예제 #1
0
파일: aa_fuzz_tf.c 프로젝트: kingdwd/amino
static void tfmat_inv(const double T[12]) {
    double Tc[12], Ti[12], Tr[12];

    // aa_tf_rotmat_inv1
    AA_MEM_CPY(Tc, T, 12);
    aa_tf_rotmat_inv1(Tc);
    aa_tf_rotmat_mul(T,Tc,Tr);
    aveq( "aa_tf_rotmat_inv1", 9, Tr, aa_tf_rotmat_ident, 1e-6 );

    // aa_tf_rotmat_inv2
    AA_MEM_CPY(Tc, T, 12);
    aa_tf_rotmat_inv2(Tc, Ti);
    aa_tf_rotmat_mul(T,Ti,Tr);
    aveq( "aa_tf_rotmat_inv2", 9, Tr, aa_tf_rotmat_ident, 1e-6 );

    // aa_tf_tfmat_inv1
    AA_MEM_CPY(Tc, T, 12);
    aa_tf_tfmat_inv1(Tc);
    aa_tf_tfmat_mul(T,Tc,Tr);
    aveq( "aa_tf_tfmat_inv1", 12, Tr, aa_tf_tfmat_ident, 1e-6 );

    // aa_tf_rotmat_inv2
    AA_MEM_CPY(Tc, T, 12);
    aa_tf_tfmat_inv2(Tc, Ti);
    aa_tf_tfmat_mul(T,Ti,Tr);
    aveq( "aa_tf_tfmat_inv2", 12, Tr, aa_tf_tfmat_ident, 1e-6 );
}
예제 #2
0
AA_API void
aa_tf_qv_svel( const double q0[AA_RESTRICT 4], const double v0[AA_RESTRICT 3],
               const double w[AA_RESTRICT 3], const double dv[AA_RESTRICT 3],
               double dt,
               double q1[AA_RESTRICT 4], double v1[AA_RESTRICT 3] )
{
    double dx[6], S0[8], S1[8];
    /* TODO: avoid the memcpy()s */
    AA_MEM_CPY( dx+AA_TF_DX_W, w, 3 );
    AA_MEM_CPY( dx+AA_TF_DX_V, dv, 3 );
    aa_tf_qv2duqu( q0, v0, S0 );
    aa_tf_duqu_svel( S0, dx, dt, S1 );
    aa_tf_duqu2qv(S1, q1, v1);
}
예제 #3
0
SceneFrame::SceneFrame(
    enum aa_rx_frame_type type_,
    const char *_parent,
    const char *_name,
    const double q[4], const double v[3]
    ) :
    type(type_),
    name(_name),
    parent(_parent),
    inertial(NULL)
{
    AA_MEM_CPY(E+AA_TF_QUTR_Q, q ? q : aa_tf_quat_ident, 4);
    AA_MEM_CPY(E+AA_TF_QUTR_V, v ? v : aa_tf_vec_ident, 3);
}
예제 #4
0
파일: sg_api.cpp 프로젝트: stephendb/amino
AA_API void aa_rx_sg_tf
( const struct aa_rx_sg *scene_graph,
  size_t n_q, const double *q,
  size_t n_tf,
  double *TF_rel, size_t ld_rel,
  double *TF_abs, size_t ld_abs )
{
    aa_rx_sg_ensure_clean_frames( scene_graph );

    amino::SceneGraph *sg = scene_graph->sg;
    size_t i_frame = 0;
    for( size_t i_rel = 0, i_abs = 0;
         i_frame < n_tf && i_frame < sg->frames.size();
         i_frame++, i_rel += ld_rel, i_abs += ld_abs )
    {
        amino::SceneFrame *f = sg->frames[(aa_rx_frame_id)i_frame];
        double *E_rel = TF_rel + i_rel;
        double *E_abs = TF_abs + i_abs;
        // compute relative
        f->tf_rel( q, E_rel );
        // chain to global
        if( f->in_global() ) {
            // TODO: can we somehow get rid of this branch?
            //       maybe a separate type for global frames
            AA_MEM_CPY(E_abs, E_rel, 7);
        } else {
            assert( f->parent_id < (ssize_t)i_frame );
            double *E_abs_parent = TF_abs + (ld_abs * f->parent_id);;
            aa_tf_qutr_mul(E_abs_parent, E_rel, E_abs);
        }
    }
}
예제 #5
0
파일: state.c 프로젝트: kingdwd/amino
AA_API void
aa_ct_state_clone(struct aa_mem_region *reg, struct aa_ct_state *dest,
                  struct aa_ct_state *src)
{
    dest->n_q = src->n_q;
    dest->n_tf = src->n_tf;

