",
oob_counter,
joint_index_by_def_index.size());
}
}
std::string weights_source_id = add_weights_source(me, controller_id, weights);
add_joints_element(&ob->defbase, joints_source_id, inv_bind_mat_source_id);
add_vertex_weights_element(weights_source_id, joints_source_id, vcounts, joints);
BKE_id_free(nullptr, me);
closeSkin();
closeController();
}
void ControllerExporter::export_morph_controller(Object *ob, Key *key)
{
bool use_instantiation = this->export_settings.get_use_object_instantiation();
Mesh *me;
me = bc_get_mesh_copy(blender_context,
ob,
this->export_settings.get_export_mesh_type(),
this->export_settings.get_apply_modifiers(),
this->export_settings.get_triangulate());
std::string controller_name = id_name(ob) + "-morph";
std::string controller_id = get_controller_id(key, ob);
openMorph(
controller_id,
controller_name,
COLLADABU::URI(COLLADABU::Utils::EMPTY_STRING, get_geometry_id(ob, use_instantiation)));
std::string targets_id = add_morph_targets(key, ob);
std::string morph_weights_id = add_morph_weights(key, ob);
COLLADASW::TargetsElement targets(mSW);
COLLADASW::InputList &input = targets.getInputList();
input.push_back(COLLADASW::Input(
COLLADASW::InputSemantic::MORPH_TARGET, /* constant declared in COLLADASWInputList.h */
COLLADASW::URI(COLLADABU::Utils::EMPTY_STRING, targets_id)));
input.push_back(
COLLADASW::Input(COLLADASW::InputSemantic::MORPH_WEIGHT,
COLLADASW::URI(COLLADABU::Utils::EMPTY_STRING, morph_weights_id)));
targets.add();
BKE_id_free(nullptr, me);
/* support for animations
* can also try the base element and param alternative */
add_weight_extras(key);
closeMorph();
closeController();
}
std::string ControllerExporter::add_morph_targets(Key *key, Object *ob)
{
std::string source_id = translate_id(id_name(ob)) + TARGETS_SOURCE_ID_SUFFIX;
COLLADASW::IdRefSource source(mSW);
source.setId(source_id);
source.setArrayId(source_id + ARRAY_ID_SUFFIX);
source.setAccessorCount(key->totkey - 1);
source.setAccessorStride(1);
COLLADASW::SourceBase::ParameterNameList &param = source.getParameterNameList();
param.push_back("IDREF");
source.prepareToAppendValues();
KeyBlock *kb = (KeyBlock *)key->block.first;
/* skip the basis */
kb = kb->next;
for (; kb; kb = kb->next) {
std::string geom_id = get_geometry_id(ob, false) + "_morph_" + translate_id(kb->name);
source.appendValues(geom_id);
}
source.finish();
return source_id;
}
std::string ControllerExporter::add_morph_weights(Key *key, Object *ob)
{
std::string source_id = translate_id(id_name(ob)) + WEIGHTS_SOURCE_ID_SUFFIX;
COLLADASW::FloatSourceF source(mSW);
source.setId(source_id);
source.setArrayId(source_id + ARRAY_ID_SUFFIX);
source.setAccessorCount(key->totkey - 1);
source.setAccessorStride(1);
COLLADASW::SourceBase::ParameterNameList &param = source.getParameterNameList();
param.push_back("MORPH_WEIGHT");
source.prepareToAppendValues();
KeyBlock *kb = (KeyBlock *)key->block.first;
/* skip the basis */
kb = kb->next;
for (; kb; kb = kb->next) {
float weight = kb->curval;
source.appendValues(weight);
}
source.finish();
return source_id;
}
/* Added to implement support for animations. */
void ControllerExporter::add_weight_extras(Key *key)
{
/* can also try the base element and param alternative */
COLLADASW::BaseExtraTechnique extra;
KeyBlock *kb = (KeyBlock *)key->block.first;
/* skip the basis */
kb = kb->next;
for (; kb; kb = kb->next) {
/* XXX why is the weight not used here and set to 0.0?
