440 lines
13 KiB
C++
440 lines
13 KiB
C++
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/*
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* Copyright (C) 2012 Open Source Robotics Foundation
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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*/
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#include "gazebo/rendering/ogre_gazebo.h"
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#include "gazebo/common/MouseEvent.hh"
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#include "gazebo/rendering/Conversions.hh"
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#include "gazebo/rendering/Scene.hh"
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#include "gazebo/rendering/Visual.hh"
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#include "gazebo/rendering/UserCamera.hh"
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#include "gazebo/rendering/OrbitViewController.hh"
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#define TYPE_STRING "orbit"
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using namespace gazebo;
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using namespace rendering;
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static const float PITCH_LIMIT_LOW = -M_PI*0.5 + 0.001;
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static const float PITCH_LIMIT_HIGH = M_PI*0.5 - 0.001;
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//////////////////////////////////////////////////
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OrbitViewController::OrbitViewController(UserCameraPtr _camera,
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const std::string &_name)
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: ViewController(_camera), distance(5.0f)
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{
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this->typeString = TYPE_STRING;
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this->init = false;
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// Create a visual that is used a reference point.
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this->refVisual.reset(new Visual(_name, this->camera->GetScene()));
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this->refVisual->Load();
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this->refVisual->AttachMesh("unit_sphere");
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this->refVisual->SetScale(math::Vector3(0.2, 0.2, 0.1));
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this->refVisual->SetCastShadows(false);
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this->refVisual->SetMaterial("Gazebo/YellowTransparent");
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this->refVisual->SetVisible(false);
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this->refVisual->SetVisibilityFlags(GZ_VISIBILITY_GUI);
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}
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//////////////////////////////////////////////////
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OrbitViewController::~OrbitViewController()
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{
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this->refVisual.reset();
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}
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//////////////////////////////////////////////////
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void OrbitViewController::Init(const math::Vector3 &_focalPoint,
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const double _yaw, const double _pitch)
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{
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this->yaw = _yaw;
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this->pitch = _pitch;
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this->focalPoint = _focalPoint.Ign();
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this->distance = this->camera->WorldPosition().Distance(
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this->focalPoint);
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this->init = true;
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}
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//////////////////////////////////////////////////
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void OrbitViewController::Init()
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{
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double dist = -1;
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ignition::math::Vector3d fp;
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// Try to get a point on a plane to use as the reference point
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int width = this->camera->ViewportWidth();
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int height = this->camera->ViewportHeight();
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if (this->camera->WorldPointOnPlane(width/2.0, height/2.0,
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ignition::math::Planed(ignition::math::Vector3d(0, 0, 1)), fp))
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{
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dist = this->camera->WorldPosition().Distance(fp);
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}
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// If the plane is too far away.
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if (dist < 0 || dist > 20 || math::isnan(dist))
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{
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// First, see if the camera is looking at the origin.
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ignition::math::Vector3d dir = this->camera->Direction();
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dir.Normalize();
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ignition::math::Vector3d origin(0, 0, 0);
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ignition::math::Vector3d cameraPos = this->camera->WorldPose().Pos();
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double distOrigin = cameraPos.Distance(origin);
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dist = origin.DistToLine(cameraPos, cameraPos + dir * distOrigin);
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if (ignition::math::equal(dist, 0.0, 1e-3))
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dist = distOrigin;
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else
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{
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// If camera is not looking at the origin, see if the camera's
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// direction projected on the ground plane interescts the origin.
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// Otherwise, choose a default distance of 10m for the focal point
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cameraPos.Z(0);
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distOrigin = cameraPos.Distance(origin);
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dist = origin.DistToLine(cameraPos, cameraPos + dir * distOrigin);
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if (ignition::math::equal(dist, 0.0, 1e-3))
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dist = distOrigin;
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else
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dist = 10;
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cameraPos = this->camera->WorldPose().Pos();
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}
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if (dist > 10)
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dist = 10.0;
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fp = cameraPos + dir * dist;
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}
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fp.Correct();
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this->Init(fp);
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}
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//////////////////////////////////////////////////
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void OrbitViewController::Update()
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{
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}
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//////////////////////////////////////////////////
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void OrbitViewController::HandleKeyPressEvent(const std::string &_key)
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{
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if (_key == "x" || _key == "y" || _key == "z")
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this->key = _key;
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}
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//////////////////////////////////////////////////
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void OrbitViewController::HandleKeyReleaseEvent(const std::string &_key)
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{
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if (_key == "x" || _key == "y" || _key == "z")
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this->key.clear();
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}
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//////////////////////////////////////////////////
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void OrbitViewController::HandleMouseEvent(const common::MouseEvent &_event)
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{
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if (!this->enabled)
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return;
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ignition::math::Vector2i drag = _event.Pos() - _event.PrevPos();
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ignition::math::Vector3d directionVec(0, 0, 0);
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int width = this->camera->ViewportWidth();
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int height = this->camera->ViewportHeight();
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// If the event is the initial press of a mouse button, then update
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// the focal point and distance.
