kicad/pcbnew/class_pad.cpp

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/************************************************/
/* class_pad.cpp : fonctions de la classe D_PAD */
/************************************************/
#include "fctsys.h"
#include "gr_basic.h"
#include "wxstruct.h"
#include "common.h"
#include "pcbnew.h"
#include "trigo.h"
#ifdef PCBNEW
#include "drag.h"
#endif
#ifdef CVPCB
#include "cvpcb.h"
#endif
#include "protos.h"
/*******************************/
/* classe D_PAD : constructeur */
/*******************************/
D_PAD::D_PAD( MODULE* parent ) : EDA_BaseStruct( parent, TYPEPAD )
{
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m_NumPadName = 0;
m_Masque_Layer = CUIVRE_LAYER;
m_NetCode = 0; /* Numero de net pour comparaisons rapides */
m_DrillShape = CIRCLE; // Drill shape = circle
m_Size.x = m_Size.y = 500;
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if( m_Parent && (m_Parent->m_StructType == TYPEMODULE) )
{
m_Pos = ( (MODULE*) m_Parent )->m_Pos;
}
m_PadShape = CIRCLE; // forme CERCLE, RECT OVALE TRAPEZE ou libre
m_Attribut = STANDARD; // NORMAL, SMD, CONN, Bit 7 = STACK
m_Orient = 0; // en 1/10 degres
m_logical_connexion = 0;
m_physical_connexion = 0; // variables utilisee lors du calcul du chevelu
ComputeRayon();
}
D_PAD::~D_PAD( void )
{
}
/****************************/
void D_PAD::ComputeRayon( void )
/****************************/
/* met a jour m_Rayon, rayon du cercle exinscrit
*/
{
switch( m_PadShape & 0x7F )
{
case CIRCLE:
m_Rayon = m_Size.x / 2;
break;
case OVALE:
m_Rayon = MAX( m_Size.x, m_Size.y ) / 2;
break;
case RECT:
case SPECIAL_PAD:
case TRAPEZE:
m_Rayon = (int) (sqrt( (float) m_Size.y * m_Size.y
+ (float) m_Size.x * m_Size.x ) / 2);
break;
}
}
/*********************************************/
const wxPoint D_PAD::ReturnShapePos( void )
/*********************************************/
// retourne la position de la forme (pastilles excentrees)
{
if( (m_Offset.x == 0) && (m_Offset.y == 0) )
return m_Pos;
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wxPoint shape_pos;
int dX, dY;
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dX = m_Offset.x;
dY = m_Offset.y;
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RotatePoint( &dX, &dY, m_Orient );
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shape_pos.x = m_Pos.x + dX;
shape_pos.y = m_Pos.y + dY;
return shape_pos;
}
/****************************************/
wxString D_PAD::ReturnStringPadName( void )
/****************************************/
/* Return pad name as string in a wxString
*/
{
wxString name;
ReturnStringPadName( name );
return name;
}
/********************************************/
void D_PAD::ReturnStringPadName( wxString& text )
/********************************************/
/* Return pad name as string in a buffer
*/
{
int ii;
text.Empty();
for( ii = 0; ii < 4; ii++ )
{
