kicad/eeschema/component_class.cpp

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/***********************************************************************/
/* component_class.cpp : handle the class SCH_COMPONENT */
/***********************************************************************/
#include "fctsys.h"
#include "gr_basic.h"
#include "common.h"
#include "program.h"
#include "libcmp.h"
#include "general.h"
#include "macros.h"
#include "protos.h"
#include <wx/arrimpl.cpp>
#include <wx/tokenzr.h>
WX_DEFINE_OBJARRAY( ArrayOfSheetLists );
/***************************/
/* class SCH_COMPONENT */
/***************************/
/*******************************************************************/
SCH_COMPONENT::SCH_COMPONENT( const wxPoint& aPos, SCH_ITEM* aParent ) :
SCH_ITEM( aParent, TYPE_SCH_COMPONENT )
/*******************************************************************/
{
m_Multi = 0; /* In multi unit chip - which unit to draw. */
m_Pos = aPos;
m_Convert = 0; /* De Morgan Handling */
/* The rotation/mirror transformation matrix. pos normal */
m_Transform[0][0] = 1;
m_Transform[0][1] = 0;
m_Transform[1][0] = 0;
m_Transform[1][1] = -1;
m_Fields.reserve( NUMBER_OF_FIELDS );
for( int i = 0; i<NUMBER_OF_FIELDS; ++i )
{
SCH_CMP_FIELD field( aPos, i, this, ReturnDefaultFieldName( i ) );
if( i==REFERENCE )
field.SetLayer( LAYER_REFERENCEPART );
else if( i==VALUE )
field.SetLayer( LAYER_VALUEPART );
// else keep LAYER_FIELDS from SCH_CMP_FIELD constructor
// SCH_CMP_FIELD's implicitly created copy constructor is called in here
AddField( field );
}
m_PrefixString = wxString( _( "U" ) );
}
SCH_COMPONENT::SCH_COMPONENT( const SCH_COMPONENT& aTemplate ) :
SCH_ITEM( NULL, TYPE_SCH_COMPONENT )
{
// assignment of all fields, including field vector elements, and linked list pointers
*this = aTemplate;
// set linked list pointers to null, before this they were copies of aTemplate's
Pback = NULL;
Pnext = NULL;
m_Son = NULL;
// Re-parent the fields, which before this had aTemplate as parent
for( int i=0; i<GetFieldCount(); ++i )
{
GetField( i )->SetParent( this );
}
}
/**
* Function AddHierarchicalReference
* adds a full hierachical reference (path + local reference)
* @param aPath = hierarchical path (/<sheet timestamp>/component timestamp> like /05678E50/A23EF560)
* @param aRef = local reference like C45, R56
* @param aMulti = part selection, used in multi part per package (0 or 1 for non multi)
*/
void SCH_COMPONENT::AddHierarchicalReference( const wxString& aPath,
const wxString& aRef,
int aMulti )
{
wxString h_path, h_ref;
wxStringTokenizer tokenizer;
wxString separators( wxT( " " ) );
// Search for an existing path and remove it if found (should not occur)
for( unsigned ii = 0; ii<m_PathsAndReferences.GetCount(); ii++ )
{
tokenizer.SetString( m_PathsAndReferences[ii], separators );
h_path = tokenizer.GetNextToken();
if( h_path.Cmp( aPath ) == 0 )
{
m_PathsAndReferences.RemoveAt( ii );
ii--;
}
}
h_ref = aPath + wxT( " " ) + aRef;
h_ref << wxT( " " ) << aMulti;
m_PathsAndReferences.Add( h_ref );
}
/****************************************************************/
wxString ReturnDefaultFieldName( int aFieldNdx )
/****************************************************************/
/* Return the default field name from its index (REFERENCE, VALUE ..)
