kicad/eeschema/sch_sheet.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2016 Jean-Pierre Charras, jp.charras at wanadoo.fr
* Copyright (C) 1992-2023 Kicad Developers, see AUTHORS.txt for contributors.
*
* 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
*/
#include <cstdlib>
#include <bitmaps.h>
#include <core/mirror.h>
#include <core/kicad_algo.h>
#include <sch_draw_panel.h>
#include <trigo.h>
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#include <sch_edit_frame.h>
#include <plotters/plotter.h>
#include <string_utils.h>
#include <widgets/msgpanel.h>
#include <math/util.h> // for KiROUND
#include <sch_sheet.h>
#include <sch_sheet_path.h>
#include <sch_sheet_pin.h>
#include <sch_symbol.h>
#include <sch_painter.h>
#include <schematic.h>
#include <settings/color_settings.h>
#include <trace_helpers.h>
#include <pgm_base.h>
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#include <wx/log.h>
// N.B. Do not change these values without transitioning the file format
#define SHEET_NAME_CANONICAL "Sheetname"
#define SHEET_FILE_CANONICAL "Sheetfile"
#define USER_FIELD_CANONICAL "Field%d"
const wxString SCH_SHEET::GetDefaultFieldName( int aFieldNdx, bool aTranslated )
{
if( !aTranslated )
{
switch( aFieldNdx )
{
case SHEETNAME: return SHEET_NAME_CANONICAL;
case SHEETFILENAME: return SHEET_FILE_CANONICAL;
default: return wxString::Format( USER_FIELD_CANONICAL, aFieldNdx );
}
}
// Fixed values for the mandatory fields
switch( aFieldNdx )
{
case SHEETNAME: return _( SHEET_NAME_CANONICAL );
case SHEETFILENAME: return _( SHEET_FILE_CANONICAL );
default: return wxString::Format( _( USER_FIELD_CANONICAL ), aFieldNdx );
}
}
SCH_SHEET::SCH_SHEET( EDA_ITEM* aParent, const VECTOR2I& aPos, VECTOR2I aSize,
FIELDS_AUTOPLACED aAutoplaceFields ) :
SCH_ITEM( aParent, SCH_SHEET_T )
{
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m_layer = LAYER_SHEET;
m_pos = aPos;
m_size = aSize;
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m_screen = nullptr;
for( int i = 0; i < SHEET_MANDATORY_FIELDS; ++i )
{
m_fields.emplace_back( aPos, i, this, GetDefaultFieldName( i ) );
m_fields.back().SetVisible( true );
if( i == SHEETNAME )
m_fields.back().SetLayer( LAYER_SHEETNAME );
else if( i == SHEETFILENAME )
m_fields.back().SetLayer( LAYER_SHEETFILENAME );
else
m_fields.back().SetLayer( LAYER_SHEETFIELDS );
}
m_fieldsAutoplaced = aAutoplaceFields;
AutoAutoplaceFields( nullptr );
m_borderWidth = 0;
m_borderColor = COLOR4D::UNSPECIFIED;
m_backgroundColor = COLOR4D::UNSPECIFIED;
}
SCH_SHEET::SCH_SHEET( const SCH_SHEET& aSheet ) :
SCH_ITEM( aSheet )
{
m_pos = aSheet.m_pos;
m_size = aSheet.m_size;
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m_layer = aSheet.m_layer;
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const_cast<KIID&>( m_Uuid ) = aSheet.m_Uuid;
m_fields = aSheet.m_fields;
m_fieldsAutoplaced = aSheet.m_fieldsAutoplaced;
m_screen = aSheet.m_screen;
for( SCH_SHEET_PIN* pin : aSheet.m_pins )
{
m_pins.emplace_back( new SCH_SHEET_PIN( *pin ) );
m_pins.back()->SetParent( this );
}
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for( SCH_FIELD& field : m_fields )
field.SetParent( this );
m_borderWidth = aSheet.m_borderWidth;
m_borderColor = aSheet.m_borderColor;
m_backgroundColor = aSheet.m_backgroundColor;
m_instances = aSheet.m_instances;
if( m_screen )
m_screen->IncRefCount();
}
SCH_SHEET::~SCH_SHEET()
{
// also, look at the associated sheet & its reference count
// perhaps it should be deleted also.
