kicad/qa/tools/pns/pns_log_viewer_frame.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2020-2022 KiCad Developers.
*
* 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.
*
* This program 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 this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
// WARNING - this Tom's crappy PNS hack tool code. Please don't complain about its quality
// (unless you want to improve it).
#include <wx/clipbrd.h>
#include <pgm_base.h>
#include <profile.h>
#include <trace_helpers.h>
#include <view/view_overlay.h>
#include "label_manager.h"
#include "pns_log_file.h"
#include "pns_log_player.h"
#include "pns_log_viewer_frame.h"
#include "router/pns_diff_pair.h"
#include "router/pns_utils.h"
#include "router/router_preview_item.h"
#include <geometry/shape_compound.h>
class WX_SHAPE_TREE_ITEM_DATA : public wxClientData
{
public:
WX_SHAPE_TREE_ITEM_DATA( PNS_DEBUG_SHAPE* item, int level = 0 ) : m_item( item ), m_level( level ) {};
PNS_DEBUG_SHAPE* m_item;
int m_level;
};
PNS_LOG_VIEWER_OVERLAY::PNS_LOG_VIEWER_OVERLAY( KIGFX::GAL* aGal )
{
m_labelMgr.reset( new LABEL_MANAGER( aGal ) );
}
void PNS_LOG_VIEWER_OVERLAY::AnnotatedPolyline( const SHAPE_LINE_CHAIN& aL, std::string name,
bool aShowVertexNumbers )
{
Polyline( aL );
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if( name.length() > 0 && aL.PointCount() > 0 )
m_labelMgr->Add( aL.CPoint( -1 ), name, GetStrokeColor() );
if( aShowVertexNumbers )
{
for( int i = 0; i < aL.PointCount(); i++ )
m_labelMgr->Add( aL.CPoint(i), wxString::Format("%d", i ), GetStrokeColor() );
}
}
void PNS_LOG_VIEWER_OVERLAY::AnnotatedPoint( const VECTOR2I p, int size, std::string name, bool aShowVertexNumbers )
{
Line( p + VECTOR2D( size, size ), p - VECTOR2D( size, size ) );
Line( p + VECTOR2D( -size, size ), p - VECTOR2D( -size, size ) );
if( name.length() > 0 )
m_labelMgr->Add( p, name, GetStrokeColor() );
}
void PNS_LOG_VIEWER_OVERLAY::Arc( const SHAPE_ARC& arc )
{
double radius = arc.GetRadius();
EDA_ANGLE start_angle = arc.GetStartAngle();
EDA_ANGLE angle = arc.GetCentralAngle();
KIGFX::VIEW_OVERLAY::SetLineWidth( arc.GetWidth() / 10 );
KIGFX::VIEW_OVERLAY::Arc( arc.GetCenter(), radius, start_angle, start_angle + angle );
COLOR4D prevStrokeCol = KIGFX::VIEW_OVERLAY::GetStrokeColor();
COLOR4D lightStrokeCol = prevStrokeCol.WithAlpha(0.5);
KIGFX::VIEW_OVERLAY::SetStrokeColor( lightStrokeCol );
KIGFX::VIEW_OVERLAY::SetLineWidth( arc.GetWidth() );
KIGFX::VIEW_OVERLAY::Arc( arc.GetCenter(), radius, start_angle, start_angle + angle );
KIGFX::VIEW_OVERLAY::SetStrokeColor( prevStrokeCol );
}
void PNS_LOG_VIEWER_OVERLAY::DrawAnnotations()
{
m_labelMgr->Redraw( this );
}
PNS_LOG_VIEWER_FRAME::PNS_LOG_VIEWER_FRAME( wxFrame* frame ) : PNS_LOG_VIEWER_FRAME_BASE( frame )
{
LoadSettings();
createView( this, PCB_DRAW_PANEL_GAL::GAL_TYPE_OPENGL );
m_viewSizer->Add( m_galPanel.get(), 1, wxEXPAND, 5 );
Layout();
Show( true );
Maximize();
Raise();
auto settings = static_cast<KIGFX::PCB_RENDER_SETTINGS*>(
m_galPanel->GetView()->GetPainter()->GetSettings() );
