void TransformWriter::add_node_transform(COLLADASW::Node& node, float mat[4][4], float parent_mat[4][4])
{
float loc[3], rot[3], scale[3];
float local[4][4];
if (parent_mat) {
float invpar[4][4];
invert_m4_m4(invpar, parent_mat);
mul_m4_m4m4(local, invpar, mat);
}
else {
copy_m4_m4(local, mat);
}
double dmat[4][4];
UnitConverter *converter = new UnitConverter();
converter->mat4_to_dae_double(dmat, local);
TransformBase::decompose(local, loc, rot, NULL, scale);
if (node.getType() == COLLADASW::Node::JOINT) {
// XXX Why are joints handled differently ?
node.addMatrix("transform", dmat);
}
else {
add_transform(node, loc, rot, scale);
}
}
void TransformWriter::add_node_transform_ob(COLLADASW::Node& node, Object *ob)
{
#if 0
float rot[3], loc[3], scale[3];
if (ob->parent) {
float C[4][4], tmat[4][4], imat[4][4], mat[4][4];
// factor out scale from obmat
copy_v3_v3(scale, ob->size);
ob->size[0] = ob->size[1] = ob->size[2] = 1.0f;
BKE_object_to_mat4(ob, C);
copy_v3_v3(ob->size, scale);
mul_serie_m4(tmat, ob->parent->obmat, ob->parentinv, C, NULL, NULL, NULL, NULL, NULL);
// calculate local mat
invert_m4_m4(imat, ob->parent->obmat);
mult_m4_m4m4(mat, imat, tmat);
// done
mat4_to_eul(rot, mat);
copy_v3_v3(loc, mat[3]);
}
else {
copy_v3_v3(loc, ob->loc);
copy_v3_v3(rot, ob->rot);
copy_v3_v3(scale, ob->size);
}
add_transform(node, loc, rot, scale);
#endif
/* Using parentinv should allow use of existing curves */
if (ob->parent) {
// If parentinv is identity don't add it.
bool add_parinv = false;
for (int i = 0; i < 16; ++i) {
float f = (i % 4 == i / 4) ? 1.0f : 0.0f;
add_parinv |= (ob->parentinv[i % 4][i / 4] != f);
}
if (add_parinv) {
double dmat[4][4];
UnitConverter converter;
converter.mat4_to_dae_double(dmat, ob->parentinv);
node.addMatrix("parentinverse", dmat);
}
}
add_transform(node, ob->loc, ob->rot, ob->size);
}