* FieldDefaultNameList is not static, because we want the text translation
* for I18n
*/
{
// avoid unnecessarily copying wxStrings at runtime.
static const wxString defaults[] = {
_( "Ref" ), // Reference of part, i.e. "IC21"
_( "Value" ), // Value of part, i.e. "3.3K"
_( "Footprint" ), // Footprint, used by cvpcb or pcbnew, i.e. "16DIP300"
_( "Datasheet" ),
};
if( (unsigned) aFieldNdx <= DATASHEET )
return defaults[ aFieldNdx ];
else
{
wxString ret = _( "Field" );
ret << ( aFieldNdx - FIELD1 + 1);
return ret;
}
}
/****************************************************************/
wxString SCH_COMPONENT::ReturnFieldName( int aFieldNdx ) const
/****************************************************************/
{
SCH_CMP_FIELD* field = GetField( aFieldNdx );
if( field )
{
if( !field->m_Name.IsEmpty() )
return field->m_Name;
else
return ReturnDefaultFieldName( aFieldNdx );
}
return wxEmptyString;
}
/****************************************************************/
wxString SCH_COMPONENT::GetPath( DrawSheetPath* sheet )
/****************************************************************/
{
wxString str;
str.Printf( wxT( "%8.8lX" ), m_TimeStamp );
return sheet->Path() + str;
}
/********************************************************************/
const wxString SCH_COMPONENT::GetRef( DrawSheetPath* sheet )
/********************************************************************/
{
wxString path = GetPath( sheet );
wxString h_path, h_ref;
wxStringTokenizer tokenizer;
wxString separators( wxT( " " ) );
for( unsigned ii = 0; ii<m_PathsAndReferences.GetCount(); ii++ )
{
tokenizer.SetString( m_PathsAndReferences[ii], separators );
h_path = tokenizer.GetNextToken();
if( h_path.Cmp( path ) == 0 )
{
h_ref = tokenizer.GetNextToken();
//printf("GetRef hpath: %s\n",CONV_TO_UTF8(m_PathsAndReferences[ii]));
return h_ref;
}
}
// if it was not found in m_Paths array, then see if it is in
// m_Field[REFERENCE] -- if so, use this as a default for this path.
// this will happen if we load a version 1 schematic file.
// it will also mean that multiple instances of the same sheet by default
// all have the same component references, but perhaps this is best.
if( !GetField( REFERENCE )->m_Text.IsEmpty() )
{
SetRef( sheet, GetField( REFERENCE )->m_Text );
return GetField( REFERENCE )->m_Text;
}
return m_PrefixString;
}
/***********************************************************************/
void SCH_COMPONENT::SetRef( DrawSheetPath* sheet, const wxString& ref )
/***********************************************************************/
{
wxString path = GetPath( sheet );
bool notInArray = true;
wxString h_path, h_ref;
wxStringTokenizer tokenizer;
wxString separators( wxT( " " ) );
//check to see if it is already there before inserting it
for( unsigned ii = 0; ii<m_PathsAndReferences.GetCount(); ii++ )
{
tokenizer.SetString( m_PathsAndReferences[ii], separators );
h_path = tokenizer.GetNextToken();
if( h_path.Cmp( path ) == 0 )
{
//just update the reference text, not the timestamp.
h_ref = h_path + wxT( " " ) + ref;
h_ref += wxT( " " );
tokenizer.GetNextToken(); // Skip old reference
h_ref += tokenizer.GetNextToken(); // Add part selection
// Ann the part selection
m_PathsAndReferences[ii] = h_ref;
notInArray = false;
}
}
if( notInArray )
AddHierarchicalReference( path, ref, m_Multi );
SCH_CMP_FIELD* rf = GetField( REFERENCE );
if( rf->m_Text.IsEmpty()
|| ( abs( rf->m_Pos.x - m_Pos.x ) +
abs( rf->m_Pos.y - m_Pos.y ) > 10000) )
{
// move it to a reasonable position
rf->m_Pos = m_Pos;
rf->m_Pos.x += 50; // a slight offset
rf->m_Pos.y += 50;
}
rf->m_Text = ref; // for drawing.
}
/***********************************************************/
int SCH_COMPONENT::GetUnitSelection( DrawSheetPath* aSheet )
/***********************************************************/
//returns the unit selection, for the given sheet path.
{
wxString path = GetPath( aSheet );
wxString h_path, h_multi;
wxStringTokenizer tokenizer;
wxString separators( wxT( " " ) );
for( unsigned ii = 0; ii<m_PathsAndReferences.GetCount(); ii++ )
{
tokenizer.SetString( m_PathsAndReferences[ii], separators );
h_path = tokenizer.GetNextToken();
if( h_path.Cmp( path ) == 0 )
{
tokenizer.GetNextToken(); // Skip reference
h_multi = tokenizer.GetNextToken();
long imulti = 1;
h_multi.ToLong( &imulti );
return imulti;
}
}
//if it was not found in m_Paths array, then use m_Multi.
