bool PSPlanner::forward()
{
- if (this->ps().parallel())
- return false;
- else
- return true;
- double heading = atan2(
- this->ps().y2() - this->ps().y1(),
- this->ps().x2() - this->ps().x1()
- );
- while (heading < 0) heading += 2 * M_PI;
- double h = this->gc().h();
- while (h < 0) h += 2 * M_PI;
- if (std::abs(heading - h) < M_PI / 4)
- return true;
+#if FORWARD_PARKING > 0
+ return true;
+#else
return false;
+#endif
}
void PSPlanner::gc_to_4()
y += (this->gc().w() / 2 + 0.01) * sin(h + dts);
y += (this->gc().dr() + 0.01) * sin(h);
} else {
+#if FORWARD_PARKING > 0
// Forward parking
double entry_width = edist(
this->ps().x1(), this->ps().y1(),
this->ps().x2() - this->ps().x1()
);
while (h < 0) h += 2 * M_PI;
-
- //// This is for backward parking only.
- //double entry_width = edist(
- // this->ps().x1(), this->ps().y1(),
- // this->ps().x4(), this->ps().y4()
- //);
- //double dist_l =
- // this->gc().orradi()
- // - (this->gc().mtr() + this->gc().w() / 2)
- //;
- //double move1 = dist_l + this->gc().w() / 2;
- //double dist_r = entry_width - this->gc().w() - dist_l;
- //double move2 = sqrt(
- // pow(this->gc().iradi(), 2)
- // - pow(this->gc().iradi() - dist_r, 2)
- //);
- //move2 -= this->gc().dr() / 2; // workaround
- //x += move1 * cos(h);
- //y += move1 * sin(h);
- //dts = atan2(
- // this->ps().y2() - this->ps().y1(),
- // this->ps().x2() - this->ps().x1()
- //);
- //while (dts < 0) dts += 2 * M_PI;
- //x += move2 * cos(h + dts);
- //y += move2 * sin(h + dts);
- //h += dts - M_PI / 2;
+ x += this->gc().dr() * cos(h + M_PI);
+ y += this->gc().dr() * sin(h + M_PI);
+#else
+ // Backward parking
+ double entry_width = edist(
+ this->ps().x1(), this->ps().y1(),
+ this->ps().x4(), this->ps().y4()
+ );
+ x += entry_width / 2 * cos(h);
+ y += entry_width / 2 * sin(h);
+ h = atan2(
+ this->ps().y1() - this->ps().y2(),
+ this->ps().x1() - this->ps().x2()
+ );
+ while (h < 0) h += 2 * M_PI;
+ x += this->gc().df() * cos(h + M_PI);
+ y += this->gc().df() * sin(h + M_PI);
+#endif
}
while (h > M_PI)
h -= 2 * M_PI;
}
}
-double smaller_angle_of_two(
+double angle_between_closer_point(
double sx, double sy, // common start point
double cx, double cy, // common middle point
double x1, double y1, // first ending point
double x2, double y2 // second ending point
) {
- double a1 = ::angle_between_three_points(sx, sy, cx, cy, x1, y1);
- double a2 = ::angle_between_three_points(sx, sy, cx, cy, x2, y2);
- return std::min(a1, a2);
+ if (edist(sx, sy, x1, y1) < edist(sx, sy, x2, y2))
+ return ::angle_between_three_points(sx, sy, cx, cy, x1, y1);
+ else
+ return ::angle_between_three_points(sx, sy, cx, cy, x2, y2);
}
void PSPlanner::fe_parallel()
this->cc().lrx(), this->cc().lry(),
this->cc().rrx(), this->cc().rry()
);
- double a1 = ::smaller_angle_of_two(
+ double a1 = ::angle_between_closer_point(
this->ps().x1(), this->ps().y1(),
cclx, ccly,
std::get<1>(cli1), std::get<2>(cli1),
