diff options
author | Nathan Letwory <nathan@letworyinteractive.com> | 2010-10-05 04:05:14 +0400 |
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committer | Nathan Letwory <nathan@letworyinteractive.com> | 2010-10-05 04:05:14 +0400 |
commit | 82209cdc86f5f248102df89b3dfeca86149768f7 (patch) | |
tree | 21ce50ed95bc62544d76754c9512ac791e52ca44 /source/blender/collada/ArmatureImporter.cpp | |
parent | 63b4c93e449902da3bb9a17d4f8b9f8ef7d00ae5 (diff) |
Reorganisation of COLLADA import code. Classes have been split into their own files.
No functional changes.
Where necessary extern "C" {} blocks have been added.
Diffstat (limited to 'source/blender/collada/ArmatureImporter.cpp')
-rw-r--r-- | source/blender/collada/ArmatureImporter.cpp | 585 |
1 files changed, 585 insertions, 0 deletions
diff --git a/source/blender/collada/ArmatureImporter.cpp b/source/blender/collada/ArmatureImporter.cpp new file mode 100644 index 00000000000..f931c04aef1 --- /dev/null +++ b/source/blender/collada/ArmatureImporter.cpp @@ -0,0 +1,585 @@ +/** + * $Id: DocumentImporter.cpp 32235 2010-10-01 19:46:42Z jesterking $ + * + * ***** BEGIN GPL LICENSE BLOCK ***** + * + * 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. + * + * Contributor(s): Chingiz Dyussenov, Arystanbek Dyussenov, Nathan Letwory. + * + * ***** END GPL LICENSE BLOCK ***** + */ + +#include <algorithm> + +#include "COLLADAFWUniqueId.h" + +#include "BKE_action.h" +#include "BKE_depsgraph.h" +#include "BKE_object.h" +#include "BLI_string.h" +#include "ED_armature.h" + +#include "ArmatureImporter.h" + +// use this for retrieving bone names, since these must be unique +template<class T> +static const char *bc_get_joint_name(T *node) +{ + const std::string& id = node->getOriginalId(); + return id.size() ? id.c_str() : node->getName().c_str(); +} + +ArmatureImporter::ArmatureImporter(UnitConverter *conv, MeshImporterBase *mesh, AnimationImporterBase *anim, Scene *sce) : + TransformReader(conv), scene(sce), empty(NULL), mesh_importer(mesh), anim_importer(anim) {} + +ArmatureImporter::~ArmatureImporter() +{ + // free skin controller data if we forget to do this earlier + std::map<COLLADAFW::UniqueId, SkinInfo>::iterator it; + for (it = skin_by_data_uid.begin(); it != skin_by_data_uid.end(); it++) { + it->second.free(); + } +} + +#if 0 +JointData *ArmatureImporter::get_joint_data(COLLADAFW::Node *node); +{ + const COLLADAFW::UniqueId& joint_id = node->getUniqueId(); + + if (joint_id_to_joint_index_map.find(joint_id) == joint_id_to_joint_index_map.end()) { + fprintf(stderr, "Cannot find a joint index by joint id for %s.\n", + node->getOriginalId().c_str()); + return NULL; + } + + int joint_index = joint_id_to_joint_index_map[joint_id]; + + return &joint_index_to_joint_info_map[joint_index]; +} +#endif + +void ArmatureImporter::create_bone(SkinInfo& skin, COLLADAFW::Node *node, EditBone *parent, int totchild, + float parent_mat[][4], bArmature *arm) +{ + float joint_inv_bind_mat[4][4]; + + // JointData* jd = get_joint_data(node); + + float mat[4][4]; + + if (skin.get_joint_inv_bind_matrix(joint_inv_bind_mat, node)) { + // get original world-space matrix + invert_m4_m4(mat, joint_inv_bind_mat); + } + // create a bone even if there's no joint data for it (i.e. it has no influence) + else { + float obmat[4][4]; + + // object-space + get_node_mat(obmat, node, NULL, NULL); + + // get world-space + if (parent) + mul_m4_m4m4(mat, obmat, parent_mat); + else + copy_m4_m4(mat, obmat); + } + + // TODO rename from Node "name" attrs later + EditBone *bone = ED_armature_edit_bone_add(arm, (char*)bc_get_joint_name(node)); + totbone++; + + if (parent) bone->parent = parent; + + // set head + copy_v3_v3(bone->head, mat[3]); + + // set tail, don't set it to head because 0-length bones are not allowed + float vec[3] = {0.0f, 0.5f, 0.0f}; + add_v3_v3v3(bone->tail, bone->head, vec); + + // set parent tail + if (parent && totchild == 1) { + copy_v3_v3(parent->tail, bone->head); + + // not setting BONE_CONNECTED because this would lock child bone location with respect to parent + // bone->flag |= BONE_CONNECTED; + + // XXX increase this to prevent "very" small bones? + const float epsilon = 0.000001f; + + // derive leaf bone length + float length = len_v3v3(parent->head, parent->tail); + if ((length < leaf_bone_length || totbone == 0) && length > epsilon) { + leaf_bone_length = length; + } + + // treat zero-sized bone like a leaf bone + if (length <= epsilon) { + add_leaf_bone(parent_mat, parent); + } + + /* +#if 0 + // and which row in mat is bone direction + float vec[3]; + sub_v3_v3v3(vec, parent->tail, parent->head); +#ifdef COLLADA_DEBUG + print_v3("tail - head", vec); + print_m4("matrix", parent_mat); +#endif + for (int i = 0; i < 3; i++) { +#ifdef COLLADA_DEBUG + char *axis_names[] = {"X", "Y", "Z"}; + printf("%s-axis length is %f\n", axis_names[i], len_v3(parent_mat[i])); +#endif + float angle = angle_v2v2(vec, parent_mat[i]); + if (angle < min_angle) { +#ifdef COLLADA_DEBUG + print_v3("picking", parent_mat[i]); + printf("^ %s axis of %s's matrix\n", axis_names[i], get_dae_name(node)); +#endif + bone_direction_row = i; + min_angle = angle; + } + } +#endif + */ + } + + COLLADAFW::NodePointerArray& children = node->getChildNodes(); + for (unsigned int i = 0; i < children.getCount(); i++) { + create_bone(skin, children[i], bone, children.getCount(), mat, arm); + } + + // in second case it's not a leaf bone, but we handle it the same way + if (!children.getCount() || children.getCount() > 1) { + add_leaf_bone(mat, bone); + } +} + +void ArmatureImporter::add_leaf_bone(float mat[][4], EditBone *bone) +{ + LeafBone leaf; + + leaf.bone = bone; + copy_m4_m4(leaf.mat, mat); + BLI_strncpy(leaf.name, bone->name, sizeof(leaf.name)); + + leaf_bones.push_back(leaf); +} + +void ArmatureImporter::fix_leaf_bones() +{ + // just setting tail for leaf bones here + + std::vector<LeafBone>::iterator it; + for (it = leaf_bones.begin(); it != leaf_bones.end(); it++) { + LeafBone& leaf = *it; + + // pointing up + float vec[3] = {0.0f, 0.0f, 1.0f}; + + mul_v3_fl(vec, leaf_bone_length); + + copy_v3_v3(leaf.bone->tail, leaf.bone->head); + add_v3_v3v3(leaf.bone->tail, leaf.bone->head, vec); + } +} + +void ArmatureImporter::set_leaf_bone_shapes(Object *ob_arm) +{ + bPose *pose = ob_arm->pose; + + std::vector<LeafBone>::iterator it; + for (it = leaf_bones.begin(); it != leaf_bones.end(); it++) { + LeafBone& leaf = *it; + + bPoseChannel *pchan = get_pose_channel(pose, leaf.name); + if (pchan) { + pchan->custom = get_empty_for_leaves(); + } + else { + fprintf(stderr, "Cannot find a pose channel for leaf bone %s\n", leaf.name); + } + } +} + +#if 0 +void ArmatureImporter::set_euler_rotmode() +{ + // just set rotmode = ROT_MODE_EUL on pose channel for each joint + + std::map<COLLADAFW::UniqueId, COLLADAFW::Node*>::iterator it; + + for (it = joint_by_uid.begin(); it != joint_by_uid.end(); it++) { + + COLLADAFW::Node *joint = it->second; + + std::map<COLLADAFW::UniqueId, SkinInfo>::iterator sit; + + for (sit = skin_by_data_uid.begin(); sit != skin_by_data_uid.end(); sit++) { + SkinInfo& skin = sit->second; + + if (skin.uses_joint_or_descendant(joint)) { + bPoseChannel *pchan = skin.get_pose_channel_from_node(joint); + + if (pchan) { + pchan->rotmode = ROT_MODE_EUL; + } + else { + fprintf(stderr, "Cannot find pose channel for %s.\n", get_joint_name(joint)); + } + + break; + } + } + } +} +#endif + +Object *ArmatureImporter::get_empty_for_leaves() +{ + if (empty) return empty; + + empty = add_object(scene, OB_EMPTY); + empty->empty_drawtype = OB_EMPTY_SPHERE; + + return empty; +} + +#if 0 +Object *ArmatureImporter::find_armature(COLLADAFW::Node *node) +{ + JointData* jd = get_joint_data(node); + if (jd) return jd->ob_arm; + + COLLADAFW::NodePointerArray& children = node->getChildNodes(); + for (int i = 0; i < children.getCount(); i++) { + Object *ob_arm = find_armature(children[i]); + if (ob_arm) return ob_arm; + } + + return NULL; +} + +ArmatureJoints& ArmatureImporter::get_armature_joints(Object *ob_arm) +{ + // try finding it + std::vector<ArmatureJoints>::iterator it; + for (it = armature_joints.begin(); it != armature_joints.end(); it++) { + if ((*it).ob_arm == ob_arm) return *it; + } + + // not found, create one + ArmatureJoints aj; + aj.ob_arm = ob_arm; + armature_joints.push_back(aj); + + return armature_joints.back(); +} +#endif + +void ArmatureImporter::create_armature_bones(SkinInfo& skin) +{ + // just do like so: + // - get armature + // - enter editmode + // - add edit bones and head/tail properties using matrices and parent-child info + // - exit edit mode + // - set a sphere shape to leaf bones + + Object *ob_arm = NULL; + + /* + * find if there's another skin sharing at least one bone with this skin + * if so, use that skin's armature + */ + + /* + Pseudocode: + + find_node_in_tree(node, root_joint) + + skin::find_root_joints(root_joints): + std::vector root_joints; + for each root in root_joints: + for each joint in joints: + if find_node_in_tree(joint, root): + if (std::find(root_joints.begin(), root_joints.end(), root) == root_joints.end()) + root_joints.push_back(root); + + for (each skin B with armature) { + find all root joints for skin B + + for each joint X in skin A: + for each root joint R in skin B: + if (find_node_in_tree(X, R)) { + shared = 1; + goto endloop; + } + } + + endloop: + */ + + SkinInfo *a = &skin; + Object *shared = NULL; + std::vector<COLLADAFW::Node*> skin_root_joints; + + std::map<COLLADAFW::UniqueId, SkinInfo>::iterator it; + for (it = skin_by_data_uid.begin(); it != skin_by_data_uid.end(); it++) { + SkinInfo *b = &it->second; + if (b == a || b->get_armature() == NULL) + continue; + + skin_root_joints.clear(); + + b->find_root_joints(root_joints, joint_by_uid, skin_root_joints); + + std::vector<COLLADAFW::Node*>::iterator ri; + for (ri = skin_root_joints.begin(); ri != skin_root_joints.end(); ri++) { + if (a->uses_joint_or_descendant(*ri)) { + shared = b->get_armature(); + break; + } + } + + if (shared != NULL) + break; + } + + if (shared) + ob_arm = skin.set_armature(shared); + else + ob_arm = skin.create_armature(scene); + + // enter armature edit mode + ED_armature_to_edit(ob_arm); + + leaf_bones.clear(); + totbone = 0; + // bone_direction_row = 1; // TODO: don't default to Y but use asset and based on it decide on default row + leaf_bone_length = 0.1f; + // min_angle = 360.0f; // minimum angle between bone head-tail and a row of bone matrix + + // create bones + /* + TODO: + check if bones have already been created for a given joint + */ + + std::vector<COLLADAFW::Node*>::iterator ri; + for (ri = root_joints.begin(); ri != root_joints.end(); ri++) { + // for shared armature check if bone tree is already created + if (shared && std::find(skin_root_joints.begin(), skin_root_joints.end(), *ri) != skin_root_joints.end()) + continue; + + // since root_joints may contain joints for multiple controllers, we need to filter + if (skin.uses_joint_or_descendant(*ri)) { + create_bone(skin, *ri, NULL, (*ri)->getChildNodes().getCount(), NULL, (bArmature*)ob_arm->data); + + if (joint_parent_map.find((*ri)->getUniqueId()) != joint_parent_map.end() && !skin.get_parent()) + skin.set_parent(joint_parent_map[(*ri)->getUniqueId()]); + } + } + + fix_leaf_bones(); + + // exit armature edit mode + ED_armature_from_edit(ob_arm); + ED_armature_edit_free(ob_arm); + DAG_id_flush_update(&ob_arm->id, OB_RECALC_OB|OB_RECALC_DATA); + + set_leaf_bone_shapes(ob_arm); + + // set_euler_rotmode(); +} + + +// root - if this joint is the top joint in hierarchy, if a joint +// is a child of a node (not joint), root should be true since +// this is where we build armature bones from +void ArmatureImporter::add_joint(COLLADAFW::Node *node, bool root, Object *parent) +{ + joint_by_uid[node->getUniqueId()] = node; + if (root) { + root_joints.push_back(node); + + if (parent) + joint_parent_map[node->getUniqueId()] = parent; + } +} + +#if 0 +void ArmatureImporter::add_root_joint(COLLADAFW::Node *node) +{ + // root_joints.push_back(node); + Object *ob_arm = find_armature(node); + if (ob_arm) { + get_armature_joints(ob_arm).root_joints.push_back(node); + } +#ifdef COLLADA_DEBUG + else { + fprintf(stderr, "%s cannot be added to armature.\n", get_joint_name(node)); + } +#endif +} +#endif + +// here we add bones to armatures, having armatures previously created in write_controller +void ArmatureImporter::make_armatures(bContext *C) +{ + std::map<COLLADAFW::UniqueId, SkinInfo>::iterator it; + for (it = skin_by_data_uid.begin(); it != skin_by_data_uid.end(); it++) { + + SkinInfo& skin = it->second; + + create_armature_bones(skin); + + // link armature with a mesh object + Object *ob = mesh_importer->get_object_by_geom_uid(*get_geometry_uid(skin.get_controller_uid())); + if (ob) + skin.link_armature(C, ob, joint_by_uid, this); + else + fprintf(stderr, "Cannot find object to link armature with.\n"); + + // set armature parent if any + Object *par = skin.get_parent(); + if (par) + bc_set_parent(skin.get_armature(), par, C, false); + + // free memory stolen from SkinControllerData + skin.free(); + } +} + +#if 0 +// link with meshes, create vertex groups, assign weights +void ArmatureImporter::link_armature(Object *ob_arm, const COLLADAFW::UniqueId& geom_id, const COLLADAFW::UniqueId& controller_data_id) +{ + Object *ob = mesh_importer->get_object_by_geom_uid(geom_id); + + if (!ob) { + fprintf(stderr, "Cannot find object by geometry UID.