// this will happen if we load a version 1 schematic file.
return m_Multi;
}
/********************************************************************************/
void SCH_COMPONENT::SetUnitSelection( DrawSheetPath* aSheet, int aUnitSelection )
/********************************************************************************/
//Set the unit selection, for the given sheet path.
{
wxString path = GetPath( aSheet );
bool notInArray = true;
wxString h_path, h_ref;
wxStringTokenizer tokenizer;
wxString separators( wxT( " " ) );
//check to see if it is already there before inserting it
for( unsigned ii = 0; ii<m_PathsAndReferences.GetCount(); ii++ )
{
tokenizer.SetString( m_PathsAndReferences[ii], separators );
h_path = tokenizer.GetNextToken();
if( h_path.Cmp( path ) == 0 )
{
//just update the unit selection.
h_ref = h_path + wxT( " " );
h_ref += tokenizer.GetNextToken(); // Add reference
h_ref += wxT( " " );
h_ref << aUnitSelection; // Add part selection
// Ann the part selection
m_PathsAndReferences[ii] = h_ref;
notInArray = false;
}
}
if( notInArray )
AddHierarchicalReference( path, m_PrefixString, aUnitSelection );
}
/******************************************************************/
SCH_CMP_FIELD* SCH_COMPONENT::GetField( int aFieldNdx ) const
/******************************************************************/
{
const SCH_CMP_FIELD* field;
if( (unsigned) aFieldNdx < m_Fields.size() )
field = &m_Fields[aFieldNdx];
else
field = NULL;
wxASSERT( field );
// use case to remove const-ness
return (SCH_CMP_FIELD*) field;
}
/******************************************************************/
void SCH_COMPONENT::AddField( const SCH_CMP_FIELD& aField )
/******************************************************************/
{
m_Fields.push_back( aField );
}
/************************************************/
EDA_Rect SCH_COMPONENT::GetBoundaryBox() const
/************************************************/
{
EDA_LibComponentStruct* Entry = FindLibPart( m_ChipName.GetData(), wxEmptyString, FIND_ROOT );
EDA_Rect BoundaryBox;
int x0, xm, y0, ym;
/* Get the basic Boundary box */
if( Entry )
{
BoundaryBox = Entry->GetBoundaryBox( m_Multi, m_Convert );
x0 = BoundaryBox.GetX(); xm = BoundaryBox.GetRight();
// We must reverse Y values, because matrix orientation
// suppose Y axis normal for the library items coordinates,
// m_Transform reverse Y values, but BoundaryBox is already reversed!
y0 = -BoundaryBox.GetY();
ym = -BoundaryBox.GetBottom();
}
else /* if lib Entry not found, give a reasonable size */
{
x0 = y0 = -50;
xm = ym = 50;
}
/* Compute the real Boundary box (rotated, mirrored ...)*/
int x1 = m_Transform[0][0] * x0 + m_Transform[0][1] * y0;
int y1 = m_Transform[1][0] * x0 + m_Transform[1][1] * y0;
int x2 = m_Transform[0][0] * xm + m_Transform[0][1] * ym;
int y2 = m_Transform[1][0] * xm + m_Transform[1][1] * ym;
// H and W must be > 0 for wxRect:
if( x2 < x1 )
EXCHG( x2, x1 );
if( y2 < y1 )
EXCHG( y2, y1 );
BoundaryBox.SetX( x1 ); BoundaryBox.SetY( y1 );
BoundaryBox.SetWidth( x2 - x1 );
BoundaryBox.SetHeight( y2 - y1 );
BoundaryBox.Offset( m_Pos );
return BoundaryBox;
}
/**************************************************************************/
void SCH_COMPONENT::SwapData( SCH_COMPONENT* copyitem )
/**************************************************************************/
/* Used if undo / redo command:
* swap data between this and copyitem
*/
{
EXCHG( m_ChipName, copyitem->m_ChipName );
EXCHG( m_Pos, copyitem->m_Pos );
