e81df0df1f
Changed definition in config_cmake.in means #ifdef is no longer a valid test; use #if instead.
349 lines
11 KiB
C++
349 lines
11 KiB
C++
// Viewer.hxx -- alternative flightgear viewer application
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//
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// Copyright (C) 2009 - 2012 Mathias Froehlich
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//
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// This program is free software; you can redistribute it and/or
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// modify it under the terms of the GNU General Public License as
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// published by the Free Software Foundation; either version 2 of the
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// License, or (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful, but
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// WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with this program; if not, write to the Free Software
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// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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#ifdef HAVE_CONFIG_H
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#include <config.h>
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#endif
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#include "SlaveCamera.hxx"
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#include <simgear/scene/util/OsgMath.hxx>
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#include "Viewer.hxx"
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#if FG_HAVE_HLA
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#include "HLAViewerFederate.hxx"
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#include "HLAPerspectiveViewer.hxx"
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#endif
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namespace fgviewer {
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class NoUpdateCallback : public osg::NodeCallback {
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public:
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virtual ~NoUpdateCallback()
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{ }
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virtual void operator()(osg::Node* node, osg::NodeVisitor* nodeVisitor)
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{ }
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};
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SlaveCamera::SlaveCamera(const std::string& name) :
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_name(name),
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_viewport(new osg::Viewport())
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{
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_referencePointMap["lowerLeft"] = osg::Vec2(-1, -1);
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_referencePointMap["lowerRight"] = osg::Vec2(1, -1);
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_referencePointMap["upperRight"] = osg::Vec2(1, 1);
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_referencePointMap["upperLeft"] = osg::Vec2(-1, 1);
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}
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SlaveCamera::~SlaveCamera()
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{
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}
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bool
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SlaveCamera::setDrawableName(const std::string& drawableName)
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{
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if (_camera.valid())
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return false;
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_drawableName = drawableName;
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return true;
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}
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bool
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SlaveCamera::setViewport(const SGVec4i& viewport)
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{
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_viewport->setViewport(viewport[0], viewport[1], viewport[2], viewport[3]);
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_frustum.setAspectRatio(getAspectRatio());
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return true;
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}
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bool
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SlaveCamera::setViewOffset(const osg::Matrix& viewOffset)
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{
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_viewOffset = viewOffset;
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return true;
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}
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bool
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SlaveCamera::setViewOffsetDeg(double headingDeg, double pitchDeg, double rollDeg)
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{
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osg::Matrix viewOffset = osg::Matrix::identity();
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viewOffset.postMultRotate(osg::Quat(SGMiscd::deg2rad(headingDeg), osg::Vec3(0, 1, 0)));
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viewOffset.postMultRotate(osg::Quat(SGMiscd::deg2rad(pitchDeg), osg::Vec3(-1, 0, 0)));
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viewOffset.postMultRotate(osg::Quat(SGMiscd::deg2rad(rollDeg), osg::Vec3(0, 0, 1)));
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return setViewOffset(viewOffset);
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}
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bool
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SlaveCamera::setFrustum(const Frustum& frustum)
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{
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_frustum = frustum;
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return true;
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}
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void
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SlaveCamera::setFustumByFieldOfViewDeg(double fieldOfViewDeg)
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{
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Frustum frustum(getAspectRatio());
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frustum.setFieldOfViewDeg(fieldOfViewDeg);
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setFrustum(frustum);
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}
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bool
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SlaveCamera::setRelativeFrustum(const std::string names[2], const SlaveCamera& referenceCameraData,
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const std::string referenceNames[2])
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{
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// Track the way from one projection space to the other:
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// We want
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// P = T2*S*T*P0
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// where P0 is the projection template sensible for the given window size,
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// S a scale matrix and T is a translation matrix.
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// We need to determine T and S so that the reference points in the parents
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// projection space match the two reference points in this cameras projection space.
