kicad/pcbnew/class_module.cpp

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/****************************************************/
/* class_module.cpp : fonctions de la classe MODULE */
/****************************************************/
#include "fctsys.h"
#include "gr_basic.h"
#include "wxstruct.h"
#include "common.h"
#include "plot_common.h"
#include "class_drawpanel.h"
#include "trigo.h"
#include "confirm.h"
#include "kicad_string.h"
#include "pcbcommon.h"
#include "pcbnew.h"
#include "autorout.h"
#include "drag.h"
#include "3d_struct.h"
#include "protos.h"
/*********************************************************************************/
void MODULE::DrawAncre( WinEDA_DrawPanel* panel, wxDC* DC, const wxPoint& offset,
int dim_ancre, int draw_mode )
/*********************************************************************************/
/* trace de l'ancre (croix verticale)
* (doit etre fait apres les pads,
* car le trace du trou efface tout donc peut etre l'ancre */
{
int anchor_size = panel->GetScreen()->Unscale( dim_ancre );
GRSetDrawMode( DC, draw_mode );
if( (g_AnchorColor & ITEM_NOT_SHOW) == 0 )
{
GRLine( &panel->m_ClipBox, DC,
m_Pos.x - offset.x - anchor_size, m_Pos.y - offset.y,
m_Pos.x - offset.x + anchor_size, m_Pos.y - offset.y,
0, g_AnchorColor );
GRLine( &panel->m_ClipBox, DC,
m_Pos.x - offset.x, m_Pos.y - offset.y - anchor_size,
m_Pos.x - offset.x, m_Pos.y - offset.y + anchor_size,
0, g_AnchorColor );
}
}
/*************************************************/
/* Class MODULE : description d'un composant pcb */
/*************************************************/
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MODULE::MODULE( BOARD* parent ) :
BOARD_ITEM( parent, TYPE_MODULE )
{
m_Attributs = MOD_DEFAULT;
m_Layer = CMP_N;
m_Orient = 0;
m_ModuleStatus = 0;
flag = 0;
m_CntRot90 = m_CntRot180 = 0;
m_Surface = 0;
m_Link = 0;
m_LastEdit_Time = time( NULL );
m_Reference = new TEXTE_MODULE( this, TEXT_is_REFERENCE );
// m_Reference->SetBack( this );
m_Value = new TEXTE_MODULE( this, TEXT_is_VALUE );
// m_Value->SetBack( this );
m_3D_Drawings.PushBack( new S3D_MASTER( this ) ); // Reserve one void 3D entry
}
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MODULE::~MODULE()
{
delete m_Reference;
delete m_Value;
}
/*********************************/
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void MODULE::Copy( MODULE* aModule )
/*********************************/
{
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m_Pos = aModule->m_Pos;
m_Layer = aModule->m_Layer;
m_LibRef = aModule->m_LibRef;
m_Attributs = aModule->m_Attributs;
m_Orient = aModule->m_Orient;
m_BoundaryBox = aModule->m_BoundaryBox;
m_PadNum = aModule->m_PadNum;
m_CntRot90 = aModule->m_CntRot90;
m_CntRot180 = aModule->m_CntRot180;
m_LastEdit_Time = aModule->m_LastEdit_Time;
m_Path = aModule->m_Path; //is this correct behavior?
m_TimeStamp = GetTimeStamp();
/* Copy des structures auxiliaires: Reference et value */
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m_Reference->Copy( aModule->m_Reference );
m_Value->Copy( aModule->m_Value );
/* Copie des structures auxiliaires: Pads */
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for( D_PAD* pad = aModule->m_Pads; pad; pad = pad->Next() )
{
D_PAD* newpad = new D_PAD( this );
newpad->Copy( pad );
m_Pads.PushBack( newpad );
}
/* Copy des structures auxiliaires: Drawings */
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for( BOARD_ITEM* item = aModule->m_Drawings; item; item = item->Next() )
{
switch( item->Type() )
{
case TYPE_TEXTE_MODULE:
TEXTE_MODULE* textm;
textm = new TEXTE_MODULE( this );
textm->Copy( (TEXTE_MODULE*) item );
m_Drawings.PushBack( textm );
break;
case TYPE_EDGE_MODULE:
EDGE_MODULE* edge;
edge = new EDGE_MODULE( this );
edge->Copy( (EDGE_MODULE*) item );
m_Drawings.PushBack( edge );
break;
default:
DisplayError( NULL, wxT( "Internal Err: CopyModule: type indefini" ) );
break;
}
}
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for( S3D_MASTER* item = aModule->m_3D_Drawings; item; item = item->Next() )
{
if ( item->m_Shape3DName.IsEmpty() ) // do not copy empty shapes.