EXCHG( m_Multi, copyitem->m_Multi );
EXCHG( m_Convert, copyitem->m_Convert );
EXCHG( m_Transform[0][0], copyitem->m_Transform[0][0] );
EXCHG( m_Transform[0][1], copyitem->m_Transform[0][1] );
EXCHG( m_Transform[1][0], copyitem->m_Transform[1][0] );
EXCHG( m_Transform[1][1], copyitem->m_Transform[1][1] );
m_Fields.swap( copyitem->m_Fields ); // std::vector's swap()
// Reparent items after copying data
// (after swap(), m_Parent member does not point to the right parent):
for( int ii = 0; ii < copyitem->GetFieldCount(); ++ii )
{
copyitem->GetField(ii)->SetParent( copyitem );
}
for( int ii = 0; ii < GetFieldCount(); ++ii )
{
GetField(ii)->SetParent( this );
}
}
/***********************************************************************/
void SCH_COMPONENT::Place( WinEDA_SchematicFrame* frame, wxDC* DC )
/***********************************************************************/
{
/* save old text in undo list */
if( g_ItemToUndoCopy
&& ( g_ItemToUndoCopy->Type() == Type() )
&& ( (m_Flags & IS_NEW) == 0 ) )
{
/* restore old values and save new ones */
SwapData( (SCH_COMPONENT*) g_ItemToUndoCopy );
/* save in undo list */
frame->SaveCopyInUndoList( this, IS_CHANGED );
/* restore new values */
SwapData( (SCH_COMPONENT*) g_ItemToUndoCopy );
SAFE_DELETE( g_ItemToUndoCopy );
}
SCH_ITEM::Place( frame, DC );
}
/**********************************************************/
void SCH_COMPONENT::ClearAnnotation( DrawSheetPath* aSheet )
/**********************************************************/
/**
* Suppress annotation ( i.i IC23 changed to IC? and part reset to 1)
* @param aSheet: DrawSheetPath value: if NULL remove all annotations,
* else remove annotation relative to this sheetpath
*/
{
wxString defRef = m_PrefixString;
bool KeepMulti = false;
EDA_LibComponentStruct* Entry;
wxString separators( wxT( " " ) );
wxArrayString reference_fields;
Entry = FindLibPart( m_ChipName.GetData(), wxEmptyString, FIND_ROOT );
if( Entry && Entry->m_UnitSelectionLocked )
KeepMulti = true;
while( defRef.Last() == '?' )
defRef.RemoveLast();
defRef.Append( wxT( "?" ) );
wxString multi = wxT( "1" );
if( KeepMulti ) // We cannot remove all annotations: part selection must be kept
{
wxString NewHref;
wxString path;
if( aSheet )
path = GetPath( aSheet );;
for( unsigned int ii = 0; ii< m_PathsAndReferences.GetCount(); ii++ )
{
// Break hierachical reference in path, ref and multi selection:
reference_fields = wxStringTokenize( m_PathsAndReferences[ii], separators );
if( aSheet == NULL || reference_fields[0].Cmp( path ) == 0 )
{
if( KeepMulti ) // Get and keep part selection
multi = reference_fields[2];
NewHref = reference_fields[0];
NewHref << wxT( " " ) << defRef << wxT( " " ) << multi;
m_PathsAndReferences[ii] = NewHref;
}
}
}
else
{
m_PathsAndReferences.Empty(); // Empty strings, but does not free memory because a new annotation will reuse it
m_Multi = 1;
}
// These 2 changes do not work in complex hierarchy.
// When a clear annotation is made, the calling function must call a
// UpdateAllScreenReferences for the active sheet.
// But this call cannot made here.
m_Fields[REFERENCE].m_Text = defRef; //for drawing.
}
/*****************************************************************/
void SCH_COMPONENT::SetRotationMiroir( int type_rotate )
/******************************************************************/
/* Compute the new matrix transform for a schematic component
* in order to have the requested transform (type_rotate = rot, mirror..)
* which is applied to the initial transform.