    if (src->q) {
        dest->q = AA_MEM_REGION_NEW_N(reg, double, src->n_q);
        AA_MEM_CPY(dest->q, src->q, src->n_q);
    }
예제 #6
0
파일: plot_test.c 프로젝트: golems/reflex
void regress_1() {


    aa_mem_region_t reg;
    aa_mem_region_init( &reg, 1024*32 );

    // Create list for way points
    struct rfx_trajx_point_list *plist = rfx_trajx_point_list_alloc( &reg );

    double r0[4] = {0,1,0,0};
    double rr[6][4];
    double rrel[4][4];
    double x0[3] = {0};

    aa_tf_zangle2quat(.5*M_PI, rrel[0]);
    aa_tf_eulerzyx2quat(0, 0, .10*M_PI, rrel[1]);
    aa_tf_eulerzyx2quat(0, 0, -.2*M_PI, rrel[2]);
    aa_tf_eulerzyx2quat(-.5*M_PI, 0, 0, rrel[3]);

    AA_MEM_CPY(rr[0], r0, 4);
    for( size_t i = 0; i < 4; i ++ ) {
        aa_tf_qmul( rr[i], rrel[i], rr[i+1] );
    }
    AA_MEM_CPY(rr[5], r0, 4);

    size_t diff = 2;
    for( size_t i = 0; i < sizeof(rr)/sizeof(rr[0])-diff; i ++ ) {
        rfx_trajx_point_list_addb_qv( plist, 5*(double)i, 1, rr[i+diff], x0 );
    }

    // generate trajectory
    struct rfx_trajx_seg_list *seglist =
        //rfx_trajx_splend_generate( plist, &reg );
        rfx_trajx_parablend_generate( plist, &reg );


    // plot trajectory
    rfx_trajx_seg_list_plot( seglist, .001, NULL );
}
예제 #7
0
SceneFrameJoint::SceneFrameJoint(
    enum aa_rx_frame_type type_,
    const char *_parent,
    const char *_name,
    const double q[4], const double v[3],
    const char *_config_name,
    double _offset, const double _axis[3]
    ) :
    SceneFrame( type_, _parent, _name, q, v ),
    config_name(_config_name ? _config_name : _name),
    offset(_offset)
{
    AA_MEM_CPY(this->axis, _axis, 3);
}
예제 #8
0
파일: aa_fuzz_tf.c 프로젝트: kingdwd/amino
static void rand_tf( double _E[7], double S[8],  double T[12] ) {
    double tmp[7];
    double *E = _E ? _E : tmp;

    /* Convert */
    aa_tf_qutr_rand( E );
    aa_tf_qutr2duqu( E, S );
    aa_tf_qutr2tfmat( E, T );

    /* Check Conversion */
    double E_min[7];
    AA_MEM_CPY(E_min, E, 7 );
    aa_tf_qminimize( E_min );

