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realtimeroboticsgroup.org / RealtimeRoboticsGroup / test / cc123114c14f67a4261dbdde517c052579e20cb7 / . / y2016 / vision / target_receiver.cc
blob: b51e4ed2e9b22cffa37fd82fac638a925976dbcb [file] [log] [blame]
#include <stdlib.h>
#include <netdb.h>
#include <unistd.h>
#include <vector>
#include <memory>
#include "aos/linux_code/init.h"
#include "aos/common/time.h"
#include "aos/common/logging/logging.h"
#include "aos/common/logging/queue_logging.h"
#include "aos/vision/events/udp.h"
#include "y2016/vision/vision.q.h"
#include "y2016/vision/vision_data.pb.h"
#include "y2016/vision/stereo_geometry.h"
#include "y2016/constants.h"
namespace y2016 {
namespace vision {
::aos::vision::Vector<2> CreateCenterFromTarget(double lx, double ly, double rx, double ry) {
return ::aos::vision::Vector<2>((lx + rx) / 2.0, (ly + ry) / 2.0);
}
double TargetWidth(double lx, double ly, double rx, double ry) {
double dx = lx - rx;
double dy = ly - ry;
return ::std::hypot(dx, dy);
}
void SelectTargets(const VisionData &left_target,
const VisionData &right_target,
::aos::vision::Vector<2> *center_left,
::aos::vision::Vector<2> *center_right) {
// No good targets. Let the caller decide defaults.
if (right_target.target_size() == 0 || left_target.target_size() == 0) {
return;
}
// Only one option, we have to go with it.
if (right_target.target_size() == 1 && left_target.target_size() == 1) {
*center_left =
CreateCenterFromTarget(left_target.target(0).left_corner_x(),
left_target.target(0).left_corner_y(),
left_target.target(0).right_corner_x(),
left_target.target(0).right_corner_y());
*center_right =
CreateCenterFromTarget(right_target.target(0).left_corner_x(),
right_target.target(0).left_corner_y(),
right_target.target(0).right_corner_x(),
right_target.target(0).right_corner_y());
return;
}
// Now we have to make a decision.
double min_angle = -1.0;
int left_index = 0;
// First pick the widest target from the left.
for (int i = 0; i < left_target.target_size(); i++) {
const double h = left_target.target(i).left_corner_y() -
left_target.target(i).right_corner_y();
const double wid1 = TargetWidth(left_target.target(i).left_corner_x(),
left_target.target(i).left_corner_y(),
left_target.target(i).right_corner_x(),
left_target.target(i).right_corner_y());
const double angle = h / wid1;
if (min_angle == -1.0 || ::std::abs(angle) < ::std::abs(min_angle)) {
min_angle = angle;
left_index = i;
}
}
// Calculate the angle of the bottom edge for the left.
double h = left_target.target(left_index).left_corner_y() -
left_target.target(left_index).right_corner_y();
double good_ang = min_angle;
double min_ang_err = -1.0;
int right_index = -1;
// Now pick the bottom edge angle from the right that lines up best with the left.
for (int j = 0; j < right_target.target_size(); j++) {
double wid2 = TargetWidth(right_target.target(j).left_corner_x(),
right_target.target(j).left_corner_y(),
right_target.target(j).right_corner_x(),
right_target.target(j).right_corner_y());
h = right_target.target(j).left_corner_y() -
right_target.target(j).right_corner_y();
double ang = h/ wid2;
double ang_err = ::std::abs(good_ang - ang);
if (min_ang_err == -1.0 || min_ang_err > ang_err) {
min_ang_err = ang_err;
right_index = j;
}
}
*center_left =
CreateCenterFromTarget(left_target.target(left_index).left_corner_x(),
left_target.target(left_index).left_corner_y(),
left_target.target(left_index).right_corner_x(),
left_target.target(left_index).right_corner_y());
*center_right =
CreateCenterFromTarget(right_target.target(right_index).left_corner_x(),
right_target.target(right_index).left_corner_y(),
right_target.target(right_index).right_corner_x(),
right_target.target(right_index).right_corner_y());
}
void Main() {
StereoGeometry stereo(constants::GetValues().vision_name);
LOG(INFO, "calibration: %s\n",
stereo.calibration().ShortDebugString().c_str());
VisionData left_target;
aos::time::Time left_rx_time{0, 0};
VisionData right_target;
aos::time::Time right_rx_time{0, 0};
::aos::vision::RXUdpSocket recv(8080);
char rawData[65507];
bool got_left = false;
bool got_right = false;
while (true) {
// TODO(austin): Don't malloc.
VisionData target;
int size = recv.Recv(rawData, 65507);
aos::time::Time now = aos::time::Time::Now();
if (target.ParseFromArray(rawData, size)) {
if (target.camera_index() == 0) {
left_target = target;
left_rx_time = now;
got_left = true;
} else {
right_target = target;
right_rx_time = now;
got_right = true;
}
} else {
LOG(ERROR, "oh noes: parse error\n");
continue;
}
if (now > left_rx_time + aos::time::Time::InMS(50)) {
got_left = false;
}
if (now > right_rx_time + aos::time::Time::InMS(50)) {
got_right = false;
}
if (got_left && got_right) {
bool left_image_valid = left_target.target_size() > 0;
bool right_image_valid = right_target.target_size() > 0;
auto new_vision_status = vision_status.MakeMessage();
new_vision_status->left_image_valid = left_image_valid;
new_vision_status->right_image_valid = right_image_valid;
if (left_image_valid && right_image_valid) {
::aos::vision::Vector<2> center0(0.0, 0.0);
::aos::vision::Vector<2> center1(0.0, 0.0);
SelectTargets(left_target, right_target, &center0, &center1);
double distance, horizontal_angle, vertical_angle;
stereo.Process(center0, center1, &distance, &horizontal_angle,
&vertical_angle);
new_vision_status->left_image_timestamp = left_target.image_timestamp();
new_vision_status->right_image_timestamp = right_target.image_timestamp();
new_vision_status->left_send_timestamp = left_target.send_timestamp();
new_vision_status->right_send_timestamp = right_target.send_timestamp();
new_vision_status->horizontal_angle = horizontal_angle;
new_vision_status->vertical_angle = vertical_angle;
new_vision_status->distance = distance;
}
LOG_STRUCT(DEBUG, "vision", *new_vision_status);
if (!new_vision_status.Send()) {
LOG(ERROR, "Failed to send vision information\n");
}
}
if (target.camera_index() == 0) {
LOG(DEBUG, "left_target: %s\n", left_target.ShortDebugString().c_str());
} else {
LOG(DEBUG, "right_target: %s\n", right_target.ShortDebugString().c_str());
}
}
}
} // namespace vision
} // namespace y2016
int main(int /*argc*/, char ** /*argv*/) {
::aos::InitNRT();
::y2016::vision::Main();
}