diff options
author | Nathan Letwory <nathan@letworyinteractive.com> | 2011-09-04 04:15:59 +0400 |
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committer | Nathan Letwory <nathan@letworyinteractive.com> | 2011-09-04 04:15:59 +0400 |
commit | 1764f2135d3c1780c4ead12fae3eb97ac2de5a7d (patch) | |
tree | cb7388b260bd141b5c588fa9300d42d7c79f664d /source/blender/collada/AnimationExporter.cpp | |
parent | 1f8291f78d6eb3e02414cc7801fe5ba9ad524e4b (diff) |
Some whitespace changes
Diffstat (limited to 'source/blender/collada/AnimationExporter.cpp')
-rw-r--r-- | source/blender/collada/AnimationExporter.cpp | 1694 |
1 files changed, 846 insertions, 848 deletions
diff --git a/source/blender/collada/AnimationExporter.cpp b/source/blender/collada/AnimationExporter.cpp index 8a0a39da558..4c20d1cf6c1 100644 --- a/source/blender/collada/AnimationExporter.cpp +++ b/source/blender/collada/AnimationExporter.cpp @@ -1,26 +1,26 @@ /* - * $Id$ - * - * ***** 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, Jan Diederich, Tod Liverseed. - * - * ***** END GPL LICENSE BLOCK ***** - */ +* $Id$ +* +* ***** 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, Jan Diederich, Tod Liverseed. +* +* ***** END GPL LICENSE BLOCK ***** +*/ #include "GeometryExporter.h" #include "AnimationExporter.h" @@ -30,10 +30,10 @@ template<class Functor> void forEachObjectInScene(Scene *sce, Functor &f) { Base *base= (Base*) sce->base.first; - + while(base) { Object *ob = base->object; - + f(ob); base= base->next; @@ -61,7 +61,7 @@ void AnimationExporter::operator() (Object *ob) bool isMatAnim = false; //Export transform animations - if(ob->adt && ob->adt->action) + if(ob->adt && ob->adt->action) { fcu = (FCurve*)ob->adt->action->curves.first; @@ -72,21 +72,21 @@ void AnimationExporter::operator() (Object *ob) for (Bone *bone = (Bone*)arm->bonebase.first; bone; bone = bone->next) write_bone_animation_matrix(ob, bone); } - + while (fcu) { //for armature animations as objects if ( ob->type == OB_ARMATURE ) transformName = fcu->rna_path; else transformName = extract_transform_name( fcu->rna_path ); - + if ((!strcmp(transformName, "location") || !strcmp(transformName, "scale")) || (!strcmp(transformName, "rotation_euler") && ob->rotmode == ROT_MODE_EUL)|| (!strcmp(transformName, "rotation_quaternion"))) dae_animation(ob ,fcu, transformName, false); fcu = fcu->next; } - + } //Export Lamp parameter animations @@ -94,8 +94,8 @@ void AnimationExporter::operator() (Object *ob) { fcu = (FCurve*)(((Lamp*)ob ->data)->adt->action->curves.first); while (fcu) { - transformName = extract_transform_name( fcu->rna_path ); - + transformName = extract_transform_name( fcu->rna_path ); + if ((!strcmp(transformName, "color")) || (!strcmp(transformName, "spot_size"))|| (!strcmp(transformName, "spot_blend"))|| (!strcmp(transformName, "distance")) ) dae_animation(ob , fcu, transformName, true ); @@ -108,8 +108,8 @@ void AnimationExporter::operator() (Object *ob) { fcu = (FCurve*)(((Camera*)ob ->data)->adt->action->curves.first); while (fcu) { - transformName = extract_transform_name( fcu->rna_path ); - + transformName = extract_transform_name( fcu->rna_path ); + if ((!strcmp(transformName, "lens"))|| (!strcmp(transformName, "ortho_scale"))|| (!strcmp(transformName, "clip_end"))||(!strcmp(transformName, "clip_start"))) @@ -129,7 +129,7 @@ void AnimationExporter::operator() (Object *ob) fcu = (FCurve*)ma->adt->action->curves.first; while (fcu) { transformName = extract_transform_name( fcu->rna_path ); - + if ((!strcmp(transformName, "specular_hardness"))||(!strcmp(transformName, "specular_color")) ||(!strcmp(transformName, "diffuse_color"))||(!strcmp(transformName, "alpha"))|| (!strcmp(transformName, "ior"))) @@ -137,384 +137,384 @@ void AnimationExporter::operator() (Object *ob) fcu = fcu->next; } } - + } } - //euler sources from quternion sources - float * AnimationExporter::get_eul_source_for_quat(Object *ob ) +//euler sources from quternion sources +float * AnimationExporter::get_eul_source_for_quat(Object *ob ) +{ + FCurve *fcu = (FCurve*)ob->adt->action->curves.first; + const int keys = fcu->totvert; + float *quat = (float*)MEM_callocN(sizeof(float) * fcu->totvert * 4, "quat output source values"); + float *eul = (float*)MEM_callocN(sizeof(float) * fcu->totvert * 3, "quat output source values"); + float temp_quat[4]; + float temp_eul[3]; + while(fcu) { - FCurve *fcu = (FCurve*)ob->adt->action->curves.first; - const int keys = fcu->totvert; - float *quat = (float*)MEM_callocN(sizeof(float) * fcu->totvert * 4, "quat output source values"); - float *eul = (float*)MEM_callocN(sizeof(float) * fcu->totvert * 3, "quat output source values"); - float temp_quat[4]; - float temp_eul[3]; - while(fcu) - { - char * transformName = extract_transform_name( fcu->rna_path ); - - if( !strcmp(transformName, "rotation_quaternion") ) { - for ( int i = 0 ; i < fcu->totvert ; i++){ - *(quat + ( i * 4 ) + fcu->array_index) = fcu->bezt[i].vec[1][1]; - } - } - fcu = fcu->next; + char * transformName = extract_transform_name( fcu->rna_path ); + + if( !strcmp(transformName, "rotation_quaternion") ) { + for ( int i = 0 ; i < fcu->totvert ; i++){ + *(quat + ( i * 4 ) + fcu->array_index) = fcu->bezt[i].vec[1][1]; } + } + fcu = fcu->next; + } - for ( int i = 0 ; i < keys ; i++){ - for ( int j = 0;j<4;j++) - temp_quat[j] = quat[(i*4)+j]; + for ( int i = 0 ; i < keys ; i++){ + for ( int j = 0;j<4;j++) + temp_quat[j] = quat[(i*4)+j]; - quat_to_eul(temp_eul,temp_quat); + quat_to_eul(temp_eul,temp_quat); - for (int k = 0;k<3;k++) - eul[i*3 + k] = temp_eul[k]; - - } - MEM_freeN(quat); - return eul; + for (int k = 0;k<3;k++) + eul[i*3 + k] = temp_eul[k]; } + MEM_freeN(quat); + return eul; + +} + +//Get proper name for bones +std::string AnimationExporter::getObjectBoneName( Object* ob,const FCurve* fcu ) +{ + //hard-way to derive the bone name from rna_path. Must find more compact method + std::string rna_path = std::string(fcu->rna_path); - //Get proper name for bones - std::string AnimationExporter::getObjectBoneName( Object* ob,const FCurve* fcu ) + char* boneName = strtok((char *)rna_path.c_str(), "\""); + boneName = strtok(NULL,"\""); + + if( boneName != NULL ) + return /*id_name(ob) + "_" +*/ std::string(boneName); + else + return id_name(ob); +} + +//convert f-curves to animation curves and write +void AnimationExporter::dae_animation(Object* ob, FCurve *fcu, char* transformName , bool is_param, Material * ma ) +{ + const char *axis_name = NULL; + char anim_id[200]; + + bool has_tangents = false; + bool quatRotation = false; + + if ( !strcmp(transformName, "rotation_quaternion") ) { - //hard-way to derive the bone name from rna_path. Must find more compact method - std::string rna_path = std::string(fcu->rna_path); - - char* boneName = strtok((char *)rna_path.c_str(), "\""); - boneName = strtok(NULL,"\""); - - if( boneName != NULL ) - return /*id_name(ob) + "_" +*/ std::string(boneName); - else - return id_name(ob); + fprintf(stderr, "quaternion rotation curves are not supported. rotation curve will not be exported\n"); + quatRotation = true; + return; } - //convert f-curves to animation curves and write - void AnimationExporter::dae_animation(Object* ob, FCurve *fcu, char* transformName , bool is_param, Material * ma ) + //axis names for colors + else if ( !strcmp(transformName, "color")||!strcmp(transformName, "specular_color")||!strcmp(transformName, "diffuse_color")|| + (!strcmp(transformName, "alpha"))) { - const char *axis_name = NULL; - char anim_id[200]; - - bool has_tangents = false; - bool quatRotation = false; - - if ( !strcmp(transformName, "rotation_quaternion") ) - { - fprintf(stderr, "quaternion rotation curves are not supported. rotation curve will not be exported\n"); - quatRotation = true; - return; - } - - //axis