pxmlw6n2f/Gazebo_Distributed_TCP/gazebo/rendering/LaserVisual.cc

237 lines
7.5 KiB
C++
Raw Permalink Normal View History

2019-03-28 10:57:49 +08:00
/*
* Copyright (C) 2012 Open Source Robotics Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
#ifdef _WIN32
// Ensure that Winsock2.h is included before Windows.h, which can get
// pulled in by anybody (e.g., Boost).
#include <Winsock2.h>
#endif
#include <boost/bind.hpp>
#include "gazebo/common/MeshManager.hh"
#include "gazebo/transport/transport.hh"
#include "gazebo/rendering/Conversions.hh"
#include "gazebo/rendering/Scene.hh"
#include "gazebo/rendering/DynamicLines.hh"
#include "gazebo/rendering/LaserVisualPrivate.hh"
#include "gazebo/rendering/LaserVisual.hh"
using namespace gazebo;
using namespace rendering;
/////////////////////////////////////////////////
LaserVisual::LaserVisual(const std::string &_name, VisualPtr _vis,
const std::string &_topicName)
: Visual(*new LaserVisualPrivate, _name, _vis)
{
LaserVisualPrivate *dPtr =
reinterpret_cast<LaserVisualPrivate *>(this->dataPtr);
dPtr->type = VT_SENSOR;
dPtr->receivedMsg = false;
dPtr->node = transport::NodePtr(new transport::Node());
dPtr->node->Init(dPtr->scene->Name());
dPtr->laserScanSub = dPtr->node->Subscribe(_topicName,
&LaserVisual::OnScan, this);
dPtr->connection = event::Events::ConnectPreRender(
boost::bind(&LaserVisual::Update, this));
}
/////////////////////////////////////////////////
LaserVisual::~LaserVisual()
{
LaserVisualPrivate *dPtr =
reinterpret_cast<LaserVisualPrivate *>(this->dataPtr);
for (auto ray : dPtr->rayStrips)
this->DeleteDynamicLine(ray);
for (auto ray : dPtr->noHitRayStrips)
this->DeleteDynamicLine(ray);
for (auto ray : dPtr->deadzoneRayFans)
this->DeleteDynamicLine(ray);
for (auto ray : dPtr->rayLines)
this->DeleteDynamicLine(ray);
dPtr->rayStrips.clear();
dPtr->noHitRayStrips.clear();
dPtr->deadzoneRayFans.clear();
dPtr->rayLines.clear();
}
/////////////////////////////////////////////////
void LaserVisual::OnScan(ConstLaserScanStampedPtr &_msg)
{
LaserVisualPrivate *dPtr =
reinterpret_cast<LaserVisualPrivate *>(this->dataPtr);
boost::mutex::scoped_lock lock(dPtr->mutex);
dPtr->laserMsg = _msg;
dPtr->receivedMsg = true;
}
/////////////////////////////////////////////////
void LaserVisual::Update()
{
LaserVisualPrivate *dPtr =
reinterpret_cast<LaserVisualPrivate *>(this->dataPtr);
boost::mutex::scoped_lock lock(dPtr->mutex);
// Skip the update if the user is moving the laser.
if ((this->GetScene()->SelectedVisual() &&
this->GetRootVisual()->GetName() ==
this->GetScene()->SelectedVisual()->GetName()))
{
return;
}
if (!dPtr->laserMsg || !dPtr->receivedMsg)
return;
dPtr->receivedMsg = false;
double verticalAngle = dPtr->laserMsg->scan().vertical_angle_min();
ignition::math::Pose3d offset =
msgs::ConvertIgn(dPtr->laserMsg->scan().world_pose()) -
this->GetWorldPose().Ign();
unsigned int vertCount = dPtr->laserMsg->scan().has_vertical_count() ?
dPtr->laserMsg->scan().vertical_count() : 1u;
double minRange = dPtr->laserMsg->scan().range_min();
// Process each ray fan
for (unsigned int j = 0; j < vertCount; ++j)
{
// Create a new render objects, if there are not enough already allocated.
if (j+1 > dPtr->rayStrips.size())
{
// Ray strips fill in-between the ray lines in areas that have
// intersected an object.