    {
        double Es[7], Et[7];
        aa_tf_tfmat2qutr( T, Et );
        aa_tf_duqu2qutr( S, Es );
        aa_tf_qminimize( Es );
        aa_tf_qminimize( Et );
        aveq( "qutr<->duqu", 7, E_min, Es, 1e-5 );
        aveq( "qutr<->tfmat", 7, E_min, Et, 1e-5 );
    }
}
예제 #9
0
AA_API void
aa_tf_qutr_vel2diff( const double E[AA_RESTRICT 7], const double dx[AA_RESTRICT 6], double dE[AA_RESTRICT 7] )
{
    aa_tf_qvel2diff(E+AA_TF_QUTR_Q, dx+AA_TF_DX_W, dE+AA_TF_QUTR_Q );
    AA_MEM_CPY( dE+AA_TF_QUTR_V, dx+AA_TF_DX_V, 3 );
}
예제 #10
0
AA_API void
aa_tf_qutr_diff2vel( const double E[AA_RESTRICT 7], const double dE[AA_RESTRICT 7], double dx[AA_RESTRICT 6] )
{
    aa_tf_qdiff2vel(E+AA_TF_QUTR_Q, dE+AA_TF_QUTR_Q, dx+AA_TF_DX_W );
    AA_MEM_CPY( dx+AA_TF_DX_V, dE+AA_TF_QUTR_V, 3 );
}
예제 #11
0
파일: aa_fuzz_tf.c 프로젝트: kingdwd/amino
static void quat(double E[2][7]) {
    double u;
    double *q1 = E[0];
    double *q2 = E[0];
    u = aa_frand();

    {
        double qg[4], qa[4];
        aa_tf_qslerp( u, q1, q2, qg );
        aa_tf_qslerpalg( u, q1, q2, qa );
        aveq("slerp", 4, qg, qa, .001 );

        double dqg[4], dqa[4];
        aa_tf_qslerpdiff( u, q1, q2, dqg );
        aa_tf_qslerpdiffalg( u, q1, q2, dqa );
        aveq("slerpdiff", 4, dqg, dqa, .001 );
    }

    // mul
    {
        double Ql[16], Qr[16];
        double y0[4], y1[4], y2[4];
        aa_tf_qmatrix_l(q1, Ql, 4);
        aa_tf_qmatrix_r(q2, Qr, 4);
        aa_tf_qmul(q1,q2, y0);
        cblas_dgemv( CblasColMajor, CblasNoTrans, 4, 4,
                     1.0, Ql, 4,
                     q2, 1,
                     0, y1, 1 );
        cblas_dgemv( CblasColMajor, CblasNoTrans, 4, 4,
                     1.0, Qr, 4,
                     q1, 1,
                     0, y2, 1 );
        aveq( "qmul-1", 4, y0, y1, 1e-6 );
        aveq( "qmul-2", 4, y0, y2, 1e-6 );
    }


    // average
    {
        double qq[8], p[4], s[4];
        AA_MEM_CPY( qq, q1, 4 );
        AA_MEM_CPY( qq+4, q2, 4 );
        double w[2] = {.5,.5};
        aa_tf_quat_davenport( 2, w, qq, 4, p );
        aa_tf_qslerp( .5, q1, q2, s );
        aa_tf_qminimize( p );
        aa_tf_qminimize( s );
        aveq("davenport-2", 4, p, s, 1e-4 );
    }

    double R1[9], R2[9], Rr[9], qr[4], qrr[4];
    aa_tf_quat2rotmat(q1, R1);
    aa_tf_quat2rotmat(q2, R2);
    aa_tf_9rel( R1, R2, Rr );
    aa_tf_qrel( q1, q2, qr );
    aa_tf_rotmat2quat( Rr, qrr );
    aa_tf_qminimize( qr );
    aa_tf_qminimize( qrr );
    aveq("qrel", 4, qr, qrr, .001 );

    // minimize
    {
        double qmin[4], axang[4];
        aa_tf_qminimize2( q1, qmin );
        test( "quat-minimize",  aa_feq( fabs(q1[3]), qmin[3], 0) );
        aa_tf_quat2axang( qmin, axang );
        test( "quat-minimize-angle",  fabs(axang[3]) <= M_PI );
    }

    // mulc
    {
        double q1c[4], q2c[4], t1[4], t2[4];
        aa_tf_qconj(q1, q1c);
        aa_tf_qconj(q2, q2c);

        aa_tf_qmul(q1,q2c,t1);
        aa_tf_qmulc(q1,q2,t2);
        aveq("qmulc", 4, t1, t2, .001 );