continue;
S3D_MASTER* t3d = m_3D_Drawings;
if ( t3d && t3d->m_Shape3DName.IsEmpty() ) // The first entry can exist, but is empty : use it.
t3d->Copy( item );
else
{
t3d = new S3D_MASTER( this );
t3d->Copy( item );
m_3D_Drawings.PushBack( t3d );
}
}
/* Copie des elements complementaires */
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m_Doc = aModule->m_Doc;
m_KeyWord = aModule->m_KeyWord;
}
/**********************************************************/
void MODULE::Draw( WinEDA_DrawPanel* panel, wxDC* DC,
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int draw_mode, const wxPoint& offset )
/**********************************************************/
/** Function Draw
* Draws the footprint to the current Device Context
* @param panel = The active Draw Panel (used to know the clip box)
* @param DC = current Device Context
* @param offset = draw offset (usually wxPoint(0,0)
* @param draw_mode = GR_OR, GR_XOR, GR_AND
*/
{
if( (m_Flags & DO_NOT_DRAW) )
return;
for( D_PAD* pad = m_Pads; pad; pad = pad->Next() )
{
if( pad->m_Flags & IS_MOVED )
continue;
pad->Draw( panel, DC, draw_mode, offset );
}
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// Draws foootprint anchor
DrawAncre( panel, DC, offset, DIM_ANCRE_MODULE, draw_mode );
/* Draw graphic items */
if( !(m_Reference->m_Flags & IS_MOVED) )
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m_Reference->Draw( panel, DC, draw_mode, offset );
if( !(m_Value->m_Flags & IS_MOVED) )
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m_Value->Draw( panel, DC, draw_mode, offset );
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for( BOARD_ITEM* item = m_Drawings; item; item = item->Next() )
{
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if( item->m_Flags & IS_MOVED )
continue;
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switch( item->Type() )
{
case TYPE_TEXTE_MODULE:
case TYPE_EDGE_MODULE:
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item->Draw( panel, DC, draw_mode, offset );
break;
default:
break;
}
}
}
/**************************************************************/
void MODULE::DrawEdgesOnly( WinEDA_DrawPanel* panel, wxDC* DC,
const wxPoint& offset, int draw_mode )
/**************************************************************/
/** Function DrawEdgesOnly
* Draws the footprint edges only to the current Device Context
* @param panel = The active Draw Panel (used to know the clip box)
* @param DC = current Device Context
* @param offset = draw offset (usually wxPoint(0,0)
* @param draw_mode = GR_OR, GR_XOR, GR_AND
*/
{
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for( BOARD_ITEM* item = m_Drawings; item; item = item->Next() )
{
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switch( item->Type() )
{
case TYPE_EDGE_MODULE:
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item->Draw( panel, DC, draw_mode, offset );
break;
default:
break;
}
}
}
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/**************************************/
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bool MODULE::Save( FILE* aFile ) const
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/**************************************/
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{
char statusTxt[8];
BOARD_ITEM* item;
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if( GetState( DELETED ) )
return true;
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bool rc = false;
fprintf( aFile, "$MODULE %s\n", CONV_TO_UTF8( m_LibRef ) );
// Generation des coord et caracteristiques
memset( statusTxt, 0, sizeof(statusTxt) );
if( IsLocked() )
statusTxt[0] = 'F';
else
statusTxt[0] = '~';
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if( m_ModuleStatus & MODULE_is_PLACED )
statusTxt[1] = 'P';
else
statusTxt[1] = '~';
fprintf( aFile, "Po %d %d %d %d %8.8lX %8.8lX %s\n",
m_Pos.x, m_Pos.y,
m_Orient, m_Layer, m_LastEdit_Time,
m_TimeStamp, statusTxt );
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fprintf( aFile, "Li %s\n", CONV_TO_UTF8( m_LibRef ) );
if( !m_Doc.IsEmpty() )
{
fprintf( aFile, "Cd %s\n", CONV_TO_UTF8( m_Doc ) );
}
if( !m_KeyWord.IsEmpty() )