PCB_DISPLAY_OPTIONS opts;
opts.m_ZoneDisplayMode = ZONE_DISPLAY_MODE::SHOW_ZONE_OUTLINE;
double opacity = 0.5;
opts.m_TrackOpacity = opacity; ///< Opacity override for all tracks
opts.m_ViaOpacity = opacity; ///< Opacity override for all types of via
opts.m_PadOpacity = opacity; ///< Opacity override for SMD pads and PTHs
opts.m_ZoneOpacity = opacity; ///< Opacity override for filled zone areas
settings->LoadDisplayOptions( opts );
m_listPopupMenu = new wxMenu( wxT( "" ) );
m_listPopupMenu->Append( ID_LIST_COPY, wxT( "Copy selected geometry" ), wxT( "" ),
wxITEM_NORMAL );
m_listPopupMenu->Append( ID_LIST_SHOW_ALL, wxT( "Show all" ), wxT( "" ), wxITEM_NORMAL );
m_listPopupMenu->Append( ID_LIST_SHOW_NONE, wxT( "Show none" ), wxT( "" ), wxITEM_NORMAL );
m_itemList->Connect( m_itemList->GetId(), wxEVT_TREELIST_ITEM_CONTEXT_MENU,
wxMouseEventHandler( PNS_LOG_VIEWER_FRAME::onListRightClick ), nullptr,
this );
//m_itemList->Connect(m_itemList->GetId(),wxEVT_LISTBOX,wxCommandEventHandler(PNS_LOG_VIEWER_FRAME::onListSelect),nullptr,this);
m_itemList->Connect( m_itemList->GetId(), wxEVT_TREELIST_SELECTION_CHANGED,
wxCommandEventHandler( PNS_LOG_VIEWER_FRAME::onListSelect ),
nullptr, this );
m_itemList->Connect( m_itemList->GetId(), wxEVT_TREELIST_ITEM_CHECKED,
wxCommandEventHandler( PNS_LOG_VIEWER_FRAME::onListChecked ),
nullptr, this );
m_itemList->AppendColumn( "Type" );
m_itemList->AppendColumn( "Value" );
m_itemList->AppendColumn( "File" );
m_itemList->AppendColumn( "Method" );
m_itemList->AppendColumn( "Line" );
m_itemList->AppendColumn( "VCount" );
m_itemList->AppendColumn( "Non-45" );
m_overlay.reset( new PNS_LOG_VIEWER_OVERLAY ( m_galPanel->GetGAL() ) );
m_galPanel->GetView()->Add( m_overlay.get() );
}
PNS_LOG_VIEWER_FRAME::~PNS_LOG_VIEWER_FRAME()
{
m_overlay = nullptr;
}
void PNS_LOG_VIEWER_FRAME::createUserTools()
{
}
PNS_DEBUG_STAGE* PNS_LOG_VIEWER_FRAME::getCurrentStage()
{
PNS_TEST_DEBUG_DECORATOR* dbgd = m_logPlayer->GetDebugDecorator();
int count = dbgd->GetStageCount();
int iter = m_rewindIter;
if( count <= 0 )
return nullptr;
if( iter < 0 )
iter = 0;
if( iter >= count )
iter = count - 1;
return dbgd->GetStage( iter );
}
void PNS_LOG_VIEWER_FRAME::drawSimpleShape( SHAPE* aShape, bool aIsSelected, const std::string& aName )
{
switch( aShape->Type() )
{
case SH_CIRCLE:
{
auto cir = static_cast<SHAPE_CIRCLE*>( aShape );
m_overlay->Circle( cir->GetCenter(), cir->GetRadius() );
break;
}
case SH_SEGMENT:
{
auto seg = static_cast<SHAPE_SEGMENT*>( aShape );
m_overlay->Line( seg->GetSeg().A, seg->GetSeg().B );
break;
}
case SH_RECT:
{
auto rect = static_cast<SHAPE_RECT*>( aShape );
m_overlay->Rectangle( rect->GetPosition(), rect->GetPosition() + rect->GetSize() );
break;
}
case SH_LINE_CHAIN:
{
auto lc = static_cast<SHAPE_LINE_CHAIN*>( aShape );
m_overlay->AnnotatedPolyline( *lc, aName, m_showVertices || aIsSelected );
break;
}
default: break;
}
}
void PNS_LOG_VIEWER_FRAME::drawLoggedItems( int iter )
{
if( !m_logPlayer )
return;
PNS_DEBUG_STAGE* st = getCurrentStage();
if( !st )
return;
