From 47d455dd55be855e4cc691c32f687f723d9247ee Mon Sep 17 00:00:00 2001 From: toma Date: Wed, 25 Nov 2009 17:56:58 +0000 Subject: Copy the KDE 3.5 branch to branches/trinity for new KDE 3.5 features. BUG:215923 git-svn-id: svn://anonsvn.kde.org/home/kde/branches/trinity/kdegraphics@1054174 283d02a7-25f6-0310-bc7c-ecb5cbfe19da --- kpovmodeler/pmrendermanager.cpp | 1647 +++++++++++++++++++++++++++++++++++++++ 1 file changed, 1647 insertions(+) create mode 100644 kpovmodeler/pmrendermanager.cpp (limited to 'kpovmodeler/pmrendermanager.cpp') diff --git a/kpovmodeler/pmrendermanager.cpp b/kpovmodeler/pmrendermanager.cpp new file mode 100644 index 00000000..664f0fd9 --- /dev/null +++ b/kpovmodeler/pmrendermanager.cpp @@ -0,0 +1,1647 @@ +/* +************************************************************************** + description + -------------------- + copyright : (C) 2000-2002 by Andreas Zehender + email : zehender@kde.org +************************************************************************** + +************************************************************************** +* * +* This program is free software; you can redistribute it and/or modify * +* it under the terms of the GNU General Public License as published by * +* the Free Software Foundation; either version 2 of the License, or * +* (at your option) any later version. * +* * +**************************************************************************/ + +// conflicting types for INT32 in qt and glx +#ifndef QT_CLEAN_NAMESPACE +#define QT_CLEAN_NAMESPACE +#endif + +#include "pmrendermanager.h" +#include "pmviewstructure.h" +#include "pmobject.h" +#include "pmdeclare.h" +#include "pmcamera.h" +#include "pmquickcolor.h" +#include "pmdefaults.h" +#include "pmgraphicalobject.h" +#include "pmmath.h" + +#include +#include +#include +#include +#include +#include +#include + +#include +#include +#include + +#include +#include +#include // Only needed for gluPerspective + +#include "pmglview.h" + +const GLdouble dA = 0.75; +const GLdouble dB = 0.15; + +const GLdouble viewVolumeZ = 1e5; + +// Size has to be controlPointSize (see pmglview.h) +const GLubyte PointBitmap[7] = { 0xFE, 0xFE, 0xFE, 0xFE, 0xFE, 0xFE, 0xFE }; +const GLubyte CrossBitmap[7] = { 0x10, 0x10, 0x10, 0xFE, 0x10, 0x10, 0x10 }; + + +const int activeTimeAfterRendering = 2; +const int maxEventTime = 0; +const int maxSubdivisions = 32; +const double subdivisionDistance = 0.05; + + +PMRenderManager* PMRenderManager::s_pManager = 0; +KStaticDeleter PMRenderManager::s_staticDeleter; + +bool PMRenderManager::s_hasOpenGL = true; +bool PMRenderManager::s_hasOpenGLChecked = false; + +PMRenderManager* PMRenderManager::theManager( ) +{ + if( !s_pManager ) + s_staticDeleter.setObject( s_pManager, new PMRenderManager( ) ); + return s_pManager; +} + +PMRenderManager::PMRenderManager( ) + : QObject( qApp ) +{ + int i; + + m_bStartTask = false; + m_bStopTask = false; + m_bTaskIsRunning = false; + + m_graphicalObjectColor[0] = c_defaultGraphicalObjectColor0; + m_graphicalObjectColor[1] = c_defaultGraphicalObjectColor1; + m_textureColor[0] = c_defaultTextureColor0; + m_textureColor[1] = c_defaultTextureColor1; + m_axesColor[0] = c_defaultAxesColorX; + m_axesColor[1] = c_defaultAxesColorY; + m_axesColor[2] = c_defaultAxesColorZ; + m_controlPointColor[0] = c_defaultControlPointColor0; + m_controlPointColor[1] = c_defaultControlPointColor1; + m_backgroundColor = c_defaultBackgroundColor; + m_fieldOfViewColor = c_defaultFieldOfViewColor; + m_highDetailCameraView = c_defaultHighDetailCameraView; + m_nMaxRenderedLines = 1000; + m_gridDistance = c_defaultGridDistance; + m_gridColor = c_defaultGridColor; + m_axesViewStructureCreated = false; + m_currentVisibility = 0; + + m_renderTasks.setAutoDelete( true ); + m_matrixStack.setAutoDelete( true ); + m_quickColors.setAutoDelete( true ); + + m_nViews = 0; + + m_subdivisionViewStructure = PMViewStructure( maxSubdivisions + 1, + maxSubdivisions ); + PMLineArray& lines = m_subdivisionViewStructure.lines( ); + for( i = 0; i < maxSubdivisions; i++ ) + lines[i] = PMLine( i, i+1 ); +} + +PMRenderManager::~PMRenderManager( ) +{ + s_pManager = 0; +} + +void PMRenderManager::addView( PMGLView* view, PMObject* active, PMObject* top, + PMControlPointList* controlPoints, + double aspectRatio, int visibilityLevel, + bool graphicalChange ) +{ + PMRenderTaskListIterator it( m_renderTasks ); + PMRenderTask* task = 0; + bool restart = false; + bool first = true; + + for( ; it.current( ) && !task; ++it ) + { + if( it.current( )->view( ) == view ) + task = it.current( ); + else + first = false; + } + + if( task ) + { + if( first ) + restart = true; + else if( graphicalChange ) + { + m_renderTasks.findRef( task ); + m_renderTasks.take( ); + m_renderTasks.prepend( task ); + restart = true; + } + task->setActiveObject( active ); + task->setTopLevelObject( top ); + task->setControlPoints( controlPoints ); + task->setAspectRatio( aspectRatio ); + task->setVisibilityLevel( visibilityLevel ); + } + else + { + task = new PMRenderTask( view, active, top, controlPoints, aspectRatio, + visibilityLevel ); + if( graphicalChange ) + { + m_renderTasks.prepend( task ); + restart = true; + } + else + { + m_renderTasks.append( task ); + if( m_renderTasks.count( ) == 1 ) + restart = true; + } + } + if( restart ) + restartRendering( ); +} + +void PMRenderManager::removeView( PMGLView* view ) +{ + PMRenderTaskListIterator it( m_renderTasks ); + PMRenderTask* task = 0; + bool restart = false; + + for( ; it.current( ) && !task; ++it ) + if( it.current( )->view( ) == view ) + task = it.current( ); + + if( task ) + { + if( task == m_renderTasks.first( ) ) + { + restart = true; + if( m_bTaskIsRunning ) + emit renderingFinished( task->view( ) ); + } + m_renderTasks.removeRef( task ); + } + + if( restart ) + restartRendering( ); +} + +bool PMRenderManager::containsTask( PMGLView* view ) const +{ + PMRenderTaskListIterator it( m_renderTasks ); + bool contains = false; + + for( ; it.current( ) && !contains; ++it ) + if( it.current( )->view( ) == view ) + contains = true; + return contains; +} + +QColor PMRenderManager::controlPointColor( int i ) const +{ + if( ( i >= 0 ) && ( i <= 1 ) ) + return m_controlPointColor[i]; + return QColor( 0, 0, 0 ); +} + +void PMRenderManager::setControlPointColor( int i, const QColor& c ) +{ + if( ( i >= 0 ) && ( i <= 1 ) ) + m_controlPointColor[i] = c; +} + +QColor PMRenderManager::graphicalObjectColor( int i ) const +{ + if( ( i >= 0 ) && ( i <= 1 ) ) + return m_graphicalObjectColor[i]; + return QColor( 0, 0, 0 ); +} + +void PMRenderManager::setGraphicalObjectColor( int i, const QColor& c ) +{ + if( ( i >= 0 ) && ( i <= 1 ) ) + m_graphicalObjectColor[i] = c; +} + +QColor PMRenderManager::axesColor( int i ) const +{ + if( ( i >= 0 ) && ( i <= 2 ) ) + return m_axesColor[i]; + return QColor( 0, 0, 0 ); +} + +void PMRenderManager::setAxesColor( int i, const QColor& c ) +{ + if( ( i >= 0 ) && ( i <= 2 ) ) + m_axesColor[i] = c; +} + +void PMRenderManager::setGridDistance( int d ) +{ + if( d >= 20 ) + m_gridDistance = d; +} + +void PMRenderManager::restartRendering( ) +{ + if( !m_bTaskIsRunning && !m_bStartTask ) + startTimer( 0 ); + + m_bStartTask = true; + m_bStopTask = false; +} + +void PMRenderManager::slotStopRendering( ) +{ + m_bStopTask = true; + m_bStartTask = false; + + if( m_bTaskIsRunning ) + if( m_pCurrentTask ) + emit renderingFinished( m_pCurrentTask->view( ) ); + m_renderTasks.clear( ); +} + +void PMRenderManager::timerEvent( QTimerEvent* ) +{ + killTimers( ); + renderTask( ); +} + +void PMRenderManager::renderTask( ) +{ + m_bTaskIsRunning = true; + emit renderingStarted( ); + + int r, g, b; + bool disableView = false; + + while( m_bStartTask && !m_bStopTask ) + { + m_bStartTask = false; + + // render the views sequential + while( m_renderTasks.first( ) && !m_bStopTask && !m_bStartTask ) + { + // reset the member variables for rendering + m_pCurrentTask = m_renderTasks.first( ); + m_pCurrentGlView = m_pCurrentTask->view( ); + emit renderingStarted( m_pCurrentGlView ); + + m_renderedLines = 0; + m_selected = false; + m_pDeselectObject = 0; + m_matrixStack.clear( ); + m_quickColorObjects.clear( ); + m_quickColors.clear( ); + m_currentColor = m_graphicalObjectColor[0]; + m_specialCameraMode = false; + m_currentVisibility = 0; + m_visibilityStack.clear( ); + + if( m_bStopTask || m_bStartTask ) + break; + m_pCurrentGlView->makeCurrent( ); + + m_backgroundColor.rgb( &r, &g, &b ); + glClearColor( r/255.0, g/255.0, b/255.0, 1.0 ); + glPointSize( controlPointSize ); + glEnable( GL_DEPTH_TEST ); + glPixelStorei( GL_UNPACK_ALIGNMENT, 1 ); + + glViewport( 0, 0, ( GLint ) m_pCurrentGlView->width( ), + ( GLint ) m_pCurrentGlView->height( ) ); + glClear( GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT ); + + disableView = false; + if( m_pCurrentGlView->type( ) == PMGLView::PMViewCamera ) + { + if( m_pCurrentGlView->camera( ) ) + { + if( m_pCurrentGlView->camera( )->cameraType( ) + == PMCamera::Omnimax ) + disableView = true; + } + else + disableView = true; + } + + if( !disableView ) + setProjection( ); + + glLoadIdentity( ); + + glDisable( GL_DEPTH_TEST ); + if( m_pCurrentGlView->type( ) == PMGLView::PMViewCamera ) + renderFieldOfView( ); + else + renderGrid( ); + renderDescription( ); + glEnable( GL_DEPTH_TEST ); + + if( !disableView ) + { + renderAxes( ); + + renderObject( m_pCurrentTask->topLevelObject( ) ); + if( !m_bStopTask && ! m_bStartTask ) + renderControlPoints( ); + } + + if( !m_bStopTask && ! m_bStartTask ) + { + glXWaitX( ); + emit aboutToUpdate( m_pCurrentGlView ); + if( m_bStopTask || m_bStartTask ) + break; + glXWaitX( ); + m_pCurrentGlView->swapBuffers( ); + glFinish( ); + glXWaitGL( ); + emit renderingFinished( m_pCurrentGlView ); + if( m_bStopTask || m_bStartTask ) + break; + qApp->processEvents( maxEventTime ); + if( m_bStopTask || m_bStartTask ) + break; + m_renderTasks.removeFirst( ); + } + } + } + + emit renderingFinished( ); + + m_bStopTask = false; + m_bStartTask = false; + m_bTaskIsRunning = false; +} + +void PMRenderManager::renderObject( PMObject* objectToRender ) +{ + bool children = false; + PMGraphicalObject* go = 