if( m_screen )
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{
m_screen->DecRefCount();
if( m_screen->GetRefCount() == 0 )
delete m_screen;
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}
// We own our pins; delete them
for( SCH_SHEET_PIN* pin : m_pins )
delete pin;
}
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EDA_ITEM* SCH_SHEET::Clone() const
{
return new SCH_SHEET( *this );
}
void SCH_SHEET::SetScreen( SCH_SCREEN* aScreen )
{
if( aScreen == m_screen )
return;
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if( m_screen != nullptr )
{
m_screen->DecRefCount();
if( m_screen->GetRefCount() == 0 )
{
delete m_screen;
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m_screen = nullptr;
}
}
m_screen = aScreen;
if( m_screen )
m_screen->IncRefCount();
}
int SCH_SHEET::GetScreenCount() const
{
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if( m_screen == nullptr )
return 0;
return m_screen->GetRefCount();
}
bool SCH_SHEET::IsRootSheet() const
{
wxCHECK_MSG( Schematic(), false, "Can't call IsRootSheet without setting a schematic" );
return &Schematic()->Root() == this;
}
void SCH_SHEET::GetContextualTextVars( wxArrayString* aVars ) const
{
auto add =
[&]( const wxString& aVar )
{
if( !alg::contains( *aVars, aVar ) )
aVars->push_back( aVar );
};
for( int i = 0; i < SHEET_MANDATORY_FIELDS; ++i )
add( m_fields[i].GetCanonicalName().Upper() );
for( size_t i = SHEET_MANDATORY_FIELDS; i < m_fields.size(); ++i )
add( m_fields[i].GetName() );
SCH_SHEET_PATH sheetPath = findSelf();
if( sheetPath.size() >= 2 )
{
sheetPath.pop_back();
sheetPath.Last()->GetContextualTextVars( aVars );
}
else if( Schematic() )
{
Schematic()->GetContextualTextVars( aVars );
}
add( wxT( "#" ) );
add( wxT( "##" ) );
add( wxT( "SHEETPATH" ) );
m_screen->GetTitleBlock().GetContextualTextVars( aVars );
}
bool SCH_SHEET::ResolveTextVar( const SCH_SHEET_PATH* aPath, wxString* token, int aDepth ) const
{
if( !Schematic() )
return false;
if( token->Contains( ':' ) )
{
if( Schematic()->ResolveCrossReference( token, aDepth + 1 ) )
return true;
}
for( int i = 0; i < SHEET_MANDATORY_FIELDS; ++i )
{
if( token->IsSameAs( m_fields[i].GetCanonicalName().Upper() ) )
{
*token = m_fields[i].GetShownText( aDepth + 1 );
return true;
}
}
for( size_t i = SHEET_MANDATORY_FIELDS; i < m_fields.size(); ++i )
{
if( token->IsSameAs( m_fields[i].GetName() ) )
{
*token = m_fields[i].GetShownText( aDepth + 1 );
return true;
}
}
PROJECT *project = &Schematic()->Prj();
// We cannot resolve text variables initially on load as we need to first load the screen and
// then parse the hierarchy. So skip the resolution if the screen isn't set yet
if( m_screen && m_screen->GetTitleBlock().TextVarResolver( token, project ) )
{
return true;
}
if( token->IsSameAs( wxT( "#" ) ) )
{
*token = wxString::Format( "%s", findSelf().GetPageNumber() );
return true;
}
else if( token->IsSameAs( wxT( "##" ) ) )
{
SCH_SHEET_LIST sheetList = Schematic()->GetSheets();
*token = wxString::Format( wxT( "%d" ), (int) sheetList.size() );
return true;
}
else if( token->IsSameAs( wxT( "SHEETPATH" ) ) )
{
*token = findSelf().PathHumanReadable();
return true;
}
// See if parent can resolve it (these will recurse to ancestors)
SCH_SHEET_PATH sheetPath = aPath ? *aPath : findSelf();
if( sheetPath.size() >= 2 )
{
sheetPath.pop_back();
if( sheetPath.Last()->ResolveTextVar( aPath, token, aDepth + 1 ) )
return true;
}
else
{
if( Schematic()->ResolveTextVar( token, aDepth + 1 ) )
return true;
}
return false;
}
void SCH_SHEET::SwapData( SCH_ITEM* aItem )
{
wxCHECK_RET( aItem->Type() == SCH_SHEET_T,
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wxString::Format( wxT( "SCH_SHEET object cannot swap data with %s object." ),
aItem->GetClass() ) );
SCH_SHEET* sheet = ( SCH_SHEET* ) aItem;
std::swap( m_pos, sheet->m_pos );
std::swap( m_size, sheet->m_size );
m_fields.swap( sheet->m_fields );
std::swap( m_fieldsAutoplaced, sheet->m_fieldsAutoplaced );
m_pins.swap( sheet->m_pins );
// Update parent pointers after swapping.