names for colors - else if ( !strcmp(transformName, "color")||!strcmp(transformName, "specular_color")||!strcmp(transformName, "diffuse_color")|| - (!strcmp(transformName, "alpha"))) - { - const char *axis_names[] = {"R", "G", "B"}; - if (fcu->array_index < 3) + const char *axis_names[] = {"R", "G", "B"}; + if (fcu->array_index < 3) axis_name = axis_names[fcu->array_index]; - } + } - //axis names for transforms - else if ((!strcmp(transformName, "location") || !strcmp(transformName, "scale")) || - (!strcmp(transformName, "rotation_euler"))||(!strcmp(transformName, "rotation_quaternion"))) - { - const char *axis_names[] = {"X", "Y", "Z"}; - if (fcu->array_index < 3) + //axis names for transforms + else if ((!strcmp(transformName, "location") || !strcmp(transformName, "scale")) || + (!strcmp(transformName, "rotation_euler"))||(!strcmp(transformName, "rotation_quaternion"))) + { + const char *axis_names[] = {"X", "Y", "Z"}; + if (fcu->array_index < 3) axis_name = axis_names[fcu->array_index]; - } + } - //no axis name. single parameter. - else{ - axis_name = ""; - } - - std::string ob_name = std::string("null"); - - //Create anim Id - if (ob->type == OB_ARMATURE) - { - ob_name = getObjectBoneName( ob , fcu); - BLI_snprintf(anim_id, sizeof(anim_id), "%s_%s.%s", (char*)translate_id(ob_name).c_str(), - transformName, axis_name); - } - else - { - if (ma) - ob_name = id_name(ob) + "_material"; - else - ob_name = id_name(ob); - BLI_snprintf(anim_id, sizeof(anim_id), "%s_%s_%s", (char*)translate_id(ob_name).c_str(), - fcu->rna_path, axis_name); - } - - openAnimation(anim_id, COLLADABU::Utils::EMPTY_STRING); + //no axis name. single parameter. + else{ + axis_name = ""; + } - // create input source - std::string input_id = create_source_from_fcurve(COLLADASW::InputSemantic::INPUT, fcu, anim_id, axis_name); + std::string ob_name = std::string("null"); - // create output source - std::string output_id ; - - //quat rotations are skipped for now, because of complications with determining axis. - if(quatRotation) - { - float * eul = get_eul_source_for_quat(ob); - float * eul_axis = (float*)MEM_callocN(sizeof(float) * fcu->totvert, "quat output source values"); - for ( int i = 0 ; i< fcu->totvert ; i++) - eul_axis[i] = eul[i*3 + fcu->array_index]; - output_id= create_source_from_array(COLLADASW::InputSemantic::OUTPUT, eul_axis , fcu->totvert, quatRotation, anim_id, axis_name); - MEM_freeN(eul); - MEM_freeN(eul_axis); - } - else - { - output_id= create_source_from_fcurve(COLLADASW::InputSemantic::OUTPUT, fcu, anim_id, axis_name); - } - // create interpolations source - std::string interpolation_id = create_interpolation_source(fcu, anim_id, axis_name, &has_tangents); - - // handle tangents (if required) - std::string intangent_id; - std::string outtangent_id; - - if (has_tangents) { - // create in_tangent source - intangent_id = create_source_from_fcurve(COLLADASW::InputSemantic::IN_TANGENT, fcu, anim_id, axis_name); - - // create out_tangent source - outtangent_id = create_source_from_fcurve(COLLADASW::InputSemantic::OUT_TANGENT, fcu, anim_id, axis_name); - } + //Create anim Id + if (ob->type == OB_ARMATURE) + { + ob_name = getObjectBoneName( ob , fcu); + BLI_snprintf(anim_id, sizeof(anim_id), "%s_%s.%s", (char*)translate_id(ob_name).c_str(), + transformName, axis_name); + } + else + { + if (ma) + ob_name = id_name(ob) + "_material"; + else + ob_name = id_name(ob); + BLI_snprintf(anim_id, sizeof(anim_id), "%s_%s_%s", (char*)translate_id(ob_name).c_str(), + fcu->rna_path, axis_name); + } - std::string sampler_id = std::string(anim_id) + SAMPLER_ID_SUFFIX; - COLLADASW::LibraryAnimations::Sampler sampler(sw, sampler_id); - std::string empty; - sampler.addInput(COLLADASW::InputSemantic::INPUT, COLLADABU::URI(empty, input_id)); - sampler.addInput(COLLADASW::InputSemantic::OUTPUT, COLLADABU::URI(empty, output_id)); + openAnimation(anim_id, COLLADABU::Utils::EMPTY_STRING); - // this input is required - sampler.addInput(COLLADASW::InputSemantic::INTERPOLATION, COLLADABU::URI(empty, interpolation_id)); + // create input source + std::string input_id = create_source_from_fcurve(COLLADASW::InputSemantic::INPUT, fcu, anim_id, axis_name); - if (has_tangents) { - sampler.addInput(COLLADASW::InputSemantic::IN_TANGENT, COLLADABU::URI(empty, intangent_id)); - sampler.addInput(COLLADASW::InputSemantic::OUT_TANGENT, COLLADABU::URI(empty, outtangent_id)); - } + // create output source + std::string output_id ; - addSampler(sampler); + //quat rotations are skipped for now, because of complications with determining axis. + if(quatRotation) + { + float * eul = get_eul_source_for_quat(ob); + float * eul_axis = (float*)MEM_callocN(sizeof(float) * fcu->totvert, "quat output source values"); + for ( int i = 0 ; i< fcu->totvert ; i++) + eul_axis[i] = eul[i*3 + fcu->array_index]; + output_id= create_source_from_array(COLLADASW::InputSemantic::OUTPUT, eul_axis , fcu->totvert, quatRotation, anim_id, axis_name); + MEM_freeN(eul); + MEM_freeN(eul_axis); + } + else + { + output_id= create_source_from_fcurve(COLLADASW::InputSemantic::OUTPUT, fcu, anim_id, axis_name); + } + // create interpolations source + std::string interpolation_id = create_interpolation_source(fcu, anim_id, axis_name, &has_tangents); - std::string target ; + // handle tangents (if required) + std::string intangent_id; + std::string outtangent_id; - if ( !is_param ) - target = translate_id(ob_name) - + "/" + get_transform_sid(fcu->rna_path, -1, axis_name, true); - else - { - if ( ob->type == OB_LAMP ) - target = get_light_id(ob) - + "/" + get_light_param_sid(fcu->rna_path, -1, axis_name, true); + if (has_tangents) { + // create in_tangent source + intangent_id = create_source_from_fcurve(COLLADASW::InputSemantic::IN_TANGENT, fcu, anim_id, axis_name); - if ( ob->type == OB_CAMERA ) - target = get_camera_id(ob) - + "/" + get_camera_param_sid(fcu->rna_path, -1, axis_name, true); + // create out_tangent source + outtangent_id = create_source_from_fcurve(COLLADASW::InputSemantic::OUT_TANGENT, fcu, anim_id, axis_name); + } - if( ma ) - target = translate_id(id_name(ma)) + "-effect" - +"/common/" /*profile common is only supported */ + get_transform_sid(fcu->rna_path, -1, axis_name, true); - } - addChannel(COLLADABU::URI(empty, sampler_id), target); + std::string sampler_id = std::string(anim_id) + SAMPLER_ID_SUFFIX; + COLLADASW::LibraryAnimations::Sampler sampler(sw, sampler_id); + std::string empty; + sampler.addInput(COLLADASW::InputSemantic::INPUT, COLLADABU::URI(empty, input_id)); + sampler.addInput(COLLADASW::InputSemantic::OUTPUT, COLLADABU::URI(empty, output_id)); + + // this input is required + sampler.addInput(COLLADASW::InputSemantic::INTERPOLATION, COLLADABU::URI(empty, interpolation_id)); - closeAnimation(); + if (has_tangents) { + sampler.addInput(COLLADASW::InputSemantic::IN_TANGENT, COLLADABU::URI(empty, intangent_id)); + sampler.addInput(COLLADASW::InputSemantic::OUT_TANGENT, COLLADABU::URI(empty, outtangent_id)); } + addSampler(sampler); + + std::string target ; - - //write bone animations in transform matrix sources - void AnimationExporter::write_bone_animation_matrix(Object *ob_arm, Bone *bone) + if ( !is_param ) + target = translate_id(ob_name) + + "/" + get_transform_sid(fcu->rna_path, -1, axis_name, true); + else { - if (!ob_arm->adt) - return; - - //This will only export animations of bones in deform group. - /*if(!is_bone_deform_group(bone)) - return;*/ - - sample_and_write_bone_animation_matrix(ob_arm, bone); - - for (Bone *child = (Bone*)bone->childbase.first; child; child = child->next) - write_bone_animation_matrix(ob_arm, child); + if ( ob->type == OB_LAMP ) + target = get_light_id(ob) + + "/" + get_light_param_sid(fcu->rna_path, -1, axis_name, true); + + if ( ob->type == OB_CAMERA ) + target = get_camera_id(ob) + + "/" + get_camera_param_sid(fcu->rna_path, -1, axis_name, true); + + if( ma ) + target = translate_id(id_name(ma)) + "-effect" + +"/common/" /*profile common is only supported */ + get_transform_sid(fcu->rna_path, -1, axis_name, true); } + addChannel(COLLADABU::URI(empty, sampler_id), target); - bool AnimationExporter::is_bone_deform_group(Bone * bone) + closeAnimation(); +} + + + +//write bone animations in transform matrix sources +void AnimationExporter::write_bone_animation_matrix(Object *ob_arm, Bone *bone) +{ + if (!ob_arm->adt) + return; + + //This will only export animations of bones in deform group. + /*if(!is_bone_deform_group(bone)) + return;*/ + + sample_and_write_bone_animation_matrix(ob_arm, bone); + + for (Bone *child = (Bone*)bone->childbase.first; child; child = child->next) + write_bone_animation_matrix(ob_arm, child); +} + +bool AnimationExporter::is_bone_deform_group(Bone * bone) +{ + bool is_def; + //Check if current bone is deform + if((bone->flag & BONE_NO_DEFORM) == 0 ) return true; + //Check child bones + else { - bool is_def; - //Check if current bone is deform - if((bone->flag & BONE_NO_DEFORM) == 0 ) return true; - //Check child bones - else - { - for (Bone *child = (Bone*)bone->childbase.first; child; child = child->next){ - //loop through all the children until deform bone is found, and then return - is_def = is_bone_deform_group(child); - if (is_def) return true; - } + for (Bone *child = (Bone*)bone->childbase.first; child; child = child->next){ + //loop through all the children until deform bone is found, and then return + is_def = is_bone_deform_group(child); + if (is_def) return true; } - //no deform bone found in children also - return false; } + //no deform bone found in children also + return false; +} - void AnimationExporter::sample_and_write_bone_animation_matrix(Object *ob_arm, Bone *bone) - { - bArmature *arm = (bArmature*)ob_arm->data; - int flag = arm->flag; - std::vector<float> fra; - //char prefix[256]; - - FCurve* fcu = (FCurve*)ob_arm->adt->action->curves.first; - while(fcu) - { - std::string bone_name = getObjectBoneName(ob_arm,fcu); - int val = BLI_strcasecmp((char*)bone_name.c_str(),bone->name); - if(val==0) break; - fcu = fcu->next; - } +void AnimationExporter::sample_and_write_bone_animation_matrix(Object *ob_arm, Bone *bone) +{ + bArmature *arm = (bArmature*)ob_arm->data; + int flag = arm->flag; + std::vector<float> fra; + //char prefix[256]; - if(!(fcu)) return; - bPoseChannel *pchan = get_pose_channel(ob_arm->pose, bone->name); - if (!pchan) - return; - - find_frames(ob_arm, fra); + FCurve* fcu = (FCurve*)ob_arm->adt->action->curves.first; + while(fcu) + { + std::string bone_name = getObjectBoneName(ob_arm,fcu); + int val = BLI_strcasecmp((char*)bone_name.c_str(),bone->name); + if(val==0) break; + fcu = fcu->next; + } - if (flag & ARM_RESTPOS) { - arm->flag &= ~ARM_RESTPOS; - where_is_pose(scene, ob_arm); - } + if(!(fcu)) return; + bPoseChannel *pchan = get_pose_channel(ob_arm->pose, bone->name); + if (!pchan) + return; - if (fra.size()) { - dae_baked_animation(fra ,ob_arm, bone ); - } + find_frames(ob_arm, fra); - if (flag & ARM_RESTPOS) - arm->flag = flag; + if (flag & ARM_RESTPOS) { + arm->flag &= ~ARM_RESTPOS; where_is_pose(scene, ob_arm); } - void AnimationExporter::dae_baked_animation(std::vector<float> &fra, Object *ob_arm , Bone *bone) - { - std::string ob_name = id_name(ob_arm); - std::string bone_name = bone->name; - char anim_id[200]; - - if (!fra.size()) - return; + if (fra.size()) { + dae_baked_animation(fra ,ob_arm, bone ); + } - BLI_snprintf(anim_id, sizeof(anim_id), "%s_%s_%s", (char*)translate_id(ob_name).c_str(), - (char*)translate_id(bone_name).c_str(), "pose_matrix"); + if (flag & ARM_RESTPOS) + arm->flag = flag; + where_is_pose(scene, ob_arm); +} - openAnimation(anim_id, COLLADABU::Utils::EMPTY_STRING); +void AnimationExporter::dae_baked_animation(std::vector<float> &fra, Object *ob_arm , Bone *bone) +{ + std::string ob_name = id_name(ob_arm); + std::string bone_name = bone->name; + char anim_id[200]; - // create input source - std::string input_id = create_source_from_vector(COLLADASW::InputSemantic::INPUT, fra, false, anim_id, ""); + if (!fra.size()) + return; - // create output source - std::string output_id; - output_id = create_4x4_source( fra, ob_arm , bone , anim_id); + BLI_snprintf(anim_id, sizeof(anim_id), "%s_%s_%s", (char*)translate_id(ob_name).c_str(), + (char*)translate_id(bone_name).c_str(), "pose_matrix"); - // create interpolations source - std::string interpolation_id = fake_interpolation_source(fra.size(), anim_id, ""); + openAnimation(anim_id, COLLADABU::Utils::EMPTY_STRING); - std::string sampler_id = std::string(anim_id) + SAMPLER_ID_SUFFIX; - COLLADASW::LibraryAnimations::Sampler sampler(sw, sampler_id); - std::string empty; - sampler.addInput(COLLADASW::InputSemantic::INPUT, COLLADABU::URI(empty, input_id)); - sampler.addInput(COLLADASW::InputSemantic::OUTPUT, COLLADABU::URI(empty, output_id)); + // create input source + std::string input_id = create_source_from_vector(COLLADASW::InputSemantic::INPUT, fra, false, anim_id, ""); - // TODO create in/out tangents source + // create output source + std::string output_id; + output_id = create_4x4_source( fra, ob_arm , bone , anim_id); - // this input is required - sampler.addInput(COLLADASW::InputSemantic::INTERPOLATION, COLLADABU::URI(empty, interpolation_id)); + // create interpolations source + std::string interpolation_id = fake_interpolation_source(fra.size(), anim_id, ""); - addSampler(sampler); + std::string sampler_id = std::string(anim_id) + SAMPLER_ID_SUFFIX; + COLLADASW::LibraryAnimations::Sampler sampler(sw, sampler_id); + std::string empty; + sampler.addInput(COLLADASW::InputSemantic::INPUT, COLLADABU::URI(empty, input_id)); + sampler.addInput(COLLADASW::InputSemantic::OUTPUT, COLLADABU::URI(empty, output_id)); - std::string target = translate_id(bone_name) + "/transform"; - addChannel(COLLADABU::URI(empty, sampler_id), target); + // TODO create in/out tangents source - closeAnimation(); - } + // this input is required + sampler.addInput(COLLADASW::InputSemantic::INTERPOLATION, COLLADABU::URI(empty, interpolation_id)); - // dae_bone_animation -> add_bone_animation - // (blend this into dae_bone_animation) - void AnimationExporter::dae_bone_animation(std::vector<float> &fra, float *values, int tm_type, int axis, std::string ob_name, std::string bone_name) - { - const char *axis_names[] = {"X", "Y", "Z"}; - const char *axis_name = NULL; - char anim_id[200]; - bool is_rot = tm_type == 0; - - if (!fra.size()) - return; + addSampler(sampler); - char rna_path[200]; - BLI_snprintf(rna_path, sizeof(rna_path), "pose.bones[\"%s\"].%s", bone_name.c_str(), - tm_type == 0 ? "rotation_quaternion" : (tm_type == 1 ? "scale" : "location")); + std::string target = translate_id(bone_name) + "/transform"; + addChannel(COLLADABU::URI(empty, sampler_id), target); - if (axis > -1) - axis_name = axis_names[axis]; - - std::string transform_sid = get_transform_sid(NULL, tm_type, axis_name, false); - - BLI_snprintf(anim_id, sizeof(anim_id), "%s_%s_%s", (char*)translate_id(ob_name).c_str(), - (char*)translate_id(bone_name).c_str(), (char*)transform_sid.c_str()); + closeAnimation(); +} - openAnimation(anim_id, COLLADABU::Utils::EMPTY_STRING); +// dae_bone_animation -> add_bone_animation +// (blend this into dae_bone_animation) +void AnimationExporter::dae_bone_animation(std::vector<float> &fra, float *values, int tm_type, int axis, std::string ob_name, std::string bone_name) +{ + const char *axis_names[] = {"X", "Y", "Z"}; + const char *axis_name = NULL; + char anim_id[200]; + bool is_rot = tm_type == 0; - // create input source - std::string input_id = create_source_from_vector(COLLADASW::InputSemantic::INPUT, fra, is_rot, anim_id, axis_name); + if (!fra.size()) + return; - // create output source - std::string output_id; - if (axis == -1) - output_id = create_xyz_source(values, fra.size(), anim_id); - else - output_id = create_source_from_array(COLLADASW::InputSemantic::OUTPUT, values, fra.size(), is_rot, anim_id, axis_name); + char rna_path[200]; + BLI_snprintf(rna_path, sizeof(rna_path), "pose.bones[\"%s\"].