if( m_Padname[ii] == 0 )
break;
text.Append( m_Padname[ii] );
}
}
/********************************************/
void D_PAD::SetPadName( const wxString& name )
/********************************************/
// Change pad name
{
int ii, len;
len = name.Length();
if( len > 4 )
len = 4;
for( ii = 0; ii < len; ii++ )
m_Padname[ii] = name.GetChar( ii );
for( ii = len; ii < 4; ii++ )
m_Padname[ii] = 0;
}
/********************************/
void D_PAD::Copy( D_PAD* source )
/********************************/
{
if( source == NULL )
return;
m_Pos = source->m_Pos;
m_Masque_Layer = source->m_Masque_Layer;
memcpy( m_Padname, source->m_Padname, sizeof(m_Padname) ); /* nom de la pastille */
m_NetCode = source->m_NetCode; /* Numero de net pour comparaisons rapides */
m_Drill = source->m_Drill; // Diametre de percage
m_DrillShape = source->m_DrillShape;
m_Offset = source->m_Offset; // Offset de la forme
m_Size = source->m_Size; // Dimension ( pour orient 0 )
m_DeltaSize = source->m_DeltaSize; // delta sur formes rectangle -> trapezes
m_Pos0 = source->m_Pos0; // Coord relatives a l'ancre du pad en
// orientation 0
m_Rayon = source->m_Rayon; // rayon du cercle exinscrit du pad
m_PadShape = source->m_PadShape; // forme CERCLE, RECT OVALE TRAPEZE ou libre
m_Attribut = source->m_Attribut; // NORMAL, SMD, CONN, Bit 7 = STACK
m_Orient = source->m_Orient; // en 1/10 degres
m_logical_connexion = 0; // variable utilisee lors du calcul du chevelu
m_physical_connexion = 0; // variable utilisee lors du calcul de la connexit<69>
m_Netname = source->m_Netname;
}
/**************************/
void D_PAD::UnLink( void )
/**************************/
/* supprime du chainage la structure Struct
* les structures arrieres et avant sont chainees directement
*/
{
/* Modification du chainage arriere */
if( Pback )
{
if( Pback->m_StructType != TYPEMODULE )
{
Pback->Pnext = Pnext;
}
else /* Le chainage arriere pointe sur la structure "Pere" */
{
( (MODULE*) Pback )->m_Pads = (D_PAD*) Pnext;
}
}
/* Modification du chainage avant */
if( Pnext )
Pnext->Pback = Pback;
Pnext = Pback = NULL;
}
/*******************************************************************************************/
void D_PAD::Draw( WinEDA_DrawPanel* panel, wxDC* DC, const wxPoint& offset, int draw_mode )
/*******************************************************************************************/
/* Trac<61>a l'<27>ran d'un pad:
* Entree :
* ptr_pad = pointeur sur le pad du module
* offset = offset de trace
* draw_mode = mode de trace ( GR_OR, GR_XOR, GR_AND)
*/
{
int ii;
int color = 0;
int ux0, uy0,
dx, dx0, dy, dy0,
rotdx,
delta_cx, delta_cy,
xc, yc;
int angle;
wxPoint coord[4];
int zoom;
int fillpad = 0;
PCB_SCREEN* screen;
WinEDA_BasePcbFrame* frame;
wxPoint shape_pos;
screen = panel ? (PCB_SCREEN*) panel->m_Parent->m_CurrentScreen : (PCB_SCREEN*) ActiveScreen;
frame = (WinEDA_BasePcbFrame*) panel->m_Parent;