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// Starting from the parents camera projection space, we get into this cameras
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// projection space by the transform matrix:
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// P*R*inv(pP*pR) = T2*S*T*P0*R*inv(pP*pR)
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// So, at first compute that matrix without T2*S*T and determine S and T* from that
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// The initial projeciton matrix to build upon
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osg::Matrix P = Frustum(getAspectRatio()).getMatrix();
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osg::Matrix R = getViewOffset();
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osg::Matrix pP = referenceCameraData.getFrustum().getMatrix();
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osg::Matrix pR = referenceCameraData.getViewOffset();
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// Transform from the reference cameras projection space into this cameras eye space.
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osg::Matrix pPtoEye = osg::Matrix::inverse(pR*pP)*R;
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osg::Vec2 pRef[2] = {
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referenceCameraData.getProjectionReferencePoint(referenceNames[0]),
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referenceCameraData.getProjectionReferencePoint(referenceNames[1])
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};
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// The first reference point transformed to this cameras projection space
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osg::Vec3d pRefInThis0 = P.preMult(pPtoEye.preMult(osg::Vec3d(pRef[0], 1)));
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// Translate this proejction matrix so that the first reference point is at the origin
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P.postMultTranslate(-pRefInThis0);
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// Transform the second reference point and get the scaling correct.
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osg::Vec3d pRefInThis1 = P.preMult(pPtoEye.preMult(osg::Vec3d(pRef[1], 1)));
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double s = osg::Vec2d(pRefInThis1[0], pRefInThis1[1]).length();
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if (s <= std::numeric_limits<double>::min())
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return false;
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osg::Vec2 ref[2] = {
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getProjectionReferencePoint(names[0]),
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getProjectionReferencePoint(names[1])
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};
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s = (ref[0] - ref[1]).length()/s;
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P.postMultScale(osg::Vec3d(s, s, 1));
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// The first reference point still maps to the origin in this projection space.
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// Translate the origin to the desired first reference point.
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P.postMultTranslate(osg::Vec3d(ref[0], 1));
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// Now osg::Matrix::inverse(pR*pP)*R*P should map pRef[i] exactly onto ref[i] for i = 0, 1.
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// Note that osg::Matrix::inverse(pR*pP)*R*P should exactly map pRef[0] at the near plane
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// to ref[0] at the near plane. The far plane is not taken care of.
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Frustum frustum;
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if (!frustum.setMatrix(P))
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return false;
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return setFrustum(frustum);
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}
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void
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SlaveCamera::setProjectionReferencePoint(const std::string& name, const osg::Vec2& point)
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{
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_referencePointMap[name] = point;
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}
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osg::Vec2
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SlaveCamera::getProjectionReferencePoint(const std::string& name) const
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{
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NameReferencePointMap::const_iterator i = _referencePointMap.find(name);
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if (i != _referencePointMap.end())
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return i->second;
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return osg::Vec2(0, 0);
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}
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void
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SlaveCamera::setMonitorProjectionReferences(double width, double height,
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double bezelTop, double bezelBottom,
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double bezelLeft, double bezelRight)
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{
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double left = 1 + 2*bezelLeft/width;
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double right = 1 + 2*bezelRight/width;
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double bottom = 1 + 2*bezelBottom/height;
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double top = 1 + 2*bezelTop/height;
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setProjectionReferencePoint("lowerLeft", osg::Vec2(-left, -bottom));
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setProjectionReferencePoint("lowerRight", osg::Vec2(right, -bottom));
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setProjectionReferencePoint("upperRight", osg::Vec2(right, top));
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setProjectionReferencePoint("upperLeft", osg::Vec2(-left, top));
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}
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osg::Vec3
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SlaveCamera::getLeftEyeOffset(const Viewer& viewer) const
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{
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#if FG_HAVE_HLA
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const HLAViewerFederate* viewerFederate = viewer.getViewerFederate();
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if (!viewerFederate)
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return osg::Vec3(0, 0, 0);
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const HLAPerspectiveViewer* perspectiveViewer = viewerFederate->getViewer();
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if (!perspectiveViewer)
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return osg::Vec3(0, 0, 0);
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return toOsg(perspectiveViewer->getLeftEyeOffset());
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#else
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return osg::Vec3(0, 0, 0);
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#endif
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}
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osg::Vec3
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SlaveCamera::getRightEyeOffset(const Viewer& viewer) const
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{
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#if FG_HAVE_HLA
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const HLAViewerFederate* viewerFederate = viewer.getViewerFederate();
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if (!viewerFederate)
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return osg::Vec3(0, 0, 0);
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const HLAPerspectiveViewer* perspectiveViewer = viewerFederate->getViewer();
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if (!perspectiveViewer)
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return osg::Vec3(0, 0, 0);
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return toOsg(perspectiveViewer->getRightEyeOffset());
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#else
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return osg::Vec3(0, 0, 0);
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#endif
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}
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double
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SlaveCamera::getZoomFactor(const Viewer& viewer) const
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{
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#if FG_HAVE_HLA
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const HLAViewerFederate* viewerFederate = viewer.getViewerFederate();
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if (!viewerFederate)
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return 1;
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const HLAPerspectiveViewer* perspectiveViewer = viewerFederate->getViewer();
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if (!perspectiveViewer)
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return 1;
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return perspectiveViewer->getZoomFactor();
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#else
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return 1;
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#endif
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}
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osg::Matrix
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SlaveCamera::getEffectiveViewOffset(const Viewer& viewer) const
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{
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// The eye offset in the master cameras coordinates.