m_overlay.reset( new PNS_LOG_VIEWER_OVERLAY ( m_galPanel->GetGAL() ) );
m_galPanel->GetView()->Add( m_overlay.get() );
//m_galPanel->GetGAL()->EnableDepthTest( false );
auto drawShapes = [&]( PNS_DEBUG_SHAPE* ent ) -> bool
{
bool isEnabled = ent->IsVisible();
bool isSelected = ent->m_selected;
if( m_searchString.Length() > 0 )
isEnabled = ent->m_filterMatch;
if( !isEnabled )
return true;
for( auto& sh : ent->m_shapes )
{
COLOR4D color = ent->m_color;
int lineWidth = ent->m_width;
m_overlay->SetIsStroke( true );
m_overlay->SetIsFill( false );
if( isSelected )
{
color.Brighten( 0.5 );
}
color.a = 1.0;
m_overlay->SetStrokeColor( color );
m_overlay->SetLineWidth( m_showThinLines ? 10000 : ent->m_width );
if( sh->Type() == SH_COMPOUND )
{
auto cmpnd = static_cast<SHAPE_COMPOUND*>( sh );
for( auto subshape : cmpnd->Shapes() )
{
drawSimpleShape( subshape, isSelected, ent->m_name.ToStdString() );
}
}
else
{
drawSimpleShape( sh, isSelected, ent->m_name.ToStdString() );
}
}
return true;
};
st->m_entries->IterateTree( drawShapes );
m_overlay->DrawAnnotations();
m_galPanel->GetView()->MarkDirty();
m_galPanel->GetParent()->Refresh();
}
void PNS_LOG_VIEWER_FRAME::SetLogFile( PNS_LOG_FILE* aLog )
{
m_logFile.reset( aLog );
SetBoard( m_logFile->GetBoard() );
m_logPlayer.reset( new PNS_LOG_PLAYER );
m_logPlayer->ReplayLog( m_logFile.get(), 0, 0, -1);
auto dbgd = m_logPlayer->GetDebugDecorator();
int n_stages = dbgd->GetStageCount();
m_rewindSlider->SetMax( n_stages - 1 );
m_rewindSlider->SetValue( n_stages - 1 );
m_rewindIter = n_stages - 1;
auto extents = m_board->GetBoundingBox();
BOX2D bbd;
bbd.SetOrigin( extents.GetOrigin() );
bbd.SetWidth( extents.GetWidth() );
bbd.SetHeight( extents.GetHeight() );
bbd.Inflate( std::min( bbd.GetWidth(), bbd.GetHeight() ) / 5 );
m_galPanel->GetView()->SetViewport( bbd );
drawLoggedItems( m_rewindIter );
updateDumpPanel( m_rewindIter );
updatePnsPreviewItems( m_rewindIter );
}
void PNS_LOG_VIEWER_FRAME::SetBoard2( std::shared_ptr<BOARD> aBoard )
{
SetBoard( aBoard );
auto extents = m_board->GetBoundingBox();
BOX2D bbd;
bbd.SetOrigin( extents.GetOrigin() );
bbd.SetWidth( extents.GetWidth() );
bbd.SetHeight( extents.GetHeight() );
bbd.Inflate( std::min( bbd.GetWidth(), bbd.GetHeight() ) / 5 );
m_galPanel->GetView()->SetViewport( bbd );
}
void PNS_LOG_VIEWER_FRAME::onReload( wxCommandEvent& event )
{
event.Skip();
}
void PNS_LOG_VIEWER_FRAME::onExit( wxCommandEvent& event )
{
event.Skip();
}
void PNS_LOG_VIEWER_FRAME::onListChecked( wxCommandEvent& event )
{
syncModel();
drawLoggedItems( m_rewindIter );
}
void PNS_LOG_VIEWER_FRAME::onShowThinLinesChecked( wxCommandEvent& event )
{
m_showThinLines = event.GetInt();
drawLoggedItems( m_rewindIter );
updatePnsPreviewItems( m_rewindIter );
}
void PNS_LOG_VIEWER_FRAME::onShowRPIsChecked( wxCommandEvent& event )
{
m_showRPIs = event.GetInt();
drawLoggedItems( m_rewindIter );
updatePnsPreviewItems( m_rewindIter );
}
void PNS_LOG_VIEWER_FRAME::onShowVerticesChecked( wxCommandEvent& event )
{
m_showVertices = event.GetInt();
drawLoggedItems( m_rewindIter );