for( SCH_SHEET_PIN* sheetPin : m_pins )
sheetPin->SetParent( this );
for( SCH_SHEET_PIN* sheetPin : sheet->m_pins )
sheetPin->SetParent( sheet );
for( SCH_FIELD& field : m_fields )
field.SetParent( this );
for( SCH_FIELD& field : sheet->m_fields )
field.SetParent( sheet );
std::swap( m_borderWidth, sheet->m_borderWidth );
std::swap( m_borderColor, sheet->m_borderColor );
std::swap( m_backgroundColor, sheet->m_backgroundColor );
std::swap( m_instances, sheet->m_instances );
}
void SCH_SHEET::SetFields( const std::vector<SCH_FIELD>& aFields )
{
m_fields = aFields;
int next_id = SHEET_MANDATORY_FIELDS;
for( int ii = 0; ii < int( m_fields.size() ); )
{
if( m_fields[ii].GetId() < 0 || m_fields[ii].GetId() >= ssize_t( m_fields.size() ) )
m_fields[ii].SetId( next_id++ );
if( m_fields[ii].GetId() != ii )
std::swap( m_fields[ii], m_fields[m_fields[ii].GetId()]);
if( m_fields[ii].GetId() == ii )
++ii;
}
// Make sure that we get the UNIX variant of the file path
SetFileName( m_fields[SHEETFILENAME].GetText() );
}
void SCH_SHEET::AddPin( SCH_SHEET_PIN* aSheetPin )
{
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wxASSERT( aSheetPin != nullptr );
wxASSERT( aSheetPin->Type() == SCH_SHEET_PIN_T );
aSheetPin->SetParent( this );
m_pins.push_back( aSheetPin );
renumberPins();
}
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void SCH_SHEET::RemovePin( const SCH_SHEET_PIN* aSheetPin )
{
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wxASSERT( aSheetPin != nullptr );
wxASSERT( aSheetPin->Type() == SCH_SHEET_PIN_T );
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for( auto i = m_pins.begin(); i < m_pins.end(); ++i )
{
if( *i == aSheetPin )
{
m_pins.erase( i );
renumberPins();
return;
}
}
}
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bool SCH_SHEET::HasPin( const wxString& aName ) const
{
for( SCH_SHEET_PIN* pin : m_pins )
{
if( pin->GetText().CmpNoCase( aName ) == 0 )
return true;
}
return false;
}
bool SCH_SHEET::doIsConnected( const VECTOR2I& aPosition ) const
{
for( SCH_SHEET_PIN* sheetPin : m_pins )
{
if( sheetPin->GetPosition() == aPosition )
return true;
}
return false;
}
bool SCH_SHEET::IsVerticalOrientation() const
{
int leftRight = 0;
int topBottom = 0;
for( SCH_SHEET_PIN* pin : m_pins )
{
switch( pin->GetSide() )
{
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case SHEET_SIDE::LEFT: leftRight++; break;
case SHEET_SIDE::RIGHT: leftRight++; break;
case SHEET_SIDE::TOP: topBottom++; break;
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case SHEET_SIDE::BOTTOM: topBottom++; break;
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default: break;
}
}
return topBottom > 0 && leftRight == 0;
}
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bool SCH_SHEET::HasUndefinedPins() const
{
for( SCH_SHEET_PIN* pin : m_pins )
{
/* Search the schematic for a hierarchical label corresponding to this sheet label. */
const SCH_HIERLABEL* HLabel = nullptr;
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for( SCH_ITEM* aItem : m_screen->Items().OfType( SCH_HIER_LABEL_T ) )
{
if( !pin->GetText().CmpNoCase( static_cast<SCH_HIERLABEL*>( aItem )->GetText() ) )
{
HLabel = static_cast<SCH_HIERLABEL*>( aItem );
break;
}
}
if( HLabel == nullptr ) // Corresponding hierarchical label not found.
return true;
}
return false;
}
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int bumpToNextGrid( const int aVal, const int aDirection )
{
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constexpr int gridSize = schIUScale.MilsToIU( 50 );
int base = aVal / gridSize;
int excess = abs( aVal % gridSize );
if( aDirection > 0 )
{
return ( base + 1 ) * gridSize;
}
else if( excess > 0 )
{
return ( base ) * gridSize;
}
else
{
return ( base - 1 ) * gridSize;
}
}
int SCH_SHEET::GetMinWidth( bool aFromLeft ) const
{
int pinsLeft = m_pos.x + m_size.x;
int pinsRight = m_pos.x;
for( size_t i = 0; i < m_pins.size(); i++ )
{
SHEET_SIDE edge = m_pins[i]->GetSide();
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if( edge == SHEET_SIDE::TOP || edge == SHEET_SIDE::BOTTOM )
{
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BOX2I pinRect = m_pins[i]->GetBoundingBox();
pinsLeft = std::min( pinsLeft, pinRect.GetLeft() );
pinsRight = std::max( pinsRight, pinRect.GetRight() );
}
}
pinsLeft = bumpToNextGrid( pinsLeft, -1 );
pinsRight = bumpToNextGrid( pinsRight, 1 );
int pinMinWidth;
if( pinsLeft >= pinsRight )
pinMinWidth = 0;
else if( aFromLeft )
pinMinWidth = pinsRight - m_pos.x;
else
pinMinWidth = m_pos.x + m_size.x - pinsLeft;
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return std::max( pinMinWidth, schIUScale.MilsToIU( MIN_SHEET_WIDTH ) );
}
int SCH_SHEET::GetMinHeight( bool aFromTop ) const
{
int pinsTop = m_pos.y + m_size.y;
int pinsBottom = m_pos.y;
for( size_t i = 0; i < m_pins.size(); i++ )
{
SHEET_SIDE edge = m_pins[i]->GetSide();
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if( edge == SHEET_SIDE::RIGHT || edge == SHEET_SIDE::LEFT )
{
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BOX2I pinRect = m_pins[i]->GetBoundingBox();
pinsTop = std::min( pinsTop, pinRect.GetTop() );
pinsBottom = std::max( pinsBottom, pinRect.GetBottom() );
}
}
pinsTop = bumpToNextGrid( pinsTop, -1 );
pinsBottom = bumpToNextGrid( pinsBottom, 1 );
int pinMinHeight;
if( pinsTop >= pinsBottom )
pinMinHeight = 0;
else if( aFromTop )
pinMinHeight = pinsBottom - m_pos.y;
else
pinMinHeight = m_pos.y + m_size.y - pinsTop;
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return std::max( pinMinHeight, schIUScale.MilsToIU( MIN_SHEET_HEIGHT ) );
}
void SCH_SHEET::CleanupSheet()
{
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std::vector<SCH_SHEET_PIN*> pins = m_pins;
m_pins.clear();
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for( SCH_SHEET_PIN* pin : pins )
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{
/* Search the schematic for a hierarchical label corresponding to this sheet label. */
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const SCH_HIERLABEL* HLabel = nullptr;
for( SCH_ITEM* aItem : m_screen->Items().OfType( SCH_HIER_LABEL_T ) )
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{
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if( pin->GetText().CmpNoCase( static_cast<SCH_HIERLABEL*>( aItem )->GetText() ) == 0 )