this->ps().x2(), this->ps().y2(),
this->ps().x3(), this->ps().y3()
);
- double a2 = smaller_angle_of_two(
+ double a2 = angle_between_closer_point(
this->cc().rrx(), this->cc().rry(),
cclx, ccly,
std::get<1>(cli2), std::get<2>(cli2),
|| a1 < a2
)) {
this->cc().rotate(cclx, ccly, -a1);
+ if (::right_side_of_line(
+ this->cc().x(), this->cc().y(),
+
+ this->cc().x()
+ + cos(this->ps().heading()),
+ this->cc().y()
+ + sin(this->ps().heading()),
+
+ this->cc().x()
+ + cos(this->cc().h()),
+ this->cc().y()
+ + sin(this->cc().h())
+ )) {
+ continue;
+ }
} else if (std::get<0>(cli2) && (
!std::get<0>(cli1)
|| a2 < a1
this->ps().x1(), this->ps().y1(),
this->ps().x2(), this->ps().y2()
);
- double a1 = smaller_angle_of_two(
+ double a1 = angle_between_closer_point(
this->cc().lrx(), this->cc().lry(),
cclx, ccly,
std::get<1>(cli1), std::get<2>(cli1),
this->ps().x2(), this->ps().y2(),
this->ps().x3(), this->ps().y3()
);
- double a2 = smaller_angle_of_two(
+ double a2 = angle_between_closer_point(
this->cc().rrx(), this->cc().rry(),
cclx, ccly,
std::get<1>(cli2), std::get<2>(cli2),
|| a1 < a2
)) {
this->cc().rotate(cclx, ccly, -a1);
+ if (::right_side_of_line(
+ this->cc().x(), this->cc().y(),
+
+ this->cc().x()
+ + cos(this->ps().heading()),
+ this->cc().y()
+ + sin(this->ps().heading()),
+
+ this->cc().x()
+ + cos(this->cc().h()),
+ this->cc().y()
+ + sin(this->cc().h())
+ )) {
+ continue;
+ }
} else if (std::get<0>(cli2) && (
!std::get<0>(cli1)
|| a2 < a1
ccrx, ccry,
this->cc().rfx(), this->cc().rfy()
);
- // TODO check if I can park
- // TODO (ccr, rf) x (p3, p4)
- // TODO (ccr, rf) x (p2, p3)
- // TODO (ccr, lf) x (p3, p4)
-{
- double rf = sqrt(
- pow(this->cc().lfy() - ccry, 2)
- + pow(this->cc().lfx() - ccrx, 2)
- );
- auto clif = ::intersect(
- ccrx, ccry, rf,
- this->ps().x1(), this->ps().y1(),
- this->ps().x4(), this->ps().y4()
- );
- if (std::get<0>(clif)) {
- double xf = std::get<1>(clif);
- double yf = std::get<2>(clif);
- if (
- edist(
- this->ps().x4(),
- this->ps().y4(),
- std::get<3>(clif),
- std::get<4>(clif)
- ) < edist(
- this->ps().x4(),
- this->ps().y4(),
- xf, yf
- )
- ) {
- xf = std::get<3>(clif);
- yf = std::get<4>(clif);
- }
- auto af = ::angle_between_three_points(
- this->cc().lfx(),
- this->cc().lfy(),
- ccrx, ccry,
- xf, yf
- );
- auto tmp_cc = BicycleCar(this->cc());
- this->cc().rotate(ccrx, ccry, -af);
- if (
- !this->collide()
- && (edist(
- this->ps().x1(), this->ps().y1(),
- xf, yf
- ) < edist(
- this->ps().x1(), this->ps().y1(),
- this->ps().x4(), this->ps().y4()
- ))
- ) {
- this->cc().sp(-0.01);
- this->cc().set_max_steer();
- this->cc().st(this->cc().st() * -1);
- this->gc() = BicycleCar(this->cc());
- goto successfinish;
- } else {
- this->cc() = BicycleCar(tmp_cc);
- }
- } else {
- // should be parked and found in previous iteration or continue
- // with the parking process
- }
-}
- double r1 = sqrt(