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if (_event.PressPos() == _event.Pos())
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{
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if (!this->camera->GetScene()->FirstContact(
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this->camera, _event.PressPos(), this->focalPoint))
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{
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ignition::math::Vector3d origin, dir;
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this->camera->CameraToViewportRay(
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_event.PressPos().X(), _event.PressPos().Y(), origin, dir);
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this->focalPoint = origin + dir * 10.0;
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}
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this->distance = this->camera->WorldPose().Pos().Distance(
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this->focalPoint);
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this->yaw = this->camera->WorldRotation().Euler().Z();
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this->pitch = this->camera->WorldRotation().Euler().Y();
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}
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// Turn on the reference visual.
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this->refVisual->SetVisible(true);
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// Middle mouse button or Shift + Left button is used to Orbit.
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if (_event.Dragging() &&
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(_event.Buttons() & common::MouseEvent::MIDDLE ||
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(_event.Buttons() & common::MouseEvent::LEFT && _event.Shift())))
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{
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// Compute the delta yaw and pitch.
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double dy = this->NormalizeYaw(drag.X() * _event.MoveScale() * -0.4);
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double dp = this->NormalizePitch(drag.Y() * _event.MoveScale() * 0.4);
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// Limit rotation to pitch only if the "y" key is pressed.
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if (!this->key.empty() && this->key == "y")
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dy = 0.0;
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// Limit rotation to yaw if the "z" key is pressed.
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else if (!this->key.empty() && this->key == "z")
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dp = 0.0;
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this->Orbit(dy, dp);
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}
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// The left mouse button is used to translate the camera.
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else if ((_event.Buttons() & common::MouseEvent::LEFT) && _event.Dragging())
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{
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this->distance =
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this->camera->WorldPose().Pos().Distance(this->focalPoint);
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double fovY = this->camera->VFOV().Radian();
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double fovX = 2.0f * atan(tan(fovY / 2.0f) *
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this->camera->AspectRatio());
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ignition::math::Vector3d translation;
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double factor = 2.0;
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// The control key increases zoom speed by a factor of two.
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if (_event.Control())
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factor *= 2.0;
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// If the "x", "y", or "z" key is pressed, then lock translation to the
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// indicated axis.
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if (!this->key.empty())
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{
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if (this->key == "x")
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translation.Set((drag.Y() / static_cast<float>(height)) *
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this->distance * tan(fovY / 2.0) * factor, 0.0, 0.0);
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else if (this->key == "y")
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translation.Set(0.0, (drag.X() / static_cast<float>(width)) *
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this->distance * tan(fovX / 2.0) * factor, 0.0);
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else if (this->key == "z")
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translation.Set(0.0, 0.0, (drag.Y() / static_cast<float>(height)) *
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this->distance * tan(fovY / 2.0) * factor);
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else
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gzerr << "Unable to handle key [" << this->key << "] in orbit view "
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<< "controller.\n";
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// Translate in the global coordinate frame
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this->TranslateGlobal(translation);
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}
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else
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{
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// Translate in the "y" "z" plane.
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translation.Set(0.0,
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(drag.X() / static_cast<float>(width)) *
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this->distance * tan(fovX / 2.0) * factor,
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(drag.Y() / static_cast<float>(height)) *
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this->distance * tan(fovY / 2.0) * factor);
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// Translate in the local coordinate frame
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this->TranslateLocal(translation);
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}
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}
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// The right mouse button is used to zoom the camera.
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else if ((_event.Buttons() & common::MouseEvent::RIGHT) && _event.Dragging())
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{
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double fovY = this->camera->VFOV().Radian();
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this->Zoom((-drag.Y() / static_cast<float>(height)) *
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this->distance * tan(fovY / 2.0) * 6.0);
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}
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// The scroll wheel controls zoom.
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else if (_event.Type() == common::MouseEvent::SCROLL)
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{
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if (!this->camera->GetScene()->FirstContact(
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this->camera, _event.Pos(), this->focalPoint))
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{
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ignition::math::Vector3d origin, dir;
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this->camera->CameraToViewportRay(
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_event.Pos().X(), _event.Pos().Y(), origin, dir);
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this->focalPoint = origin + dir * 10.0;
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}
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this->distance = this->camera->WorldPose().Pos().Distance(
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this->focalPoint);
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int factor = 80;
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// The control key increases zoom speed by a factor of two.