{
HLabel = static_cast<SCH_HIERLABEL*>( aItem );
break;
}
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}
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if( HLabel )
m_pins.push_back( pin );
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}
}
SCH_SHEET_PIN* SCH_SHEET::GetPin( const VECTOR2I& aPosition )
{
for( SCH_SHEET_PIN* pin : m_pins )
{
if( pin->HitTest( aPosition ) )
return pin;
}
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return nullptr;
}
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int SCH_SHEET::GetPenWidth() const
{
if( GetBorderWidth() > 0 )
return GetBorderWidth();
if( Schematic() )
return Schematic()->Settings().m_DefaultLineWidth;
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return schIUScale.MilsToIU( DEFAULT_LINE_WIDTH_MILS );
}
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void SCH_SHEET::AutoplaceFields( SCH_SCREEN* aScreen, bool /* aManual */ )
{
VECTOR2I textSize = m_fields[SHEETNAME].GetTextSize();
int borderMargin = KiROUND( GetPenWidth() / 2.0 ) + 4;
int margin = borderMargin + KiROUND( std::max( textSize.x, textSize.y ) * 0.5 );
if( IsVerticalOrientation() )
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{
m_fields[SHEETNAME].SetTextPos( m_pos + VECTOR2I( -margin, m_size.y ) );
m_fields[ SHEETNAME ].SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
m_fields[ SHEETNAME ].SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );
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m_fields[ SHEETNAME ].SetTextAngle( ANGLE_VERTICAL );
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}
else
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{
m_fields[SHEETNAME].SetTextPos( m_pos + VECTOR2I( 0, -margin ) );
m_fields[ SHEETNAME ].SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
m_fields[ SHEETNAME ].SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );
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m_fields[ SHEETNAME ].SetTextAngle( ANGLE_HORIZONTAL );
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}
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textSize = m_fields[ SHEETFILENAME ].GetTextSize();
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margin = borderMargin + KiROUND( std::max( textSize.x, textSize.y ) * 0.4 );
if( IsVerticalOrientation() )
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{
m_fields[SHEETFILENAME].SetTextPos( m_pos + VECTOR2I( m_size.x + margin, m_size.y ) );
m_fields[ SHEETFILENAME ].SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
m_fields[ SHEETFILENAME ].SetVertJustify( GR_TEXT_V_ALIGN_TOP );
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m_fields[ SHEETFILENAME ].SetTextAngle( ANGLE_VERTICAL );
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}
else
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{
m_fields[SHEETFILENAME].SetTextPos( m_pos + VECTOR2I( 0, m_size.y + margin ) );
m_fields[ SHEETFILENAME ].SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
m_fields[ SHEETFILENAME ].SetVertJustify( GR_TEXT_V_ALIGN_TOP );
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m_fields[ SHEETFILENAME ].SetTextAngle( ANGLE_HORIZONTAL );
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}
m_fieldsAutoplaced = FIELDS_AUTOPLACED_AUTO;
}
void SCH_SHEET::ViewGetLayers( int aLayers[], int& aCount ) const
{
aCount = 7;
aLayers[0] = LAYER_HIERLABEL;
aLayers[1] = LAYER_SHEETNAME;
aLayers[2] = LAYER_SHEETFILENAME;
aLayers[3] = LAYER_SHEETFIELDS;
aLayers[4] = LAYER_SHEET;
aLayers[5] = LAYER_SHEET_BACKGROUND;
aLayers[6] = LAYER_SELECTION_SHADOWS;
}
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const BOX2I SCH_SHEET::GetBodyBoundingBox() const
{
VECTOR2I end;
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BOX2I box( m_pos, m_size );
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int lineWidth = GetPenWidth();
int textLength = 0;
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// Calculate bounding box X size:
end.x = std::max( m_size.x, textLength );
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// Calculate bounding box pos:
end.y = m_size.y;
end += m_pos;
box.SetEnd( end );
box.Inflate( lineWidth / 2 );
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return box;
}
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const BOX2I SCH_SHEET::GetBoundingBox() const
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{
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BOX2I bbox = GetBodyBoundingBox();
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for( const SCH_FIELD& field : m_fields )
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bbox.Merge( field.GetBoundingBox() );
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return bbox;
}
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VECTOR2I SCH_SHEET::GetRotationCenter() const
{
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BOX2I box( m_pos, m_size );
return box.GetCenter();
}
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int SCH_SHEET::SymbolCount() const
{
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int n = 0;
if( m_screen )
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{
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for( SCH_ITEM* aItem : m_screen->Items().OfType( SCH_SYMBOL_T ) )
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{
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SCH_SYMBOL* symbol = (SCH_SYMBOL*) aItem;
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if( symbol->GetField( VALUE_FIELD )->GetText().GetChar( 0 ) != '#' )
n++;
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}
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for( SCH_ITEM* aItem : m_screen->Items().OfType( SCH_SHEET_T ) )
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n += static_cast<const SCH_SHEET*>( aItem )->SymbolCount();
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}
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return n;
}
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bool SCH_SHEET::SearchHierarchy( const wxString& aFilename, SCH_SCREEN** aScreen )
{
if( m_screen )
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{
// Only check the root sheet once and don't recurse.