0; + + m_objectToRenderStack.append( objectToRender ); + + if( objectToRender->isA( "GraphicalObject" ) ) + { + go = ( PMGraphicalObject* ) objectToRender; + m_visibilityStack.push( m_currentVisibility ); + if( go->isVisibilityLevelRelative( ) ) + m_currentVisibility += go->visibilityLevel( ); + else + m_currentVisibility = go->visibilityLevel( ); + } + + if( !m_selected ) + { + if( objectToRender->isSelected( ) ) + { + m_selected = true; + m_pDeselectObject = objectToRender; + if( objectToRender->hasTransformationMatrix( ) ) + if( objectToRender->parent( ) ) + m_pDeselectObject = objectToRender->parent( ); + } + } + + if( ( m_pCurrentGlView->type( ) != PMGLView::PMViewCamera ) + || ( objectToRender != ( PMObject* ) ( m_pCurrentGlView->camera( ) ) ) ) + { + PMObject* obj = 0; + + children = objectToRender->lastChild( ) || objectToRender->linkedObject( ); + if( children ) + { + bool stop; + + PMMatrix* matrix; + if( m_specialCameraMode ) + matrix = new PMMatrix( m_viewTransformation ); + else + matrix = new PMMatrix( PMMatrix::modelviewMatrix( ) ); + m_matrixStack.push( matrix ); + + // render the children and the linked object + obj = objectToRender->lastChild( ); + while( obj && !m_bStopTask && !m_bStartTask ) + { + if( !obj->isA( "Declare" ) ) + renderObject( obj ); + if( !m_bStopTask && !m_bStartTask ) + { + do + { + // Do not render declares + obj = obj->prevSibling( ); + if( !obj ) + stop = true; + else + stop = !obj->isA( "Declare" ); + } + while( !stop ); + } + } + if( !m_bStopTask && !m_bStartTask ) + { + obj = objectToRender->linkedObject( ); + if( obj ) + renderObject( obj ); + } + } + + + if( !m_bStopTask && !m_bStartTask ) + { + // children of the object are rendered + // render the object + + if( objectToRender == m_pCurrentTask->activeObject( ) ) + { + if( m_specialCameraMode ) + m_controlPointTransformation = m_viewTransformation; + else + m_controlPointTransformation = PMMatrix::modelviewMatrix( ); + } + + if( objectToRender->type( ) == "QuickColor" ) + { + PMQuickColor* qc = ( PMQuickColor* ) objectToRender; + PMObjectListIterator it( m_objectToRenderStack ); + bool pofound = false; + it.toLast( ); + + while( it.current( ) && !pofound ) + { + if( it.current( )->isA( "GraphicalObject" ) ) + pofound = true; + else + --it; + } + if( pofound ) + { + if( m_quickColorObjects.top( ) != it.current( ) ) + { + m_quickColorObjects.push( it.current( ) ); + m_quickColors.push( new QColor( m_currentColor ) ); + m_currentColor = qc->color( ).toQColor( ); + } + } + } + + PMViewStructure* vs = objectToRender->viewStructure( ); + if( objectToRender->hasTransformationMatrix( ) || vs ) + { + // object has transformation or view structure + if( vs ) + { + if( ( m_currentVisibility <= m_pCurrentTask->visibilityLevel( ) ) + || ( objectToRender == m_pCurrentTask->activeObject( ) ) ) + { + // render the view structure. + // call qApp->processEvents( ) each m_nMaxRenderedLines rendered + // lines + if( m_selected ) + setGLColor( m_graphicalObjectColor[ 1 ] ); + else + setGLColor( m_currentColor ); + + renderViewStructure( *vs ); + } + } + else if( objectToRender->hasTransformationMatrix( ) ) + { + if( m_specialCameraMode ) + m_viewTransformation = m_viewTransformation * objectToRender->transformationMatrix( ); + else + glMultMatrixd( objectToRender->transformationMatrix( ).data( ) ); + } + } + // end rendering + } + } + if( !m_bStopTask && !m_bStartTask ) + { + if( children ) + { + PMMatrix* matrix = m_matrixStack.pop( ); + + if( matrix ) + { + if( m_specialCameraMode ) + m_viewTransformation = (*matrix); + else + glLoadMatrixd( matrix->data( ) ); + delete matrix; + matrix = 0; + } + } + if( m_selected ) + { + if( m_pDeselectObject == objectToRender ) + { + m_selected = false; + m_pDeselectObject = 0; + } + } + if( m_quickColorObjects.top( ) == objectToRender ) + { + m_quickColorObjects.pop( ); + QColor* col = m_quickColors.pop( ); + if( col ) + { + m_currentColor = *col; + delete col; + col = 0; + } + } + } + + if( go ) + m_currentVisibility = m_visibilityStack.pop( ); + + m_objectToRenderStack.removeLast( ); +} + +void PMRenderManager::renderViewStructure( PMViewStructure& vs ) +{ + if( m_specialCameraMode ) + { + PMPointArray points = vs.points( ); + points.detach( ); + transformProjection( points.data( ), points.size( ), + m_pCurrentGlView->camera( ) ); + + if( m_highDetailCameraView ) + { + // subdivide line + PMLineArray& lines = vs.lines( ); + PMPointArray& utPoints = vs.points( ); + int numLines = lines.size( ); + PMPointArray& sdPoints = m_subdivisionViewStructure.points( ); + PMLineArray& sdLines = m_subdivisionViewStructure.lines( ); + int i, li, sd; + double distance; + PMPoint start, end, dir; + + for( i = 0; ( i < numLines ) && !m_bStopTask && !m_bStartTask; i++ ) + { + // calculate screen distance + start = points[lines[i].startPoint( )]; + end = points[lines[i].endPoint( )]; + dir[0] = ( end[0] - start[0] ) / m_anglex; + dir[1] = ( end[1] - start[1] ) / m_angley; + distance = sqrt( dir[0] * dir[0] + dir[1] * dir[1] ); + + // calculate number of subdivisions + sd = ( int ) ( distance / subdivisionDistance ); + if( sd > 1 ) + { + // calculate subdivision + if( sd > maxSubdivisions ) + sd = maxSubdivisions; + + sdPoints[0] = start; + sdPoints[sd] = end; + + start = utPoints[lines[i].startPoint( )]; + end = utPoints[lines[i].endPoint( )]; + dir[0] = ( end[0] - start[0] ) / sd; + dir[1] = ( end[1] - start[1] ) / sd; + dir[2] = ( end[2] - start[2] ) / sd; + + for( li = 1; li < sd; li++ ) + { + sdPoints[li][0] = start[0] + li * dir[0]; + sdPoints[li][1] = start[1] + li * dir[1]; + sdPoints[li][2] = start[2] + li * dir[2]; + } + // transform points (first and last are already transformed) + transformProjection( sdPoints.data( ) + 1, sd - 1, + m_pCurrentGlView->camera( ) ); + renderViewStructureSimple( sdPoints, sdLines, sd ); + } + else + { + sdPoints[0] = start; + sdPoints[1] = end; + renderViewStructureSimple( sdPoints, sdLines, 1 ); + } + } + } + else + renderViewStructureSimple( points, vs.lines( ) ); + } + else + renderViewStructureSimple( vs.points( ), vs.lines( ) ); +} + +void PMRenderManager::renderViewStructureSimple( PMPointArray& points, + PMLineArray& lines, + int numberOfLines ) +{ + GLuint* linesData = ( GLuint* ) ( lines.data( ) ); + unsigned int vsLines = 0; + unsigned int rl; + + if( numberOfLines < 0 ) + vsLines = lines.size( ); + else + vsLines = ( unsigned ) numberOfLines; + + glEnableClientState( GL_VERTEX_ARRAY ); + glVertexPointer( 3, GL_DOUBLE, 0, points.data( ) ); + + while( ( vsLines > 0 ) && !m_bStopTask && !m_bStartTask ) + { + rl = m_nMaxRenderedLines - m_renderedLines; + if( rl > vsLines ) + rl = vsLines; + + glDrawElements( GL_LINES, rl * 2, + GL_UNSIGNED_INT, linesData ); + + m_renderedLines += rl; + if( m_renderedLines >= m_nMaxRenderedLines ) + { + m_renderedLines = 0; + qApp->processEvents( maxEventTime ); + if( !m_bStopTask && !m_bStartTask ) + m_pCurrentGlView->makeCurrent( ); + } + + vsLines -= rl; + linesData = linesData + ( rl * 2 ); + } + + glDisableClientState( GL_VERTEX_ARRAY ); +} + +void PMRenderManager::transformProjection( PMPoint* points, int size, + PMCamera* camera ) +{ + int i; + PMPoint* data = points; + PMPoint p; + double cameraAngle = camera->angle( ) * M_PI / 180.0; + double rad, phi, h; + + if( approxZero( cameraAngle ) ) + cameraAngle = M_PI; + + switch( camera->cameraType( ) ) + { + case PMCamera::Perspective: + case PMCamera::Orthographic: + break; + + case PMCamera::UltraWideAngle: + for( i = 0; i < size; i++ ) + { + p = m_viewTransformation * (*data); + + // reverse povray's calculations + p[0] /= m_rightLength; + p[1] /= m_upLength; + p[2] /= m_directionLength; + h = sqrt( p[0] * p[0] + p[1] * p[1] + p[2] * p[2] ); + if( !approxZero( h ) ) + { + p[0] /= h; + p[1] /= h; + } + + (*data)[0] = asin( p[0] ); + (*data)[1] = asin( p[1] ); + if( p[2] > 0 ) + { + (*data)[0] = M_PI - (*data)[0]; + (*data)[1] = M_PI - (*data)[1]; + } + (*data)[2] = -h; + + data++; + } + break; + + case PMCamera::FishEye: + for( i = 0; i < size; i++ ) + { + p = m_viewTransformation * (*data); + + // reverse povray's calculations + phi = atan2( p[1], p[0] ); + rad = atan2( sqrt( p[0] * p[0] + p[1] * p[1] ), -p[2] ); + + (*data)[0] = rad * cos( phi ); + (*data)[1] = rad * sin( phi ); + (*data)[2] = -sqrt( p[0] * p[0] + p[1] * p[1] + p[2] * p[2] ); + + data++; + } + break; + + case PMCamera::Panoramic: + for( i = 0; i < size; i++ ) + { + p = m_viewTransformation * (*data); + + // reverse povray's calculations + p[0] /= m_rightLength; + p[1] /= m_upLength; + p[2] /= m_directionLength; + + (*data)[0] = atan2( p[0], -p[2] ); + (*data)[1] = atan2( p[1], sqrt( p[0] * p[0] + p[2] * p[2] ) ); + (*data)[2] = -sqrt( p[0] * p[0] + p[1] * p[1] + p[2] * p[2] ); + + data++; + } + break; + + case PMCamera::Cylinder: + switch( camera->cylinderType( ) ) + { + case 1: + for( i = 0; i < size; i++ ) + { + p = m_viewTransformation * (*data); + + // reverse povray's calculations + p[0] /= m_rightLength; + p[1] /= m_upLength; + p[2] /= m_directionLength; + + h = sqrt( p[0] * p[0] + p[2] * p[2] ); + if( approxZero( h ) ) + h = 1e-5; + + (*data)[0] = atan2( p[0], -p[2] ) / cameraAngle; + (*data)[1] = p[1] / h; + (*data)[2] = -h; + + data++; + } + break; + + case 2: + for( i = 0; i < size; i++ ) + { + p = m_viewTransformation * (*data); + + // reverse povray's calculations + p[0] /= m_rightLength; + p[1] /= m_upLength; + p[2] /= m_directionLength; + + h = sqrt( p[1] * p[1] + p[2] * p[2] ); + if( approxZero( h ) ) + h = 1e-5; + + (*data)[0] = p[0] / h; + (*data)[1] = atan2( p[1], -p[2] ) / cameraAngle; + (*data)[2] = -h; + + data++; + } + break; + + case 3: + for( i = 0; i < size; i++ ) + { + p = m_viewTransformation * (*data); + + // reverse povray's calculations + p[0] /= m_rightLength; + p[1] /= m_upLength; + p[2] /= m_directionLength; + + h = sqrt( p[0] * p[0] + p[2] * p[2] ); + if( approxZero( h ) ) + h = 1e-5; + + (*data)[0] = atan2( p[0], -p[2] ) / cameraAngle; + (*data)[1] = p[1]; + (*data)[2] = -h; + + data++; + } + break; + + case 4: + for( i = 0; i < size; i++ ) + { + p = m_viewTransformation * (*data); + + // reverse povray's calculations + p[0] /= m_rightLength; + p[1] /= m_upLength; + p[2] /= m_directionLength; + + h = sqrt( p[1] * p[1] + p[2] * p[2] ); + if( approxZero( h ) ) + h = 1e-5; + + (*data)[0] = p[0]; + (*data)[1] = atan2( p[1], -p[2] ) / cameraAngle; + (*data)[2] = -h; + + data++; + } + break; + } + break; + + case PMCamera::Omnimax: + break; + + } +} + +void PMRenderManager::renderControlPoints( ) +{ + if( ( m_pCurrentGlView->type( ) == PMGLView::PMViewCamera ) + && ( m_pCurrentGlView->camera( ) == m_pCurrentTask->activeObject( ) ) ) + return; + + if( m_specialCameraMode ) + m_viewTransformation = m_controlPointTransformation; + else + glLoadMatrixd( m_controlPointTransformation.data( ) ); + + PMControlPointList* cplist = m_pCurrentTask->controlPoints( ); + if( cplist->count( ) > 0 ) + { + PMControlPointListIterator it( *cplist ); + PMControlPoint* cp; + PMPoint v; + const GLubyte* bitmap = 0; + + // draw extra control point lines + setGLColor( m_graphicalObjectColor[1] ); + for( it.toFirst( ); it.current( ); ++it ) + { + cp = it.current( ); + if( cp->hasExtraLine( ) ) + { + PMPoint s = PMPoint( cp->extraLineStart( ) ); + PMPoint e = PMPoint( cp->extraLineEnd( ) ); + + if( m_specialCameraMode ) + { + transformProjection( &s, 1, m_pCurrentGlView->camera( ) ); + transformProjection( &e, 1, m_pCurrentGlView->camera( ) ); + } + + glBegin( GL_LINES ); + glVertex3d( s[0], s[1], s[2] ); + glVertex3d( e[0], e[1], e[2] ); + glEnd( ); + } + } + + glDisable( GL_DEPTH_TEST ); + // draw not selected control points + setGLColor( m_controlPointColor[0] ); + for( it.toFirst( ); it.current( ); ++it ) + { + cp = it.current( ); + + if( cp->display( ) ) + { + v = PMPoint( cp->position( ) ); + if( m_specialCameraMode ) + transformProjection( &v, 1, m_pCurrentGlView->camera( ) ); + switch( cp->displayType( ) ) + { + case PMControlPoint::CPPoint: + if( !cp->selected( ) ) + bitmap = PointBitmap; + break; + case PMControlPoint::CPCross: + bitmap = CrossBitmap; + break; + } + + glRasterPos3d( v[0], v[1], v[2] ); + if( bitmap ) + glBitmap( controlPointSize, controlPointSize, + controlPointSize/2, controlPointSize/2, + 0, 0, bitmap ); + } + } + // draw selected control points + setGLColor( m_controlPointColor[1] ); + for( it.toFirst( ); it.current( ); ++it ) + { + cp = it.current( ); + + if( cp->selected( ) && cp->display( ) ) + { + v = PMPoint( cp->position( ) ); + if( m_specialCameraMode ) + transformProjection( &v, 1, m_pCurrentGlView->camera( ) ); + if( cp->displayType( ) == PMControlPoint::CPPoint ) + bitmap = PointBitmap; + + glRasterPos3d( v[0], v[1], v[2] ); + if( bitmap ) + glBitmap( controlPointSize, controlPointSize, + controlPointSize/2, controlPointSize/2, + 0, 0, bitmap ); + } + } + } +} + +void PMRenderManager::renderAxes( ) +{ + int i; + + if( !m_axesViewStructureCreated ) + { + m_axesViewStructure[0] = PMViewStructure( 6, 9 ); + PMPointArray& points = m_axesViewStructure[0].points( ); + PMLineArray& lines = m_axesViewStructure[0].lines( ); + + lines[0] = PMLine( 0, 1 ); + lines[1] = PMLine( 1, 2 ); + lines[2] = PMLine( 1, 3 ); + lines[3] = PMLine( 1, 4 ); + lines[4] = PMLine( 1, 5 ); + lines[5] = PMLine( 2, 3 ); + lines[6] = PMLine( 3, 4 ); + lines[7] = PMLine( 4, 5 ); + lines[8] = PMLine( 5, 2 ); + + points[0] = PMPoint( 0.0, 0.0, 0.0 ); + points[1] = PMPoint( 1.0, 0.0, 0.0 ); + points[2] = PMPoint( dA, dB, dB ); + points[3] = PMPoint( dA, -dB, dB ); + points[4] = PMPoint( dA, -dB, -dB ); + points[5] = PMPoint( dA, dB, -dB ); + + m_axesViewStructure[1] = m_axesViewStructure[0]; + PMPointArray& points1 = m_axesViewStructure[1].points( ); + points1.detach( ); + + points1[0] = PMPoint( 0.0, 0.0, 0.0 ); + points1[1] = PMPoint( 0.0, 1.0, 0.0 ); + points1[2] = PMPoint( dB, dA, dB ); + points1[3] = PMPoint( -dB, dA, dB ); + points1[4] = PMPoint( -dB, dA, -dB ); + points1[5] = PMPoint( dB, dA, -dB ); + + m_axesViewStructure[2] = m_axesViewStructure[0]; + PMPointArray& points2 = m_axesViewStructure[2].points( ); + points2.detach( ); + + points2[0] = PMPoint( 0.0, 0.0, 0.0 ); + points2[1] = PMPoint( 0.0, 0.0, 1.0 ); + points2[2] = PMPoint( dB, dB, dA ); + points2[3] = PMPoint( -dB, dB, dA ); + points2[4] = PMPoint( -dB, -dB, dA ); + points2[5] = PMPoint( dB, -dB, dA ); + + m_axesViewStructureCreated = true; + } + + glEnable( GL_DEPTH_TEST ); + for( i = 0; i < 3; i++ ) + { + setGLColor( m_axesColor[i] ); + renderViewStructure( m_axesViewStructure[i] ); + } +} + +PMMatrix PMRenderManager::viewTransformation( PMCamera* c ) const +{ + PMVector location, lookAt, sky; + PMMatrix m; + + sky = c->sky( ); + location = c->location( ); + lookAt = c->lookAt( ); + + if( approxZero( sky.abs( ) ) ) + sky = PMVector( 0.0, 1.0, 0.0 ); + if( approxZero( ( location - lookAt ).abs( ) ) ) + lookAt = location + PMVector( 0.0, 0.0, 1.0 ); + + m = c->transformedWith( ); + if( m.canBuildInverse( ) ) + return PMMatrix::viewTransformation( location, lookAt, sky ) * m.inverse( ); + return PMMatrix::viewTransformation( location, lookAt, sky ); +} + +void PMRenderManager::setProjection( ) +{ + PMGLView::PMViewType type = m_pCurrentGlView->type( ); + PMCamera* camera = m_pCurrentGlView->camera( ); + int width = m_pCurrentGlView->width( ); + int height = m_pCurrentGlView->height( ); + + if( type == PMGLView::PMViewCamera ) + { + if( camera ) + setCameraProjection( ); + } + else + { + glMatrixMode( GL_PROJECTION ); + glLoadIdentity( ); + + double d = m_pCurrentGlView->scale( ); + + // TODO calculating the z clipping plane + glOrtho( -width/2, width/2, -height/2, height/2, + -viewVolumeZ, viewVolumeZ ); + glScaled( d, d, d ); + glTranslated( m_pCurrentGlView->translationX( ), + m_pCurrentGlView->translationY( ), 0 ); + + switch( type ) + { + case PMGLView::PMViewPosZ: + break; + case PMGLView::PMViewNegZ: + glRotated( 180.0, 0.0, 1.0, 0.0 ); + break; + case PMGLView::PMViewNegY: + glRotated( 90.0, 1.0, 0.0, 0.0 ); + break; + case PMGLView::PMViewPosY: + glRotated( -90.0, 1.0, 0.0, 0.0 ); + break; + case PMGLView::PMViewPosX: + glRotated( 90.0, 0.0, 1.0, 0.0 ); + break; + case PMGLView::PMViewNegX: + glRotated( -90.0, 0.0, 1.0, 0.0 ); + break; + default: + break; + } + + glScaled( 1.0, 1.0, -1.0 ); + + glMatrixMode( GL_MODELVIEW ); + m_pCurrentGlView->setProjectionUpToDate( true ); + } +} + +void PMRenderManager::setCameraProjection( ) +{ + PMCamera* camera = m_pCurrentGlView->camera( ); + int width = m_pCurrentGlView->width( ); + int height = m_pCurrentGlView->height( ); + double angle = M_PI / 2.0; + double modeAspect, viewAspect, cameraAspect; + + m_viewTransformation = viewTransformation( camera ); + m_upLength = camera->up( ).abs( ); + if( approxZero( m_upLength ) ) + m_upLength = 1.0; + m_rightLength = camera->right( ).abs( ); + if( approxZero( m_rightLength ) ) + m_rightLength = 1.0; + m_directionLength = camera->direction( ).abs( ); + if( approxZero( m_directionLength ) ) + m_directionLength = 1.0; + + if( camera->isAngleEnabled( ) ) + angle = camera->angle( ) * M_PI / 180.0; + + m_anglex = 0.5; + m_angley = 0.5; + if( ( angle <= 0.0 ) || ( angle > 2 * M_PI ) ) + angle = M_PI; + + switch( camera->cameraType( ) ) + { + case PMCamera::Perspective: + // If angle wasn't specified determine one from right and direction + if( !camera->isAngleEnabled( ) ) + angle = 2 * atan2( 0.5 * m_rightLength, m_directionLength ); + break; + case PMCamera::UltraWideAngle: + m_anglex = angle / ( 2.0 * M_PI ); + m_angley = angle / ( 2.0 * M_PI ); + m_specialCameraMode = true; + break; + case PMCamera::FishEye: + m_anglex = angle / 2.0; + m_angley = angle / 2.0; + m_specialCameraMode = true; + break; + case PMCamera::Panoramic: + m_anglex = M_PI / 2.0; + m_angley = M_PI / 2.0; + m_specialCameraMode = true; + break; + case PMCamera::Cylinder: + m_anglex = 0.5; + m_angley = 0.5; + m_specialCameraMode = true; + break; + case PMCamera::Omnimax: + m_specialCameraMode = true; + break; + default: + break; + } + + modeAspect = m_pCurrentTask->aspectRatio( ); + if( approxZero( modeAspect ) ) + modeAspect = 1.0; + cameraAspect = camera->aspect( ); + if( approxZero( cameraAspect ) ) + cameraAspect = 1.0; + viewAspect = ( double ) width / ( double ) height; + if( approxZero( viewAspect ) ) + viewAspect = 1.0; + + if( viewAspect > modeAspect ) + m_anglex *= viewAspect / modeAspect; + else + m_angley *= modeAspect / viewAspect; + + + glMatrixMode( GL_PROJECTION ); + glLoadIdentity( ); + + + PMVector up, right, direction; + double handedness; + PMMatrix m; + + up = camera->up( ); + right = camera->right( ); + direction = camera->direction( ); + + if( approxZero( m_upLength ) ) + up = PMVector( 0.0, 1.0, 0.0 ); + if( approxZero( m_rightLength ) ) + right = PMVector( 1.0, 0.0, 0.0 ); + if( approxZero( m_directionLength ) ) + direction = PMVector( 0.0, 0.0, 1.0 ); + + handedness = PMVector::dot( PMVector::cross( up, direction ), right ); + + switch( camera->cameraType( ) ) + { + case PMCamera::Perspective: + if( ( angle <= 0.0 ) || ( angle >= M_PI ) ) + angle = M_PI / 2.0; + + // opengl needs the vertical angle + if( viewAspect < modeAspect ) + angle = atan( tan( angle / 2.0 ) / cameraAspect * modeAspect + / viewAspect ) * 360.0 / M_PI; + else + angle = atan( tan( angle / 2.0 ) / cameraAspect ) + * 360.0 / M_PI; + + gluPerspective( angle, cameraAspect * viewAspect / modeAspect, + 0.001, viewVolumeZ ); + + if( handedness > 0 ) + glScaled( -1.0, 1.0, 1.0 ); + + glMultMatrixd( m_viewTransformation.data( ) ); + break; + + case PMCamera::Orthographic: + m_anglex = m_rightLength / 2.0; + m_angley = m_upLength / 2.0; + + if( viewAspect > modeAspect ) + m_anglex *= viewAspect / modeAspect; + else + m_angley *= modeAspect / viewAspect; + + glOrtho( -m_anglex, m_anglex, -m_angley, m_angley, + 0, viewVolumeZ ); + + if( handedness > 0 ) + glScaled( -1.0, 1.0, 1.0 ); + + glMultMatrixd( m_viewTransformation.data( ) ); + break; + + case PMCamera::UltraWideAngle: + case PMCamera::FishEye: + case PMCamera::Panoramic: + case PMCamera::Cylinder: + case PMCamera::Omnimax: + glOrtho( -m_anglex, m_anglex, -m_angley, m_angley, + -viewVolumeZ, viewVolumeZ ); + + if( handedness > 0 ) + glScaled( -1.0, 1.0, 1.0 ); + break; + } + + glMatrixMode( GL_MODELVIEW ); + m_pCurrentGlView->setProjectionUpToDate( true ); +} + +void