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17 #include <boost/filesystem.hpp>
28 #include "fcl_resources/config.h"
45 template <
typename BV >
47 std::vector<Vec3s> pt;
48 std::vector<Triangle> tri;
61 template <
typename BV >
79 std::vector<CollisionResult>
rs;
90 for (std::size_t i = 0; i < tf.size(); ++i) {
93 collide(o1, tf[i], o2, Id, request, results.
rs[i]);
99 const char*
sep =
", ";
102 std::cout <<
"Type 1" <<
sep <<
"Type 2" <<
sep <<
"mean time" <<
sep
103 <<
"time std dev" <<
sep <<
"min time" <<
sep <<
"max time"
108 double mean = rs.
times.mean();
109 double var = rs.
times.cwiseAbs2().mean() - mean * mean;
115 #ifndef NDEBUG // if debug mode
124 if (verbose) std::cout << x << std::endl
125 #define CHECK_PARAM_NB(NB, NAME) \
126 if (iarg + NB >= argc) \
127 throw std::invalid_argument(#NAME " requires " #NB " numbers")
130 while (iarg < argc) {
131 std::string
a(argv[iarg]);
132 if (
a ==
"-nb_transform") {
137 }
else if (
a ==
"-enable_distance_lower_bound") {
141 }
else if (
a ==
"-limit") {
143 limit = atof(argv[iarg + 1]);
145 }
else if (
a ==
"-verbose") {
153 #define CREATE_SHAPE_2(var, Name) \
154 CHECK_PARAM_NB(2, Name); \
155 var.reset(new Name(atof(argv[iarg + 1]), atof(argv[iarg + 2]))); \
158 if (iarg >= argc)
throw std::invalid_argument(
"An argument is required.");
159 std::string
a(argv[iarg]);
164 o.reset(
new Box(atof(argv[iarg + 1]), atof(argv[iarg + 2]),
165 atof(argv[iarg + 3])));
168 }
else if (
a ==
"-sphere") {
170 o.reset(
new Sphere(atof(argv[iarg + 1])));
173 }
else if (
a ==
"-mesh") {
175 OUT(
"Loading " << argv[iarg + 2] <<
" as BVHModel<" << argv[iarg + 1]
177 if (strcmp(argv[iarg + 1],
"obb") == 0) {
178 o = meshToGeom<OBB>(argv[iarg + 2]);
182 }
else if (strcmp(argv[iarg + 1],
"obbrss") == 0) {
183 o = meshToGeom<OBBRSS>(argv[iarg + 2]);
186 type =
"mesh_obbrss";
188 throw std::invalid_argument(
"BV type must be obb or obbrss");
191 if (iarg < argc && strcmp(argv[iarg],
"crop") == 0) {
194 atof(argv[iarg + 3])),
195 Vec3s(atof(argv[iarg + 4]), atof(argv[iarg + 5]),
196 atof(argv[iarg + 6])));
197 OUT(
"Cropping " << aabb.
min_.transpose() <<
" ---- "
198 << aabb.
max_.transpose() <<
" ...");
199 o->computeLocalAABB();
200 OUT(
"Mesh AABB is " << o->aabb_local.min_.transpose() <<
" ---- "
201 << o->aabb_local.max_.transpose() <<
" ...");
203 if (!o)
throw std::invalid_argument(
"Failed to crop.");
208 }
else if (
a ==
"-capsule") {
211 }
else if (
a ==
"-cone") {
214 }
else if (
a ==
"-cylinder") {
218 throw std::invalid_argument(std::string(
"Unknown argument: ") +
a);
223 int main(
int argc,
char** argv) {
224 std::vector<Transform3s> transforms;
238 collide(transforms, first.
o.get(), second.
o.get(), request, results);
245 std::vector<Geometry> geoms;
246 geoms.push_back(
Geometry(
"Box",
new Box(1, 2, 3)));
258 geoms.push_back(
Geometry(
"rob BVHModel<OBB>",
259 objToGeom<OBB>((
path /
"rob.obj").
string())));
263 geoms.push_back(
Geometry(
"rob BVHModel<OBBRSS>",
264 objToGeom<OBBRSS>((
path /
"rob.obj").
string())));
266 geoms.push_back(
Geometry(
"env BVHModel<OBB>",
267 objToGeom<OBB>((
path /
"env.obj").