{
fprintf( aFile, "Kw %s\n", CONV_TO_UTF8( m_KeyWord ) );
}
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fprintf( aFile, "Sc %8.8lX\n", m_TimeStamp );
fprintf( aFile, "AR %s\n", CONV_TO_UTF8( m_Path ) );
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fprintf( aFile, "Op %X %X 0\n", m_CntRot90, m_CntRot180 );
// attributes
if( m_Attributs != MOD_DEFAULT )
{
fprintf( aFile, "At " );
if( m_Attributs & MOD_CMS )
fprintf( aFile, "SMD " );
if( m_Attributs & MOD_VIRTUAL )
fprintf( aFile, "VIRTUAL " );
fprintf( aFile, "\n" );
}
// save reference
if( !m_Reference->Save( aFile ) )
goto out;
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// save value
if( !m_Value->Save( aFile ) )
goto out;
// save drawing elements
for( item = m_Drawings; item; item = item->Next() )
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{
switch( item->Type() )
{
case TYPE_TEXTE_MODULE:
case TYPE_EDGE_MODULE:
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if( !item->Save( aFile ) )
goto out;
break;
default:
#if defined (DEBUG)
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printf( "MODULE::Save() ignoring type %d\n", item->Type() );
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#endif
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break;
}
}
// save the pads
for( item = m_Pads; item; item = item->Next() )
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if( !item->Save( aFile ) )
goto out;
// Generation des informations de trac<61>3D
Write_3D_Descr( aFile );
fprintf( aFile, "$EndMODULE %s\n", CONV_TO_UTF8( m_LibRef ) );
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rc = true;
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out:
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return rc;
}
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/***************************************/
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int MODULE::Write_3D_Descr( FILE* File ) const
/***************************************/
/* Sauvegarde de la description 3D du MODULE
*/
{
char buf[512];
for( S3D_MASTER* t3D = m_3D_Drawings; t3D; t3D = t3D->Next() )
{
if( !t3D->m_Shape3DName.IsEmpty() )
{
fprintf( File, "$SHAPE3D\n" );
fprintf( File, "Na \"%s\"\n", CONV_TO_UTF8( t3D->m_Shape3DName ) );
sprintf( buf, "Sc %lf %lf %lf\n",
t3D->m_MatScale.x,
t3D->m_MatScale.y,
t3D->m_MatScale.z );
fprintf( File, to_point( buf ) );
sprintf( buf, "Of %lf %lf %lf\n",
t3D->m_MatPosition.x,
t3D->m_MatPosition.y,
t3D->m_MatPosition.z );
fprintf( File, to_point( buf ) );
sprintf( buf, "Ro %lf %lf %lf\n",
t3D->m_MatRotation.x,
t3D->m_MatRotation.y,
t3D->m_MatRotation.z );
fprintf( File, to_point( buf ) );
fprintf( File, "$EndSHAPE3D\n" );
}
}
return 0;
}
/****************************************************/
int MODULE::Read_3D_Descr( FILE* File, int* LineNum )
/****************************************************/
/* Lecture de la description d'un MODULE (format Ascii)
* la 1ere ligne de descr ($MODULE) est supposee etre deja lue
* retourne 0 si OK
*/
{
char Line[1024];
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char* text = Line + 3;
S3D_MASTER* t3D = m_3D_Drawings;
if( !t3D->m_Shape3DName.IsEmpty() )
{
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S3D_MASTER* n3D = new S3D_MASTER( this );
m_3D_Drawings.PushBack( n3D );
t3D = n3D;
}
while( GetLine( File, Line, LineNum, sizeof(Line) - 1 ) != NULL )
{
switch( Line[0] )
{
case '$': // Fin de description
if( Line[1] == 'E' )
return 0;
return 1;
case 'N': // Shape File Name
{
char buf[512];
ReadDelimitedText( buf, text, 512 );
t3D->m_Shape3DName = CONV_FROM_UTF8( buf );
break;
}
case 'S': // Scale
sscanf( text, "%lf %lf %lf\n",
&t3D->m_MatScale.x,
&t3D->m_MatScale.y,
&t3D->m_MatScale.z );
break;
case 'O': // Offset
sscanf( text, "%lf %lf %lf\n",
&t3D->m_MatPosition.x,
&t3D->m_MatPosition.y,
&t3D->m_MatPosition.z );
break;
case 'R': // Rotation
sscanf( text, "%lf %lf %lf\n",
&t3D->m_MatRotation.x,
&t3D->m_MatRotation.y,
&t3D->m_MatRotation.z );
break;
default:
break;
}
}
return 1;
}
/**************************************************/
int MODULE::ReadDescr( FILE* File, int* LineNum )