*/
{
int TempMat[2][2];
bool Transform = FALSE;
switch( type_rotate )
{
case CMP_ORIENT_0:
case CMP_NORMAL: /* Position Initiale */
m_Transform[0][0] = 1;
m_Transform[1][1] = -1;
m_Transform[1][0] = m_Transform[0][1] = 0;
break;
case CMP_ROTATE_CLOCKWISE: /* Rotate + */
TempMat[0][0] = TempMat[1][1] = 0;
TempMat[0][1] = 1;
TempMat[1][0] = -1;
Transform = TRUE;
break;
case CMP_ROTATE_COUNTERCLOCKWISE: /* Rotate - */
TempMat[0][0] = TempMat[1][1] = 0;
TempMat[0][1] = -1;
TempMat[1][0] = 1;
Transform = TRUE;
break;
case CMP_MIROIR_Y: /* MirrorY */
TempMat[0][0] = -1;
TempMat[1][1] = 1;
TempMat[0][1] = TempMat[1][0] = 0;
Transform = TRUE;
break;
case CMP_MIROIR_X: /* MirrorX */
TempMat[0][0] = 1;
TempMat[1][1] = -1;
TempMat[0][1] = TempMat[1][0] = 0;
Transform = TRUE;
break;
case CMP_ORIENT_90:
SetRotationMiroir( CMP_ORIENT_0 );
SetRotationMiroir( CMP_ROTATE_COUNTERCLOCKWISE );
break;
case CMP_ORIENT_180:
SetRotationMiroir( CMP_ORIENT_0 );
SetRotationMiroir( CMP_ROTATE_COUNTERCLOCKWISE );
SetRotationMiroir( CMP_ROTATE_COUNTERCLOCKWISE );
break;
case CMP_ORIENT_270:
SetRotationMiroir( CMP_ORIENT_0 );
SetRotationMiroir( CMP_ROTATE_CLOCKWISE );
break;
case (CMP_ORIENT_0 + CMP_MIROIR_X):
SetRotationMiroir( CMP_ORIENT_0 );
SetRotationMiroir( CMP_MIROIR_X );
break;
case (CMP_ORIENT_0 + CMP_MIROIR_Y):
SetRotationMiroir( CMP_ORIENT_0 );
SetRotationMiroir( CMP_MIROIR_Y );
break;
case (CMP_ORIENT_90 + CMP_MIROIR_X):
SetRotationMiroir( CMP_ORIENT_90 );
SetRotationMiroir( CMP_MIROIR_X );
break;
case (CMP_ORIENT_90 + CMP_MIROIR_Y):
SetRotationMiroir( CMP_ORIENT_90 );
SetRotationMiroir( CMP_MIROIR_Y );
break;
case (CMP_ORIENT_180 + CMP_MIROIR_X):
SetRotationMiroir( CMP_ORIENT_180 );
SetRotationMiroir( CMP_MIROIR_X );
break;
case (CMP_ORIENT_180 + CMP_MIROIR_Y):
SetRotationMiroir( CMP_ORIENT_180 );
SetRotationMiroir( CMP_MIROIR_Y );
break;
case (CMP_ORIENT_270 + CMP_MIROIR_X):
SetRotationMiroir( CMP_ORIENT_270 );
SetRotationMiroir( CMP_MIROIR_X );
break;
case (CMP_ORIENT_270 + CMP_MIROIR_Y):
SetRotationMiroir( CMP_ORIENT_270 );
SetRotationMiroir( CMP_MIROIR_Y );
break;
default:
Transform = FALSE;
DisplayError( NULL, wxT( "SetRotateMiroir() error: ill value" ) );
break;
}
if( Transform )
{
/* The new matrix transform is the old matrix transform modified by the
* requested transformation, which is the TempMat transform (rot, mirror ..)
* in order to have (in term of matrix transform):
* transform coord = new_m_Transform * coord
* where transform coord is the coord modified by new_m_Transform from the initial
* value coord.