updatePnsPreviewItems( m_rewindIter );
}
void PNS_LOG_VIEWER_FRAME::onRewindScroll( wxScrollEvent& event )
{
m_rewindIter = event.GetPosition();
drawLoggedItems( m_rewindIter );
updateDumpPanel( m_rewindIter );
updatePnsPreviewItems( m_rewindIter );
char str[128];
sprintf( str, "%d", m_rewindIter );
m_rewindPos->SetValue( str );
event.Skip();
}
void PNS_LOG_VIEWER_FRAME::onBtnRewindLeft( wxCommandEvent& event )
{
if( m_rewindIter > 0 )
{
m_rewindIter--;
drawLoggedItems( m_rewindIter );
updateDumpPanel( m_rewindIter );
updatePnsPreviewItems( m_rewindIter );
char str[128];
sprintf( str, "%d", m_rewindIter );
m_rewindPos->SetValue( str );
}
}
void PNS_LOG_VIEWER_FRAME::onBtnRewindRight( wxCommandEvent& event )
{
auto dbgd = m_logPlayer->GetDebugDecorator();
int count = dbgd->GetStageCount();
if( m_rewindIter < count )
{
m_rewindIter++;
drawLoggedItems( m_rewindIter );
updateDumpPanel( m_rewindIter );
updatePnsPreviewItems( m_rewindIter );
char str[128];
sprintf( str, "%d", m_rewindIter );
m_rewindPos->SetValue( str );
}
}
void PNS_LOG_VIEWER_FRAME::onFilterText( wxCommandEvent& event )
{
m_searchString = m_filterString->GetValue();
updateDumpPanel( m_rewindIter );
}
void PNS_LOG_VIEWER_FRAME::onRewindCountText( wxCommandEvent& event )
{
if( !m_logPlayer )
return;
int val = wxAtoi( m_rewindPos->GetValue() );
auto dbgd = m_logPlayer->GetDebugDecorator();
int count = dbgd->GetStageCount();
if( val < 0 )
val = 0;
if( val >= count )
val = count - 1;
m_rewindIter = val;
m_rewindSlider->SetValue( m_rewindIter );
drawLoggedItems( m_rewindIter );
updateDumpPanel( m_rewindIter );
updatePnsPreviewItems( m_rewindIter );
event.Skip();
}
void PNS_LOG_VIEWER_FRAME::syncModel()
{
for( wxTreeListItem item = m_itemList->GetFirstItem(); item.IsOk();
item = m_itemList->GetNextItem( item ) )
{
WX_SHAPE_TREE_ITEM_DATA* idata =
static_cast<WX_SHAPE_TREE_ITEM_DATA*>( m_itemList->GetItemData( item ) );
if( idata )
{
bool checked = m_itemList->GetCheckedState( item ) == wxCHK_CHECKED;
bool selected = m_itemList->IsSelected( item );
idata->m_item->m_visible = checked || selected;
idata->m_item->m_selected = selected;
}
}
}
void PNS_LOG_VIEWER_FRAME::onListRightClick( wxMouseEvent& event )
{
auto sel = m_itemList->GetPopupMenuSelectionFromUser( *m_listPopupMenu );
switch( sel )
{
case ID_LIST_SHOW_NONE:
m_itemList->CheckItemRecursively( m_itemList->GetRootItem(), wxCHK_UNCHECKED );
syncModel();
drawLoggedItems( m_rewindIter );
break;
case ID_LIST_SHOW_ALL:
m_itemList->CheckItemRecursively( m_itemList->GetRootItem(), wxCHK_CHECKED );
syncModel();
drawLoggedItems( m_rewindIter );
break;
case ID_LIST_COPY:
{
wxString s;
PNS_DEBUG_STAGE* st = getCurrentStage();
if( !st )
return;
auto formatShapes = [&]( PNS_DEBUG_SHAPE* ent ) -> bool
{
if( ent->m_selected )
{
for( auto sh : ent->m_shapes )
{
s += "// " + ent->m_name + "\n " + sh->Format() + "; \n";
}
}
return true;
};
st->m_entries->IterateTree( formatShapes );
if( wxTheClipboard->Open() )
{
// This data objects are held by the clipboard,
// so do not delete them in the app.
