{
PSPlanner psp;
psp.ps().border(3, 3, 5, 3, 5, 8, 3, 8);
- psp.gc().x(4);
- psp.gc().y(4);
- psp.gc().h(M_PI / 2);
psp.gc().mtr(10);
psp.gc().wb(2);
psp.gc().w(1);
psp.gc().he(1.5);
psp.gc().df(2 + 0.5);
psp.gc().dr(0.5);
+ psp.guess_gc();
psp.cc() = BicycleCar(psp.gc());
// init orientation
WVPASS(!psp.collide());
WVPASS(psp.forward());
WVPASSEQ_DOUBLE(psp.ps().heading(), psp.gc().h(), 0.00001);
+ WVPASS(psp.parked());
+ std::vector<std::tuple<double, double>> slot;
+ slot.push_back(std::make_tuple(psp.ps().x1(), psp.ps().y1()));
+ slot.push_back(std::make_tuple(psp.ps().x2(), psp.ps().y2()));
+ slot.push_back(std::make_tuple(psp.ps().x3(), psp.ps().y3()));
+ slot.push_back(std::make_tuple(psp.ps().x4(), psp.ps().y4()));
+ WVPASS(inside(psp.gc().x(), psp.gc().y(), slot));
+ WVPASS(inside(psp.gc().lfx(), psp.gc().lfy(), slot));
+ WVPASS(inside(psp.gc().lrx(), psp.gc().lry(), slot));
+ WVPASS(inside(psp.gc().rrx(), psp.gc().rry(), slot));
+ WVPASS(inside(psp.gc().rfx(), psp.gc().rfy(), slot));
- // entry point found by reverse
- WVPASS(!psp.left());
- psp.fer();
- WVPASS(psp.left());
-
- // collide
- auto tmpi1 = intersect(1, 1, 3, 3, 1, 3, 3, 1);
- WVPASS(std::get<0>(tmpi1));
- WVPASSEQ_DOUBLE(std::get<1>(tmpi1), 2, 0.00001);
- WVPASSEQ_DOUBLE(std::get<2>(tmpi1), 2, 0.00001);
- auto tmpi2 = intersect(1, 1, 1, 3, 3, 1, 3, 3);
- WVPASS(!std::get<0>(tmpi2));
+ // init collide
PSPlanner tpsp;
tpsp.ps().border(2, 3, 4, 3, 4, 8, 2, 8);
tpsp.gc() = BicycleCar(psp.gc());
WVPASS(!tpsp.left());
tpsp.ps().border(3, 4.1, 3, 2.1, 8, 2.1, 8, 4.1);
WVPASS(tpsp.left());
+
+ // entry point found by reverse
+ WVPASS(!psp.left());
+ psp.fer();
+ WVPASS(psp.left());
+ WVPASS(psp.parked());
+
+ // find entry
+ psp.cc() = BicycleCar(psp.gc());
+ WVPASS(!psp.left());
+ psp.fe();
+ WVPASS(psp.left());
+ WVPASS(psp.parked());
}
WVTEST_MAIN("backward perpendicullar parking slot planner")
{
PSPlanner psp;
psp.ps().border(3, 3, 8, 3, 8, 5, 3, 5);
- psp.gc().x(7);
- psp.gc().y(4);
- psp.gc().h(M_PI);
psp.gc().mtr(10);
psp.gc().wb(2);
psp.gc().w(1);
psp.gc().he(1.5);
psp.gc().df(2 + 0.5);
psp.gc().dr(0.5);
+ psp.guess_gc();
psp.cc() = BicycleCar(psp.gc());
// init orientation
WVPASS(!psp.collide());
WVPASS(!psp.forward());
WVPASSEQ_DOUBLE(psp.ps().heading() + M_PI / 2, psp.gc().h(), 0.00001);
+ WVPASS(psp.parked());
// entry point found by reverse
WVPASS(!psp.left());
psp.fer();
WVPASS(psp.left());
+ WVPASS(psp.parked());
+
+ // find entry
+ psp.cc() = BicycleCar(psp.gc());
+ WVPASS(!psp.left());
+ psp.fe();
+ WVPASS(psp.left());
+ WVPASS(psp.parked());
}
WVTEST_MAIN("forward perpendicullar parking slot planner")
WVPASS(!psp.collide());
WVPASS(psp.forward());
WVPASSEQ_DOUBLE(psp.ps().heading() - M_PI / 2, psp.gc().h(), 0.00001);
+ WVPASS(psp.parked());
// entry point found by reverse
WVPASS(!psp.left());
psp.fer();
WVPASS(psp.left());
+ WVPASS(psp.parked());
+
+ // find entry
+ psp.cc() = BicycleCar(psp.gc());
+ WVPASS(!psp.left());
+ psp.fe();
+ WVPASS(psp.left());
+ WVPASS(psp.parked());
}
projects / hubacji1 / psp.git / blobdiff