/**************************************************/
/* Lecture de la description d'un MODULE (format Ascii)
* la 1ere ligne de descr ($MODULE) est supposee etre deja lue
* retourne 0 si OK
*/
{
char Line[256], BufLine[256], BufCar1[128], * PtLine;
int itmp1, itmp2;
while( GetLine( File, Line, LineNum, sizeof(Line) - 1 ) != NULL )
{
if( Line[0] == '$' )
{
if( Line[1] == 'E' )
break;
if( Line[1] == 'P' )
{
D_PAD* pad = new D_PAD( this );
pad->ReadDescr( File, LineNum );
RotatePoint( &pad->m_Pos.x, &pad->m_Pos.y, m_Orient );
pad->m_Pos.x += m_Pos.x;
pad->m_Pos.y += m_Pos.y;
m_Pads.PushBack( pad );
continue;
}
if( Line[1] == 'S' )
Read_3D_Descr( File, LineNum );
}
if( strlen( Line ) < 4 )
continue;
PtLine = Line + 3;
/* Pointe 1er code utile de la ligne */
switch( Line[0] )
{
case 'P':
memset( BufCar1, 0, sizeof(BufCar1) );
sscanf( PtLine, "%d %d %d %d %lX %lX %s",
&m_Pos.x, &m_Pos.y,
&m_Orient, &m_Layer,
&m_LastEdit_Time, &m_TimeStamp, BufCar1 );
m_ModuleStatus = 0;
if( BufCar1[0] == 'F' )
SetLocked( true );
if( BufCar1[1] == 'P' )
m_ModuleStatus |= MODULE_is_PLACED;
break;
case 'L': /* Li = Lecture du nom librairie du module */
*BufLine = 0;
sscanf( PtLine, " %s", BufLine );
m_LibRef = CONV_FROM_UTF8( BufLine );
break;
case 'S':
sscanf( PtLine, " %lX", &m_TimeStamp );
break;
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case 'O': /* (Op)tions de placement auto */
itmp1 = itmp2 = 0;
sscanf( PtLine, " %X %X", &itmp1, &itmp2 );
m_CntRot180 = itmp2 & 0x0F;
if( m_CntRot180 > 10 )
m_CntRot180 = 10;
m_CntRot90 = itmp1 & 0x0F;
if( m_CntRot90 > 10 )
m_CntRot90 = 0;
itmp1 = (itmp1 >> 4) & 0x0F;
if( itmp1 > 10 )
itmp1 = 0;
m_CntRot90 |= itmp1 << 4;
break;
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case 'A':
if( Line[1] == 't' )
{
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/* At = (At)tributs du module */
if( strstr( PtLine, "SMD" ) )
m_Attributs |= MOD_CMS;
if( strstr( PtLine, "VIRTUAL" ) )
m_Attributs |= MOD_VIRTUAL;
}
if( Line[1] == 'R' )
{
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//alternate reference, e.g. /478C2408/478AD1B6
sscanf( PtLine, " %s", BufLine );
m_Path = CONV_FROM_UTF8( BufLine );
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}
break;
case 'T': /* Read a footprint text description (ref, value, or drawing */
TEXTE_MODULE* textm;
sscanf( Line + 1, "%d", &itmp1 );
if( itmp1 == TEXT_is_REFERENCE )
textm = m_Reference;
else if( itmp1 == TEXT_is_VALUE )
textm = m_Value;
else /* text is a drawing */
{
textm = new TEXTE_MODULE( this );
m_Drawings.PushBack( textm );
}
textm->ReadDescr( Line, File, LineNum );
break;
case 'D': /* lecture du contour */
EDGE_MODULE* edge;
edge = new EDGE_MODULE( this );
m_Drawings.PushBack( edge );
edge->ReadDescr( Line, File, LineNum );
edge->SetDrawCoord();
break;
case 'C': /* Lecture de la doc */
m_Doc = CONV_FROM_UTF8( StrPurge( PtLine ) );
break;
case 'K': /* Lecture de la liste des mots cle */
m_KeyWord = CONV_FROM_UTF8( StrPurge( PtLine ) );
break;
default:
break;
}
}
/* Recalculate the bounding box */
Set_Rectangle_Encadrement();
return 0;
}
/*************************************************/
void MODULE::SetPosition( const wxPoint& newpos )
/*************************************************/
// replace le module en position newpos
{
int deltaX = newpos.x - m_Pos.x;
int deltaY = newpos.y - m_Pos.y;
/* deplacement de l'ancre */
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m_Pos.x += deltaX;
m_Pos.y += deltaY;
/* deplacement de la reference */
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m_Reference->m_Pos.x += deltaX;
m_Reference->m_Pos.y += deltaY;
/* deplacement de la Valeur */
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m_Value->m_Pos.x += deltaX;
m_Value->m_Pos.y += deltaY;
/* deplacement des pastilles */
for( D_PAD* pad = m_Pads; pad; pad = pad->Next() )
{
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pad->m_Pos.x += deltaX;
pad->m_Pos.y += deltaY;
}
/* deplacement des dessins de l'empreinte : */
EDA_BaseStruct* PtStruct = m_Drawings;
for( ; PtStruct != NULL; PtStruct = PtStruct->Next() )
{