wxTheClipboard->SetData( new wxTextDataObject( s ) );
wxTheClipboard->Flush(); // Allow data to be available after closing KiCad
wxTheClipboard->Close();
}
return;
}
}
}
void PNS_LOG_VIEWER_FRAME::onListSelect( wxCommandEvent& event )
{
syncModel();
drawLoggedItems( m_rewindIter );
}
static bool isLine45Degree( const SHAPE_LINE_CHAIN* lc )
{
for( int i = 0; i < lc->SegmentCount(); i++ )
{
const SEG& s = lc->CSegment( i );
if( lc->IsArcSegment( i ) )
continue;
if( s.Length() < 10 )
continue;
double angle = 180.0 / M_PI *
atan2( (double) s.B.y - (double) s.A.y,
(double) s.B.x - (double) s.A.x );
if( angle < 0 )
angle += 360.0;
double angle_a = fabs( fmod( angle, 45.0 ) );
if( angle_a > 1.0 && angle_a < 44.0 )
return false;
}
return true;
}
bool PNS_LOG_VIEWER_FRAME::filterStringMatches( PNS_DEBUG_SHAPE* ent )
{
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std::set<PNS_DEBUG_SHAPE*> processed;
std::deque<PNS_DEBUG_SHAPE*> q;
q.push_back(ent);
int total = 0;
while ( q.size() > 0 )
{
PNS_DEBUG_SHAPE* top = q.front();
q.pop_front();
for ( auto chld : top->m_children )
{
bool match = m_searchString.Length() == 0 ? true : false;
//printf("CHK %s\n", (const char *) chld->m_name.c_str() );
chld->m_filterMatch = false;
if ( chld->m_name.Contains( m_searchString ) )
match = true;
if ( chld->m_msg.Contains( m_searchString ) )
match = true;
if( match )
{
for ( PNS_DEBUG_SHAPE *cur = chld; cur; cur = cur->m_parent )
cur->m_filterMatch = match;
}
if( processed.find(chld) == processed.end() )
{
q.push_back( chld );
processed.insert( chld );
}
}
total++;
}
printf("total: %d\n", total );
return false;
}
void PNS_LOG_VIEWER_FRAME::buildListTree( wxTreeListItem item,
PNS_DEBUG_SHAPE* ent, int depth )
{
#ifdef EXTRA_VERBOSE
for( int i = 0; i < depth * 2; i++ )
printf( " " );
if( ent->m_msg.length() )
printf( "MSG: %s\n", ent->m_msg.c_str() );
else
printf( "SHAPES: %s [%d]\n", ent->m_name.c_str(), ent->m_children.size() );
#endif
wxTreeListItem ritem;
if( !ent->m_filterMatch )
return;
if( ent->m_msg.length() )
{
ritem = m_itemList->AppendItem( item, "Child" );
m_itemList->SetItemText( ritem, 0, "Message" );
m_itemList->SetItemText( ritem, 1, ent->m_msg );
}
else
{
ritem = m_itemList->AppendItem( item, "Child" );
int n_verts = 0;
for(auto sh : ent->m_shapes )
{
if ( sh->Type() == SH_LINE_CHAIN )
{
n_verts += static_cast<const SHAPE_LINE_CHAIN*>( sh )->PointCount();
}
}
m_itemList->SetItemText( ritem, 0, wxString::Format( "Shapes [%d verts]", n_verts ) );
m_itemList->SetItemText( ritem, 1, ent->m_name );
}
m_itemList->SetItemText( ritem, 2, wxFileNameFromPath( ent->m_srcLoc.fileName ) );
m_itemList->SetItemText( ritem, 3, ent->m_srcLoc.funcName );
m_itemList->SetItemText( ritem, 4, wxString::Format("%d", ent->m_srcLoc.line ) );
int totalVC = 0, totalVCSimplified = 0;
bool is45Degree = true;
for( SHAPE* sh : ent->m_shapes )
{
if( sh->Type() == SH_LINE_CHAIN )
{
auto lc = static_cast<SHAPE_LINE_CHAIN*>( sh );