- pow(this->cc().rfy() - ccry, 2)
- + pow(this->cc().rfx() - ccrx, 2)
- );
+ {
+ double af = std::abs(
+ this->ps().heading()
+ - this->cc().h()
+ );
+ auto tmp_cc = BicycleCar(this->cc());
+ this->cc().rotate(ccrx, ccry, -af);
+ this->gc() = BicycleCar(this->cc());
+ if (
+ !this->collide()
+ && this->parked()
+ ) {
+ this->cc().sp(this->cc().sp() * -1);
+ this->gc() = BicycleCar(this->cc());
+ goto successfinish;
+ } else {
+ this->cc() = BicycleCar(tmp_cc);
+ }
+ }
auto cli1 = ::intersect(
- ccrx, ccry, r1,
- this->ps().x3(), this->ps().y3(),
- this->ps().x4(), this->ps().y4()
- );
- double a11 = ::angle_between_three_points(
- this->cc().lrx(), this->cc().lry(),
- ccrx, ccry,
- std::get<1>(cli1), std::get<2>(cli1)
- );
- double a12 = ::angle_between_three_points(
- this->cc().lrx(), this->cc().lry(),
- ccrx, ccry,
- std::get<3>(cli1), std::get<4>(cli1)
+ ccrx, ccry, ccr_rf,
+ this->ps().x3(), this->ps().y3(),
+ this->ps().x4(), this->ps().y4()
);
- double a1 = std::min(a11, a12);
-
- double r2 = sqrt(
- pow(this->cc().lfy() - ccry, 2)
- + pow(this->cc().lfx() - ccrx, 2)
+ double a1 = angle_between_closer_point(
+ this->cc().rfx(), this->cc().rfy(),
+ ccrx, ccry,
+ std::get<1>(cli1), std::get<2>(cli1),
+ std::get<3>(cli1), std::get<4>(cli1)
);
auto cli2 = ::intersect(
- ccrx, ccry, r2,
- this->ps().x3(), this->ps().y3(),
- this->ps().x4(), this->ps().y4()
- );
- double a21 = ::angle_between_three_points(
- this->cc().rrx(), this->cc().rry(),
- ccrx, ccry,
- std::get<1>(cli2), std::get<2>(cli2)
+ ccrx, ccry, ccr_rf,
+ this->ps().x2(), this->ps().y2(),
+ this->ps().x3(), this->ps().y3()
);
- double a22 = ::angle_between_three_points(
- this->cc().rrx(), this->cc().rry(),
- ccrx, ccry,
- std::get<3>(cli2), std::get<4>(cli2)
- );
- double a2 = std::min(a21, a22);
-
- double r3 = sqrt(
- pow(this->cc().rfy() - ccry, 2)
- + pow(this->cc().rfx() - ccrx, 2)
+ double a2 = angle_between_closer_point(
+ this->cc().rfx(), this->cc().rfy(),
+ ccrx, ccry,
+ std::get<1>(cli2), std::get<2>(cli2),
+ std::get<3>(cli2), std::get<4>(cli2)
);
auto cli3 = ::intersect(
- ccrx, ccry, r3,
- this->ps().x3(), this->ps().y3(),
- this->ps().x2(), this->ps().y2()
- );
- double a31 = ::angle_between_three_points(
- this->cc().rrx(), this->cc().rry(),
- ccrx, ccry,
- std::get<1>(cli3), std::get<2>(cli3)
+ ccrx, ccry, ccr_lf,
+ this->ps().x3(), this->ps().y3(),
+ this->ps().x4(), this->ps().y4()
);
- double a32 = ::angle_between_three_points(
- this->cc().rrx(), this->cc().rry(),
- ccrx, ccry,
- std::get<3>(cli3), std::get<4>(cli3)
+ double a3 = angle_between_closer_point(
+ this->cc().lfx(), this->cc().lfy(),
+ ccrx, ccry,
+ std::get<1>(cli3), std::get<2>(cli3),
+ std::get<3>(cli3), std::get<4>(cli3)
);
- double a3 = std::min(a31, a32);
-
if (std::get<0>(cli1) && (
(!std::get<0>(cli2) && !std::get<0>(cli3))
|| (a1 < a2 && !std::get<0>(cli3))
} else {
continue;
}