* new_m_Transform is computed (from old_m_Transform and TempMat) to have:
* transform coord = old_m_Transform * coord * TempMat
*/
int NewMatrix[2][2];
NewMatrix[0][0] = m_Transform[0][0] * TempMat[0][0] +
m_Transform[1][0] * TempMat[0][1];
NewMatrix[0][1] = m_Transform[0][1] * TempMat[0][0] +
m_Transform[1][1] * TempMat[0][1];
NewMatrix[1][0] = m_Transform[0][0] * TempMat[1][0] +
m_Transform[1][0] * TempMat[1][1];
NewMatrix[1][1] = m_Transform[0][1] * TempMat[1][0] +
m_Transform[1][1] * TempMat[1][1];
m_Transform[0][0] = NewMatrix[0][0];
m_Transform[0][1] = NewMatrix[0][1];
m_Transform[1][0] = NewMatrix[1][0];
m_Transform[1][1] = NewMatrix[1][1];
}
}
/****************************************************/
int SCH_COMPONENT::GetRotationMiroir()
/****************************************************/
{
int type_rotate = CMP_ORIENT_0;
int TempMat[2][2], MatNormal[2][2];
int ii;
bool found = FALSE;
memcpy( TempMat, m_Transform, sizeof(TempMat) );
SetRotationMiroir( CMP_ORIENT_0 );
memcpy( MatNormal, m_Transform, sizeof(MatNormal) );
for( ii = 0; ii < 4; ii++ )
{
if( memcmp( TempMat, m_Transform, sizeof(MatNormal) ) == 0 )
{
found = TRUE;
break;
}
SetRotationMiroir( CMP_ROTATE_COUNTERCLOCKWISE );
}
if( !found )
{
type_rotate = CMP_MIROIR_X + CMP_ORIENT_0;
SetRotationMiroir( CMP_NORMAL );
SetRotationMiroir( CMP_MIROIR_X );
for( ii = 0; ii < 4; ii++ )
{
if( memcmp( TempMat, m_Transform, sizeof(MatNormal) ) == 0 )
{
found = TRUE;
break;
}
SetRotationMiroir( CMP_ROTATE_COUNTERCLOCKWISE );
}
}
if( !found )
{
type_rotate = CMP_MIROIR_Y + CMP_ORIENT_0;
SetRotationMiroir( CMP_NORMAL );
SetRotationMiroir( CMP_MIROIR_Y );
for( ii = 0; ii < 4; ii++ )
{
if( memcmp( TempMat, m_Transform, sizeof(MatNormal) ) == 0 )
{
found = TRUE;
break;
}
SetRotationMiroir( CMP_ROTATE_COUNTERCLOCKWISE );
}
}
memcpy( m_Transform, TempMat, sizeof(m_Transform) );
if( found )
{
return type_rotate + ii;
}
else
{
wxBell();
return CMP_NORMAL;
}
}
/***********************************************************************/
wxPoint SCH_COMPONENT::GetScreenCoord( const wxPoint& coord )
/***********************************************************************/
/* Renvoie la coordonn<6E>e du point coord, en fonction de l'orientation
* du composant (rotation, miroir).
* Les coord sont toujours relatives a l'ancre (coord 0,0) du composant
*/
{
wxPoint screenpos;
screenpos.x = m_Transform[0][0] * coord.x + m_Transform[0][1] * coord.y;
screenpos.y = m_Transform[1][0] * coord.x + m_Transform[1][1] * coord.y;
return screenpos;
}
#if defined (DEBUG)
/**
* Function Show
* is used to output the object tree, currently for debugging only.
* @param nestLevel An aid to prettier tree indenting, and is the level
* of nesting of this object within the overall tree.
* @param os The ostream& to output to.
*/
void SCH_COMPONENT::Show( int nestLevel, std::ostream& os )
{
// for now, make it look like XML:
NestedSpace( nestLevel, os ) << '<' << GetClass().Lower().mb_str() <<
" ref=\"" << ReturnFieldName( 0 ) << '"' <<
" chipName=\"" << m_ChipName.mb_str() << '"' <<
m_Pos <<
" layer=\"" << m_Layer << '"' <<
"/>\n";
// skip the reference, it's been output already.
for( int i = 1; i<GetFieldCount(); ++i )
{
wxString value = GetField( i )->m_Text;
if( !value.IsEmpty() )
{
NestedSpace( nestLevel + 1, os ) << "<field" <<
" name=\"" << ReturnFieldName( i ).mb_str() << '"' <<
" value=\"" << value.mb_str() << "\"/>\n";
}
}
NestedSpace( nestLevel, os ) << "</" << GetClass().Lower().mb_str() << ">\n";
}
#endif
/****************************************/
bool SCH_COMPONENT::Save( FILE* f ) const
/****************************************/
{
int ii, Success = true;
char Name1[256], Name2[256];
wxArrayString reference_fields;
static wxString delimiters( wxT( " " ) );
//this is redundant with the AR entries below, but it makes the
//files backwards-compatible.