%s", bone_name.c_str(), + tm_type == 0 ? "rotation_quaternion" : (tm_type == 1 ? "scale" : "location")); - // create interpolations source - std::string interpolation_id = fake_interpolation_source(fra.size(), anim_id, axis_name); + if (axis > -1) + axis_name = axis_names[axis]; - std::string sampler_id = std::string(anim_id) + SAMPLER_ID_SUFFIX; - COLLADASW::LibraryAnimations::Sampler sampler(sw, sampler_id); - std::string empty; - sampler.addInput(COLLADASW::InputSemantic::INPUT, COLLADABU::URI(empty, input_id)); - sampler.addInput(COLLADASW::InputSemantic::OUTPUT, COLLADABU::URI(empty, output_id)); + std::string transform_sid = get_transform_sid(NULL, tm_type, axis_name, false); - // TODO create in/out tangents source + BLI_snprintf(anim_id, sizeof(anim_id), "%s_%s_%s", (char*)translate_id(ob_name).c_str(), + (char*)translate_id(bone_name).c_str(), (char*)transform_sid.c_str()); - // this input is required - sampler.addInput(COLLADASW::InputSemantic::INTERPOLATION, COLLADABU::URI(empty, interpolation_id)); + openAnimation(anim_id, COLLADABU::Utils::EMPTY_STRING); - addSampler(sampler); + // create input source + std::string input_id = create_source_from_vector(COLLADASW::InputSemantic::INPUT, fra, is_rot, anim_id, axis_name); - std::string target = translate_id(ob_name + "_" + bone_name) + "/" + transform_sid; - addChannel(COLLADABU::URI(empty, sampler_id), target); + // create output source + std::string output_id; + if (axis == -1) + output_id = create_xyz_source(values, fra.size(), anim_id); + else + output_id = create_source_from_array(COLLADASW::InputSemantic::OUTPUT, values, fra.size(), is_rot, anim_id, axis_name); - closeAnimation(); - } + // create interpolations source + std::string interpolation_id = fake_interpolation_source(fra.size(), anim_id, axis_name); - float AnimationExporter::convert_time(float frame) - { - return FRA2TIME(frame); - } + std::string sampler_id = std::string(anim_id) + SAMPLER_ID_SUFFIX; + COLLADASW::LibraryAnimations::Sampler sampler(sw, sampler_id); + std::string empty; + sampler.addInput(COLLADASW::InputSemantic::INPUT, COLLADABU::URI(empty, input_id)); + sampler.addInput(COLLADASW::InputSemantic::OUTPUT, COLLADABU::URI(empty, output_id)); - float AnimationExporter::convert_angle(float angle) - { - return COLLADABU::Math::Utils::radToDegF(angle); - } + // TODO create in/out tangents source - std::string AnimationExporter::get_semantic_suffix(COLLADASW::InputSemantic::Semantics semantic) - { - switch(semantic) { + // this input is required + sampler.addInput(COLLADASW::InputSemantic::INTERPOLATION, COLLADABU::URI(empty, interpolation_id)); + + addSampler(sampler); + + std::string target = translate_id(ob_name + "_" + bone_name) + "/" + transform_sid; + addChannel(COLLADABU::URI(empty, sampler_id), target); + + closeAnimation(); +} + +float AnimationExporter::convert_time(float frame) +{ + return FRA2TIME(frame); +} + +float AnimationExporter::convert_angle(float angle) +{ + return COLLADABU::Math::Utils::radToDegF(angle); +} + +std::string AnimationExporter::get_semantic_suffix(COLLADASW::InputSemantic::Semantics semantic) +{ + switch(semantic) { case COLLADASW::InputSemantic::INPUT: return INPUT_SOURCE_ID_SUFFIX; case COLLADASW::InputSemantic::OUTPUT: @@ -527,14 +527,14 @@ void AnimationExporter::operator() (Object *ob) return OUTTANGENT_SOURCE_ID_SUFFIX; default: break; - } - return ""; } + return ""; +} - void AnimationExporter::add_source_parameters(COLLADASW::SourceBase::ParameterNameList& param, - COLLADASW::InputSemantic::Semantics semantic, bool is_rot, const char *axis, bool transform) - { - switch(semantic) { +void AnimationExporter::add_source_parameters(COLLADASW::SourceBase::ParameterNameList& param, + COLLADASW::InputSemantic::Semantics semantic, bool is_rot, const char *axis, bool transform) +{ + switch(semantic) { case COLLADASW::InputSemantic::INPUT: param.push_back("TIME"); break; @@ -547,14 +547,14 @@ void AnimationExporter::operator() (Object *ob) param.push_back(axis); } else - if ( transform ) - { - param.push_back("TRANSFORM"); - }else{ //assumes if axis isn't specified all axises are added - param.push_back("X"); - param.push_back("Y"); - param.push_back("Z"); - } + if ( transform ) + { + param.push_back("TRANSFORM"); + }else{ //assumes if axis isn't specified all axises are added + param.push_back("X"); + param.push_back("Y"); + param.push_back("Z"); + } } break; case COLLADASW::InputSemantic::IN_TANGENT: @@ -564,12 +564,12 @@ void AnimationExporter::operator() (Object *ob) break; default: break; - } } +} - void AnimationExporter::get_source_values(BezTriple *bezt, COLLADASW::InputSemantic::Semantics semantic, bool rotation, float *values, int *length) - { - switch (semantic) { +void AnimationExporter::get_source_values(BezTriple *bezt, COLLADASW::InputSemantic::Semantics semantic, bool rotation, float *values, int *length) +{ + switch (semantic) { case COLLADASW::InputSemantic::INPUT: *length = 1; values[0] = convert_time(bezt->vec[1][0]); @@ -583,9 +583,9 @@ void AnimationExporter::operator() (Object *ob) values[0] = bezt->vec[1][1]; } break; - + case COLLADASW::InputSemantic::IN_TANGENT: - *length = 2; + *length = 2; values[0] = convert_time(bezt->vec[0][0]); if (bezt->ipo != BEZT_IPO_BEZ) { // We're in a mixed interpolation scenario, set zero as it's irrelevant but value might contain unused data @@ -598,7 +598,7 @@ void AnimationExporter::operator() (Object *ob) values[1] = bezt->vec[0][1]; } break; - + case COLLADASW::InputSemantic::OUT_TANGENT: *length = 2; values[0] = convert_time(bezt->vec[2][0]); @@ -617,283 +617,283 @@ void AnimationExporter::operator() (Object *ob) default: *length = 0; break; - } } +} - std::string AnimationExporter::create_source_from_fcurve(COLLADASW::InputSemantic::Semantics semantic, FCurve *fcu, const std::string& anim_id, const char *axis_name) - { - std::string source_id = anim_id + get_semantic_suffix(semantic); - - //bool is_rotation = !strcmp(fcu->rna_path, "rotation"); - bool is_angle = false; - - if (strstr(fcu->rna_path, "rotation")) is_angle = true; - - COLLADASW::FloatSourceF source(mSW); - source.setId(source_id); - source.setArrayId(source_id + ARRAY_ID_SUFFIX); - source.setAccessorCount(fcu->totvert); - - switch (semantic) { +std::string AnimationExporter::create_source_from_fcurve(COLLADASW::InputSemantic::Semantics semantic, FCurve *fcu, const std::string& anim_id, const char *axis_name) +{ + std::string source_id = anim_id + get_semantic_suffix(semantic); + + //bool is_rotation = !strcmp(fcu->rna_path, "rotation"); + bool is_angle = false; + + if (strstr(fcu->rna_path, "rotation")) is_angle = true; + + COLLADASW::FloatSourceF source(mSW); + source.setId(source_id); + source.setArrayId(source_id + ARRAY_ID_SUFFIX); + source.setAccessorCount(fcu->totvert); + + switch (semantic) { case COLLADASW::InputSemantic::INPUT: case COLLADASW::InputSemantic::OUTPUT: - source.setAccessorStride(1); + source.setAccessorStride(1); break; case COLLADASW::InputSemantic::IN_TANGENT: case COLLADASW::InputSemantic::OUT_TANGENT: - source.setAccessorStride(2); + source.setAccessorStride(2); break; - } - - - COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); - add_source_parameters(param, semantic, is_angle, axis_name, false); + } - source.prepareToAppendValues(); - for (unsigned int i = 0; i < fcu->totvert; i++) { - float values[3]; // be careful! - int length = 0; - get_source_values(&fcu->bezt[i], semantic, is_angle, values, &length); - for (int j = 0; j < length; j++) - source.appendValues(values[j]); - } + COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); + add_source_parameters(param, semantic, is_angle, axis_name, false); - source.finish(); + source.prepareToAppendValues(); - return source_id; + for (unsigned int i = 0; i < fcu->totvert; i++) { + float values[3]; // be careful! + int length = 0; + get_source_values(&fcu->bezt[i], semantic, is_angle, values, &length); + for (int j = 0; j < length; j++) + source.appendValues(values[j]); } - //Currently called only to get OUTPUT source values ( if rotation and hence the axis is also specified ) - std::string AnimationExporter::create_source_from_array(COLLADASW::InputSemantic::Semantics semantic, float *v, int tot, bool is_rot, const std::string& anim_id, const char *axis_name) - { - std::string source_id = anim_id + get_semantic_suffix(semantic); - - COLLADASW::FloatSourceF source(mSW); - source.setId(source_id); - source.setArrayId(source_id + ARRAY_ID_SUFFIX); - source.setAccessorCount(tot); - source.setAccessorStride(1); - - COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); - add_source_parameters(param, semantic, is_rot, axis_name, false); - - source.prepareToAppendValues(); - - for (int i = 0; i < tot; i++) { - float val = v[i]; - ////if (semantic == COLLADASW::InputSemantic::INPUT) - // val = convert_time(val); - //else - if (is_rot) - val *= 180.0f / M_PI; - source.appendValues(val); - } + source.finish(); - source.finish(); + return source_id; +} - return source_id; +//Currently called only to get OUTPUT source values ( if rotation and hence the axis is also specified ) +std::string AnimationExporter::create_source_from_array(COLLADASW::InputSemantic::Semantics semantic, float *v, int tot, bool is_rot, const std::string& anim_id, const char *axis_name) +{ + std::string source_id = anim_id + get_semantic_suffix(semantic); + + COLLADASW::FloatSourceF source(mSW); + source.setId(source_id); + source.setArrayId(source_id + ARRAY_ID_SUFFIX); + source.setAccessorCount(tot); + source.setAccessorStride(1); + + COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); + add_source_parameters(param, semantic, is_rot, axis_name, false); + + source.prepareToAppendValues(); + + for (int i = 0; i < tot; i++) { + float val = v[i]; + ////if (semantic == COLLADASW::InputSemantic::INPUT) + // val = convert_time(val); + //else + if (is_rot) + val *= 180.0f / M_PI; + source.appendValues(val); } -// only used for sources with INPUT semantic - std::string AnimationExporter::create_source_from_vector(COLLADASW::InputSemantic::Semantics semantic, std::vector<float> &fra, bool is_rot, const std::string& anim_id, const char *axis_name) - { - std::string source_id = anim_id + get_semantic_suffix(semantic); - - COLLADASW::FloatSourceF source(mSW); - source.setId(source_id); - source.setArrayId(source_id + ARRAY_ID_SUFFIX); - source.setAccessorCount(fra.size()); - source.setAccessorStride(1); - - COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); - add_source_parameters(param, semantic, is_rot, axis_name, false); - - source.prepareToAppendValues(); - - std::vector<float>::iterator it; - for (it = fra.begin(); it != fra.end(); it++) { - float val = *it; - //if (semantic == COLLADASW::InputSemantic::INPUT) - val = convert_time(val); - /*else if (is_rot) - val = convert_angle(val);*/ - source.appendValues(val); - } - source.finish(); + source.finish(); - return source_id; + return source_id; +} +// only used for sources with INPUT semantic +std::string AnimationExporter::create_source_from_vector(COLLADASW::InputSemantic::Semantics semantic, std::vector<float> &fra, bool is_rot, const std::string& anim_id, const char *axis_name) +{ + std::string source_id = anim_id + get_semantic_suffix(semantic); + + COLLADASW::FloatSourceF source(mSW); + source.setId(source_id); + source.setArrayId(source_id + ARRAY_ID_SUFFIX); + source.setAccessorCount(fra.size()); + source.setAccessorStride(1); + + COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); + add_source_parameters(param, semantic, is_rot, axis_name, false); + + source.prepareToAppendValues(); + + std::vector<float>::iterator it; + for (it = fra.begin(); it != fra.end(); it++) { + float val = *it; + //if (semantic == COLLADASW::InputSemantic::INPUT) + val = convert_time(val); + /*else if (is_rot) + val = convert_angle(val);*/ + source.appendValues(val); } - std::string AnimationExporter::create_4x4_source(std::vector<float> &frames , Object * ob_arm, Bone *bone , const std::string& anim_id) - { - COLLADASW::InputSemantic::Semantics semantic = COLLADASW::InputSemantic::OUTPUT; - std::string source_id = anim_id + get_semantic_suffix(semantic); + source.finish(); - COLLADASW::Float4x4Source source(mSW); - source.setId(source_id); - source.setArrayId(source_id + ARRAY_ID_SUFFIX); - source.setAccessorCount(frames.size()); - source.setAccessorStride(16); - - COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); - add_source_parameters(param, semantic, false, NULL, true); + return source_id; +} - source.prepareToAppendValues(); - - bPoseChannel *parchan = NULL; - bPoseChannel *pchan = NULL; - bPose *pose = ob_arm->pose; +std::string AnimationExporter::create_4x4_source(std::vector<float> &frames , Object * ob_arm, Bone *bone , const std::string& anim_id) +{ + COLLADASW::InputSemantic::Semantics semantic = COLLADASW::InputSemantic::OUTPUT; + std::string source_id = anim_id + get_semantic_suffix(semantic); - pchan = get_pose_channel(pose, bone->name); + COLLADASW::Float4x4Source source(mSW); + source.setId(source_id); + source.setArrayId(source_id + ARRAY_ID_SUFFIX); + source.setAccessorCount(frames.size()); + source.setAccessorStride(16); - if (!pchan) - return ""; + COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); + add_source_parameters(param, semantic, false, NULL, true); - parchan = pchan->parent; + source.prepareToAppendValues(); - enable_fcurves(ob_arm->adt->action, bone->name); + bPoseChannel *parchan = NULL; + bPoseChannel *pchan = NULL; + bPose *pose = ob_arm->pose; - std::vector<float>::iterator it; - int j = 0; - for (it = frames.begin(); it != frames.end(); it++) { - float mat[4][4], ipar[4][4]; + pchan = get_pose_channel(pose, bone->name); - float ctime = bsystem_time(scene, ob_arm, *it, 0.0f); + if (!pchan) + return ""; - BKE_animsys_evaluate_animdata(scene , &ob_arm->id, ob_arm->adt, ctime, ADT_RECALC_ANIM); - where_is_pose_bone(scene, ob_arm, pchan, ctime, 1); + parchan = pchan->parent; - // compute bone local mat - if (bone->parent) { - invert_m4_m4(ipar, parchan->pose_mat); - mul_m4_m4m4(mat, pchan->pose_mat, ipar); - } - else - copy_m4_m4(mat, pchan->pose_mat); - UnitConverter converter; + enable_fcurves(ob_arm->adt->action, bone->name); - float outmat[4][4]; - converter.mat4_to_dae(outmat,mat); + std::vector<float>::iterator it; + int j = 0; + for (it = frames.begin(); it != frames.end(); it++) { + float mat[4][4], ipar[4][4]; + float ctime = bsystem_time(scene, ob_arm, *it, 0.0f); - source.appendValues(outmat); - + BKE_animsys_evaluate_animdata(scene , &ob_arm->id, ob_arm->adt, ctime, ADT_RECALC_ANIM); + where_is_pose_bone(scene, ob_arm, pchan, ctime, 1); - j++; + // compute bone local mat + if (bone->parent) { + invert_m4_m4(ipar, parchan->pose_mat); + mul_m4_m4m4(mat, pchan->pose_mat, ipar); } + else + copy_m4_m4(mat, pchan->pose_mat); + UnitConverter converter; - enable_fcurves(ob_arm->adt->action, NULL); + float outmat[4][4]; + converter.mat4_to_dae(outmat,mat); - source.finish(); - return source_id; - } - // only used for sources with OUTPUT semantic ( locations and scale) - std::string