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osg::Vec3 eyeOffset = getLeftEyeOffset(viewer);
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// Transform the eye offset into this slaves coordinates
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eyeOffset = eyeOffset*getViewOffset();
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// The slaves view matrix is composed of the master matrix
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osg::Matrix viewOffset = viewer.getCamera()->getViewMatrix();
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// ... its view offset ...
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viewOffset.postMult(getViewOffset());
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// ... and the inverse of the eye offset that is required
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// to keep the world at the same position wrt the projection walls
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viewOffset.postMultTranslate(-eyeOffset);
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return viewOffset;
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}
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Frustum
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SlaveCamera::getEffectiveFrustum(const Viewer& viewer) const
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{
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// The eye offset in the master cameras coordinates.
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osg::Vec3 eyeOffset = getLeftEyeOffset(viewer);
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// Transform the eye offset into this slaves coordinates
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eyeOffset = eyeOffset*getViewOffset();
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/// FIXME read that from external
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osg::Vec3 zoomScaleCenter(0, 0, -1);
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double zoomFactor = getZoomFactor(viewer);
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/// Transform into the local cameras orientation.
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zoomScaleCenter = getViewOffset().preMult(zoomScaleCenter);
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// The unmodified frustum
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Frustum frustum = getFrustum();
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// For unresized views this is a noop
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frustum.setAspectRatio(getAspectRatio());
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// need to correct this for the eye position within the projection system
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frustum.translate(-eyeOffset);
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// Scale the whole geometric extent of the projection surfaces by the zoom factor
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frustum.scale(1/zoomFactor, zoomScaleCenter);
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return frustum;
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}
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bool
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SlaveCamera::realize(Viewer& viewer)
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{
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if (_camera.valid())
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return false;
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_camera = _realizeImplementation(viewer);
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return _camera.valid();
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}
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bool
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SlaveCamera::update(Viewer& viewer)
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{
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return _updateImplementation(viewer);
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}
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osg::Camera*
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SlaveCamera::_realizeImplementation(Viewer& viewer)
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{
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Drawable* drawable = viewer.getDrawable(_drawableName);
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if (!drawable)
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return 0;
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osg::GraphicsContext* graphicsContext = drawable->getGraphicsContext();
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if (!graphicsContext)
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return 0;
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osg::Camera* camera = new osg::Camera;
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camera->setName(getName());
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camera->setGraphicsContext(graphicsContext);
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camera->setViewport(_viewport.get());
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camera->setReferenceFrame(osg::Camera::ABSOLUTE_RF);
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// Not seriously consider someting different
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camera->setDrawBuffer(GL_BACK);
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camera->setReadBuffer(GL_BACK);
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camera->setUpdateCallback(new NoUpdateCallback);
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return camera;
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}
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bool
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SlaveCamera::_updateImplementation(Viewer& viewer)
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{
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if (!_camera.valid())
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return false;
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return true;
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}
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} // namespace fgviewer
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