if( !GetParent() )
{
if( m_screen && m_screen->GetFileName().Cmp( aFilename ) == 0 )
{
*aScreen = m_screen;
return true;
}
}
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for( SCH_ITEM* aItem : m_screen->Items().OfType( SCH_SHEET_T ) )
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{
SCH_SHEET* sheet = static_cast<SCH_SHEET*>( aItem );
SCH_SCREEN* screen = sheet->m_screen;
// Must use the screen's path (which is always absolute) rather than the
// sheet's (which could be relative).
if( screen && screen->GetFileName().Cmp( aFilename ) == 0 )
{
*aScreen = screen;
return true;
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}
if( sheet->SearchHierarchy( aFilename, aScreen ) )
return true;
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}
}
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return false;
}
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bool SCH_SHEET::LocatePathOfScreen( SCH_SCREEN* aScreen, SCH_SHEET_PATH* aList )
{
if( m_screen )
{
aList->push_back( this );
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if( m_screen == aScreen )
return true;
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for( EDA_ITEM* item : m_screen->Items().OfType( SCH_SHEET_T ) )
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{
SCH_SHEET* sheet = static_cast<SCH_SHEET*>( item );
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if( sheet->LocatePathOfScreen( aScreen, aList ) )
return true;
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}
aList->pop_back();
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}
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return false;
}
int SCH_SHEET::CountSheets() const
{
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int count = 1; //1 = this!!
if( m_screen )
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{
for( SCH_ITEM* aItem : m_screen->Items().OfType( SCH_SHEET_T ) )
count += static_cast<SCH_SHEET*>( aItem )->CountSheets();
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}
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return count;
}
void SCH_SHEET::GetMsgPanelInfo( EDA_DRAW_FRAME* aFrame, std::vector<MSG_PANEL_ITEM>& aList )
{
aList.emplace_back( _( "Sheet Name" ), m_fields[ SHEETNAME ].GetText() );
if( SCH_EDIT_FRAME* schframe = dynamic_cast<SCH_EDIT_FRAME*>( aFrame ) )
{
SCH_SHEET_PATH path = schframe->GetCurrentSheet();
path.push_back( this );
aList.emplace_back( _( "Hierarchical Path" ), path.PathHumanReadable( false, true ) );
}
aList.emplace_back( _( "File Name" ), m_fields[ SHEETFILENAME ].GetText() );
}
void SCH_SHEET::Move( const VECTOR2I& aMoveVector )
{
m_pos += aMoveVector;
for( SCH_SHEET_PIN* pin : m_pins )
pin->Move( aMoveVector );
for( SCH_FIELD& field : m_fields )
field.Move( aMoveVector );
}
void SCH_SHEET::Rotate( const VECTOR2I& aCenter )
{
VECTOR2I prev = m_pos;
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RotatePoint( m_pos, aCenter, ANGLE_90 );
RotatePoint( &m_size.x, &m_size.y, ANGLE_90 );
if( m_size.x < 0 )
{
m_pos.x += m_size.x;
m_size.x = -m_size.x;
}
if( m_size.y < 0 )
{
m_pos.y += m_size.y;
m_size.y = -m_size.y;
}
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// Pins must be rotated first as that's how we determine vertical vs horizontal
// orientation for auto-placement
for( SCH_SHEET_PIN* sheetPin : m_pins )
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sheetPin->Rotate( aCenter );
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if( m_fieldsAutoplaced == FIELDS_AUTOPLACED_AUTO )
{
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AutoplaceFields( /* aScreen */ nullptr, /* aManual */ false );
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}
else
{
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// Move the fields to the new position because the parent itself has moved.
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for( SCH_FIELD& field : m_fields )
{
VECTOR2I pos = field.GetTextPos();
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pos.x -= prev.x - m_pos.x;
pos.y -= prev.y - m_pos.y;
field.SetTextPos( pos );
}
}
}
void SCH_SHEET::MirrorVertically( int aCenter )
{
int dy = m_pos.y;
MIRROR( m_pos.y, aCenter );
m_pos.y -= m_size.y;
dy -= m_pos.y; // 0,dy is the move vector for this transform
for( SCH_SHEET_PIN* sheetPin : m_pins )
sheetPin->MirrorVertically( aCenter );
for( SCH_FIELD& field : m_fields )
{
VECTOR2I pos = field.GetTextPos();
pos.y -= dy;
field.SetTextPos( pos );
}
}
void SCH_SHEET::MirrorHorizontally( int aCenter )
{
int dx = m_pos.x;
MIRROR( m_pos.x, aCenter );
m_pos.x -= m_size.x;
dx -= m_pos.x; // dx,0 is the move vector for this transform
for( SCH_SHEET_PIN* sheetPin : m_pins )
sheetPin->MirrorHorizontally( aCenter );
for( SCH_FIELD& field : m_fields )
{
VECTOR2I pos = field.GetTextPos();
pos.x -= dx;
field.SetTextPos( pos );
}
}
void SCH_SHEET::SetPosition( const VECTOR2I& aPosition )
{
// Remember the sheet and all pin sheet positions must be
// modified. So use Move function to do that.