+ } else if (!this->ps().right() && this->cc().sp() < 0) {
+ double ccrx = this->cc().ccr().x();
+ double ccry = this->cc().ccr().y();
+ double ccr_rr = edist(
+ ccrx, ccry,
+ this->cc().rrx(), this->cc().rry()
+ );
+ double ccr_lr = edist(
+ ccrx, ccry,
+ this->cc().lrx(), this->cc().lry()
+ );
+ double ccr_p1 = edist(
+ ccrx, ccry,
+ this->ps().x1(), this->ps().y1()
+ );
+ if (ccr_lr < ccr_p1) {
+ // pass parking slot
+ continue;
+ } else if (ccr_lr >= ccr_p1 && ccr_rr < ccr_p1) {
+ // partially out of parking slot
+ auto cli1 = ::intersect(
+ ccrx, ccry, ccr_p1,
+ this->cc().lrx(), this->cc().lry(),
+ this->cc().rrx(), this->cc().rry()
+ );
+ double a1 = ::angle_between_closer_point(
+ this->ps().x1(), this->ps().y1(),
+ ccrx, ccry,
+ std::get<1>(cli1), std::get<2>(cli1),
+ std::get<3>(cli1), std::get<4>(cli1)
+ );
+ auto cli2 = ::intersect(
+ ccrx, ccry, ccr_lr,
+ this->ps().x2(), this->ps().y2(),
+ this->ps().x3(), this->ps().y3()
+ );
+ double a2 = angle_between_closer_point(
+ this->cc().lrx(), this->cc().lry(),
+ ccrx, ccry,
+ std::get<1>(cli2), std::get<2>(cli2),
+ std::get<3>(cli2), std::get<4>(cli2)
+ );
+ if (std::get<0>(cli1) && (
+ !std::get<0>(cli2)
+ || a1 < a2
+ )) {
+ this->cc().rotate(ccrx, ccry, a1);
+ if (!::right_side_of_line(
+ this->cc().x(), this->cc().y(),
+
+ this->cc().x()
+ + cos(this->ps().heading()),
+ this->cc().y()
+ + sin(this->ps().heading()),
+
+ this->cc().x()
+ + cos(this->cc().h()),
+ this->cc().y()
+ + sin(this->cc().h())
+ )) {
+ continue;
+ }
+ } else if (std::get<0>(cli2) && (
+ !std::get<0>(cli1)
+ || a2 < a1
+ )) {
+ this->cc().rotate(ccrx, ccry, a2);
+ } else {
+ continue;
+ }
+ } else if (ccr_rr >= ccr_p1) {
+ // in parking slot
+ auto cli1 = ::intersect(
+ ccrx, ccry, ccr_rr,
+ this->ps().x1(), this->ps().y1(),
+ this->ps().x2(), this->ps().y2()
+ );
+ double a1 = angle_between_closer_point(
+ this->cc().rrx(), this->cc().rry(),
+ ccrx, ccry,
+ std::get<1>(cli1), std::get<2>(cli1),
+ std::get<3>(cli1), std::get<4>(cli1)
+ );
+ auto cli2 = ::intersect(
+ ccrx, ccry, ccr_lr,
+ this->ps().x2(), this->ps().y2(),
+ this->ps().x3(), this->ps().y3()
+ );
+ double a2 = angle_between_closer_point(
+ this->cc().lrx(), this->cc().lry(),
+ ccrx, ccry,
+ std::get<1>(cli2), std::get<2>(cli2),
+ std::get<3>(cli2), std::get<4>(cli2)
+ );
+ if (std::get<0>(cli1) && (
+ !std::get<0>(cli2)
+ || a1 < a2
+ )) {
+ this->cc().rotate(ccrx, ccry, a1);
+ if (!::right_side_of_line(
+ this->cc().x(), this->cc().y(),
+
+ this->cc().x()
+ + cos(this->ps().heading()),
+ this->cc().y()
+ + sin(this->ps().heading()),
+
+ this->cc().x()
+ + cos(this->cc().h()),
+ this->cc().y()
+ + sin(this->cc().h())
+ )) {
+ continue;
+ }
+ } else if (std::get<0>(cli2) && (
+ !std::get<0>(cli1)
+ || a2 < a1
+ )) {
+ this->cc().rotate(ccrx, ccry, a2);
+ } else {
+ continue;
+ }
+ }
} else {
// TODO left parking slot (both forward, backward)
}
projects / hubacji1 / psp.git / blobdiff