/* Calcul de l'aspect du pad */
if( frame->m_DisplayPadFill == FILLED )
fillpad = 1;
zoom = screen->GetZoom();
#ifdef PCBNEW
if( m_Flags & IS_MOVED )
fillpad = 0;
#endif
if( m_Masque_Layer & CMP_LAYER )
color = g_PadCMPColor;
if( m_Masque_Layer & CUIVRE_LAYER )
color |= g_PadCUColor;
if( color == 0 ) /* Not on copper layer */
{
switch( m_Masque_Layer & ~ALL_CU_LAYERS )
{
case ADHESIVE_LAYER_CU:
color = g_DesignSettings.m_LayerColor[ADHESIVE_N_CU];
break;
case ADHESIVE_LAYER_CMP:
color = g_DesignSettings.m_LayerColor[ADHESIVE_N_CMP];
break;
case SOLDERPASTE_LAYER_CU:
color = g_DesignSettings.m_LayerColor[SOLDERPASTE_N_CU];
break;
case SOLDERPASTE_LAYER_CMP:
color = g_DesignSettings.m_LayerColor[SOLDERPASTE_N_CMP];
break;
case SILKSCREEN_LAYER_CU:
color = g_DesignSettings.m_LayerColor[SILKSCREEN_N_CU];
break;
case SILKSCREEN_LAYER_CMP:
color = g_DesignSettings.m_LayerColor[SILKSCREEN_N_CMP];
break;
case SOLDERMASK_LAYER_CU:
color = g_DesignSettings.m_LayerColor[SOLDERMASK_N_CU];
break;
case SOLDERMASK_LAYER_CMP:
color = g_DesignSettings.m_LayerColor[SOLDERMASK_N_CMP];
break;
case DRAW_LAYER:
color = g_DesignSettings.m_LayerColor[DRAW_N];
break;
case COMMENT_LAYER:
color = g_DesignSettings.m_LayerColor[COMMENT_N];
break;
case ECO1_LAYER:
color = g_DesignSettings.m_LayerColor[ECO1_N];
break;
case ECO2_LAYER:
color = g_DesignSettings.m_LayerColor[ECO2_N];
break;
case EDGE_LAYER:
color = g_DesignSettings.m_LayerColor[EDGE_N];
break;
default:
color = DARKGRAY;
break;
}
}
if( draw_mode & GR_SURBRILL )
{
if( draw_mode & GR_AND )
color &= ~HIGHT_LIGHT_FLAG;
else
color |= HIGHT_LIGHT_FLAG;
}
if( color & HIGHT_LIGHT_FLAG )
color = ColorRefs[color & MASKCOLOR].m_LightColor;
GRSetDrawMode( DC, draw_mode ); /* mode de trace */
/* calcul du centre des pads en coordonnees Ecran : */
shape_pos = ReturnShapePos();
ux0 = shape_pos.x - offset.x;
uy0 = shape_pos.y - offset.y;
xc = ux0;
yc = uy0;
/* le trace depend de la rotation de l'empreinte */
dx = dx0 = m_Size.x >> 1;
dy = dy0 = m_Size.y >> 1; /* demi dim dx et dy */
angle = m_Orient;
bool DisplayIsol = DisplayOpt.DisplayPadIsol;
if( ( m_Masque_Layer & ALL_CU_LAYERS ) == 0 )
DisplayIsol = FALSE;
switch( m_PadShape & 0x7F )
{
case CIRCLE:
if( fillpad )
GRFilledCircle( &panel->m_ClipBox, DC, xc, yc, dx, 0, color, color );
else
GRCircle( &panel->m_ClipBox, DC, xc, yc, dx, 0, color );
if( DisplayIsol )
{
GRCircle( &panel->m_ClipBox,
DC,
xc,
yc,
dx + g_DesignSettings.m_TrackClearence,
0,
color );
}
break;
case OVALE:
/* calcul de l'entraxe de l'ellipse */
if( dx > dy ) /* ellipse horizontale */
{
delta_cx = dx - dy; delta_cy = 0;
rotdx = m_Size.y;
}
else /* ellipse verticale */
{
delta_cx = 0; delta_cy = dy - dx;
rotdx = m_Size.x;
}
RotatePoint( &delta_cx, &delta_cy, angle );
if( fillpad )
{
GRFillCSegm( &panel->m_ClipBox, DC, ux0 + delta_cx, uy0 + delta_cy,
ux0 - delta_cx, uy0 - delta_cy,