        aa_tf_qmul(q1c,q2,t1);
        aa_tf_qcmul(q1,q2,t2);
        aveq("qcmul", 4, t1, t2, .001 );
    }
    // conj. props
    {
        // p*q = conj(conj(q) * conj(p))
        double c1[4], c2[4], c2c1[4], cc2c1[4], q1q2[4];
        aa_tf_qconj(q1,c1);
        aa_tf_qconj(q2,c2);
        aa_tf_qmul(c2,c1,c2c1);
        aa_tf_qmul(q1,q2,q1q2);
        aa_tf_qconj(c2c1,cc2c1);
        aveq("conjprop", 4, q1q2, cc2c1, .0001);
    }
    // exp
    {
        double q1e[4], q1eln[4];
        aa_tf_qexp(q1, q1e);
        aa_tf_qln(q1e, q1eln);
        aveq("exp-log", 4, q1, q1eln, .00001 );
        aa_tf_qln(q1, q1eln);
        aa_tf_qexp(q1eln, q1e);
        aveq("log-exp", 4, q1, q1e, .00001 );
    }

    // diff
    double w[3]={0}, dq[4], wdq[3];
    aa_vrand( 3, w );
    aa_tf_qvel2diff( q1, w, dq );
    aa_tf_qdiff2vel( q1, dq, wdq );
    aveq("qveldiff", 3, w, wdq, .000001);

    // integrate

    double qn_rk1[4], qn_vrk1[4], qn_vrk4[4], qn_vexp[4], qn_dq[4], w0[3] = {0};
    double dt = .02;


    aa_tf_qrk1( q1, dq, dt, qn_rk1 );
    aa_tf_qvelrk1( q1, w, dt, qn_vrk1 );
    aa_tf_qvelrk4( q1, w, dt, qn_vrk4 );
    aa_tf_qsvel( q1, w, dt, qn_vexp );
    aa_tf_qsdiff( q1, dq, dt, qn_dq );
    aveq("qvelrk1", 4, qn_rk1, qn_vrk1, .001 );
    aveq("qvelrk4", 4, qn_rk1, qn_vrk4, .001 );
    aveq("qvelexp", 4, qn_vrk4, qn_vexp, .0001);
    aveq("qvelsdiff", 4, qn_vexp, qn_dq, .001 );
    aa_tf_qsvel( q1, w0, dt, qn_vexp );
    aveq("qvelsvel0", 4, q1, qn_vexp, .000 );

    {
        double Rb[9], qR[4];
        aa_tf_qsvel( q1, w, dt, qn_vexp );
        aa_tf_rotmat_svel( R1, w, dt, Rb );
        aa_tf_rotmat2quat( Rb, qR );
        aa_tf_qminimize( qn_vexp);
        aa_tf_qminimize( qR );
        aveq("rotmat_svel", 4, qn_vexp, qR, 1e-4 );
    }

    // vectors
    {
        double *v0 = E[0] + AA_TF_QUTR_T;
        double *v1 = E[1] + AA_TF_QUTR_T;
        double q[4], vp[3];

        // identify case
        aa_tf_vecs2quat( v0, v0, q);
        aveq( "vecs2quat-ident", 4, q, aa_tf_quat_ident, 1e-6 );

        // regular case
        aa_tf_vecs2quat( v0, v1, q);
        aa_tf_qrot(q,v0,vp);

        // normalize result
        {
            double n0 = sqrt(v0[0]*v0[0] + v0[1]*v0[1] + v0[2]*v0[2] );
            double n1 = sqrt(v1[0]*v1[0] + v1[1]*v1[1] + v1[2]*v1[2] );
            double vp1[3];
            for( size_t i = 0; i < 3; i ++ ) {
                vp1[i] = n0*v1[i] / n1;
            }

            aveq("vecs2quat", 3, vp, vp1, 1e-6 );
        }
        // inverted case
        double v0n[3] = {-v0[0], -v0[1], -v0[2]};
        aa_tf_vecs2quat( v0, v0n, q);
        aa_tf_qrot(q,v0,vp);
        {
            double n0 = sqrt(v0[0]*v0[0] + v0[1]*v0[1] + v0[2]*v0[2] );
            double n1 = sqrt(v0n[0]*v0n[0] + v0n[1]*v0n[1] + v0n[2]*v0n[2] );
            double vp1[3];
            for( size_t i = 0; i < 3; i ++ ) {
                vp1[i] = n0*v0n[i] / n1;
            }

            aveq("vecs2quat-degenerate", 3, vp, vp1, 1e-6 );
        }


    }
}
예제 #12
0
파일: plot_test.c 프로젝트: golems/reflex
void plot_viax() {
    aa_mem_region_t reg;
    aa_mem_region_init( &reg, 1024*32 );

    struct rfx_trajx_point_list *plist = rfx_trajx_point_list_alloc( &reg );

    double theta = M_PI*.9;