AnimationExporter::create_xyz_source(float *v, int tot, const std::string& anim_id) - { - COLLADASW::InputSemantic::Semantics semantic = COLLADASW::InputSemantic::OUTPUT; - std::string source_id = anim_id + get_semantic_suffix(semantic); - - COLLADASW::FloatSourceF source(mSW); - source.setId(source_id); - source.setArrayId(source_id + ARRAY_ID_SUFFIX); - source.setAccessorCount(tot); - source.setAccessorStride(3); - - COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); - add_source_parameters(param, semantic, false, NULL, false); - - source.prepareToAppendValues(); - - for (int i = 0; i < tot; i++) { - source.appendValues(*v, *(v + 1), *(v + 2)); - v += 3; - } + source.appendValues(outmat); - source.finish(); - return source_id; + j++; } - std::string AnimationExporter::create_interpolation_source(FCurve *fcu, const std::string& anim_id, const char *axis_name, bool *has_tangents) - { - std::string source_id = anim_id + get_semantic_suffix(COLLADASW::InputSemantic::INTERPOLATION); + enable_fcurves(ob_arm->adt->action, NULL); - COLLADASW::NameSource source(mSW); - source.setId(source_id); - source.setArrayId(source_id + ARRAY_ID_SUFFIX); - source.setAccessorCount(fcu->totvert); - source.setAccessorStride(1); - - COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); - param.push_back("INTERPOLATION"); + source.finish(); - source.prepareToAppendValues(); + return source_id; +} +// only used for sources with OUTPUT semantic ( locations and scale) +std::string AnimationExporter::create_xyz_source(float *v, int tot, const std::string& anim_id) +{ + COLLADASW::InputSemantic::Semantics semantic = COLLADASW::InputSemantic::OUTPUT; + std::string source_id = anim_id + get_semantic_suffix(semantic); - *has_tangents = false; + COLLADASW::FloatSourceF source(mSW); + source.setId(source_id); + source.setArrayId(source_id + ARRAY_ID_SUFFIX); + source.setAccessorCount(tot); + source.setAccessorStride(3); - for (unsigned int i = 0; i < fcu->totvert; i++) { - if (fcu->bezt[i].ipo==BEZT_IPO_BEZ) { - source.appendValues(BEZIER_NAME); - *has_tangents = true; - } else if (fcu->bezt[i].ipo==BEZT_IPO_CONST) { - source.appendValues(STEP_NAME); - } else { // BEZT_IPO_LIN - source.appendValues(LINEAR_NAME); - } - } - // unsupported? -- HERMITE, CARDINAL, BSPLINE, NURBS + COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); + add_source_parameters(param, semantic, false, NULL, false); - source.finish(); + source.prepareToAppendValues(); - return source_id; + for (int i = 0; i < tot; i++) { + source.appendValues(*v, *(v + 1), *(v + 2)); + v += 3; } - std::string AnimationExporter::fake_interpolation_source(int tot, const std::string& anim_id, const char *axis_name) - { - std::string source_id = anim_id + get_semantic_suffix(COLLADASW::InputSemantic::INTERPOLATION); + source.finish(); + + return source_id; +} + +std::string AnimationExporter::create_interpolation_source(FCurve *fcu, const std::string& anim_id, const char *axis_name, bool *has_tangents) +{ + std::string source_id = anim_id + get_semantic_suffix(COLLADASW::InputSemantic::INTERPOLATION); + + COLLADASW::NameSource source(mSW); + source.setId(source_id); + source.setArrayId(source_id + ARRAY_ID_SUFFIX); + source.setAccessorCount(fcu->totvert); + source.setAccessorStride(1); + + COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); + param.push_back("INTERPOLATION"); - COLLADASW::NameSource source(mSW); - source.setId(source_id); - source.setArrayId(source_id + ARRAY_ID_SUFFIX); - source.setAccessorCount(tot); - source.setAccessorStride(1); - - COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); - param.push_back("INTERPOLATION"); + source.prepareToAppendValues(); - source.prepareToAppendValues(); + *has_tangents = false; - for (int i = 0; i < tot; i++) { + for (unsigned int i = 0; i < fcu->totvert; i++) { + if (fcu->bezt[i].ipo==BEZT_IPO_BEZ) { + source.appendValues(BEZIER_NAME); + *has_tangents = true; + } else if (fcu->bezt[i].ipo==BEZT_IPO_CONST) { + source.appendValues(STEP_NAME); + } else { // BEZT_IPO_LIN source.appendValues(LINEAR_NAME); } + } + // unsupported? -- HERMITE, CARDINAL, BSPLINE, NURBS + + source.finish(); + + return source_id; +} + +std::string AnimationExporter::fake_interpolation_source(int tot, const std::string& anim_id, const char *axis_name) +{ + std::string source_id = anim_id + get_semantic_suffix(COLLADASW::InputSemantic::INTERPOLATION); + + COLLADASW::NameSource source(mSW); + source.setId(source_id); + source.setArrayId(source_id + ARRAY_ID_SUFFIX); + source.setAccessorCount(tot); + source.setAccessorStride(1); + + COLLADASW::SourceBase::ParameterNameList ¶m = source.getParameterNameList(); + param.push_back("INTERPOLATION"); - source.finish(); + source.prepareToAppendValues(); - return source_id; + for (int i = 0; i < tot; i++) { + source.appendValues(LINEAR_NAME); } - std::string AnimationExporter::get_light_param_sid(char *rna_path, int tm_type, const char *axis_name, bool append_axis) - { - std::string tm_name; - // when given rna_path, determine tm_type from it - if (rna_path) { - char *name = extract_transform_name(rna_path); - - if (!strcmp(name, "color")) - tm_type = 1; - else if (!strcmp(name, "spot_size")) - tm_type = 2; - else if (!strcmp(name, "spot_blend")) - tm_type = 3; - else if (!strcmp(name, "distance")) - tm_type = 4; - else - tm_type = -1; - } + source.finish(); - switch (tm_type) { + return source_id; +} + +std::string AnimationExporter::get_light_param_sid(char *rna_path, int tm_type, const char *axis_name, bool append_axis) +{ + std::string tm_name; + // when given rna_path, determine tm_type from it + if (rna_path) { + char *name = extract_transform_name(rna_path); + + if (!strcmp(name, "color")) + tm_type = 1; + else if (!strcmp(name, "spot_size")) + tm_type = 2; + else if (!strcmp(name, "spot_blend")) + tm_type = 3; + else if (!strcmp(name, "distance")) + tm_type = 4; + else + tm_type = -1; + } + + switch (tm_type) { case 1: tm_name = "color"; break; @@ -906,43 +906,43 @@ void AnimationExporter::operator() (Object *ob) case 4: tm_name = "blender/blender_dist"; break; - + default: tm_name = ""; break; - } - - if (tm_name.size()) { - if (axis_name != "") - return tm_name + "." + std::string(axis_name); - else - return tm_name; - } + } - return std::string(""); + if (tm_name.size()) { + if (axis_name != "") + return tm_name + "." + std::string(axis_name); + else + return tm_name; } - - std::string AnimationExporter::get_camera_param_sid(char *rna_path, int tm_type, const char *axis_name, bool append_axis) - { - std::string tm_name; - // when given rna_path, determine tm_type from it - if (rna_path) { - char *name = extract_transform_name(rna_path); - - if (!strcmp(name, "lens")) - tm_type = 0; - else if (!strcmp(name, "ortho_scale")) - tm_type = 1; - else if (!strcmp(name, "clip_end")) - tm_type = 2; - else if (!strcmp(name, "clip_start")) - tm_type = 3; - - else - tm_type = -1; - } - switch (tm_type) { + return std::string(""); +} + +std::string AnimationExporter::get_camera_param_sid(char *rna_path, int tm_type, const char *axis_name, bool append_axis) +{ + std::string tm_name; + // when given rna_path, determine tm_type from it + if (rna_path) { + char *name = extract_transform_name(rna_path); + + if (!strcmp(name, "lens")) + tm_type = 0; + else if (!strcmp(name, "ortho_scale")) + tm_type = 1; + else if (!strcmp(name, "clip_end")) + tm_type = 2; + else if (!strcmp(name, "clip_start")) + tm_type = 3; + + else + tm_type = -1; + } + + switch (tm_type) { case 0: tm_name = "xfov"; break; @@ -955,56 +955,56 @@ void AnimationExporter::operator() (Object *ob) case 3: tm_name = "znear"; break; - + default: tm_name = ""; break; - } - - if (tm_name.size()) { - if (axis_name != "") - return tm_name + "." + std::string(axis_name); - else - return tm_name; - } + } - return std::string(""); + if (tm_name.size()) { + if (axis_name != "") + return tm_name + "." + std::string(axis_name); + else + return tm_name; } - // Assign sid of the animated parameter or transform - // for rotation, axis name is always appended and the value of append_axis is ignored - std::string AnimationExporter::get_transform_sid(char *rna_path, int tm_type, const char *axis_name, bool append_axis) - { - std::string tm_name; - bool is_rotation =false; - // when given rna_path, determine tm_type from it - if (rna_path) { - char *name = extract_transform_name(rna_path); - - if (!strcmp(name, "rotation_euler")) - tm_type = 0; - else if (!strcmp(name, "rotation_quaternion")) - tm_type = 1; - else if (!strcmp(name, "scale")) - tm_type = 2; - else if (!strcmp(name, "location")) - tm_type = 3; - else if (!strcmp(name, "specular_hardness")) - tm_type = 4; - else if (!strcmp(name, "specular_color")) - tm_type = 5; - else if (!strcmp(name, "diffuse_color")) - tm_type = 6; - else if (!strcmp(name, "alpha")) - tm_type = 7; - else if (!strcmp(name, "ior")) - tm_type = 8; - - else - tm_type = -1; - } + return std::string(""); +} + +// Assign sid of the animated parameter or transform +// for rotation, axis name is always appended and the value of append_axis is ignored +std::string AnimationExporter::get_transform_sid(char *rna_path, int tm_type, const char *axis_name, bool append_axis) +{ + std::string tm_name; + bool is_rotation =false; + // when given rna_path, determine tm_type from it + if (rna_path) { + char *name = extract_transform_name(rna_path); + + if (!strcmp(name, "rotation_euler")) + tm_type = 0; + else if (!strcmp(name, "rotation_quaternion")) + tm_type = 1; + else if (!strcmp(name, "scale")) + tm_type = 2; + else if (!strcmp(name, "location")) + tm_type = 3; + else if (!strcmp(name, "specular_hardness")) + tm_type = 4; + else if (!strcmp(name, "specular_color")) + tm_type = 5; + else if (!strcmp(name, "diffuse_color")) + tm_type = 6; + else if (!strcmp(name, "alpha")) + tm_type = 7; + else if (!strcmp(name, "ior")) + tm_type = 8; - switch (tm_type) { + else + tm_type = -1; + } + + switch (tm_type) { case 0: case 1: tm_name = "rotation"; @@ -1031,173 +1031,173 @@ void AnimationExporter::operator() (Object *ob) case 8: tm_name = "index_of_refraction"; break; - + default: tm_name = ""; break; - } - - if (tm_name.size()) { - if (is_rotation) - return tm_name + std::string(axis_name) + ".ANGLE"; - else - if (axis_name != "") - return tm_name + "." + std::string(axis_name); - else - return tm_name; - } - - return std::string(""); } - char* AnimationExporter::extract_transform_name(char *rna_path) - { - char *dot = strrchr(rna_path, '.'); - return dot ? (dot + 1) : rna_path; + if (tm_name.size()) { + if (is_rotation) + return tm_name + std::string(axis_name) + ".ANGLE"; + else + if (axis_name != "") + return tm_name + "." + std::string(axis_name); + else + return tm_name; } - //find keyframes of all the objects animations - void AnimationExporter::find_frames(Object *ob, std::vector<float> &fra) - { - FCurve *fcu= (FCurve*)ob->adt->action->curves.first; + return std::string(""); +} - for (; fcu; fcu = fcu->next) { - - for (unsigned int i = 0; i < fcu->totvert; i++) { - float f = fcu->bezt[i].vec[1][0]; // - if (std::find(fra.begin(), fra.end(), f) == fra.end()) - fra.push_back(f); - } - } +char* AnimationExporter::extract_transform_name(char *rna_path) +{ + char *dot = strrchr(rna_path, '.'); + return dot ? (dot + 1) : rna_path; +} - // keep the keys in ascending order - std::sort(fra.begin(), fra.end()); - } +//find keyframes of all the objects animations +void AnimationExporter::find_frames(Object *ob, std::vector<float> &fra) +{ + FCurve *fcu= (FCurve*)ob->adt->action->curves.first; - + for (; fcu; fcu = fcu->next) { - // enable fcurves driving a specific bone, disable all the rest - // if bone_name = NULL enable all fcurves - void AnimationExporter::enable_fcurves(bAction *act, char *bone_name) - { - FCurve *fcu; - char prefix[200]; - - if (bone_name) - BLI_snprintf(prefix, sizeof(prefix), "pose.bones[\"%s\"]", bone_name); - - for (fcu = (FCurve*)act->curves.first; fcu; fcu = fcu->next) { - if (bone_name) { - if (!strncmp(fcu->rna_path, prefix, strlen(prefix))) - fcu->flag &= ~FCURVE_DISABLED; - else - fcu->flag |= FCURVE_DISABLED; - } - else { - fcu->flag &= ~FCURVE_DISABLED; - } + for (unsigned int i = 0; i < fcu->totvert; i++) { + float f = fcu->bezt[i].vec[1][0]; + if (std::find(fra.begin(), fra.end(), f) == fra.end()) + fra.push_back(f); } } - - bool AnimationExporter::hasAnimations(Scene *sce) - { - Base *base= (Base*) sce->base.first; - - while(base) { - Object *ob = base->object; - - FCurve *fcu = 0; - //Check for object transform animations - if(ob->adt && ob->adt->action) - fcu = (FCurve*)ob->adt->action->curves.first; - //Check for Lamp parameter animations - else if( (ob->type == OB_LAMP ) && ((Lamp*)ob ->data)->adt && ((Lamp*)ob ->data)->adt->action ) - fcu = (FCurve*)(((Lamp*)ob ->data)->adt->action->curves.first); - //Check for Camera parameter animations - else if( (ob->type == OB_CAMERA ) && ((Camera*)ob ->data)->adt && ((Camera*)ob ->data)->adt->action ) - fcu = (FCurve*)(((Camera*)ob ->data)->adt->action->curves.first); - - //Check Material Effect parameter animations. - for(int a = 0; a < ob->totcol; a++) - { - Material *ma = give_current_material(ob, a+1); - if (!ma) continue; - if(ma->adt && ma->adt->action) - { - fcu = (FCurve*)ma->adt->action->curves.first; - } - } - if ( fcu) - return true; - base= base->next; + // keep the keys in ascending order + std::sort(fra.begin(), fra.end()); +} + + + +// enable fcurves driving a specific bone, disable all the rest +// if bone_name = NULL enable all fcurves +void AnimationExporter::enable_fcurves(bAction *act, char *bone_name) +{ + FCurve *fcu; + char prefix[200]; + + if (bone_name) + BLI_snprintf(prefix, sizeof(prefix), "pose.bones[\"%s\"]", bone_name); + + for (fcu = (FCurve*)act->curves.first; fcu; fcu = fcu->next) { + if (bone_name) { + if (!strncmp(fcu->rna_path, prefix, strlen(prefix))) + fcu->flag &= ~FCURVE_DISABLED; + else + fcu->flag |= FCURVE_DISABLED; + } + else { + fcu->flag &= ~FCURVE_DISABLED; } - return false; } +} - //------------------------------- Not used in the new system.-------------------------------------------------------- - void AnimationExporter::find_rotation_frames(Object *ob, std::vector<float> &fra, const char *prefix, int rotmode) - { - if (rotmode > 0) - find_frames(ob, fra, prefix, "rotation_euler"); - else if (rotmode == ROT_MODE_QUAT) - find_frames(ob, fra, prefix, "rotation_quaternion"); - /*else if (rotmode == ROT_MODE_AXISANGLE) - ;*/ - } +bool AnimationExporter::hasAnimations(Scene *sce) +{ + Base *base= (Base*) sce->base.first; - void AnimationExporter::find_frames(Object *ob, std::vector<float> &fra, const char *prefix, const char *tm_name) - { - FCurve *fcu= (FCurve*)ob->adt->action->curves.first; - - for (; fcu; fcu = fcu->next) { - if (prefix && strncmp(prefix, fcu->rna_path, strlen(prefix))) - continue; - - char *name = extract_transform_name(fcu->rna_path); - if (!strcmp(name, tm_name)) { - for (unsigned int i = 0; i < fcu->totvert; i++) { - float f = fcu->bezt[i].vec[1][0]; // - if (std::find(fra.begin(), fra.end(), f) == fra.end()) - fra.push_back(f); - } + while(base) { + Object *ob = base->object; + + FCurve *fcu = 0; + //Check for object transform animations + if(ob->adt && ob->adt->action) + fcu = (FCurve*)ob->adt->action->curves.first; + //Check for Lamp parameter animations + else if( (ob->type == OB_LAMP ) && ((Lamp*)ob ->data)->adt && ((Lamp*)ob ->data)->adt->action ) + fcu = (FCurve*)(((Lamp*)ob ->data)->adt->action->curves.first); + //Check for Camera parameter animations + else if( (ob->type == OB_CAMERA ) && ((Camera*)ob ->data)->adt && ((Camera*)ob ->data)->adt->action ) + fcu = (FCurve*)(((Camera*)ob ->data)->adt->action->curves.first); + + //Check Material Effect parameter animations. + for(int a = 0; a < ob->totcol; a++) + { + Material *ma = give_current_material(ob, a+1); + if (!ma) continue; + if(ma->adt && ma->adt->action) + { + fcu = (FCurve*)ma->adt->action->curves.first; } } - // keep the keys in ascending order - std::sort(fra.begin(), fra.end()); + if ( fcu) + return true; + base= base->next; } + return false; +} - void AnimationExporter::write_bone_animation(Object *ob_arm, Bone *bone) - { - if (!ob_arm->adt) - return; - - //write bone animations for 3 transform types - //i=0 --> rotations - //i=1 --> scale - //i=2 --> location - for (int i = 0; i < 3; i++) - sample_and_write_bone_animation(ob_arm, bone, i); - - for (Bone *child = (Bone*)bone->childbase.first; child; child = child->next) - write_bone_animation(ob_arm, child); +//------------------------------- Not used in the new system.