rotdx, color );
}
else
{
GRCSegm( &panel->m_ClipBox, DC, ux0 + delta_cx, uy0 + delta_cy,
ux0 - delta_cx, uy0 - delta_cy,
rotdx, color );
}
/* Trace de la marge d'isolement */
if( DisplayIsol )
{
rotdx = rotdx + g_DesignSettings.m_TrackClearence + g_DesignSettings.m_TrackClearence;
GRCSegm( &panel->m_ClipBox, DC, ux0 + delta_cx, uy0 + delta_cy,
ux0 - delta_cx, uy0 - delta_cy,
rotdx, color );
}
break;
case RECT:
case SPECIAL_PAD:
case TRAPEZE:
{
int ddx, ddy;
ddx = m_DeltaSize.x >> 1;
ddy = m_DeltaSize.y >> 1; /* demi dim dx et dy */
coord[0].x = -dx - ddy;
coord[0].y = +dy + ddx;
coord[1].x = -dx + ddy;
coord[1].y = -dy - ddx;
coord[2].x = +dx - ddy;
coord[2].y = -dy + ddx;
coord[3].x = +dx + ddy;
coord[3].y = +dy - ddx;
for( ii = 0; ii < 4; ii++ )
{
RotatePoint( &coord[ii].x, &coord[ii].y, angle );
coord[ii].x = coord[ii].x + ux0;
coord[ii].y = coord[ii].y + uy0;
}
GRClosedPoly( &panel->m_ClipBox, DC, 4, (int*) coord, fillpad, color, color );
if( DisplayIsol )
{
dx += g_DesignSettings.m_TrackClearence; dy += g_DesignSettings.m_TrackClearence;
coord[0].x = -dx - ddy;
coord[0].y = dy + ddx;
coord[1].x = -dx + ddy;
coord[1].y = -dy - ddx;
coord[2].x = dx - ddy;
coord[2].y = -dy + ddx;
coord[3].x = dx + ddy;
coord[3].y = dy - ddx;
for( ii = 0; ii < 4; ii++ )
{
RotatePoint( &coord[ii].x, &coord[ii].y, angle );
coord[ii].x = coord[ii].x + ux0;
coord[ii].y = coord[ii].y + uy0;
}
GRClosedPoly( &panel->m_ClipBox, DC, 4, (int*) coord, 0, color, color );
}
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}
break;
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default:
break;
}
/* Draw the pad hole */
int cx0 = m_Pos.x - offset.x;
int cy0 = m_Pos.y - offset.y;
int hole = m_Drill.x >> 1;
if( fillpad && hole )
{
color = g_IsPrinting ? WHITE : BLACK; // ou DARKGRAY;
if( draw_mode != GR_XOR )
GRSetDrawMode( DC, GR_COPY );
else
GRSetDrawMode( DC, GR_XOR );
switch( m_DrillShape )
{
case CIRCLE:
if( (hole / zoom) > 1 ) /* draw hole if its size is enought */
GRFilledCircle( &panel->m_ClipBox, DC, cx0, cy0, hole, 0, color, color );
break;
case OVALE:
dx = m_Drill.x >> 1;
dy = m_Drill.y >> 1; /* demi dim dx et dy */
/* calcul de l'entraxe de l'ellipse */
if( m_Drill.x > m_Drill.y ) /* ellipse horizontale */
{
delta_cx = dx - dy; delta_cy = 0;
rotdx = m_Drill.y;
}
else /* ellipse verticale */
{
delta_cx = 0; delta_cy = dy - dx;
rotdx = m_Drill.x;
}
RotatePoint( &delta_cx, &delta_cy, angle );
GRFillCSegm( &panel->m_ClipBox, DC, ux0 + delta_cx, uy0 + delta_cy,
ux0 - delta_cx, uy0 - delta_cy,
rotdx, color );
break;
default:
break;
}
}
GRSetDrawMode( DC, draw_mode );
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/* Trace du symbole "No connect" ( / ou \ ou croix en X) si necessaire : */
if( m_Netname.IsEmpty() && DisplayOpt.DisplayPadNoConn )
{
dx0 = min( dx0, dy0 );
int nc_color = BLUE;
if( m_Masque_Layer & CMP_LAYER ) /* Trace forme \ */
