/* Copyright (C) 1999-2006 Id Software, Inc. and contributors. For a list of contributors, see the accompanying CONTRIBUTORS file. This file is part of GtkRadiant. GtkRadiant 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. GtkRadiant is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GtkRadiant; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ //----------------------------------------------------------------------------- // // DESCRIPTION: // classes used for describing geometry information from q3map feedback // #include "feedback.h" #include "debugging/debugging.h" #include "igl.h" #include "iselection.h" #include #include #include #include "map.h" #include "dialog.h" #include "mainframe.h" CDbgDlg g_DbgDlg; void Feedback_draw2D( VIEWTYPE viewType ){ g_DbgDlg.draw2D( viewType ); } void CSelectMsg::saxStartElement( message_info_t *ctx, const xmlChar *name, const xmlChar **attrs ){ if ( string_equal( reinterpret_cast( name ), "select" ) ) { // read the message ESelectState = SELECT_MESSAGE; } else { // read the brush ASSERT_MESSAGE( string_equal( reinterpret_cast( name ), "brush" ), "FEEDBACK PARSE ERROR" ); ASSERT_MESSAGE( ESelectState == SELECT_MESSAGE, "FEEDBACK PARSE ERROR" ); ESelectState = SELECT_BRUSH; globalWarningStream() << message << '\n'; } } void CSelectMsg::saxEndElement( message_info_t *ctx, const xmlChar *name ){ if ( string_equal( reinterpret_cast( name ), "select" ) ) { } } void CSelectMsg::saxCharacters( message_info_t *ctx, const xmlChar *ch, int len ){ if ( ESelectState == SELECT_MESSAGE ) { message.write( reinterpret_cast( ch ), len ); } else { brush.write( reinterpret_cast( ch ), len ); } } IGL2DWindow* CSelectMsg::Highlight(){ GlobalSelectionSystem().setSelectedAll( false ); int entitynum, brushnum; if ( sscanf( brush, "%i %i", &entitynum, &brushnum ) == 2 ) { SelectBrush( entitynum, brushnum ); } return 0; } void CPointMsg::saxStartElement( message_info_t *ctx, const xmlChar *name, const xmlChar **attrs ){ if ( string_equal( reinterpret_cast( name ), "pointmsg" ) ) { // read the message EPointState = POINT_MESSAGE; } else { // read the brush ASSERT_MESSAGE( string_equal( reinterpret_cast( name ), "point" ), "FEEDBACK PARSE ERROR" ); ASSERT_MESSAGE( EPointState == POINT_MESSAGE, "FEEDBACK PARSE ERROR" ); EPointState = POINT_POINT; globalWarningStream() << message << '\n'; } } void CPointMsg::saxEndElement( message_info_t *ctx, const xmlChar *name ){ if ( string_equal( reinterpret_cast( name ), "pointmsg" ) ) { } else if ( string_equal( reinterpret_cast( name ), "point" ) ) { sscanf( point, "%g %g %g", &( pt[0] ), &( pt[1] ), &( pt[2] ) ); point.clear(); } } void CPointMsg::saxCharacters( message_info_t *ctx, const xmlChar *ch, int len ){ if ( EPointState == POINT_MESSAGE ) { message.write( reinterpret_cast( ch ), len ); } else { ASSERT_MESSAGE( EPointState == POINT_POINT, "FEEDBACK PARSE ERROR" ); point.write( reinterpret_cast( ch ), len ); } } IGL2DWindow* CPointMsg::Highlight(){ return this; } void CPointMsg::DropHighlight(){ } void CPointMsg::Draw2D( VIEWTYPE vt ){ NDIM1NDIM2( vt ) gl().glPointSize( 4 ); gl().glColor3f( 1.0f,0.0f,0.0f ); gl().glBegin( GL_POINTS ); gl().glVertex2f( pt[nDim1], pt[nDim2] ); gl().glEnd(); gl().glBegin( GL_LINE_LOOP ); gl().glVertex2f( pt[nDim1] - 8, pt[nDim2] - 8 ); gl().glVertex2f( pt[nDim1] + 8, pt[nDim2] - 8 ); gl().glVertex2f( pt[nDim1] + 8, pt[nDim2] + 8 ); gl().glVertex2f( pt[nDim1] - 8, pt[nDim2] + 8 ); gl().glEnd(); } void CWindingMsg::saxStartElement( message_info_t *ctx, const xmlChar *name, const xmlChar **attrs ){ if ( string_equal( reinterpret_cast( name ), "windingmsg" ) ) { // read the message EPointState = WINDING_MESSAGE; } else { // read the brush ASSERT_MESSAGE( string_equal( reinterpret_cast( name ), "winding" ), "FEEDBACK PARSE ERROR" ); ASSERT_MESSAGE( EPointState == WINDING_MESSAGE, "FEEDBACK PARSE ERROR" ); EPointState = WINDING_WINDING; globalWarningStream() << message << '\n'; } } void CWindingMsg::saxEndElement( message_info_t *ctx, const xmlChar *name ){ if ( string_equal( reinterpret_cast( name ), "windingmsg" ) ) { } else if ( string_equal( reinterpret_cast( name ), "winding" ) ) { const char* c = winding; sscanf( c, "%i ", &numpoints ); int i = 0; for (; i < numpoints; i++ ) { c = strchr( c + 1, '(' ); if ( c ) { // even if we are given the number of points when the cycle begins .. don't trust it too much sscanf( c, "(%g %g %g)", &wt[i][0], &wt[i][1], &wt[i][2] ); } else{ break; } } numpoints = i; } } void CWindingMsg::saxCharacters( message_info_t *ctx, const xmlChar *ch, int len ){ if ( EPointState == WINDING_MESSAGE ) { message.write( reinterpret_cast( ch ), len ); } else { ASSERT_MESSAGE( EPointState == WINDING_WINDING, "FEEDBACK PARSE ERROR" ); winding.write( reinterpret_cast( ch ), len ); } } IGL2DWindow* CWindingMsg::Highlight(){ return this; } void CWindingMsg::DropHighlight(){ } void CWindingMsg::Draw2D( VIEWTYPE vt ){ int i; NDIM1NDIM2( vt ) gl().glColor3f( 1.0f,0.f,0.0f ); gl().glPointSize( 4 ); gl().glBegin( GL_POINTS ); for ( i = 0; i < numpoints; i++ ) gl().glVertex2f( wt[i][nDim1], wt[i][nDim2] ); gl().glEnd(); gl().glPointSize( 1 ); gl().glEnable( GL_BLEND ); gl().glPolygonMode( GL_FRONT_AND_BACK, GL_FILL ); gl().glBlendFunc( GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA ); gl().glColor4f( 0.133f,0.4f,1.0f,0.5f ); gl().glBegin( GL_POLYGON ); for ( i = 0; i < numpoints; i++ ) gl().glVertex2f( wt[i][nDim1], wt[i][nDim2] ); gl().glEnd(); gl().glDisable( GL_BLEND ); } // triggered when the user selects an entry in the feedback box void CDbgDlg::feedback_selection_changed( QTreeWidgetItem *current ){ DropHighlight(); if( current != nullptr ){ SetHighlight( m_clist->indexOfTopLevelItem( current ) ); } } void CDbgDlg::DropHighlight(){ if ( m_pHighlight != 0 ) { m_pHighlight->DropHighlight(); m_pHighlight = 0; m_pDraw2D = 0; } } void CDbgDlg::SetHighlight( std::size_t row ){ if ( ISAXHandler *h = m_feedbackElements.at( row ) ) { m_pDraw2D = h->Highlight(); m_pHighlight = h; } } void CDbgDlg::Init(){ DropHighlight(); // free all the ISAXHandler*, clean it for( auto *e : m_feedbackElements ) e->Release(); m_feedbackElements.clear(); if ( m_clist != NULL ) { m_clist->clear(); } } void CDbgDlg::Push( ISAXHandler *pHandler ){ // push in the list m_feedbackElements.push_back( pHandler ); if ( GetWidget() == 0 ) { Create( MainFrame_getWindow() ); } // put stuff in the list m_clist->clear(); for ( auto *element : m_feedbackElements ) { auto *item = new QTreeWidgetItem( m_clist ); item->setText( 0, element->getName() ); } ShowDlg(); } void CDbgDlg::BuildDialog(){ GetWidget()->setWindowTitle( "Q3Map debug window" ); auto *tree = m_clist = new QTreeWidget; ( new QVBoxLayout( GetWidget() ) )->addWidget( tree ); tree->setColumnCount( 1 ); tree->setUniformRowHeights( true ); // optimization tree->setHorizontalScrollBarPolicy( Qt::ScrollBarPolicy::ScrollBarAlwaysOff ); tree->setSizeAdjustPolicy( QAbstractScrollArea::SizeAdjustPolicy::AdjustToContents ); // scroll area will inherit column size tree->header()->setStretchLastSection( false ); // non greedy column sizing tree->header()->setSectionResizeMode( QHeaderView::ResizeMode::ResizeToContents ); // no text elision tree->setHeaderHidden( true ); tree->setRootIsDecorated( false ); tree->setEditTriggers( QAbstractItemView::EditTrigger::NoEditTriggers ); QObject::connect( tree, &QTreeWidget::currentItemChanged, [this]( QTreeWidgetItem *current ){ feedback_selection_changed( current ); } ); }