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switch( PtStruct->Type() )
{
case TYPE_EDGE_MODULE:
{
EDGE_MODULE* pt_edgmod = (EDGE_MODULE*) PtStruct;
pt_edgmod->SetDrawCoord();
break;
}
case TYPE_TEXTE_MODULE:
{
TEXTE_MODULE* pt_texte = (TEXTE_MODULE*) PtStruct;
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pt_texte->m_Pos.x += deltaX;
pt_texte->m_Pos.y += deltaY;
break;
}
default:
DisplayError( NULL, wxT( "Type Draw Indefini" ) ); break;
}
}
Set_Rectangle_Encadrement();
}
/*********************************************/
void MODULE::SetOrientation( int newangle )
/*********************************************/
/* Tourne de newangle (en 0.1 degres) le module
*/
{
int px, py;
newangle -= m_Orient; // = delta de rotation
m_Orient += newangle;
NORMALIZE_ANGLE_POS( m_Orient );
/* deplacement et rotation des pastilles */
for( D_PAD* pad = m_Pads; pad; pad = pad->Next() )
{
px = pad->m_Pos0.x;
py = pad->m_Pos0.y;
pad->m_Orient += newangle; /* change m_Orientation */
NORMALIZE_ANGLE_POS( pad->m_Orient );
RotatePoint( &px, &py, (int) m_Orient );
pad->m_Pos.x = m_Pos.x + px;
pad->m_Pos.y = m_Pos.y + py;
}
/* mise a jour de la reference et de la valeur*/
m_Reference->SetDrawCoord();
m_Value->SetDrawCoord();
/* deplacement des contours et textes de l'empreinte : */
for( BOARD_ITEM* item = m_Drawings; item; item = item->Next() )
{
if( item->Type() == TYPE_EDGE_MODULE )
{
EDGE_MODULE* pt_edgmod = (EDGE_MODULE*) item;
pt_edgmod->SetDrawCoord();
}
if( item->Type() == TYPE_TEXTE_MODULE )
{
/* deplacement des inscriptions : */
TEXTE_MODULE* pt_texte = (TEXTE_MODULE*) item;
pt_texte->SetDrawCoord();
}
}
/* Recalcul du rectangle d'encadrement */
Set_Rectangle_Encadrement();
}
/************************************************/
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void MODULE::Set_Rectangle_Encadrement()
/************************************************/
/* Mise a jour du rectangle d'encadrement du module
* Entree : pointeur sur module
* Le rectangle d'encadrement est le rectangle comprenant les contours et les
* pads.
* Le rectangle est calcule:
* pour orient 0
* en coord relatives / position ancre
*/
{
int width;
int cx, cy, uxf, uyf, rayon;
int xmax, ymax;
/* Init des pointeurs */
/* Init des coord du cadre a une valeur limite non nulle */
m_BoundaryBox.m_Pos.x = -500; xmax = 500;
m_BoundaryBox.m_Pos.y = -500; ymax = 500;
/* Contours: Recherche des coord min et max et mise a jour du cadre */
for( EDGE_MODULE* pt_edge_mod = (EDGE_MODULE*) m_Drawings.GetFirst();
pt_edge_mod; pt_edge_mod = pt_edge_mod->Next() )
{
if( pt_edge_mod->Type() != TYPE_EDGE_MODULE )
continue;
width = pt_edge_mod->m_Width / 2;
switch( pt_edge_mod->m_Shape )
{
case S_ARC:
case S_CIRCLE:
{
cx = pt_edge_mod->m_Start0.x; cy = pt_edge_mod->m_Start0.y; // centre
uxf = pt_edge_mod->m_End0.x; uyf = pt_edge_mod->m_End0.y;
rayon = (int) hypot( (double) (cx - uxf), (double) (cy - uyf) );
rayon += width;
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m_BoundaryBox.m_Pos.x = MIN( m_BoundaryBox.m_Pos.x, cx - rayon );
m_BoundaryBox.m_Pos.y = MIN( m_BoundaryBox.m_Pos.y, cy - rayon );
xmax = MAX( xmax, cx + rayon );
ymax = MAX( ymax, cy + rayon );
break;
}
default:
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m_BoundaryBox.m_Pos.x = MIN( m_BoundaryBox.m_Pos.x, pt_edge_mod->m_Start0.x - width );
m_BoundaryBox.m_Pos.x = MIN( m_BoundaryBox.m_Pos.x, pt_edge_mod->m_End0.x - width );
m_BoundaryBox.m_Pos.y = MIN( m_BoundaryBox.m_Pos.y, pt_edge_mod->m_Start0.y - width );
m_BoundaryBox.m_Pos.y = MIN( m_BoundaryBox.m_Pos.y, pt_edge_mod->m_End0.y - width );
xmax = MAX( xmax, pt_edge_mod->m_Start0.x + width );
xmax = MAX( xmax, pt_edge_mod->m_End0.x + width );
ymax = MAX( ymax, pt_edge_mod->m_Start0.y + width );
ymax = MAX( ymax, pt_edge_mod->m_End0.y + width );
break;
}
}
/* Pads: Recherche des coord min et max et mise a jour du cadre */
for( D_PAD* pad = m_Pads; pad; pad = pad->Next() )
{
rayon = pad->m_Rayon;
cx = pad->m_Pos0.x; cy = pad->m_Pos0.y;
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m_BoundaryBox.m_Pos.x = MIN( m_BoundaryBox.m_Pos.x, cx - rayon );