dPtr->rayStrips.push_back(
this->CreateDynamicLine(rendering::RENDERING_TRIANGLE_STRIP));
dPtr->rayStrips[j]->setMaterial("Gazebo/BlueLaser");
// No hit ray strips fill in-between the ray lines in areas that have
// not intersected an object.
dPtr->noHitRayStrips.push_back(
this->CreateDynamicLine(rendering::RENDERING_TRIANGLE_STRIP));
dPtr->noHitRayStrips[j]->setMaterial("Gazebo/LightBlueLaser");
// Deadzone ray fans display areas that are between the sensor's origin
// and start of the rays.
dPtr->deadzoneRayFans.push_back(
this->CreateDynamicLine(rendering::RENDERING_TRIANGLE_FAN));
dPtr->deadzoneRayFans[j]->setMaterial("Gazebo/BlackTransparent");
dPtr->deadzoneRayFans[j]->AddPoint(ignition::math::Vector3d(0, 0, 0));
// Individual ray lines
dPtr->rayLines.push_back(
this->CreateDynamicLine(rendering::RENDERING_LINE_LIST));
dPtr->rayLines[j]->setMaterial("Gazebo/BlueLaser");
this->SetVisibilityFlags(GZ_VISIBILITY_GUI);
}
dPtr->deadzoneRayFans[j]->SetPoint(0, offset.Pos());
double angle = dPtr->laserMsg->scan().angle_min();
unsigned int count = dPtr->laserMsg->scan().count();
// Process each ray in the current scan.
for (unsigned int i = 0; i < count; ++i)
{
// Calculate the range of the ray
double r = dPtr->laserMsg->scan().ranges(j*count + i);
if (r < minRange)
{
// Less than min range, don't display a ray
r = minRange;
}
bool inf = std::isinf(r);
ignition::math::Quaterniond ray(
ignition::math::Vector3d(0.0, -verticalAngle, angle));
ignition::math::Vector3d axis = offset.Rot() * ray *
ignition::math::Vector3d(1.0, 0.0, 0.0);
// Check for infinite range, which indicates the ray did not
// intersect an object.
double hitRange = inf ? 0 : r;
// Compute the start point of the ray
ignition::math::Vector3d startPt = (axis * minRange) + offset.Pos();
// Compute the end point of the ray
ignition::math::Vector3d pt = (axis * hitRange) + offset.Pos();
double noHitRange = inf ? dPtr->laserMsg->scan().range_max() : hitRange;
// Compute the end point of the no-hit ray
ignition::math::Vector3d noHitPt = (axis * noHitRange) + offset.Pos();
// Draw the lines and strips that represent each simulated ray
if (i >= dPtr->rayLines[j]->GetPointCount()/2)
{
dPtr->rayLines[j]->AddPoint(startPt);
dPtr->rayLines[j]->AddPoint(inf ? noHitPt : pt);
dPtr->rayStrips[j]->AddPoint(startPt);
dPtr->rayStrips[j]->AddPoint(inf ? startPt : pt);
dPtr->noHitRayStrips[j]->AddPoint(startPt);
dPtr->noHitRayStrips[j]->AddPoint(inf ? noHitPt : pt);
}
else
{
dPtr->rayLines[j]->SetPoint(i*2, startPt);
dPtr->rayLines[j]->SetPoint(i*2+1, inf ? noHitPt : pt);
dPtr->rayStrips[j]->SetPoint(i*2, startPt);
dPtr->rayStrips[j]->SetPoint(i*2+1, inf ? startPt : pt);
dPtr->noHitRayStrips[j]->SetPoint(i*2, startPt);
dPtr->noHitRayStrips[j]->SetPoint(i*2+1, inf ? noHitPt : pt);
}
// Draw the triangle fan that indicates the dead zone.
if (i+1 >= dPtr->deadzoneRayFans[j]->GetPointCount())
dPtr->deadzoneRayFans[j]->AddPoint(startPt);
else
dPtr->deadzoneRayFans[j]->SetPoint(i+1, startPt);
angle += dPtr->laserMsg->scan().angle_step();
}
verticalAngle += dPtr->laserMsg->scan().vertical_angle_step();
}
}
/////////////////////////////////////////////////
void LaserVisual::SetEmissive(const common::Color &/*_color*/,
const bool /*_cascade*/)
{
}