-------------------------------------------------------- +void AnimationExporter::find_rotation_frames(Object *ob, std::vector<float> &fra, const char *prefix, int rotmode) +{ + if (rotmode > 0) + find_frames(ob, fra, prefix, "rotation_euler"); + else if (rotmode == ROT_MODE_QUAT) + find_frames(ob, fra, prefix, "rotation_quaternion"); + /*else if (rotmode == ROT_MODE_AXISANGLE) + ;*/ +} + +void AnimationExporter::find_frames(Object *ob, std::vector<float> &fra, const char *prefix, const char *tm_name) +{ + FCurve *fcu= (FCurve*)ob->adt->action->curves.first; + + for (; fcu; fcu = fcu->next) { + if (prefix && strncmp(prefix, fcu->rna_path, strlen(prefix))) + continue; + + char *name = extract_transform_name(fcu->rna_path); + if (!strcmp(name, tm_name)) { + for (unsigned int i = 0; i < fcu->totvert; i++) { + float f = fcu->bezt[i].vec[1][0]; + if (std::find(fra.begin(), fra.end(), f) == fra.end()) + fra.push_back(f); + } + } } - void AnimationExporter::sample_and_write_bone_animation(Object *ob_arm, Bone *bone, int transform_type) - { - bArmature *arm = (bArmature*)ob_arm->data; - int flag = arm->flag; - std::vector<float> fra; - char prefix[256]; + // keep the keys in ascending order + std::sort(fra.begin(), fra.end()); +} - BLI_snprintf(prefix, sizeof(prefix), "pose.bones[\"%s\"]", bone->name); +void AnimationExporter::write_bone_animation(Object *ob_arm, Bone *bone) +{ + if (!ob_arm->adt) + return; + + //write bone animations for 3 transform types + //i=0 --> rotations + //i=1 --> scale + //i=2 --> location + for (int i = 0; i < 3; i++) + sample_and_write_bone_animation(ob_arm, bone, i); + + for (Bone *child = (Bone*)bone->childbase.first; child; child = child->next) + write_bone_animation(ob_arm, child); +} - bPoseChannel *pchan = get_pose_channel(ob_arm->pose, bone->name); - if (!pchan) - return; - //Fill frame array with key frame values framed at @param:transform_type - switch (transform_type) { +void AnimationExporter::sample_and_write_bone_animation(Object *ob_arm, Bone *bone, int transform_type) +{ + bArmature *arm = (bArmature*)ob_arm->data; + int flag = arm->flag; + std::vector<float> fra; + char prefix[256]; + + BLI_snprintf(prefix, sizeof(prefix), "pose.bones[\"%s\"]", bone->name); + + bPoseChannel *pchan = get_pose_channel(ob_arm->pose, bone->name); + if (!pchan) + return; + //Fill frame array with key frame values framed at @param:transform_type + switch (transform_type) { case 0: find_rotation_frames(ob_arm, fra, prefix, pchan->rotmode); break; @@ -1209,77 +1209,77 @@ void AnimationExporter::operator() (Object *ob) break; default: return; - } + } - // exit rest position - if (flag & ARM_RESTPOS) { - arm->flag &= ~ARM_RESTPOS; - where_is_pose(scene, ob_arm); - } - //v array will hold all values which will be exported. - if (fra.size()) { - float *values = (float*)MEM_callocN(sizeof(float) * 3 * fra.size(), "temp. anim frames"); - sample_animation(values, fra, transform_type, bone, ob_arm, pchan); - - if (transform_type == 0) { - // write x, y, z curves separately if it is rotation - float *axisValues = (float*)MEM_callocN(sizeof(float) * fra.size(), "temp. anim frames"); - - for (int i = 0; i < 3; i++) { - for (unsigned int j = 0; j < fra.size(); j++) - axisValues[j] = values[j * 3 + i]; - - dae_bone_animation(fra, axisValues, transform_type, i, id_name(ob_arm), bone->name); - } - MEM_freeN(axisValues); - } - else { - // write xyz at once if it is location or scale - dae_bone_animation(fra, values, transform_type, -1, id_name(ob_arm), bone->name); - } + // exit rest position + if (flag & ARM_RESTPOS) { + arm->flag &= ~ARM_RESTPOS; + where_is_pose(scene, ob_arm); + } + //v array will hold all values which will be exported. + if (fra.size()) { + float *values = (float*)MEM_callocN(sizeof(float) * 3 * fra.size(), "temp. anim frames"); + sample_animation(values, fra, transform_type, bone, ob_arm, pchan); - MEM_freeN(values); + if (transform_type == 0) { + // write x, y, z curves separately if it is rotation + float *axisValues = (float*)MEM_callocN(sizeof(float) * fra.size(), "temp. anim frames"); + + for (int i = 0; i < 3; i++) { + for (unsigned int j = 0; j < fra.size(); j++) + axisValues[j] = values[j * 3 + i]; + + dae_bone_animation(fra, axisValues, transform_type, i, id_name(ob_arm), bone->name); + } + MEM_freeN(axisValues); + } + else { + // write xyz at once if it is location or scale + dae_bone_animation(fra, values, transform_type, -1, id_name(ob_arm), bone->name); } - // restore restpos - if (flag & ARM_RESTPOS) - arm->flag = flag; - where_is_pose(scene, ob_arm); + MEM_freeN(values); } - void AnimationExporter::sample_animation(float *v, std::vector<float> &frames, int type, Bone *bone, Object *ob_arm, bPoseChannel *pchan) - { - bPoseChannel *parchan = NULL; - bPose *pose = ob_arm->pose; + // restore restpos + if (flag & ARM_RESTPOS) + arm->flag = flag; + where_is_pose(scene, ob_arm); +} - pchan = get_pose_channel(pose, bone->name); +void AnimationExporter::sample_animation(float *v, std::vector<float> &frames, int type, Bone *bone, Object *ob_arm, bPoseChannel *pchan) +{ + bPoseChannel *parchan = NULL; + bPose *pose = ob_arm->pose; - if (!pchan) - return; + pchan = get_pose_channel(pose, bone->name); - parchan = pchan->parent; + if (!pchan) + return; - enable_fcurves(ob_arm->adt->action, bone->name); + parchan = pchan->parent; - std::vector<float>::iterator it; - for (it = frames.begin(); it != frames.end(); it++) { - float mat[4][4], ipar[4][4]; + enable_fcurves(ob_arm->adt->action, bone->name); - float ctime = bsystem_time(scene, ob_arm, *it, 0.0f); + std::vector<float>::iterator it; + for (it = frames.begin(); it != frames.end(); it++) { + float mat[4][4], ipar[4][4]; + float ctime = bsystem_time(scene, ob_arm, *it, 0.0f); - BKE_animsys_evaluate_animdata(scene , &ob_arm->id, ob_arm->adt, ctime, ADT_RECALC_ANIM); - where_is_pose_bone(scene, ob_arm, pchan, ctime, 1); - // compute bone local mat - if (bone->parent) { - invert_m4_m4(ipar, parchan->pose_mat); - mul_m4_m4m4(mat, pchan->pose_mat, ipar); - } - else - copy_m4_m4(mat, pchan->pose_mat); + BKE_animsys_evaluate_animdata(scene , &ob_arm->id, ob_arm->adt, ctime, ADT_RECALC_ANIM); + where_is_pose_bone(scene, ob_arm, pchan, ctime, 1); + + // compute bone local mat + if (bone->parent) { + invert_m4_m4(ipar, parchan->pose_mat); + mul_m4_m4m4(mat, pchan->pose_mat, ipar); + } + else + copy_m4_m4(mat, pchan->pose_mat); - switch (type) { + switch (type) { case 0: mat4_to_eul(v, mat); break; @@ -1289,12 +1289,10 @@ void AnimationExporter::operator() (Object *ob) case 2: copy_v3_v3(v, mat[3]); break; - } - - v += 3; } - enable_fcurves(ob_arm->adt->action, NULL); + v += 3; } - + enable_fcurves(ob_arm->adt->action, NULL); +} |