GRLine( &panel->m_ClipBox, DC, cx0 - dx0, cy0 - dx0,
cx0 + dx0, cy0 + dx0, 0, nc_color );
if( m_Masque_Layer & CUIVRE_LAYER ) /* Trace forme / */
GRLine( &panel->m_ClipBox, DC, cx0 + dx0, cy0 - dx0,
cx0 - dx0, cy0 + dx0, 0, nc_color );
}
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/* Trace de la reference */
if( !frame->m_DisplayPadNum )
return;
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dx = min( m_Size.x, m_Size.y ); /* dx = text size */
if( (dx / zoom) > 12 ) /* size must be enought to draw 2 chars */
{
wxString buffer;
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ReturnStringPadName( buffer );
dy = buffer.Len();
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/* Draw text with an angle between -90 deg and + 90 deg */
NORMALIZE_ANGLE_90( angle );
if( dy < 2 )
dy = 2; /* text min size is 2 char */
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dx = (dx * 9 ) / (dy * 13 ); /* Text size ajusted to pad size */
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DrawGraphicText( panel, DC, wxPoint( ux0, uy0 ),
WHITE, buffer, angle, wxSize( dx, dx ),
GR_TEXT_HJUSTIFY_CENTER, GR_TEXT_VJUSTIFY_CENTER );
}
}
/*************************************************/
int D_PAD::ReadDescr( FILE* File, int* LineNum )
/*************************************************/
/* Routine de lecture de descr de pads
* la 1ere ligne de descr ($PAD) est supposee etre deja lue
* syntaxe:
* $PAD
* Sh "N1" C 550 550 0 0 1800
* Dr 310 0 0
* At STD N 00C0FFFF
* Ne 3 "netname"
* Po 6000 -6000
* $EndPAD
*/
{
char Line[1024], BufLine[1024], BufCar[256];
char* PtLine;
int nn, ll, dx, dy;
while( GetLine( File, Line, LineNum ) != NULL )
{
if( Line[0] == '$' )
return 0;
PtLine = Line + 3;
/* Pointe 1er code utile de la ligne */
switch( Line[0] )
{
case 'S': /* Ligne de description de forme et dims*/
/* Lecture du nom pad */
nn = 0;
while( (*PtLine != '"') && *PtLine )
PtLine++;
if( *PtLine )
PtLine++;
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memset( m_Padname, 0, sizeof(m_Padname) );
while( (*PtLine != '"') && *PtLine )
{
if( nn < (int) sizeof(m_Padname) )
{
if( *PtLine > ' ' )
{
m_Padname[nn] = *PtLine; nn++;
}
}
PtLine++;
}
if( *PtLine == '"' )
PtLine++;
nn = sscanf( PtLine, " %s %d %d %d %d %d",
BufCar, &m_Size.x, &m_Size.y,
&m_DeltaSize.x, &m_DeltaSize.y,
&m_Orient );
ll = 0xFF & BufCar[0];
/* Mise a jour de la forme */
m_PadShape = CIRCLE;
switch( ll )
{
case 'C':
m_PadShape = CIRCLE; break;
case 'R':
m_PadShape = RECT; break;
case 'O':
m_PadShape = OVALE; break;
case 'T':
m_PadShape = TRAPEZE; break;
}
ComputeRayon();
break;
case 'D':
BufCar[0] = 0;
nn = sscanf( PtLine, "%d %d %d %s %d %d", &m_Drill.x,
&m_Offset.x, &m_Offset.y, BufCar, &dx, &dy );
m_Drill.y = m_Drill.x;
m_DrillShape = CIRCLE;
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if( nn >= 6 ) // Drill shape = OVAL ?