Move( aPosition - m_pos );
}
void SCH_SHEET::Resize( const VECTOR2I& aSize )
{
if( aSize == m_size )
return;
m_size = aSize;
// Move the fields if we're in autoplace mode
if( m_fieldsAutoplaced == FIELDS_AUTOPLACED_AUTO )
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AutoplaceFields( /* aScreen */ nullptr, /* aManual */ false );
// Move the sheet labels according to the new sheet size.
for( SCH_SHEET_PIN* sheetPin : m_pins )
sheetPin->ConstrainOnEdge( sheetPin->GetPosition() );
}
bool SCH_SHEET::Matches( const EDA_SEARCH_DATA& aSearchData, void* aAuxData ) const
{
// Sheets are searchable via the child field and pin item text.
return false;
}
void SCH_SHEET::renumberPins()
{
int id = 2;
for( SCH_SHEET_PIN* pin : m_pins )
{
pin->SetNumber( id );
id++;
}
}
SCH_SHEET_PATH SCH_SHEET::findSelf() const
{
wxCHECK_MSG( Schematic(), SCH_SHEET_PATH(), "Can't call findSelf without a schematic" );
SCH_SHEET_PATH sheetPath = Schematic()->CurrentSheet();
while( !sheetPath.empty() && sheetPath.Last() != this )
sheetPath.pop_back();
if( sheetPath.empty() )
{
// If we weren't in the hierarchy, then we must be a child of the current sheet.
sheetPath = Schematic()->CurrentSheet();
sheetPath.push_back( const_cast<SCH_SHEET*>( this ) );
}
return sheetPath;
}
void SCH_SHEET::GetEndPoints( std::vector <DANGLING_END_ITEM>& aItemList )
{
for( SCH_SHEET_PIN* sheetPin : m_pins )
{
wxCHECK2_MSG( sheetPin->Type() == SCH_SHEET_PIN_T, continue,
wxT( "Invalid item in schematic sheet pin list. Bad programmer!" ) );
sheetPin->GetEndPoints( aItemList );
}
}
bool SCH_SHEET::UpdateDanglingState( std::vector<DANGLING_END_ITEM>& aItemList,
const SCH_SHEET_PATH* aPath )
{
bool changed = false;
for( SCH_SHEET_PIN* sheetPin : m_pins )
changed |= sheetPin->UpdateDanglingState( aItemList );
return changed;
}
std::vector<VECTOR2I> SCH_SHEET::GetConnectionPoints() const
{
std::vector<VECTOR2I> retval;
for( SCH_SHEET_PIN* sheetPin : m_pins )
retval.push_back( sheetPin->GetPosition() );
return retval;
}
INSPECT_RESULT SCH_SHEET::Visit( INSPECTOR aInspector, void* testData,
const std::vector<KICAD_T>& aScanTypes )
{
for( KICAD_T scanType : aScanTypes )
{
// If caller wants to inspect my type
if( scanType == SCH_LOCATE_ANY_T || scanType == Type() )
{
if( INSPECT_RESULT::QUIT == aInspector( this, nullptr ) )
return INSPECT_RESULT::QUIT;
}
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if( scanType == SCH_LOCATE_ANY_T || scanType == SCH_FIELD_T )
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{
// Test the sheet fields.
for( SCH_FIELD& field : m_fields )
{
if( INSPECT_RESULT::QUIT == aInspector( &field, this ) )
return INSPECT_RESULT::QUIT;
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}
}
if( scanType == SCH_LOCATE_ANY_T || scanType == SCH_SHEET_PIN_T )
{
// Test the sheet labels.