if( m_PathsAndReferences.GetCount() > 0 )
{
reference_fields = wxStringTokenize( m_PathsAndReferences[0], delimiters );
strncpy( Name1, CONV_TO_UTF8( reference_fields[1] ), sizeof(Name1) );
}
else
{
if( GetField( REFERENCE )->m_Text.IsEmpty() )
strncpy( Name1, CONV_TO_UTF8( m_PrefixString ), sizeof(Name1) );
else
strncpy( Name1, CONV_TO_UTF8( GetField( REFERENCE )->m_Text ), sizeof(Name1) );
}
for( ii = 0; ii < (int) strlen( Name1 ); ii++ )
{
if( Name1[ii] <= ' ' )
Name1[ii] = '~';
}
if( !m_ChipName.IsEmpty() )
{
strncpy( Name2, CONV_TO_UTF8( m_ChipName ), sizeof(Name2) );
for( ii = 0; ii < (int) strlen( Name2 ); ii++ )
if( Name2[ii] <= ' ' )
Name2[ii] = '~';
}
else
strncpy( Name2, NULL_STRING, sizeof(Name2) );
fprintf( f, "$Comp\n" );
if( fprintf( f, "L %s %s\n", Name2, Name1 ) == EOF )
{
Success = false;
return Success;
}
/* Generation de numero d'unit, convert et Time Stamp*/
if( fprintf( f, "U %d %d %8.8lX\n", m_Multi, m_Convert, m_TimeStamp ) == EOF )
{
Success = false;
return Success;
}
/* Save the position */
if( fprintf( f, "P %d %d\n", m_Pos.x, m_Pos.y ) == EOF )
{
Success = false;
return Success;
}
/* If this is a complex hierarchy; save hierarchical references.
* but for simple hierarchies it is not necessary.
* the reference inf is already saved
* this is usefull for old eeschema version compatibility
*/
if( m_PathsAndReferences.GetCount() > 1 )
{
for( unsigned int ii = 0; ii< m_PathsAndReferences.GetCount(); ii++ )
{
/*format:
* AR Path="/140/2" Ref="C99" Part="1"
* where 140 is the uid of the containing sheet
* and 2 is the timestamp of this component.
* (timestamps are actually 8 hex chars)
* Ref is the conventional component reference for this 'path'
* Part is the conventional component part selection for this 'path'
*/
reference_fields = wxStringTokenize( m_PathsAndReferences[ii], delimiters );
if( fprintf( f, "AR Path=\"%s\" Ref=\"%s\" Part=\"%s\" \n",
CONV_TO_UTF8( reference_fields[0] ),
CONV_TO_UTF8( reference_fields[1] ),
CONV_TO_UTF8( reference_fields[2] )
) == EOF )
{
Success = false;
return Success;
}
}
}
for( int fieldNdx = 0; fieldNdx<GetFieldCount(); ++fieldNdx )
{
SCH_CMP_FIELD* field = GetField( fieldNdx );
wxString defaultName = ReturnDefaultFieldName( fieldNdx );
// only save the field if there is a value in the field or if field name
// is different than the default field name
if( field->m_Text.IsEmpty() && defaultName == field->m_Name )
continue;
if( !field->Save( f ) )
{
Success = false;
break;
}
}
if( !Success )
return Success;
/* Generation du num unit, position, box ( ancienne norme )*/
if( fprintf( f, "\t%-4d %-4d %-4d\n", m_Multi, m_Pos.x, m_Pos.y ) == EOF )
{
Success = false;
return Success;
}
if( fprintf( f, "\t%-4d %-4d %-4d %-4d\n",
m_Transform[0][0],
m_Transform[0][1],
m_Transform[1][0],
m_Transform[1][1] ) == EOF )
{
Success = false;
return Success;
}
fprintf( f, "$EndComp\n" );
return Success;
}
EDA_Rect SCH_COMPONENT::GetBoundingBox()
{
const int PADDING = 40;
// This gives a reasonable approximation (but some things are missing so...)
EDA_Rect bbox = GetBoundaryBox();
// Include BoundingBoxes of fields
for( int ii = 0; ii < GetFieldCount(); ii++ )
{
bbox.Merge( GetField( ii )->GetBoundaryBox() );
}
// ... add padding
bbox.Inflate( PADDING, PADDING );
return bbox;
}