{
if( BufCar[0] == 'O' )
{
m_Drill.x = dx; m_Drill.y = dy;
m_DrillShape = OVALE;
}
}
break;
case 'A':
nn = sscanf( PtLine, "%s %s %X", BufLine, BufCar,
&m_Masque_Layer );
/* Contenu de BufCar non encore utilise ( reserve pour evolutions
* ulterieures */
/* Mise a jour de l'attribut */
m_Attribut = STANDARD;
if( strncmp( BufLine, "SMD", 3 ) == 0 )
m_Attribut = SMD;
if( strncmp( BufLine, "CONN", 4 ) == 0 )
m_Attribut = CONN;
if( strncmp( BufLine, "HOLE", 4 ) == 0 )
m_Attribut = P_HOLE;
if( strncmp( BufLine, "MECA", 4 ) == 0 )
m_Attribut = MECA;
break;
case 'N': /* Lecture du netname */
nn = sscanf( PtLine, "%d", &m_NetCode );
/* Lecture du netname */
ReadDelimitedText( BufLine, PtLine, sizeof(BufLine) );
m_Netname = CONV_FROM_UTF8( StrPurge( BufLine ) );
break;
case 'P':
nn = sscanf( PtLine, "%d %d", &m_Pos0.x, &m_Pos0.y );
m_Pos = m_Pos0;
break;
default:
DisplayError( NULL, wxT( "Err Pad: Id inconnu" ) );
return 1;
}
}
return 2; /* error : EOF */
}
/***********************************/
int D_PAD::WriteDescr( FILE* File )
/***********************************/
/* Sauvegarde de la description d'un PAD
*/
{
int cshape, NbLigne = 0;;
char* texttype;
if( GetState( DELETED ) )
return NbLigne;
/* Generation du fichier pad: */
fprintf( File, "$PAD\n" ); NbLigne++;
switch( m_PadShape )
{
case CIRCLE:
cshape = 'C'; break;
case RECT:
cshape = 'R'; break;
case OVALE:
cshape = 'O'; break;
case TRAPEZE:
cshape = 'T'; break;
default:
cshape = 'C';
DisplayError( NULL, _( "Unknown Pad shape" ) );
break;
}
fprintf( File, "Sh \"%.4s\" %c %d %d %d %d %d\n",
m_Padname, cshape, m_Size.x, m_Size.y,
m_DeltaSize.x, m_DeltaSize.y, m_Orient );
NbLigne++;
fprintf( File, "Dr %d %d %d", m_Drill.x, m_Offset.x, m_Offset.y );
if( m_DrillShape == OVALE )
{
fprintf( File, " %c %d %d", 'O', m_Drill.x, m_Drill.y );
}
fprintf( File, "\n" );
NbLigne++;
switch( m_Attribut )
{
case STANDARD:
texttype = "STD"; break;
case SMD:
texttype = "SMD"; break;
case CONN:
texttype = "CONN"; break;
case P_HOLE:
texttype = "HOLE"; break;
case MECA:
texttype = "MECA"; break;
default:
texttype = "STD";
DisplayError( NULL, wxT( "attribut Pad inconnu" ) );
break;
}
fprintf( File, "At %s N %8.8X\n", texttype, m_Masque_Layer );
NbLigne++;
fprintf( File, "Ne %d \"%s\"\n", m_NetCode, CONV_TO_UTF8( m_Netname ) );
NbLigne++;
fprintf( File, "Po %d %d\n", m_Pos0.x, m_Pos0.y );
NbLigne++;
fprintf( File, "$EndPAD\n" );
NbLigne++;
return NbLigne;
}
/******************************************************/
void D_PAD::Display_Infos( WinEDA_DrawFrame* frame )
/******************************************************/
/* Affiche en bas d'ecran les caract de la pastille demandee */
{
int ii;
MODULE* Module;
wxString Line;
int pos = 1;
/* Pad messages */
static const wxString Msg_Pad_Shape[6] =
{ wxT( "??? " ), wxT( "Circ" ), wxT( "Rect" ), wxT( "Oval" ), wxT( "trap" ), wxT( "spec" ) };