m_BoundaryBox.m_Pos.y = MIN( m_BoundaryBox.m_Pos.y, cy - rayon );
xmax = MAX( xmax, cx + rayon );
ymax = MAX( ymax, cy + rayon );
}
m_BoundaryBox.SetWidth( xmax - m_BoundaryBox.m_Pos.x );
m_BoundaryBox.SetHeight( ymax - m_BoundaryBox.m_Pos.y );
}
/****************************************/
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void MODULE::SetRectangleExinscrit()
/****************************************/
/* Analogue a MODULE::Set_Rectangle_Encadrement() mais en coord reelles:
* Mise a jour du rectangle d'encadrement reel du module c.a.d en coord PCB
* Entree : pointeur sur module
* Le rectangle d'encadrement est le rectangle comprenant les contours et les
* pads.
* Met egalement a jour la surface (.m_Surface) du module.
*/
{
int width;
int cx, cy, uxf, uyf, rayon;
int xmax, ymax;
m_RealBoundaryBox.m_Pos.x = xmax = m_Pos.x;
m_RealBoundaryBox.m_Pos.y = ymax = m_Pos.y;
/* Contours: Recherche des coord min et max et mise a jour du cadre */
for( EDGE_MODULE* edge = (EDGE_MODULE*) m_Drawings.GetFirst(); edge; edge = edge->Next() )
{
if( edge->Type() != TYPE_EDGE_MODULE )
continue;
width = edge->m_Width / 2;
switch( edge->m_Shape )
{
case S_ARC:
case S_CIRCLE:
{
cx = edge->m_Start.x; cy = edge->m_Start.y; // centre
uxf = edge->m_End.x; uyf = edge->m_End.y;
rayon = (int) hypot( (double) (cx - uxf), (double) (cy - uyf) );
rayon += width;
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m_RealBoundaryBox.m_Pos.x = MIN( m_RealBoundaryBox.m_Pos.x, cx - rayon );
m_RealBoundaryBox.m_Pos.y = MIN( m_RealBoundaryBox.m_Pos.y, cy - rayon );
xmax = MAX( xmax, cx + rayon );
ymax = MAX( ymax, cy + rayon );
break;
}
default:
m_RealBoundaryBox.m_Pos.x = MIN( m_RealBoundaryBox.m_Pos.x, edge->m_Start.x - width );
m_RealBoundaryBox.m_Pos.x = MIN( m_RealBoundaryBox.m_Pos.x, edge->m_End.x - width );
m_RealBoundaryBox.m_Pos.y = MIN( m_RealBoundaryBox.m_Pos.y, edge->m_Start.y - width );
m_RealBoundaryBox.m_Pos.y = MIN( m_RealBoundaryBox.m_Pos.y, edge->m_End.y - width );
xmax = MAX( xmax, edge->m_Start.x + width );
xmax = MAX( xmax, edge->m_End.x + width );
ymax = MAX( ymax, edge->m_Start.y + width );
ymax = MAX( ymax, edge->m_End.y + width );
break;
}
}
/* Pads: Recherche des coord min et max et mise a jour du cadre */
for( D_PAD* pad = m_Pads; pad; pad = pad->Next() )
{
rayon = pad->m_Rayon;
cx = pad->m_Pos.x;
cy = pad->m_Pos.y;
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m_RealBoundaryBox.m_Pos.x = MIN( m_RealBoundaryBox.m_Pos.x, cx - rayon );
m_RealBoundaryBox.m_Pos.y = MIN( m_RealBoundaryBox.m_Pos.y, cy - rayon );
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xmax = MAX( xmax, cx + rayon );
ymax = MAX( ymax, cy + rayon );
}
m_RealBoundaryBox.SetWidth( xmax - m_RealBoundaryBox.m_Pos.x );
m_RealBoundaryBox.SetHeight( ymax - m_RealBoundaryBox.m_Pos.y );
m_Surface = ABS( (float) m_RealBoundaryBox.GetWidth() * m_RealBoundaryBox.GetHeight() );
}
/**
* Function GetBoundingBox
* returns the full bounding box of this Footprint, including texts
* Mainly used to redraw the screen area occuped by the footprint
*/
EDA_Rect MODULE::GetBoundingBox()
{
// Calculate area without text fields:
SetRectangleExinscrit();
EDA_Rect area = m_RealBoundaryBox;
// Calculate extended area including text field:
EDA_Rect text_area;
text_area = m_Reference->GetBoundingBox();
area.Merge( text_area );
text_area = m_Value->GetBoundingBox();
area.Merge( text_area );
for( EDGE_MODULE* edge = (EDGE_MODULE*) m_Drawings.GetFirst(); edge; edge = edge->Next() )
{
if( edge->Type() != TYPE_TEXTE_MODULE )
continue;
text_area = ((TEXTE_MODULE*)edge)->GetBoundingBox();
area.Merge( text_area );
}
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// Add the Clearence shape size: (shape around the pads when the clearence is shown
// Not optimized, but the draw cost is small (perhaps smaller than optimization)
area.Inflate(g_DesignSettings.m_TrackClearence, g_DesignSettings.m_TrackClearence);
return area;
}
/*******************************************************/
void MODULE::DisplayInfo( WinEDA_DrawFrame* frame )
/*******************************************************/
/* Virtual function, from EDA_BaseStruct.