PMRenderManager::renderFieldOfView( ) +{ + if( m_pCurrentGlView->type( ) == PMGLView::PMViewCamera ) + { + PMCamera* camera = m_pCurrentGlView->camera( ); + + if( camera ) + { + int width = m_pCurrentGlView->width( ); + int height = m_pCurrentGlView->height( ); + double modeAspect, viewAspect; + int d, vx1, vx2, vy1, vy2; + + modeAspect = m_pCurrentTask->aspectRatio( ); //camera->aspect( ); + if( approxZero( modeAspect ) ) + modeAspect = 1.0; + viewAspect = ( double ) width / ( double ) height; + + if( viewAspect < modeAspect ) + { + vx1 = 0; + vx2 = width - 1; + + d = ( int ) ( height - width / modeAspect + 0.5 ) / 2; + + vy1 = d; + vy2 = height - d - 1; + } + else + { + vy1 = 0; + vy2 = height - 1; + + d = ( int ) ( height * modeAspect ); + + d = ( width - d ) / 2; + vx1 = d; + vx2 = width - d - 1; + } + + glMatrixMode( GL_PROJECTION ); + glPushMatrix( ); + glLoadIdentity( ); + glOrtho( 0, width, 0, height, -2, 2 ); + glMatrixMode( GL_MODELVIEW ); + glPushMatrix( ); + glLoadIdentity( ); + + setGLColor( m_fieldOfViewColor ); + glDisable( GL_DEPTH_TEST ); + + if( camera->cameraType( ) == PMCamera::Omnimax ) + renderString( i18n( "not supported" ), 5.0, + height - qApp->fontMetrics( ).height( ) * 2 - 2 ); + else if( m_specialCameraMode && !m_highDetailCameraView ) + renderString( i18n( "approximated" ), 5.0, + height - qApp->fontMetrics( ).height( ) * 2 - 2 ); + + glBegin( GL_LINE_LOOP ); + + glVertex2d( vx1, vy1 ); + glVertex2d( vx2, vy1 ); + glVertex2d( vx2, vy2 ); + glVertex2d( vx1, vy2 ); + + glEnd( ); + glEnable( GL_DEPTH_TEST ); + + glMatrixMode( GL_PROJECTION ); + glPopMatrix( ); + glMatrixMode( GL_MODELVIEW ); + glPopMatrix( ); + } + } +} + +void PMRenderManager::renderGrid( ) +{ + double scale = m_pCurrentGlView->scale( ); + + if( scale >= 0 ) + { + // calculate the views grid distance + double viewGridDistance = pow( 10.0, ceil( log10( ( double ) m_gridDistance / scale ) ) ); + int sd = ( int ) ( viewGridDistance * scale + 0.5 ); + if( ( sd * 0.2 ) > m_gridDistance ) + viewGridDistance *= 0.2; + else if( ( sd * 0.5 ) > m_gridDistance ) + viewGridDistance *= 0.5; + + // draw the grid + double x1, x2, y1, y2, sx, sy; + double x, y; + int gi; + double screenx, screeny; + double signx = 1.0, signy = 1.0; + + int height = m_pCurrentGlView->height( ); + int width = m_pCurrentGlView->width( ); + double transX = m_pCurrentGlView->translationX( ); + double transY = m_pCurrentGlView->translationY( ); + int fontHeight = qApp->fontMetrics( ).height( ); + + glMatrixMode( GL_PROJECTION ); + glPushMatrix( ); + glLoadIdentity( ); + glOrtho( -width/2, width/2, -height/2, height/2, -2, 2 ); + + glMatrixMode( GL_MODELVIEW ); + glPushMatrix( ); + glLoadIdentity( ); + + setGLColor( m_gridColor ); + glDisable( GL_DEPTH_TEST ); + + switch( m_pCurrentGlView->type( ) ) + { + case PMGLView::PMViewPosX: + signx = -1.0; + break; + case PMGLView::PMViewPosY: + signy = -1.0; + break; + case PMGLView::PMViewNegZ: + signx = -1.0; + break; + default: + break; + } + + sx = width / scale; + sy = height / scale; + x1 = -transX - sx / 2; + x2 = -transX + sx / 2; + y1 = -transY - sy / 2; + y2 = -transY + sy / 2; + + sx = ceil( x1 / viewGridDistance ) * viewGridDistance; + gi = 0; + x = sx; + while( x < x2 ) + { + screenx = ( x + transX ) * scale; + glBegin( GL_LINES ); + glVertex2d( screenx, -height/2 ); + glVertex2d( screenx, height/2 ); + glEnd( ); + + QString label = QString( "%1" ).arg( x * signx, 0, 'g', 4 ); + if( approxZero( x ) && label.find( "e-" ) ) + label = "0"; + + renderString( label, screenx + 3, height / 2 - fontHeight - 2 ); + + gi++; + x = sx + viewGridDistance * gi; + } + + sy = ceil( y1 / viewGridDistance ) * viewGridDistance; + gi = 0; + y = sy; + while( y < y2 ) + { + screeny = ( y + transY ) * scale; + glBegin( GL_LINES ); + glVertex2d( -width/2, screeny ); + glVertex2d( width/2, screeny ); + glEnd( ); + + QString label = QString( "%1" ).arg( y * signy, 0, 'g', 4 ); + if( approxZero( y ) && label.find( "e-" ) ) + label = "0"; + + renderString( label, -width / 2 + 3, screeny + 2 ); + + gi++; + y = sy + viewGridDistance * gi; + } + + + setGLColor( axesColor( 0 ) ); + switch( m_pCurrentGlView->type( ) ) + { + case PMGLView::PMViewPosY: + case PMGLView::PMViewPosZ: + case PMGLView::PMViewNegY: + renderString( "x", width / 2 - qApp->fontMetrics( ).boundingRect( "x" ).width( ) - 4, -3 ); + break; + case PMGLView::PMViewNegZ: + renderString( "x", -width / 2 + 3, -3 ); + break; + default: + break; + } + setGLColor( axesColor( 1 ) ); + switch( m_pCurrentGlView->type( ) ) + { + case PMGLView::PMViewPosX: + case PMGLView::PMViewNegX: + case PMGLView::PMViewPosZ: + case PMGLView::PMViewNegZ: + renderString( "y", -3, height / 2 - fontHeight ); + break; + default: + break; + } + setGLColor( axesColor( 2 ) ); + switch( m_pCurrentGlView->type( ) ) + { + case PMGLView::PMViewPosX: + renderString( "z", -width / 2 + 3, -3 ); + break; + case PMGLView::PMViewNegX: + renderString( "z", width / 2 - qApp->fontMetrics( ).boundingRect( "z" ).width( ) - 4, -3 ); + break; + case PMGLView::PMViewNegY: + renderString( "z", -3, height / 2 - fontHeight ); + break; + case PMGLView::PMViewPosY: + renderString( "z", -3, -height / 2 ); + break; + default: + break; + } + + glEnable( GL_DEPTH_TEST ); + glMatrixMode( GL_PROJECTION ); + glPopMatrix( ); + glMatrixMode( GL_MODELVIEW ); + glPopMatrix( ); + } +} + +void PMRenderManager::renderDescription( ) +{ + int height = m_pCurrentGlView->height( ); + int width = m_pCurrentGlView->width( ); + int fontHeight = qApp->fontMetrics( ).height( ); + + glMatrixMode( GL_PROJECTION ); + glPushMatrix( ); + glLoadIdentity( ); + glOrtho( 0, width, 0, height, -2, 2 ); + glMatrixMode( GL_MODELVIEW ); + glPushMatrix( ); + glLoadIdentity( ); + + setGLColor( m_fieldOfViewColor ); + + switch( m_pCurrentGlView->type( ) ) + { + case PMGLView::PMViewPosX: + renderString( i18n( "left" ), 5.0, height - fontHeight - 2 ); + break; + case PMGLView::PMViewNegX: + renderString( i18n( "right" ), 5.0, height - fontHeight - 2 ); + break; + case PMGLView::PMViewPosY: + renderString( i18n( "bottom" ), 5.0, height - fontHeight - 2 ); + break; + case PMGLView::PMViewNegY: + renderString( i18n( "top" ), 5.0, height - fontHeight - 2 ); + break; + case PMGLView::PMViewPosZ: + renderString( i18n( "front" ), 5.0, height - fontHeight - 2 ); + break; + case PMGLView::PMViewNegZ: + renderString( i18n( "back" ), 5.0, height - fontHeight - 2 ); + break; + case PMGLView::PMViewCamera: + { + PMCamera* c = m_pCurrentGlView->camera( ); + if( c ) + { + QString name( "-" ); + if( !c->name( ).isEmpty( ) ) + name = c->name( ); + else + name = i18n( "(unnamed)" ); + + renderString( i18n( "camera" ) + ": " + name, + 5.0, height - fontHeight - 2 ); + } + else + renderString( i18n( "camera" ), 5.0, height - fontHeight - 2 ); + break; + } + } + + glEnable( GL_DEPTH_TEST ); + + glMatrixMode( GL_PROJECTION ); + glPopMatrix( ); + glMatrixMode( GL_MODELVIEW ); + glPopMatrix( ); +} + +void PMRenderManager::renderString( const QString& str, double x, double y ) +{ + int width = qApp->fontMetrics( ).boundingRect( str ).width( ); + int height = qApp->fontMetrics( ).height( ); + + // GL wants word aligned bitmap + QBitmap bm( ( ( width + 32 ) % 32 ) * 32, height, true ); + + QPainter p( &bm ); + p.setFont( qApp->font( ) ); + p.drawText( bm.rect( ), Qt::AlignLeft | Qt::AlignBottom, str ); + p.end(); + + // Transform to GL bitmap + QImage img = bm.convertToImage( ).mirror( ).convertBitOrder( QImage::BigEndian ); + + glRasterPos2d( x, y ); + glBitmap( img.width( ), img.height( ), 0, 0, 0, 0, img.bits( ) ); +} + +void PMRenderManager::setGLColor( const QColor& c ) +{ + int r, g, b; + + c.rgb( &r, &g, &b ); + glColor3ub( ( GLubyte ) r, ( GLubyte ) g, ( GLubyte ) b ); +} + +void PMRenderManager::slotRenderingSettingsChanged( ) +{ + emit renderingSettingsChanged( ); +} + +void PMRenderManager::saveConfig( KConfig* cfg ) +{ + cfg->setGroup( "Rendering" ); + cfg->writeEntry( "BackgroundColor", m_backgroundColor ); + cfg->writeEntry( "GraphicalObjectColor0", m_graphicalObjectColor[0] ); + cfg->writeEntry( "GraphicalObjectColor1", m_graphicalObjectColor[1] ); + cfg->writeEntry( "ControlPointColor0", m_controlPointColor[0] ); + cfg->writeEntry( "ControlPointColor1", m_controlPointColor[1] ); + cfg->writeEntry( "AxesColorX", m_axesColor[0] ); + cfg->writeEntry( "AxesColorY", m_axesColor[1] ); + cfg->writeEntry( "AxesColorZ", m_axesColor[2] ); + cfg->writeEntry( "GridColor", m_gridColor ); + cfg->writeEntry( "GridDistance", m_gridDistance ); + cfg->writeEntry( "FieldOfViewColor", m_fieldOfViewColor ); + cfg->writeEntry( "HighDetailCameraViews", m_highDetailCameraView ); +} + +void PMRenderManager::restoreConfig( KConfig* cfg ) +{ + cfg->setGroup( "Rendering" ); + + m_backgroundColor = cfg->readColorEntry( "BackgroundColor", &m_backgroundColor ); + m_graphicalObjectColor[0] = cfg->readColorEntry( "GraphicalObjectColor0", &( m_graphicalObjectColor[0] ) ); + m_graphicalObjectColor[1] = cfg->readColorEntry( "GraphicalObjectColor1", &( m_graphicalObjectColor[1] ) ); + m_controlPointColor[0] = cfg->readColorEntry( "ControlPointColor0", &( m_controlPointColor[0] ) ); + m_controlPointColor[1] = cfg->readColorEntry( "ControlPointColor1", &( m_controlPointColor[1] ) ); + m_axesColor[0] = cfg->readColorEntry( "AxesColorX", &( m_axesColor[0] ) ); + m_axesColor[1] = cfg->readColorEntry( "AxesColorY", &( m_axesColor[1] ) ); + m_axesColor[2] = cfg->readColorEntry( "AxesColorZ", &( m_axesColor[2] ) ); + m_gridColor = cfg->readColorEntry( "GridColor", &m_gridColor ); + m_gridDistance = cfg->readNumEntry( "GridDistance", m_gridDistance ); + m_fieldOfViewColor = cfg->readColorEntry( "FieldOfViewColor", &m_fieldOfViewColor ); + m_highDetailCameraView = cfg->readBoolEntry( "HighDetailCameraViews", m_highDetailCameraView ); +} + +bool PMRenderManager::hasOpenGL( ) +{ + if( !s_hasOpenGLChecked ) + { + s_hasOpenGL = ( glXQueryExtension( qt_xdisplay( ), 0, 0 ) != 0 ); + s_hasOpenGLChecked = true; + } + + return s_hasOpenGL; +} + +void PMRenderManager::disableOpenGL( ) +{ + s_hasOpenGLChecked = true; + s_hasOpenGL = false; +} + +#include "pmrendermanager.moc" -- cgit v1.2.1