totalVC += lc->PointCount();
SHAPE_LINE_CHAIN simp(*lc);
simp.Simplify();
totalVCSimplified += simp.PointCount();
if( !isLine45Degree( lc ) )
is45Degree = false;
}
}
if( totalVC > 0 )
m_itemList->SetItemText( ritem, 5, wxString::Format( "%d [%d]", totalVC, totalVCSimplified ) );
if( !is45Degree )
m_itemList->SetItemText( ritem, 6, wxT("") );
m_itemList->SetItemData( ritem, new WX_SHAPE_TREE_ITEM_DATA( ent, depth ) );
if( !ent->m_children.size() )
return;
for( auto child : ent->m_children )
{
buildListTree( ritem, child, depth + 1 );
}
}
static void expandAllChildren( wxTreeListCtrl* tree, int maxLevel = -1 )
{
wxTreeListItem child = tree->GetFirstItem ();
while( child.IsOk() )
{
WX_SHAPE_TREE_ITEM_DATA* idata =
static_cast<WX_SHAPE_TREE_ITEM_DATA*>( tree->GetItemData( child ) );
if( maxLevel < 0 || idata->m_level <= maxLevel )
tree->Expand ( child );
else
tree->Collapse ( child );
child = tree->GetNextItem( child );
}
}
static void collapseAllChildren( wxTreeListCtrl* tree )
{
wxTreeListItem child = tree->GetFirstItem ();
while( child.IsOk() )
{
tree->Collapse ( child );
child = tree->GetNextItem( child );
}
}
void PNS_LOG_VIEWER_FRAME::updateDumpPanel( int iter )
{
printf("UpdateDUmp %d\n", iter );
if( !m_logPlayer )
return;
auto dbgd = m_logPlayer->GetDebugDecorator();
int count = dbgd->GetStageCount();
wxArrayString dumpStrings;
if( count <= 0 )
return;
if( iter < 0 )
iter = 0;
if( iter >= count )
iter = count - 1;
auto st = dbgd->GetStage( iter );
if( st->m_status )
{
m_algoStatus->SetLabel("OK");
m_algoStatus->SetForegroundColour( wxColor(*wxGREEN));
}
else
{
m_algoStatus->SetLabel("FAIL");
m_algoStatus->SetForegroundColour( wxColor(*wxRED));
}
auto rootItem = m_itemList->GetRootItem();
m_itemList->DeleteAllItems();
filterStringMatches( st->m_entries );
buildListTree( rootItem, st->m_entries );
m_itemList->CheckItemRecursively( rootItem, wxCHK_UNCHECKED );
expandAllChildren( m_itemList, 0 );
m_itemList->Refresh();
}
void PNS_LOG_VIEWER_FRAME::updatePnsPreviewItems( int iter )
{
auto viewTracker = m_logPlayer->GetViewTracker();
PNS_LOG_VIEW_TRACKER::VIEW_ENTRIES& entries = viewTracker->GetEntriesForStage( iter );
auto view = m_galPanel->GetView();
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printf("DBG updatePnsPreviewItems: %zu items\n", entries.size() );
m_previewItems.reset( new KIGFX::VIEW_GROUP( m_galPanel->GetView() ) );
m_galPanel->GetView()->Add( m_previewItems.get() );
m_previewItems->SetLayer( LAYER_SELECT_OVERLAY ) ;
m_galPanel->GetView()->SetLayerVisible( LAYER_SELECT_OVERLAY );
if( !m_showRPIs )
return;
for( auto& ent : entries )
{
if ( ent.isHideOp )
{
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auto parent = ent.item->Parent();
if( parent )
{
view->Hide( parent );
}
}
else
{
ROUTER_PREVIEW_ITEM* pitem = new ROUTER_PREVIEW_ITEM( ent.item, view );
pitem->Update( ent.item );
m_previewItems->Add(pitem);
// printf("DBG vadd %p total %d\n", pitem, m_previewItems->GetSize() );