for( SCH_SHEET_PIN* sheetPin : m_pins )
{
if( INSPECT_RESULT::QUIT == aInspector( sheetPin, this ) )
return INSPECT_RESULT::QUIT;
}
}
}
return INSPECT_RESULT::CONTINUE;
}
void SCH_SHEET::RunOnChildren( const std::function<void( SCH_ITEM* )>& aFunction )
{
for( SCH_FIELD& field : m_fields )
aFunction( &field );
for( SCH_SHEET_PIN* pin : m_pins )
aFunction( pin );
}
wxString SCH_SHEET::GetItemDescription( UNITS_PROVIDER* aUnitsProvider ) const
{
return wxString::Format( _( "Hierarchical Sheet %s" ),
m_fields[ SHEETNAME ].GetText() );
}
BITMAPS SCH_SHEET::GetMenuImage() const
{
return BITMAPS::add_hierarchical_subsheet;
}
bool SCH_SHEET::HitTest( const VECTOR2I& aPosition, int aAccuracy ) const
{
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BOX2I rect = GetBodyBoundingBox();
rect.Inflate( aAccuracy );
return rect.Contains( aPosition );
}
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bool SCH_SHEET::HitTest( const BOX2I& aRect, bool aContained, int aAccuracy ) const
{
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BOX2I rect = aRect;
rect.Inflate( aAccuracy );
if( aContained )
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return rect.Contains( GetBodyBoundingBox() );
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return rect.Intersects( GetBodyBoundingBox() );
}
void SCH_SHEET::Plot( PLOTTER* aPlotter, bool aBackground ) const
{
if( aBackground && !aPlotter->GetColorMode() )
return;
auto* settings = dynamic_cast<KIGFX::SCH_RENDER_SETTINGS*>( aPlotter->RenderSettings() );
bool override = settings ? settings->m_OverrideItemColors : false;
COLOR4D borderColor = GetBorderColor();
COLOR4D backgroundColor = GetBackgroundColor();
if( override || borderColor == COLOR4D::UNSPECIFIED )
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borderColor = aPlotter->RenderSettings()->GetLayerColor( LAYER_SHEET );
if( override || backgroundColor == COLOR4D::UNSPECIFIED )
backgroundColor = aPlotter->RenderSettings()->GetLayerColor( LAYER_SHEET_BACKGROUND );
if( aBackground )
{
aPlotter->SetColor( backgroundColor );
aPlotter->Rect( m_pos, m_pos + m_size, FILL_T::FILLED_SHAPE, 1 );
}
else
{
aPlotter->SetColor( borderColor );
int penWidth = std::max( GetPenWidth(), aPlotter->RenderSettings()->GetMinPenWidth() );
aPlotter->Rect( m_pos, m_pos + m_size, FILL_T::NO_FILL, penWidth );
}
// Make the sheet object a clickable hyperlink (e.g. for PDF plotter)
std::vector<wxString> properties;
properties.emplace_back( EDA_TEXT::GotoPageHref( findSelf().GetPageNumber() ) );
for( const SCH_FIELD& field : GetFields() )
{
properties.emplace_back( wxString::Format( wxT( "!%s = %s" ),
field.GetName(),
field.GetShownText() ) );
}
aPlotter->HyperlinkMenu( GetBoundingBox(), properties );
// Plot sheet pins
for( SCH_SHEET_PIN* sheetPin : m_pins )
sheetPin->Plot( aPlotter, aBackground );
// Plot the fields
for( const SCH_FIELD& field : m_fields )
field.Plot( aPlotter, aBackground );
}
void SCH_SHEET::Print( const RENDER_SETTINGS* aSettings, const VECTOR2I& aOffset )
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{
wxDC* DC = aSettings->GetPrintDC();
VECTOR2I pos = m_pos + aOffset;
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int lineWidth = std::max( GetPenWidth(), aSettings->GetDefaultPenWidth() );
const auto* settings = dynamic_cast<const KIGFX::SCH_RENDER_SETTINGS*>( aSettings );
bool override = settings && settings->m_OverrideItemColors;
COLOR4D border = GetBorderColor();
COLOR4D background = GetBackgroundColor();
if( override || border == COLOR4D::UNSPECIFIED )
border = aSettings->GetLayerColor( LAYER_SHEET );
if( override || background == COLOR4D::UNSPECIFIED )
background = aSettings->GetLayerColor( LAYER_SHEET_BACKGROUND );
if( GetGRForceBlackPenState() ) // printing in black & white
background = COLOR4D::UNSPECIFIED;
if( background != COLOR4D::UNSPECIFIED )
GRFilledRect( DC, pos, pos + m_size, 0, background, background );
GRRect( DC, pos, pos + m_size, lineWidth, border );
for( SCH_FIELD& field : m_fields )
field.Print( aSettings, aOffset );
for( SCH_SHEET_PIN* sheetPin : m_pins )
sheetPin->Print( aSettings, aOffset );
}
SCH_SHEET& SCH_SHEET::operator=( const SCH_ITEM& aItem )
{
wxCHECK_MSG( Type() == aItem.Type(), *this,
wxT( "Cannot assign object type " ) + aItem.GetClass() + wxT( " to type " ) +
GetClass() );
if( &aItem != this )
{
SCH_ITEM::operator=( aItem );
SCH_SHEET* sheet = (SCH_SHEET*) &aItem;
m_pos = sheet->m_pos;
m_size = sheet->m_size;
m_fields = sheet->m_fields;
for( SCH_SHEET_PIN* pin : sheet->m_pins )
{
m_pins.emplace_back( new SCH_SHEET_PIN( *pin ) );
m_pins.back()->SetParent( this );
}
for( const SCH_SHEET_INSTANCE& instance : sheet->m_instances )
m_instances.emplace_back( instance );
}
return *this;
}
bool SCH_SHEET::operator <( const SCH_ITEM& aItem ) const
{
if( Type() != aItem.Type() )
return Type() < aItem.Type();
auto sheet = static_cast<const SCH_SHEET*>( &aItem );
if (m_fields[ SHEETNAME ].GetText() != sheet->m_fields[ SHEETNAME ].GetText() )
return m_fields[ SHEETNAME ].GetText() < sheet->m_fields[ SHEETNAME ].GetText();
if (m_fields[ SHEETFILENAME ].GetText() != sheet->m_fields[ SHEETFILENAME ].GetText() )
return m_fields[ SHEETFILENAME ].GetText() < sheet->m_fields[ SHEETFILENAME ].GetText();
return false;
}
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bool SCH_SHEET::addInstance( const SCH_SHEET_PATH& aSheetPath )
{
wxCHECK( aSheetPath.IsFullPath(), false );
wxCHECK( !aSheetPath.Last() || ( aSheetPath.Last()->m_Uuid != m_Uuid ), false );
for( const SCH_SHEET_INSTANCE& instance : m_instances )
{
// if aSheetPath is found, nothing to do:
if( instance.m_Path == aSheetPath.Path() )
return false;
}
wxLogTrace( traceSchSheetPaths, wxT( "Adding instance `%s` to sheet `%s`." ),
aSheetPath.Path().AsString(),
( GetName().IsEmpty() ) ? wxString( wxT( "root" ) ) : GetName() );
SCH_SHEET_INSTANCE instance;
instance.m_Path = aSheetPath.Path();
// This entry does not exist: add it with an empty page number.