* float weight = kb->curval; */
extra.addExtraTechniqueParameter("KHR", "morph_weights", 0.000, "MORPH_WEIGHT_TO_TARGET");
}
}
void ControllerExporter::add_joints_element(ListBase *defbase,
const std::string &joints_source_id,
const std::string &inv_bind_mat_source_id)
{
COLLADASW::JointsElement joints(mSW);
COLLADASW::InputList &input = joints.getInputList();
input.push_back(COLLADASW::Input(
COLLADASW::InputSemantic::JOINT, /* constant declared in COLLADASWInputList.h */
COLLADASW::URI(COLLADABU::Utils::EMPTY_STRING, joints_source_id)));
input.push_back(
COLLADASW::Input(COLLADASW::InputSemantic::BINDMATRIX,
COLLADASW::URI(COLLADABU::Utils::EMPTY_STRING, inv_bind_mat_source_id)));
joints.add();
}
void ControllerExporter::add_bind_shape_mat(Object *ob)
{
double bind_mat[4][4];
float f_obmat[4][4];
BKE_object_matrix_local_get(ob, f_obmat);
if (export_settings.get_apply_global_orientation()) {
/* do nothing, rotation is going to be applied to the Data */
}
else {
bc_add_global_transform(f_obmat, export_settings.get_global_transform());
}
// UnitConverter::mat4_to_dae_double(bind_mat, ob->obmat);
UnitConverter::mat4_to_dae_double(bind_mat, f_obmat);
if (this->export_settings.get_limit_precision()) {
BCMatrix::sanitize(bind_mat, LIMITTED_PRECISION);
}
addBindShapeTransform(bind_mat);
}
std::string ControllerExporter::add_joints_source(Object *ob_arm,
ListBase *defbase,
const std::string &controller_id)
{
std::string source_id = controller_id + JOINTS_SOURCE_ID_SUFFIX;
int totjoint = 0;
bDeformGroup *def;
for (def = (bDeformGroup *)defbase->first; def; def = def->next) {
if (is_bone_defgroup(ob_arm, def)) {
totjoint++;
}
}
COLLADASW::NameSource source(mSW);
source.setId(source_id);
source.setArrayId(source_id + ARRAY_ID_SUFFIX);
source.setAccessorCount(totjoint);
source.setAccessorStride(1);
COLLADASW::SourceBase::ParameterNameList &param = source.getParameterNameList();
param.push_back("JOINT");
source.prepareToAppendValues();
for (def = (bDeformGroup *)defbase->first; def; def = def->next) {
Bone *bone = get_bone_from_defgroup(ob_arm, def);
if (bone) {
source.appendValues(get_joint_sid(bone));
}
}
source.finish();
return source_id;
}
std::string ControllerExporter::add_inv_bind_mats_source(Object *ob_arm,
ListBase *defbase,
const std::string &controller_id)
{
std::string source_id = controller_id + BIND_POSES_SOURCE_ID_SUFFIX;
int totjoint = 0;
for (bDeformGroup *def = (bDeformGroup *)defbase->first; def; def = def->next) {
if (is_bone_defgroup(ob_arm, def)) {
totjoint++;
}
}
COLLADASW::FloatSourceF source(mSW);
source.setId(source_id);
source.setArrayId(source_id + ARRAY_ID_SUFFIX);
source.setAccessorCount(totjoint); // BLI_listbase_count(defbase));
source.setAccessorStride(16);
source.setParameterTypeName(&COLLADASW::CSWC::CSW_VALUE_TYPE_FLOAT4x4);
COLLADASW::SourceBase::ParameterNameList &param = source.getParameterNameList();
param.push_back("TRANSFORM");
source.prepareToAppendValues();
bPose *pose = ob_arm->pose;
bArmature *arm = (bArmature *)ob_arm->data;
int flag = arm->flag;
/* put armature in rest position */
if (!(arm->flag & ARM_RESTPOS)) {
Depsgraph *depsgraph = blender_context.get_depsgraph();
Scene *scene = blender_context.get_scene();
arm->flag |= ARM_RESTPOS;
BKE_pose_where_is(depsgraph, scene, ob_arm);
}
for (bDeformGroup *def = (bDeformGroup *)defbase->first; def; def = def->next) {
if (is_bone_defgroup(ob_arm, def)) {
bPoseChannel *pchan = BKE_pose_channel_find_name(pose, def->name);
float mat[4][4];
float world[4][4];
float inv_bind_mat[4][4];
