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author | Matt Strapp <matt@mattstrapp.net> | 2021-11-01 14:39:34 -0500 |
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committer | Matt Strapp <matt@mattstrapp.net> | 2021-11-01 14:39:34 -0500 |
commit | 36b8bde22e15e7a8608bd8920b4d6d8edf78af18 (patch) | |
tree | 1c022ce8d1854c6120ed492eb0bcad2e016e0f1f /dev/a4-dance/skeleton.cc | |
parent | do a3 (diff) | |
parent | Update a4_dance.md (diff) | |
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Merge branch 'support-code' of https://github.umn.edu/umn-csci-4611-f21/shared-upstream
Diffstat (limited to 'dev/a4-dance/skeleton.cc')
-rw-r--r-- | dev/a4-dance/skeleton.cc | 355 |
1 files changed, 355 insertions, 0 deletions
diff --git a/dev/a4-dance/skeleton.cc b/dev/a4-dance/skeleton.cc new file mode 100644 index 0000000..f7d8c45 --- /dev/null +++ b/dev/a4-dance/skeleton.cc @@ -0,0 +1,355 @@ +#include "skeleton.h" +#include "amc_util.h" + + +Skeleton::Skeleton() : using_degrees_(false) { +} + +Skeleton::~Skeleton() { + +} + +int Skeleton::num_root_bones() const { + return (int)root_bones_.size(); +} + +std::string Skeleton::root_bone(int i) const { + return root_bones_[i]; +} + +int Skeleton::num_children(const std::string &bone_name) const { + if (children_.find(bone_name) == children_.end()) { + return 0; + } + else { + return (int)children_.find(bone_name)->second.size(); + } +} + +std::string Skeleton::child_bone(const std::string &bone_name, int i) const { + return children_.find(bone_name)->second[i]; +} + +bool Skeleton::rx_dof(const std::string &bone_name) const { + return rx_dof_.find(bone_name)->second; +} + +Vector2 Skeleton::rx_limits(const std::string &bone_name) const { + return rx_limits_.find(bone_name)->second; +} + +bool Skeleton::ry_dof(const std::string &bone_name) const { + return ry_dof_.find(bone_name)->second; +} + +Vector2 Skeleton::ry_limits(const std::string &bone_name) const { + return ry_limits_.find(bone_name)->second; +} + +bool Skeleton::rz_dof(const std::string &bone_name) const { + return rz_dof_.find(bone_name)->second; +} + +Vector2 Skeleton::rz_limits(const std::string &bone_name) const { + return rz_limits_.find(bone_name)->second; +} + +int Skeleton::degrees_of_freedom(const std::string &bone_name) const { + return (int)rx_dof(bone_name) + (int)ry_dof(bone_name) + (int)rz_dof(bone_name); +} + + +Vector3 Skeleton::BoneDirectionAndLength(const std::string &bone_name) const { + return lengths_.find(bone_name)->second * directions_.find(bone_name)->second; +} + +Matrix4 Skeleton::BoneSpaceToRotAxesSpace(const std::string &bone_name) const { + return bone_to_rot_axes_.find(bone_name)->second; +} + +Matrix4 Skeleton::RotAxesSpaceToBoneSpace(const std::string &bone_name) const { + return rot_axes_to_bone_.find(bone_name)->second; +} + +Matrix4 Skeleton::BoneSpaceToChildrenSpace(const std::string &bone_name) const { + return bone_to_children_.find(bone_name)->second; +} + + +const bool ABORT_ON_ERROR=true; +void assume(bool b) { + if (!b && ABORT_ON_ERROR) { + std::abort(); + } +} + + +void Skeleton::LoadFromASF(const std::string &asf_filename) { + std::ifstream in(asf_filename.c_str()); + SimpleParser parser(&in); + + while (parser.Good()) { + if (parser.Expect("#")) { + //std::cerr << "Ignoring comment line" << std::endl; + parser.SwallowLine(); + } + + else if (parser.Expect(":version")) { + parser.SwallowLine(); + } + + else if (parser.Expect(":name")) { + //std::cerr << "Swallowing name" << std::endl; + parser.SwallowLine(); + } + + else if (parser.Expect(":units")) { + //std::cerr << "Reading units" << std::endl; + ParseUnits(&parser); + } + + else if (parser.Expect(":documentation")) { + //std::cerr << "Reading documentation" << std::endl; + while (parser.Good() && !parser.Peek(":")) { + parser.SwallowLine(); + } + } + + else if (parser.Expect(":root")) { + //std::cerr << "Reading root" << std::endl; + ParseRoot(&parser); + } + + else if (parser.Expect(":bonedata")) { + //std::cerr << "Reading bonedata" << std::endl; + ParseBonedata(&parser); + } + + else if (parser.Expect(":hierarchy")) { + //std::cerr << "Reading hierarchy" << std::endl; + ParseHierarchy(&parser); + } + + else { + std::string tok; + parser.ReadToken(tok); + if (!parser.Good()) { + break; + } + std::cerr << "Encountered unknown token" << std::endl; + std::cerr << "'" << tok << "'" << std::endl; + std::abort(); + } + } // end while (looping over file) +} + + +void Skeleton::ParseUnits(SimpleParser *parser) { + bool cont; + do { + cont = false; + + if (parser->Expect("mass")) { + float