static const wxString Msg_Pad_Layer[9] =
{
wxT( "??? " ), wxT( "cmp " ), wxT( "cu " ), wxT( "cmp+cu " ), wxT( "int " ),
wxT( "cmp+int " ), wxT( "cu+int " ), wxT( "all " ), wxT( "No copp" )
};
static const wxString Msg_Pad_Attribut[5] =
{ wxT( "norm" ), wxT( "smd " ), wxT( "conn" ), wxT( "hole" ), wxT( "????" ) };
frame->MsgPanel->EraseMsgBox();
/* Recherche du module correspondant */
Module = (MODULE*) m_Parent;
if( Module )
{
wxString msg = Module->m_Reference->m_Text;
Affiche_1_Parametre( frame, pos, _( "Module" ), msg, DARKCYAN );
ReturnStringPadName( Line );
pos += 8;
Affiche_1_Parametre( frame, pos, _( "RefP" ), Line, BROWN );
}
pos += 4;
Affiche_1_Parametre( frame, pos, _( "Net" ), m_Netname, DARKCYAN );
/* pour mise au point (peut etre supprim<69> : Affichage du numero de Net et sous net */
pos += 10;
#if 0
Line.Printf( wxT( "%d.%d " ), m_logical_connexion, m_physical_connexion );
Affiche_1_Parametre( frame, pos, "L.P", Line, WHITE );
#endif
wxString LayerInfo;
ii = 0;
if( m_Masque_Layer & CUIVRE_LAYER )
ii = 2;
if( m_Masque_Layer & CMP_LAYER )
ii += 1;
if( (m_Masque_Layer & ALL_CU_LAYERS) == ALL_CU_LAYERS )
ii = 7;
LayerInfo = Msg_Pad_Layer[ii];
if( (m_Masque_Layer & ALL_CU_LAYERS) == 0 )
{
if( m_Masque_Layer )
LayerInfo = Msg_Pad_Layer[8];
switch( m_Masque_Layer & ~ALL_CU_LAYERS )
{
case ADHESIVE_LAYER_CU:
LayerInfo = ReturnPcbLayerName( ADHESIVE_N_CU );
break;
case ADHESIVE_LAYER_CMP:
LayerInfo = ReturnPcbLayerName( ADHESIVE_N_CMP );
break;
case SOLDERPASTE_LAYER_CU:
LayerInfo = ReturnPcbLayerName( SOLDERPASTE_N_CU );
break;
case SOLDERPASTE_LAYER_CMP:
LayerInfo = ReturnPcbLayerName( SOLDERPASTE_N_CMP );
break;
case SILKSCREEN_LAYER_CU:
LayerInfo = ReturnPcbLayerName( SILKSCREEN_N_CU );
break;
case SILKSCREEN_LAYER_CMP:
LayerInfo = ReturnPcbLayerName( SILKSCREEN_N_CMP );
break;
case SOLDERMASK_LAYER_CU:
LayerInfo = ReturnPcbLayerName( SOLDERMASK_N_CU );
break;
case SOLDERMASK_LAYER_CMP:
LayerInfo = ReturnPcbLayerName( SOLDERMASK_N_CMP );
break;
case DRAW_LAYER:
LayerInfo = ReturnPcbLayerName( DRAW_N );
break;
case COMMENT_LAYER:
LayerInfo = ReturnPcbLayerName( COMMENT_N );
break;
case ECO1_LAYER:
LayerInfo = ReturnPcbLayerName( ECO1_N );
break;
case ECO2_LAYER:
LayerInfo = ReturnPcbLayerName( ECO2_N );
break;
case EDGE_LAYER:
LayerInfo = ReturnPcbLayerName( EDGE_N );
break;
default:
break;
}
}
pos += 3;
Affiche_1_Parametre( frame, pos, _( "Layer" ), LayerInfo, DARKGREEN );
pos += 6;
Affiche_1_Parametre( frame, pos, Msg_Pad_Shape[m_PadShape], wxEmptyString, DARKGREEN );
/* Affichage en couleur diff si pad stack ou non */
if( m_Attribut & PAD_STACK )
Affiche_1_Parametre( frame, -1, wxEmptyString, Msg_Pad_Attribut[m_Attribut & 15], RED );
else
Affiche_1_Parametre( frame,
-1,
wxEmptyString,
Msg_Pad_Attribut[m_Attribut & 15],
