37 #ifndef IKFAST_HEADER_COMMON 38 #define IKFAST_HEADER_COMMON 41 #define IKFAST_VERSION 61 74 virtual void GetSolution(T* solution,
const T* freevalues)
const = 0;
77 virtual void GetSolution(std::vector<T>& solution,
const std::vector<T>& freevalues)
const {
78 solution.resize(GetDOF());
79 GetSolution(&solution.at(0), freevalues.size() > 0 ? &freevalues.at(0) : NULL);
85 virtual const std::vector<int>& GetFree()
const = 0;
88 virtual const int GetDOF()
const = 0;
109 virtual size_t GetNumSolutions()
const = 0;
112 virtual void Clear() = 0;
116 template <
typename T>
120 IkFastFunctions() : _ComputeIk(NULL), _ComputeFk(NULL), _GetNumFreeParameters(NULL), _GetFreeParameters(NULL), _GetNumJoints(NULL), _GetIkRealSize(NULL), _GetIkFastVersion(NULL), _GetIkType(NULL), _GetKinematicsHash(NULL) {
126 typedef void (*ComputeFkFn)(
const T*, T*, T*);
128 typedef int (*GetNumFreeParametersFn)();
130 typedef int* (*GetFreeParametersFn)();
132 typedef int (*GetNumJointsFn)();
134 typedef int (*GetIkRealSizeFn)();
136 typedef const char* (*GetIkFastVersionFn)();
138 typedef int (*GetIkTypeFn)();
140 typedef const char* (*GetKinematicsHashFn)();
147 template <
typename T>
156 virtual void GetSolution(T* solution,
const T* freevalues)
const {
157 for(std::size_t i = 0; i < _vbasesol.size(); ++i) {
159 solution[i] = _vbasesol[i].foffset;
161 solution[i] = freevalues[_vbasesol[i].freeind]*_vbasesol[i].fmul + _vbasesol[i].foffset;
162 if( solution[i] > T(3.14159265358979) ) {
163 solution[i] -= T(6.28318530717959);
165 else if( solution[i] < T(-3.14159265358979) ) {
166 solution[i] += T(6.28318530717959);
172 virtual void GetSolution(std::vector<T>& solution,
const std::vector<T>& freevalues)
const {
173 solution.resize(GetDOF());
174 GetSolution(&solution.at(0), freevalues.size() > 0 ? &freevalues.at(0) : NULL);
177 virtual const std::vector<int>&
GetFree()
const {
181 return static_cast<int>(_vbasesol.size());
185 for(
size_t i = 0; i < _vbasesol.size(); ++i) {
187 throw std::runtime_error(
"max solutions for joint not initialized");
191 throw std::runtime_error(
"index >= max solutions for joint");
193 if( _vbasesol[i].
indices[1] != (
unsigned char)-1 && _vbasesol[i].
indices[1] >= _vbasesol[i].maxsolutions ) {
194 throw std::runtime_error(
"2nd index >= max solutions for joint");
203 for(
int i = (
int)_vbasesol.size()-1; i >= 0; --i) {
204 if( _vbasesol[i].
maxsolutions != (
unsigned char)-1 && _vbasesol[i].maxsolutions > 1 ) {
205 for(
size_t j = 0; j < v.size(); ++j) {
206 v[j] *= _vbasesol[i].maxsolutions;
208 size_t orgsize=v.size();
209 if( _vbasesol[i].
indices[1] != (
unsigned char)-1 ) {
210 for(
size_t j = 0; j < orgsize; ++j) {
211 v.push_back(v[j]+_vbasesol[i].
indices[1]);
214 if( _vbasesol[i].