}
}
view->SetVisible( m_previewItems.get(), true );
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view->Update( m_previewItems.get() );
printf("DBG vgrp %p total %d\n", m_previewItems.get(), m_previewItems->GetSize() );
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//view->UpdateAllItems( KIGFX::ALL );
}
#if 0
static BOARD* loadBoard( const std::string& filename )
{
PLUGIN::RELEASER pi( new PCB_PLUGIN );
BOARD* brd = nullptr;
try
{
brd = pi->Load( wxString( filename.c_str() ), nullptr, nullptr );
}
catch( const IO_ERROR& )
{
return nullptr;
}
return brd;
}
int render_perftest_main_func( int argc, char* argv[] )
{
auto frame = new PNS_LOG_VIEWER_FRAME( nullptr );
// drcCreateTestsProviderClearance();
// drcCreateTestsProviderEdgeClearance();
if( argc >= 2 && std::string( argv[1] ) == "-h" )
{
printf( "PCB render performance test. Just renders a board without UI update overhead.\n" );
return 0;
}
if( argc < 2 )
{
printf( "Expected parameters: board_file\n" );
return 0;
}
PROF_TIMER cnt("load-board");
std::shared_ptr<BOARD> brd ( loadBoard( argv[1] ) );
cnt.Stop();
KI_TRACE( traceGalProfile, "%s\n", cnt.to_string() );
frame->SetBoard2( brd );
return 0;
}
static bool registered3 = UTILITY_REGISTRY::Register( {
"render_perftest",
"Renderer performance test",
render_perftest_main_func,
} );
VECTOR2I NearestPointFixpt( SEG seg, const VECTOR2I& aP )
{
VECTOR2I d = seg.B - seg.A;
SEG::ecoord l_squared = d.Dot( d );
if( l_squared == 0 )
return seg.A;
SEG::ecoord t = d.Dot( aP - seg.A );
if( t < 0 )
return seg.A;
else if( t > l_squared )
return seg.B;
int xp = rescale( t, (SEG::ecoord) d.x, l_squared );
int yp = rescale( t, (SEG::ecoord) d.y, l_squared );
return seg.A + VECTOR2I( xp, yp );
}
VECTOR2D NearestPointDbl( SEG seg, const VECTOR2I& aP )
{
VECTOR2D d = seg.B - seg.A;
double l_squared = d.Dot(d);
if( l_squared == 0 )
return seg.A;
double t = d.Dot(VECTOR2D( aP - seg.A ) );
if( t < 0 )
return seg.A;
else if( t > l_squared )
return seg.B;
double xp = t * d.x / l_squared;
double yp = t * d.y / l_squared;
return VECTOR2D(seg.A) + VECTOR2D( xp, yp );
}
int ttt_main_func( int argc, char* argv[] )
{
int n = 1000000;
std::vector<VECTOR2I> pts;
std::vector<SEG> segs;
std::vector<VECTOR2D> rv;
std::vector<VECTOR2I> rvi;
rv.resize(n);
rvi.resize(n);
for (int i = 0; i < n ;i++)
{
pts.push_back(VECTOR2I(random()%100000000, random()%100000000));
segs.push_back(SEG( VECTOR2I(random()%100000000, random()%100000000), VECTOR2I(random()%100000000, random()%100000000) ) );
}
PROF_TIMER tmrFix("nearest-fixpt");
for(int i = 0; i < n ; i++)
{
rvi[i] = NearestPointFixpt( segs[i], pts[i]);
}
tmrFix.Show();
2022-06-07 23:46:51 +00:00
PROF_TIMER tmrDbl("nearest-double");
for(int i = 0; i < n ; i++)
{
rv[i] = NearestPointDbl( segs[i], pts[i]);
}
tmrDbl.Show();
return 0;
}
static bool registered4 = UTILITY_REGISTRY::Register( {
"ttt",
"Renderer performance test",
ttt_main_func,
} );
#endif