* display module info on MsgPanel
*/
{
int nbpad;
char bufcar[512], Line[512];
int pos;
bool flag = FALSE;
wxString msg;
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BOARD* board = (BOARD*) m_Parent;
frame->MsgPanel->EraseMsgBox(); /* Effacement de la zone message */
if( frame->m_Ident != PCB_FRAME )
flag = TRUE;
pos = 1;
Affiche_1_Parametre( frame, pos, m_Reference->m_Text, m_Value->m_Text,
DARKCYAN );
/* Affiche signature temporelle ou date de modif (en edition de modules) */
pos += 6;
if( flag ) // Affichage date de modification (utile en Module Editor)
{
time_t edit_time = m_LastEdit_Time;
strcpy( Line, ctime( &edit_time ) );
strtok( Line, " \n\r" );
strcpy( bufcar, strtok( NULL, " \n\r" ) ); strcat( bufcar, " " );
strcat( bufcar, strtok( NULL, " \n\r" ) ); strcat( bufcar, ", " );
strtok( NULL, " \n\r" );
strcat( bufcar, strtok( NULL, " \n\r" ) );
msg = CONV_FROM_UTF8( bufcar );
Affiche_1_Parametre( frame, pos, _( "Last Change" ), msg, BROWN );
pos += 4;
}
else
{
msg.Printf( wxT( "%8.8lX" ), m_TimeStamp );
Affiche_1_Parametre( frame, pos, _( "Netlist path" ), m_Path, BROWN );
}
pos += 12;
Affiche_1_Parametre( frame, pos, _( "Layer" ),
board->GetLayerName( m_Layer ), RED );
pos += 6;
EDA_BaseStruct* PtStruct = m_Pads;
nbpad = 0;
while( PtStruct )
{
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nbpad++;
PtStruct = PtStruct->Next();
}
msg.Printf( wxT( "%d" ), nbpad );
Affiche_1_Parametre( frame, pos, _( "Pads" ), msg, BLUE );
pos += 4;
msg = wxT( ".." );
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if( IsLocked() )
msg[0] = 'L';
if( m_ModuleStatus & MODULE_is_PLACED )
msg[1] = 'P';
Affiche_1_Parametre( frame, pos, _( "Stat" ), msg, MAGENTA );
pos += 4;
msg.Printf( wxT( "%.1f" ), (float) m_Orient / 10 );
Affiche_1_Parametre( frame, pos, _( "Orient" ), msg, BROWN );
pos += 5;
Affiche_1_Parametre( frame, pos, _( "Module" ), m_LibRef, BLUE );
pos += 9;
Affiche_1_Parametre( frame, pos, _( "3D-Shape" ),
m_3D_Drawings->m_Shape3DName, RED );
pos += 14;
wxString doc = _( "Doc: " ) + m_Doc;
wxString keyword = _( "KeyW: " ) + m_KeyWord;
Affiche_1_Parametre( frame, pos, doc, keyword, BLACK );
}
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/**
* Function HitTest
* tests if the given wxPoint is within the bounds of this object.