trash; + parser->ReadFloat(trash); + cont = true; + } + + if (parser->Expect("length")) { + float trash; + parser->ReadFloat(trash); + cont = true; + } + + if (parser->Expect("angle")) { + std::string token; + parser->ReadToken(token); + if (token == "deg") { + using_degrees_ = true; + } + } + } while (cont); +} + +void Skeleton::ParseRoot(SimpleParser *parser) { + bool cont; + do { + cont = false; + + if (parser->Expect("order")) { + cont = true; + if (!parser->Expect("TX TY TZ RX RY RZ")) { + std::cerr << "'order' not in order expected" << std::endl; + std::abort(); + } + } + + if (parser->Expect("axis")) { + cont = true; + if (!parser->Expect("XYZ")) { + std::cerr << "'axis' not in order expected" << std::endl; + std::abort(); + } + } + + if (parser->Expect("position")) { + cont = true; + parser->ReadFloat(root_position_[0]); + parser->ReadFloat(root_position_[1]); + parser->ReadFloat(root_position_[2]); + root_position_ = amc2meter(root_position_); + } + + if (parser->Expect("orientation")) { + cont = true; + parser->ReadFloat(root_orientation_[0]); + parser->ReadFloat(root_orientation_[1]); + parser->ReadFloat(root_orientation_[2]); + } + + } while (cont); +} + + +void Skeleton::ParseBonedata(SimpleParser *parser) { + while (parser->Expect("begin")) { + int id = -1; + std::string name; + Vector3 direction; + float length = 0.0; + Matrix4 bone_to_rot_axes; + Matrix4 rot_axes_to_bone; + bool rx_dof = false; + bool ry_dof = false; + bool rz_dof = false; + Vector2 rx_limits; + Vector2 ry_limits; + Vector2 rz_limits; + + while (!parser->Expect("end")) { + + if (parser->Expect("id")) { + parser->ReadInt(id); + } + + if (parser->Expect("name")) { + parser->ReadToken(name); + } + + if (parser->Expect("direction")) { + parser->ReadFloat(direction[0]); + parser->ReadFloat(direction[1]); + parser->ReadFloat(direction[2]); + } + + if (parser->Expect("length")) { + parser->ReadFloat(length); + length = amc2meter(length); + } + + if (parser->Expect("axis")) { + float ax, ay, az; + std::string axis_type; + parser->ReadFloat(ax); + parser->ReadFloat(ay); + parser->ReadFloat(az); + if (using_degrees_) { + ax = GfxMath::ToRadians(ax); + ay = GfxMath::ToRadians(ay); + az = GfxMath::ToRadians(az); + } + parser->ReadToken(axis_type); + if (axis_type == "XYZ") { + rot_axes_to_bone = Matrix4::RotationZ(az) * + Matrix4::RotationY(ay) * + Matrix4::RotationX(ax); + bone_to_rot_axes = rot_axes_to_bone.Inverse(); + } + else { + std::cerr << "'axis type' not in order expected" << std::endl; + std::abort(); + } + } + + if (parser->Expect("dof")) { + rx_dof = parser->Expect("rx"); + ry_dof = parser->Expect("ry"); + rz_dof = parser->Expect("rz"); + } + + + if (parser->Expect("limits")) { + int ndof = (int)rx_dof + (int)ry_dof + (int)rz_dof; + for (int dof=0; dof < ndof; dof++) { + assume(parser->Expect("(")); + float min, max; + parser->ReadFloat(min); + parser->ReadFloat(max); + assume(parser->Expect(")")); + + if (dof == 0) { + if (rx_dof) rx_limits = Vector2(min, max); + else if (ry_dof) ry_limits = Vector2(min, max); + else if (rz_dof) rz_limits = Vector2(min, max); + else abort(); + } + else if (dof == 1) { + if (rx_dof && ry_dof) ry_limits = Vector2(min, max); + else if (rx_dof && rz_dof) rz_limits = Vector2(min, max); + else if (ry_dof && rz_dof) rz_limits = Vector2(min, max); + else abort(); + } + else if (dof == 2) { + if (rx_dof && ry_dof && rz_dof) rz_limits = Vector2(min, max); + else abort(); + } + else { + std::cerr << "bad dof limits" << std::endl; + abort(); + } + } + } + } // read "end" token + + // save the bone to the skeleton data structure + ids_[name] = id; + directions_[name] = direction; + lengths_[name] = length; + rx_dof_[name] = rx_dof; + ry_dof_[name] = ry_dof; + rz_dof_[name] = rz_dof; + rx_limits_[name] = rx_limits; + ry_limits_[name] = ry_limits; + rz_limits_[name] = rz_limits; + bone_to_rot_axes_[name] = bone_to_rot_axes; + rot_axes_to_bone_[name] = rot_axes_to_bone; + bone_to_children_[name] = Matrix4::Translation(length * direction); + } +} + +void Skeleton::ParseHierarchy(SimpleParser *parser) { + if (!parser->Expect("begin")) { + std::cerr << "Reading hierarchy, expected 'begin', not found" << std::endl; + std::abort(); + } + while (!parser->Expect("end")) { + std::string line; + std::string parent; + parser->ReadToken(parent); + parser->ReadLine(line); + + std::stringstream ss(line); + std::string child; + ss >> child; + while (ss) { + if (parent == "root") { + root_bones_.push_back(child); + } + else { + children_[parent].push_back(child); + } + ss >> child; + } + } +} + |