float bind_mat[4][4]; /* derived from bone->arm_mat */
bool has_bindmat = bc_get_property_matrix(pchan->bone, "bind_mat", bind_mat);
if (!has_bindmat) {
/* Have no bind matrix stored, try old style <= Blender 2.78 */
bc_create_restpose_mat(
this->export_settings, pchan->bone, bind_mat, pchan->bone->arm_mat, true);
/* SL/OPEN_SIM COMPATIBILITY */
if (export_settings.get_open_sim()) {
float loc[3];
float rot[3] = {0, 0, 0};
float scale[3];
bc_decompose(bind_mat, loc, nullptr, nullptr, scale);
/* Only translations, no rotation vs armature */
loc_eulO_size_to_mat4(bind_mat, loc, rot, scale, 6);
}
}
/* make world-space matrix (bind_mat is armature-space) */
mul_m4_m4m4(world, ob_arm->obmat, bind_mat);
if (!has_bindmat) {
if (export_settings.get_apply_global_orientation()) {
bc_apply_global_transform(world, export_settings.get_global_transform());
}
}
invert_m4_m4(mat, world);
UnitConverter::mat4_to_dae(inv_bind_mat, mat);
if (this->export_settings.get_limit_precision()) {
BCMatrix::sanitize(inv_bind_mat, LIMITTED_PRECISION);
}
source.appendValues(inv_bind_mat);
}
}
/* back from rest position */
if (!(flag & ARM_RESTPOS)) {
Depsgraph *depsgraph = blender_context.get_depsgraph();
Scene *scene = blender_context.get_scene();
arm->flag = flag;
BKE_pose_where_is(depsgraph, scene, ob_arm);
}
source.finish();
return source_id;
}
Bone *ControllerExporter::get_bone_from_defgroup(Object *ob_arm, bDeformGroup *def)
{
bPoseChannel *pchan = BKE_pose_channel_find_name(ob_arm->pose, def->name);
return pchan ? pchan->bone : nullptr;
}
bool ControllerExporter::is_bone_defgroup(Object *ob_arm, bDeformGroup *def)
{
return get_bone_from_defgroup(ob_arm, def) != nullptr;
}
std::string ControllerExporter::add_weights_source(Mesh *me,
const std::string &controller_id,
const std::list<float> &weights)
{
std::string source_id = controller_id + WEIGHTS_SOURCE_ID_SUFFIX;
COLLADASW::FloatSourceF source(mSW);
source.setId(source_id);
source.setArrayId(source_id + ARRAY_ID_SUFFIX);
source.setAccessorCount(weights.size());
source.setAccessorStride(1);
COLLADASW::SourceBase::ParameterNameList &param = source.getParameterNameList();
param.push_back("WEIGHT");
source.prepareToAppendValues();
for (float weight : weights) {
source.appendValues(weight);
}
source.finish();
return source_id;
}
void ControllerExporter::add_vertex_weights_element(const std::string &weights_source_id,
const std::string &joints_source_id,
const std::list<int> &vcounts,
const std::list<int> &joints)
{
COLLADASW::VertexWeightsElement weightselem(mSW);
COLLADASW::InputList &input = weightselem.getInputList();
int offset = 0;
input.push_back(COLLADASW::Input(
COLLADASW::InputSemantic::JOINT, /* constant declared in COLLADASWInputList.h */
COLLADASW::URI(COLLADABU::Utils::EMPTY_STRING, joints_source_id),
offset++));
input.push_back(
COLLADASW::Input(COLLADASW::InputSemantic::WEIGHT,
COLLADASW::URI(COLLADABU::Utils::EMPTY_STRING, weights_source_id),
offset++));
weightselem.setCount(vcounts.size());
/* write number of deformers per vertex */
COLLADASW::PrimitivesBase::VCountList vcountlist;
vcountlist.resize(vcounts.size());
std::copy(vcounts.begin(), vcounts.end(), vcountlist.begin());
weightselem.prepareToAppendVCountValues();
weightselem.appendVertexCount(vcountlist);
weightselem.CloseVCountAndOpenVElement();
/* write deformer index - weight index pairs */
int weight_index = 0;
for (int joint_index : joints) {
weightselem.appendValues(joint_index, weight_index++);
}
weightselem.finish();
}
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