string())));
271 geoms.push_back(
Geometry(
"env BVHModel<OBBRSS>",
272 objToGeom<OBBRSS>((
path /
"env.obj").
string())));
277 for (std::size_t i = 0; i < geoms.size(); ++i) {
278 for (std::size_t j = i; j < geoms.size(); ++j) {
279 if (!
supportedPair(geoms[i].o.get(), geoms[j].o.get()))
continue;
281 collide(transforms, geoms[i].o.get(), geoms[j].o.get(), request,
collision matrix stores the functions for collision between different types of objects and provides a...
virtual NODE_TYPE getNodeType() const
get the node type
CollisionGeometryPtr_t meshToGeom(const std::string &filename, const Vec3s &scale=Vec3s(1, 1, 1))
int beginModel(unsigned int num_tris=0, unsigned int num_vertices=0)
Begin a new BVH model.
bool supportedPair(const CollisionGeometry *o1, const CollisionGeometry *o2)
Eigen::Matrix< CoalScalar, 3, 1 > Vec3s
#define CREATE_SHAPE_2(var, Name)
int endModel()
End BVH model construction, will build the bounding volume hierarchy.
void loadPolyhedronFromResource(const std::string &resource_path, const coal::Vec3s &scale, const shared_ptr< BVHModel< BoundingVolume > > &polyhedron)
Read a mesh file and convert it to a polyhedral mesh.
void stop()
stop the timer
NODE_TYPE
traversal node type: bounding volume (AABB, OBB, RSS, kIOS, OBBRSS, KDOP16, KDOP18,...
Capsule It is where is the distance between the point x and the capsule segment AB,...
bool enable_distance_lower_bound
Whether a lower bound on distance is returned when objects are disjoint.
Geometry(const std::string &t, const CollisionGeometryPtr_t &ob)
int addSubModel(const std::vector< Vec3s > &ps, const std::vector< Triangle > &ts)
Add a set of triangles in the new BVH model.
The geometry for the object for collision or distance computation.
A class describing the AABB collision structure, which is a box in 3D space determined by two diagona...
virtual OBJECT_TYPE getObjectType() const
get the type of the object
Center at zero point, axis aligned box.
Center at zero point sphere.
Vec3s max_
The max point in the AABB.
COAL_DLLAPI CollisionGeometry * extract(const CollisionGeometry *model, const Transform3s &pose, const AABB &aabb)
#define CHECK_PARAM_NB(NB, NAME)
CollisionGeometryPtr_t objToGeom(const std::string &filename)
CollisionFunc collision_matrix[NODE_COUNT][NODE_COUNT]
each item in the collision matrix is a function to handle collision between objects of type1 and type...
void handleParam(int &iarg, const int &argc, char **argv, CollisionRequest &request)
request to the collision algorithm
Cylinder along Z axis. The cylinder is defined at its centroid.
Geometry makeGeomFromParam(int &iarg, const int &argc, char **argv)
OBJECT_TYPE
object type: BVH (mesh, points), basic geometry, octree
void generateRandomTransforms(CoalScalar extents[6], std::vector< Transform3s > &transforms, std::size_t n)
Generate n random transforms whose translations are constrained by extents.
void printResultHeaders()
Vec3s min_
The min point in the AABB.
Cone The base of the cone is at and the top is at .
A class describing the bounding hierarchy of a mesh model or a point cloud model (which is viewed as ...
std::vector< CollisionResult > rs
COAL_DLLAPI std::size_t collide(const CollisionObject *o1, const CollisionObject *o2, const CollisionRequest &request, CollisionResult &result)
Main collision interface: given two collision objects, and the requirements for contacts,...
Geometry(const std::string &t, CollisionGeometry *ob)
CollisionFunctionMatrix lookupTable
double getElapsedTimeInMicroSec()
get elapsed time in micro-second
shared_ptr< CollisionGeometry > CollisionGeometryPtr_t
void loadOBJFile(const char *filename, std::vector< Vec3s > &points, std::vector< Triangle > &triangles)
Load an obj mesh file.
int main(int argc, char **argv)
void printResults(const Geometry &g1, const Geometry &g2, const Results &rs)
hpp-fcl
Author(s):
autogenerated on Sat Nov 23 2024 03:44:58