m_instances.emplace_back( instance );
return true;
}
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bool SCH_SHEET::getInstance( SCH_SHEET_INSTANCE& aInstance, const KIID_PATH& aSheetPath,
bool aTestFromEnd ) const
{
for( const SCH_SHEET_INSTANCE& instance : m_instances )
{
if( !aTestFromEnd )
{
if( instance.m_Path == aSheetPath )
{
aInstance = instance;
return true;
}
}
else if( instance.m_Path.EndsWith( aSheetPath ) )
{
aInstance = instance;
return true;
}
}
return false;
}
bool SCH_SHEET::HasRootInstance() const
{
for( const SCH_SHEET_INSTANCE& instance : m_instances )
{
if( instance.m_Path.size() == 0 )
return true;
}
return false;
}
const SCH_SHEET_INSTANCE& SCH_SHEET::GetRootInstance() const
{
for( const SCH_SHEET_INSTANCE& instance : m_instances )
{
if( instance.m_Path.size() == 0 )
return instance;
}
wxFAIL;
static SCH_SHEET_INSTANCE dummy;
return dummy;
}
wxString SCH_SHEET::getPageNumber( const SCH_SHEET_PATH& aSheetPath ) const
{
wxCHECK( aSheetPath.IsFullPath(), wxEmptyString );
wxCHECK( !aSheetPath.Last() || ( aSheetPath.Last()->m_Uuid != m_Uuid ), wxEmptyString );
wxString pageNumber;
KIID_PATH path = aSheetPath.Path();
for( const SCH_SHEET_INSTANCE& instance : m_instances )
{
if( instance.m_Path == path )
{
pageNumber = instance.m_PageNumber;
break;
}
}
return pageNumber;
}
void SCH_SHEET::setPageNumber( const SCH_SHEET_PATH& aSheetPath, const wxString& aPageNumber )
{
wxCHECK( aSheetPath.IsFullPath(), /* void */ );
wxCHECK( !aSheetPath.Last() || ( aSheetPath.Last()->m_Uuid != m_Uuid ), /* void */ );
KIID_PATH path = aSheetPath.Path();
for( SCH_SHEET_INSTANCE& instance : m_instances )
{
if( instance.m_Path == path )
{
instance.m_PageNumber = aPageNumber;
break;
}
}
}
int SCH_SHEET::ComparePageNum( const wxString& aPageNumberA, const wxString& aPageNumberB )
{
if( aPageNumberA == aPageNumberB )
return 0; // A == B
// First sort numerically if the page numbers are integers
long pageA, pageB;
bool isIntegerPageA = aPageNumberA.ToLong( &pageA );
bool isIntegerPageB = aPageNumberB.ToLong( &pageB );
if( isIntegerPageA && isIntegerPageB )
{
if( pageA < pageB )
return -1; //A < B
else
return 1; // A > B
}
// Numerical page numbers always before strings
if( isIntegerPageA )
return -1; //A < B
else if( isIntegerPageB )
return 1; // A > B
// If not numeric, then sort as strings using natural sort
int result = StrNumCmp( aPageNumberA, aPageNumberB );
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// Divide by zero bad.
wxCHECK( result != 0, 0 );
result = result / std::abs( result );
return result;
}
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#if defined(DEBUG)
void SCH_SHEET::Show( int nestLevel, std::ostream& os ) const
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{
// XML output:
wxString s = GetClass();
NestedSpace( nestLevel, os ) << '<' << s.Lower().mb_str() << ">" << " sheet_name=\""
<< TO_UTF8( m_fields[ SHEETNAME ].GetText() ) << '"' << ">\n";
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// show all the pins, and check the linked list integrity
for( SCH_SHEET_PIN* sheetPin : m_pins )
sheetPin->Show( nestLevel + 1, os );
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NestedSpace( nestLevel, os ) << "</" << s.Lower().mb_str() << ">\n" << std::flush;
}
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#endif