indices[0] != (
unsigned char)-1 ) {
215 for(
size_t j = 0; j < orgsize; ++j) {
216 v[j] += _vbasesol[i].indices[0];
228 template <
typename T>
234 size_t index = _listsolutions.size();
241 if( index >= _listsolutions.size() ) {
242 throw std::runtime_error(
"GetSolution index is invalid");
244 typename std::list< IkSolution<T> >::const_iterator it = _listsolutions.begin();
245 std::advance(it,index);
250 return _listsolutions.size();
254 _listsolutions.clear();
263 #endif // OPENRAVE_IKFAST_HEADER 266 #ifdef IKFAST_HAS_LIBRARY 269 #ifdef IKFAST_CLIBRARY 271 #define IKFAST_API extern "C" __declspec(dllexport) 273 #define IKFAST_API extern "C" 279 #ifdef IKFAST_NAMESPACE 280 namespace IKFAST_NAMESPACE {
284 typedef IKFAST_REAL IkReal;
286 typedef double IkReal;
301 IKFAST_API
void ComputeFk(
const IkReal* joints, IkReal* eetrans, IkReal* eerot);
324 #ifdef IKFAST_NAMESPACE 328 #endif // IKFAST_HAS_LIBRARY
virtual const IkSolutionBase< T > & GetSolution(size_t index) const
returns the solution pointer
GetFreeParametersFn _GetFreeParameters
std::vector< int > _vfree
unsigned char indices[5]
unique index of the solution used to keep track on what part it came from. sometimes a solution can b...
virtual void GetSolution(T *solution, const T *freevalues) const
gets a concrete solution
virtual ~IkFastFunctions()
IKFAST_API int GetIkType()
holds function pointers for all the exported functions of ikfast
virtual size_t GetNumSolutions() const
returns the number of solutions stored
unsigned char maxsolutions
max possible indices, 0 if controlled by free index or a free joint itself
GetIkFastVersionFn _GetIkFastVersion
holds the solution for a single dof
signed char freeind
if >= 0, mimics another joint
The discrete solutions are returned in this structure.
virtual void GetSolutionIndices(std::vector< unsigned int > &v) const
virtual void Clear()
clears all current solutions, note that any memory addresses returned from GetSolution will be invali...
std::vector< IkSingleDOFSolutionBase< T > > _vbasesol
solution and their offsets if joints are mimiced
IKFAST_API int GetNumJoints()
virtual const int GetDOF() const
the dof of the solution
GetKinematicsHashFn _GetKinematicsHash
IKFAST_API void ComputeFk(const IkReal *j, IkReal *eetrans, IkReal *eerot)
std::list< IkSolution< T > > _listsolutions
GetNumFreeParametersFn _GetNumFreeParameters
IKFAST_API int * GetFreeParameters()
GetNumJointsFn _GetNumJoints
Default implementation of IkSolutionBase.
IKFAST_API const char * GetIkFastVersion()
virtual const std::vector< int > & GetFree() const
Gets the indices of the configuration space that have to be preset before a full solution can be retu...
virtual ~IkSolutionBase()
virtual void GetSolution(std::vector< T > &solution, const std::vector< T > &freevalues) const
std::vector version of GetSolution
T foffset
joint value is fmul*sol[freeind]+foffset
IKFAST_API int GetIkRealSize()
IKFAST_API int GetNumFreeParameters()
Default implementation of IkSolutionListBase.
virtual ~IkSolutionListBase()
GetIkRealSizeFn _GetIkRealSize
virtual void Validate() const
IKFAST_API const char * GetKinematicsHash()
virtual void GetSolution(std::vector< T > &solution, const std::vector< T > &freevalues) const
std::vector version of GetSolution
IKFAST_API bool ComputeIk(const IkReal *eetrans, const IkReal *eerot, const IkReal *pfree, IkSolutionListBase< IkReal > &solutions)
IkSingleDOFSolutionBase()
manages all the solutions
unsigned char jointtype
joint type, 0x01 is revolute, 0x11 is slider
virtual size_t AddSolution(const std::vector< IkSingleDOFSolutionBase< T > > &vinfos, const std::vector< int > &vfree)
add one solution and return its index for later retrieval
IkSolution(const std::vector< IkSingleDOFSolutionBase< T > > &vinfos, const std::vector< int > &vfree)