    //double X[5][5] = { {0,0,0}, {1,0,0}, {1,1,0}, {1,1,1}, {0,0,0} };
    //double E[5][5] = { {0,0,0}, {M_PI_2,0,0}, {M_PI_2,M_PI_2,0}, {M_PI_2,M_PI_2,M_PI_2}, {0,0,0} };

    double X[2][3] = { {0,0,0}, {0,0,0} };
    double E[2][3] = { {theta,0,0}, {theta,theta,0} };

    double R[5][4];
    double RV[5][3];
    size_t n = 2;
    for( size_t i = 0; i < n; i ++ ) {
        aa_tf_eulerzyx2quat( E[i][0], E[i][1], E[i][2], R[i] );
        aa_tf_quat2rotvec( R[i], RV[i] );
        rfx_trajx_point_list_addb_qv( plist, 5*(double)i, 1, R[i], X[i] );
    }

    //rfx_trajx_generate( pT );
    //rfx_trajx_plot( pT, .001, NULL );

    struct rfx_trajx_seg_list *seglist =
        //rfx_trajx_splend_generate( plist, &reg );
    rfx_trajx_parablend_generate( plist, &reg );

    rfx_trajx_seg_list_plot( seglist, .001, NULL );
    return;

    struct rfx_trajx_seg_list *testlist =
        rfx_trajx_seg_list_alloc( &reg );
    {
        double x_i[6], x_f[6];

        AA_MEM_CPY(x_i, X[0], 3 );
        AA_MEM_CPY(x_i+3, RV[0], 3 );
        AA_MEM_CPY(x_f, X[1], 3 );
        AA_MEM_CPY(x_f+3, RV[1], 3 );
        struct rfx_trajx_seg *test =
            rfx_trajx_seg_lerp_rv_alloc( &reg, 0, 1,
                                         0, x_i,
                                         1, x_f ) ;
        rfx_trajx_seg_list_add( testlist, test );
    }
    struct rfx_trajx_seg_list *testlist2 =
        rfx_trajx_seg_list_alloc( &reg );
    {
        struct rfx_trajx_seg *test =
            rfx_trajx_seg_lerp_slerp_alloc( &reg, 0, 1,
                                            0, X[0], R[0],
                                            1, X[1], R[1] ) ;
        rfx_trajx_seg_list_add( testlist2, test );
    }



    rfx_trajx_seg_list_plot( testlist, .001, NULL );


    aa_mem_region_destroy( &reg );
}
예제 #13
0
파일: sg_api.cpp 프로젝트: stephendb/amino
AA_API void aa_rx_sg_tf_update
( const struct aa_rx_sg *scene_graph,
  size_t n_q,
  const double *q0,
  const double *q,
  size_t n_tf,
  const double *TF_rel0, size_t ld_rel0,
  const double *TF_abs0, size_t ld_abs0,
  double *TF_rel, size_t ld_rel,
  double *TF_abs, size_t ld_abs )
{
    aa_rx_sg_ensure_clean_frames( scene_graph );

    amino::SceneGraph *sg = scene_graph->sg;

    bool updated[sg->frames.size()];

    size_t i_frame = 0;
    for( size_t i_rel0 = 0, i_abs0 = 0,
             i_rel = 0, i_abs = 0;
         i_frame < n_tf && i_frame < sg->frames.size();
         i_frame++, i_rel += ld_rel, i_abs += ld_abs,
             i_rel0 += ld_rel0, i_abs0 += ld_abs0
        )
    {
        amino::SceneFrame *f = sg->frames[(aa_rx_frame_id)i_frame];
        enum aa_rx_frame_type type = f->type;
        bool update_abs = 0;
        bool in_global =  f->in_global();