\n"); + return; + } + + if (skin_by_data_uid.find(controller_data_id) == skin_by_data_uid.end()) { + fprintf(stderr, "Cannot find skin info by controller data UID.\n"); + return; + } + + SkinInfo& skin = skin_by_data_uid[conroller_data_id]; + + // create vertex groups +} +#endif + +bool ArmatureImporter::write_skin_controller_data(const COLLADAFW::SkinControllerData* data) +{ + // at this stage we get vertex influence info that should go into me->verts and ob->defbase + // there's no info to which object this should be long so we associate it with skin controller data UID + + // don't forget to call defgroup_unique_name before we copy + + // controller data uid -> [armature] -> joint data, + // [mesh object] + // + + SkinInfo skin(unit_converter); + skin.borrow_skin_controller_data(data); + + // store join inv bind matrix to use it later in armature construction + const COLLADAFW::Matrix4Array& inv_bind_mats = data->getInverseBindMatrices(); + for (unsigned int i = 0; i < data->getJointsCount(); i++) { + skin.add_joint(inv_bind_mats[i]); + } + + skin_by_data_uid[data->getUniqueId()] = skin; + + return true; +} + +bool ArmatureImporter::write_controller(const COLLADAFW::Controller* controller) +{ + // - create and store armature object + + const COLLADAFW::UniqueId& skin_id = controller->getUniqueId(); + + if (controller->getControllerType() == COLLADAFW::Controller::CONTROLLER_TYPE_SKIN) { + COLLADAFW::SkinController *co = (COLLADAFW::SkinController*)controller; + // to be able to find geom id by controller id + geom_uid_by_controller_uid[skin_id] = co->getSource(); + + const COLLADAFW::UniqueId& data_uid = co->getSkinControllerData(); + if (skin_by_data_uid.find(data_uid) == skin_by_data_uid.end()) { + fprintf(stderr, "Cannot find skin by controller data UID.\n"); + return true; + } + + skin_by_data_uid[data_uid].set_controller(co); + } + // morph controller + else { + // shape keys? :) + fprintf(stderr, "Morph controller is not supported yet.\n"); + } + + return true; +} + +COLLADAFW::UniqueId *ArmatureImporter::get_geometry_uid(const COLLADAFW::UniqueId& controller_uid) +{ + if (geom_uid_by_controller_uid.find(controller_uid) == geom_uid_by_controller_uid.end()) + return NULL; + + return &geom_uid_by_controller_uid[controller_uid]; +} + +Object *ArmatureImporter::get_armature_for_joint(COLLADAFW::Node *node) +{ + std::map<COLLADAFW::UniqueId, SkinInfo>::iterator it; + for (it = skin_by_data_uid.begin(); it != skin_by_data_uid.end(); it++) { + SkinInfo& skin = it->second; + + if (skin.uses_joint_or_descendant(node)) + return skin.get_armature(); + } + + return NULL; +} + +void ArmatureImporter::get_rna_path_for_joint(COLLADAFW::Node *node, char *joint_path, size_t count) +{ + BLI_snprintf(joint_path, count, "pose.bones[\"%s\"]", bc_get_joint_name(node)); +} + +// gives a world-space mat +bool ArmatureImporter::get_joint_bind_mat(float m[][4], COLLADAFW::Node *joint) +{ + std::map<COLLADAFW::UniqueId, SkinInfo>::iterator it; + bool found = false; + for (it = skin_by_data_uid.begin(); it != skin_by_data_uid.end(); it++) { + SkinInfo& skin = it->second; + if ((found = skin.get_joint_inv_bind_matrix(m, joint))) { + invert_m4(m); + break; + } + } + + return found; +}
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