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if (_event.Control())
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factor *= 2;
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// This assumes that _event.scroll.y is -1 or +1
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this->Zoom(-(_event.Scroll().Y() * factor) * _event.MoveScale() *
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(this->distance / 5.0));
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}
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else
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this->refVisual->SetVisible(false);
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}
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//////////////////////////////////////////////////
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void OrbitViewController::TranslateLocal(const math::Vector3 &_vec)
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{
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this->camera->SetWorldPosition(
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this->camera->WorldPose().Pos() +
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this->camera->WorldPose().Rot() * _vec.Ign());
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this->UpdateRefVisual();
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}
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//////////////////////////////////////////////////
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void OrbitViewController::TranslateGlobal(const math::Vector3 &_vec)
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{
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this->camera->SetWorldPosition(
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this->camera->WorldPose().Pos() + _vec.Ign());
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this->UpdateRefVisual();
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}
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//////////////////////////////////////////////////
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void OrbitViewController::SetDistance(float _d)
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{
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this->distance = _d;
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}
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//////////////////////////////////////////////////
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void OrbitViewController::SetFocalPoint(const math::Vector3 &_fp)
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{
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this->focalPoint = _fp.Ign();
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this->refVisual->SetPosition(this->focalPoint);
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}
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//////////////////////////////////////////////////
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math::Vector3 OrbitViewController::GetFocalPoint() const
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{
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return this->focalPoint;
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}
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//////////////////////////////////////////////////
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double OrbitViewController::NormalizeYaw(double _v)
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{
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_v = fmod(_v, M_PI*2);
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if (_v < 0.0f)
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{
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_v = M_PI * 2 + _v;
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}
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return _v;
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}
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//////////////////////////////////////////////////
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double OrbitViewController::NormalizePitch(double _v)
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{
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if (_v < PITCH_LIMIT_LOW)
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_v = PITCH_LIMIT_LOW;
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else if (_v > PITCH_LIMIT_HIGH)
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_v = PITCH_LIMIT_HIGH;
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return _v;
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}
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//////////////////////////////////////////////////
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void OrbitViewController::Zoom(float _amount)
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{
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this->distance -= _amount;
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ignition::math::Vector3d delta = this->camera->WorldPosition() -
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this->focalPoint;
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delta.Normalize();
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delta *= this->distance;
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this->camera->SetWorldPosition(this->focalPoint + delta);
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this->UpdateRefVisual();
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}
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//////////////////////////////////////////////////
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std::string OrbitViewController::GetTypeString()
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{
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return TYPE_STRING;
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}
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//////////////////////////////////////////////////
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void OrbitViewController::UpdateRefVisual()
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{
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// Update the pose of the reference visual
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this->refVisual->SetPosition(this->focalPoint);
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// Update the size of the referenve visual based on the distance to the
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// focal point.
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double scale = this->distance * atan(GZ_DTOR(1.0));
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this->refVisual->SetScale(math::Vector3(scale, scale, scale * 0.5));
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}
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/////////////////////////////////////////////////
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void OrbitViewController::Orbit(double _dy, double _dp)
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{
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Ogre::SceneNode *cameraNode = this->camera->SceneNode();
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Ogre::Node *parentNode = cameraNode->getParent();
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Ogre::Vector3 pos = cameraNode->_getDerivedPosition();
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// First detach the camera from it's parent. We need to do this in order
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// to attach the camera to the reference visual
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if (parentNode)
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parentNode->removeChild(cameraNode);
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// Add the camera node to to the reference visual, and update the
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// reference visual's position.
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this->refVisual->GetSceneNode()->addChild(this->camera->SceneNode());
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this->refVisual->SetPosition(this->focalPoint);
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// Move the camera to it's starting location. Now we can rotate the
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// reference visual, which in turns rotates the camera.
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cameraNode->_setDerivedPosition(pos);
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cameraNode->setOrientation(Ogre::Quaternion());
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// Rotate and update the reference visual.
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this->yaw = this->NormalizeYaw(this->yaw + _dy);
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this->pitch = this->NormalizePitch(this->pitch + _dp);
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this->refVisual->SetRotation(math::Quaternion(0, this->pitch, this->yaw));
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// Get the final position of the camera. Special case when the orbit view
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// camera has just been initialized.
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if (!this->init)
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pos = cameraNode->_getDerivedPosition();
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// Store the new location of the camera
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Ogre::Quaternion rot = cameraNode->_getDerivedOrientation();
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// Detach the camera from the reference visual.
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this->refVisual->GetSceneNode()->removeChild(cameraNode);
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// Reattach the camera to the reference visual.
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if (parentNode)
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{
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parentNode->addChild(cameraNode);
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cameraNode->_setDerivedPosition(pos);
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this->camera->SetWorldRotation(Conversions::ConvertIgn(rot));
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}
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this->init = false;
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this->UpdateRefVisual();
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}
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/////////////////////////////////////////////////
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double OrbitViewController::Yaw() const
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{
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return this->yaw;
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}
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/////////////////////////////////////////////////
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double OrbitViewController::Pitch() const
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{
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return this->pitch;
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}
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