* @param refPos A wxPoint to test
* @return bool - true if a hit, else false
*/
bool MODULE::HitTest( const wxPoint& refPos )
{
/* Calcul des coord souris dans le repere module */
int spot_cX = refPos.x - m_Pos.x;
int spot_cY = refPos.y - m_Pos.y;
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RotatePoint( &spot_cX, &spot_cY, -m_Orient );
/* la souris est-elle dans ce rectangle : */
if( m_BoundaryBox.Inside( spot_cX, spot_cY ) )
return true;
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return false;
}
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/**
* Function HitTest (overlayed)
* tests if the given EDA_Rect intersect the bounds of this object.
* @param refArea : the given EDA_Rect
* @return bool - true if a hit, else false
*/
bool MODULE::HitTest( EDA_Rect& refArea )
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{
bool is_out_of_box = false;
SetRectangleExinscrit();
if( m_RealBoundaryBox.m_Pos.x < refArea.GetX() )
is_out_of_box = true;
if( m_RealBoundaryBox.m_Pos.y < refArea.GetY() )
is_out_of_box = true;
if( m_RealBoundaryBox.GetRight() > refArea.GetRight() )
is_out_of_box = true;
if( m_RealBoundaryBox.GetBottom() > refArea.GetBottom() )
is_out_of_box = true;
return is_out_of_box ? false : true;
}
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D_PAD* MODULE::FindPadByName( const wxString& aPadName ) const
{
wxString buf;
for( D_PAD* pad = m_Pads; pad; pad = pad->Next() )
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{
pad->ReturnStringPadName( buf );
#if 1
if( buf.CmpNoCase( aPadName ) == 0 ) // why case insensitive?
#else
if( buf == aPadName )
#endif
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return pad;
}
return NULL;
}
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// see class_module.h
SEARCH_RESULT MODULE::Visit( INSPECTOR* inspector, const void* testData,
const KICAD_T scanTypes[] )
{
KICAD_T stype;
SEARCH_RESULT result = SEARCH_CONTINUE;
const KICAD_T* p = scanTypes;
bool done = false;
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#if 0 && defined (DEBUG)
std::cout << GetClass().mb_str() << ' ';
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#endif
while( !done )
{
stype = *p;
switch( stype )
{
case TYPE_MODULE:
result = inspector->Inspect( this, testData ); // inspect me
++p;
break;
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case TYPE_PAD:
result = IterateForward( m_Pads, inspector, testData, p );
++p;
break;
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case TYPE_TEXTE_MODULE:
result = inspector->Inspect( m_Reference, testData );
if( result == SEARCH_QUIT )
break;
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result = inspector->Inspect( m_Value, testData );
if( result == SEARCH_QUIT )
break;
// m_Drawings can hold TYPETEXTMODULE also, so fall thru
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case TYPE_EDGE_MODULE:
result = IterateForward( m_Drawings, inspector, testData, p );
// skip over any types handled in the above call.
for( ; ; )
{
switch( stype = *++p )
{
case TYPE_TEXTE_MODULE:
case TYPE_EDGE_MODULE:
continue;
default:
;
}
break;
}
break;
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default:
done = true;
break;
}
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if( result == SEARCH_QUIT )
break;
}
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return result;
}
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#if defined (DEBUG)
/**
* Function Show
* is used to output the object tree, currently for debugging only.
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* @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 MODULE::Show( int nestLevel, std::ostream& os )
{
BOARD* board = (BOARD*) m_Parent;
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// for now, make it look like XML, expand on this later.
NestedSpace( nestLevel, os ) << '<' << GetClass().Lower().mb_str() <<
" ref=\"" << m_Reference->m_Text.mb_str() << '"' <<
" value=\"" << m_Value->m_Text.mb_str() << '"' <<
" layer=\"" << board->GetLayerName( m_Layer ).mb_str() << '"' <<
">\n";
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NestedSpace( nestLevel + 1, os ) <<
"<boundingBox" << m_BoundaryBox.m_Pos << m_BoundaryBox.m_Size << "/>\n";
NestedSpace( nestLevel + 1, os ) << "<orientation tenths=\"" << m_Orient << "\"/>\n";
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EDA_BaseStruct* p;
NestedSpace( nestLevel + 1, os ) << "<mpads>\n";
p = m_Pads;
for( ; p; p = p->Next() )
p->Show( nestLevel + 2, os );
NestedSpace( nestLevel + 1, os ) << "</mpads>\n";
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NestedSpace( nestLevel + 1, os ) << "<mdrawings>\n";
p = m_Drawings;
for( ; p; p = p->Next() )
p->Show( nestLevel + 2, os );
NestedSpace( nestLevel + 1, os ) << "</mdrawings>\n";
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p = m_Son;
for( ; p; p = p->Next() )
{
p->Show( nestLevel + 1, os );
}
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NestedSpace( nestLevel, os ) << "</" << GetClass().Lower().mb_str() << ">\n";
}
#endif