        const double *E_rel0 = TF_rel0 + i_rel0;
        const double *E_abs0 = TF_abs0 + i_abs0;
        double *E_rel  = TF_rel + i_rel;
        double *E_abs  = TF_abs + i_abs;

        switch( type ) {
        case AA_RX_FRAME_FIXED:
            f->tf_rel(q, E_rel);
            update_abs = !in_global && updated[f->parent_id];
            break;
        case AA_RX_FRAME_REVOLUTE:
        case AA_RX_FRAME_PRISMATIC: {
            amino::SceneFrameJoint *fj = static_cast<amino::SceneFrameJoint*>(f);
            if( aa_feq(q0[fj->config_index], q[fj->config_index], 0 )) {
                AA_MEM_CPY(E_rel, E_rel0, 7);
                update_abs = !in_global && updated[f->parent_id];
            } else {
                f->tf_rel(q, E_rel);
                update_abs = 1;
            }
            break; }
        }

        if( update_abs ) {
            // chain to global
            if( in_global ) {
                // TODO: can we somehow get rid of this branch?
                //       maybe a separate type for global frames
                AA_MEM_CPY(E_abs, E_rel, 7);
            } else {
                assert( f->parent_id < (ssize_t)i_frame );
                double *E_abs_parent = TF_abs + (ld_abs * f->parent_id);;
                aa_tf_qutr_mul(E_abs_parent, E_rel, E_abs);
            }
            updated[i_frame] = 1;
        } else {
            AA_MEM_CPY(E_abs, E_abs0, 7);
            updated[i_frame] = 0;
        }
    }
}
예제 #14
0
AA_API int
aa_rx_mp_plan( struct aa_rx_mp *mp,
               double timeout,
               size_t *n_path,
               double **p_path_all )
{

    mp->validity_checker->allow();
    amino::sgSpaceInformation::Ptr &si = mp->space_information;

    /* Configure State Validity Checker */

    /* Setup Space */

    *n_path = 0;
    *p_path_all = NULL;

    amino::sgStateSpace *ss = si->getTypedStateSpace();
    ompl::base::ProblemDefinitionPtr &pdef = mp->problem_definition;

    ompl::base::PlannerPtr planner = (NULL == mp->planner.get()) ?
        ompl::base::PlannerPtr(new ompl::geometric::RRTConnect(si)) :
        mp->planner;

    planner->setProblemDefinition(pdef);
    try {
        if( mp->lazy_samples ) {
            fprintf(stderr, "Starting sampling thread\n");
            mp->lazy_samples->clear();
            mp->lazy_samples->setStart(ss->config_count_all(), mp->config_start);
            mp->lazy_samples->startSampling();
        }
        planner->solve(timeout);
        if( mp->lazy_samples ) {
            fprintf(stderr, "Stopping sampling thread\n");
            mp->lazy_samples->stopSampling();
        }
    } catch(...) {
        return AA_RX_NO_SOLUTION;
    }
    if( pdef->hasSolution() ) {
        const ompl::base::PathPtr &path_ptr = pdef->getSolutionPath();
        ompl::geometric::PathGeometric &path = static_cast<ompl::geometric::PathGeometric&>(*path_ptr);
        path_cleanup(mp, path);


        /* Allocate a simple array */
        *n_path = path.getStateCount();
        *p_path_all = (double*)calloc( *n_path * ss->config_count_all(),
                                       sizeof(double) );

        /* Fill array */
        std::vector< ompl::base::State *> &states = path.getStates();
        double *ptr = *p_path_all;
        for( auto itr = states.begin(); itr != states.end(); itr++, ptr += ss->config_count_all() )
        {
            AA_MEM_CPY( ptr, mp->config_start, ss->config_count_all() );
            amino::sgSpaceInformation::StateType *state = amino::sgSpaceInformation::state_as(*itr);
            ss->insert_state( state, ptr );
        }
        return AA_RX_OK;
    } else {
        return AA_RX_NO_SOLUTION | AA_RX_NO_MP;
    }
}
예제 #15
0
void SceneFrameFixed::tf_rel( const double *q, double _E[7] )
{
    (void)q;
    AA_MEM_CPY(_E, this->E, 7);
}