DARKGREEN );
valeur_param( m_Size.x, Line );
pos += 6;
Affiche_1_Parametre( frame, pos, _( "H Size" ), Line, RED );
valeur_param( m_Size.y, Line );
pos += 7;
Affiche_1_Parametre( frame, pos, _( "V Size" ), Line, RED );
pos += 7;
valeur_param( (unsigned) m_Drill.x, Line );
if( m_DrillShape == CIRCLE )
{
Affiche_1_Parametre( frame, pos, _( "Drill" ), Line, RED );
}
else
{
valeur_param( (unsigned) m_Drill.x, Line );
wxString msg;
valeur_param( (unsigned) m_Drill.x, msg );
Line += wxT( " " ) + msg;
Affiche_1_Parametre( frame, pos, _( "Drill X / Y" ), Line, RED );
}
int module_orient = Module ? Module->m_Orient : 0;
if( module_orient )
Line.Printf( wxT( "%3.1f(+%3.1f)" ),
(float) (m_Orient - module_orient) / 10, (float) module_orient / 10 );
else
Line.Printf( wxT( "%3.1f" ), (float) m_Orient / 10 );
pos += 8;
Affiche_1_Parametre( frame, pos, _( "Orient" ), Line, BLUE );
valeur_param( m_Pos.x, Line );
pos += 8;
Affiche_1_Parametre( frame, pos, _( "X Pos" ), Line, BLUE );
valeur_param( m_Pos.y, Line );
pos += 6;
Affiche_1_Parametre( frame, pos, _( "Y pos" ), Line, BLUE );
}
2007-08-08 03:50:44 +00:00
/**
* Function HitTest
* tests if the given wxPoint is within the bounds of this object.
* @param ref_pos A wxPoint to test
* @return bool - true if a hit, else false
*/
bool D_PAD::HitTest( const wxPoint& ref_pos )
{
int deltaX, deltaY;
int dx, dy;
double dist;
wxPoint shape_pos = ReturnShapePos();
deltaX = ref_pos.x - shape_pos.x;
deltaY = ref_pos.y - shape_pos.y;
/* Test rapide: le point a tester doit etre a l'interieur du cercle exinscrit ... */
if( (abs( deltaX ) > m_Rayon )
|| (abs( deltaY ) > m_Rayon) )
return false;
/* calcul des demi dim dx et dy */
dx = m_Size.x >> 1; // dx also is the radius for rounded pads
dy = m_Size.y >> 1;
/* localisation ? */
switch( m_PadShape & 0x7F )
{
case CIRCLE:
dist = hypot( deltaX, deltaY );
if( (int) ( round( dist ) ) <= dx )
return true;
break;
default:
/* calcul des coord du point test dans le repere du Pad */
RotatePoint( &deltaX, &deltaY, -m_Orient );
if( (abs( deltaX ) <= dx ) && (abs( deltaY ) <= dy) )
return true;
break;
}
return false;
}
#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 D_PAD::Show( int nestLevel, std::ostream& os )
{
char padname[5] = { m_Padname[0], m_Padname[1], m_Padname[2], m_Padname[3], 0 };
char layerMask[16];
2007-08-09 01:41:30 +00:00
sprintf( layerMask, "0x%08X", m_Masque_Layer );
// for now, make it look like XML:
NestedSpace( nestLevel, os ) << '<' << GetClass().Lower().mb_str() <<
" num=\"" << padname << '"' <<
" net=\"" << m_Netname.mb_str() << '"' <<
2007-08-09 01:41:30 +00:00
" layerMask=\"" << layerMask << '"' << m_Pos << "/>\n";
// NestedSpace( nestLevel+1, os ) << m_Text.mb_str() << '\n';
// NestedSpace( nestLevel, os ) << "</" << GetClass().Lower().mb_str() << ">\n";
}
#endif