Temporarily reverse out the evolving support for finer Board Internal Units (BIU)s.

This commit is contained in:
Dick Hollenbeck 2011-11-24 11:32:51 -06:00
parent d4bfa450e0
commit cc097762c7
80 changed files with 986 additions and 2323 deletions

View File

@ -884,7 +884,7 @@ void EDGE_MODULE::Draw3D( EDA_3D_CANVAS* glcanvas )
}
}
/** @TODO: move D_PAD method to appropriate file */
/* Draw 3D pads. */
void D_PAD::Draw3D( EDA_3D_CANVAS* glcanvas )
{
@ -903,8 +903,8 @@ void D_PAD::Draw3D( EDA_3D_CANVAS* glcanvas )
int color;
scale = g_Parm_3D_Visu.m_BoardScale;
holeX = (double) TO_LEGACY_LU_DBL( m_Drill.x() ) * scale / 2;
holeY = (double) TO_LEGACY_LU_DBL( m_Drill.y() ) * scale / 2;
holeX = (double) m_Drill.x * scale / 2;
holeY = (double) m_Drill.y * scale / 2;
hole = MIN( holeX, holeY );
/* Calculate the center of the pad. */
@ -914,12 +914,12 @@ void D_PAD::Draw3D( EDA_3D_CANVAS* glcanvas )
xc = ux0;
yc = uy0;
dx = dx0 = TO_LEGACY_LU( m_Size.x() ) >> 1;
dy = dy0 = TO_LEGACY_LU( m_Size.y() ) >> 1;
dx = dx0 = m_Size.x >> 1;
dy = dy0 = m_Size.y >> 1;
angle = m_Orient;
drillx = TO_LEGACY_LU( m_Pos.x() ) * scale;
drilly = TO_LEGACY_LU( m_Pos.y() ) * scale;
drillx = m_Pos.x * scale;
drilly = m_Pos.y * scale;
/* Draw the pad hole (TODO: draw OBLONG hole) */
if( holeX && holeY )
@ -980,13 +980,13 @@ void D_PAD::Draw3D( EDA_3D_CANVAS* glcanvas )
{
delta_cx = dx - dy;
delta_cy = 0;
w = TO_LEGACY_LU( m_Size.y() ) * scale;
w = m_Size.y * scale;
}
else /* Vertical ellipse */
{
delta_cx = 0;
delta_cy = dy - dx;
w = TO_LEGACY_LU( m_Size.x() ) * scale;
w = m_Size.x * scale;
}
RotatePoint( &delta_cx, &delta_cy, angle );

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@ -29,9 +29,6 @@ option(KICAD_GOST "enable/disable building using GOST notation for multiple gate
#for those who bored with uppercase
option(KICAD_KEEPCASE "turn-off automatic component name conversion to uppercase if selected")
#highly experimetnal option
option(KICAD_NANOMETRE "set length quantum to 1 nm for PCB")
option(USE_WX_GRAPHICS_CONTEXT
"Use wxGraphicsContext for rendering (default OFF). Warning, this is experimental")
@ -102,10 +99,6 @@ if(KICAD_KEEPCASE)
add_definitions(-DKICAD_KEEPCASE)
endif(KICAD_KEEPCASE)
if(KICAD_NANOMETRE)
add_definitions(-DKICAD_NANOMETRE)
endif(KICAD_NANOMETRE)
if(USE_WX_OVERLAY OR APPLE)
add_definitions(-DUSE_WX_OVERLAY)
endif(USE_WX_OVERLAY OR APPLE)

View File

@ -37,6 +37,13 @@
#include "auxiliary.h"
#ifndef max
#define max( a, b ) ( ( (a) > (b) ) ? (a) : (b) )
#endif
#ifndef min
#define min( a, b ) ( ( (a) < (b) ) ? (a) : (b) )
#endif
// Define some types used here from boost::polygon
namespace bpl = boost::polygon; // bpl = boost polygon library
using namespace bpl::operators; // +, -, =, ...
@ -469,7 +476,7 @@ void BezierToPolyline( std::vector <potrace_dpoint_t>& aCornersBuffer,
* occur at an endpoint. */
dd0 = sq( p1.x - 2 * p2.x + p3.x ) + sq( p1.y - 2 * p2.y + p3.y );
dd1 = sq( p2.x - 2 * p3.x + p4.x ) + sq( p2.y - 2 * p3.y + p4.y );
dd = 6 * sqrt( fmax( dd0, dd1 ) );
dd = 6 * sqrt( max( dd0, dd1 ) );
e2 = 8 * delta <= dd ? 8 * delta / dd : 1;
epsilon = sqrt( e2 ); /* necessary interval size */

View File

@ -518,20 +518,6 @@ void EDA_BASE_FRAME::CopyVersionInfoToClipboard( wxCommandEvent& event )
tmp << wxT( "OFF\n" );
#endif
tmp << wxT( " KICAD_NANOMETRE=" );
#ifdef KICAD_NANOMETRE
tmp << wxT( "ON\n" );
#else
tmp << wxT( "OFF\n" );
#endif
tmp << wxT( " KICAD_KEEPCASE=" );
#ifdef KICAD_KEEPCASE
tmp << wxT( "ON\n" );
#else
tmp << wxT( "OFF\n" );
#endif
tmp << wxT( " USE_WX_GRAPHICS_CONTEXT=" );
#ifdef USE_WX_GRAPHICS_CONTEXT
tmp << wxT( "ON\n" );

View File

@ -410,193 +410,50 @@ int ReturnValueFromString( EDA_UNITS_T aUnit, const wxString& TextValue, int Int
}
#ifdef KICAD_NANOMETRE
/*
*New common length functions
/**
* Function wxStringSplit
* Split a String to a String List when founding 'splitter'
* @return the list
* @param txt : wxString : a String text
* @param splitter : wxChar : the 'split' character
*/
const LENGTH_UNIT_DESC MillimetreDesc =
{
LENGTH_UNITS<LENGTH_PCB>::millimetre(),
wxT( "mm" ),
6
};
const LENGTH_UNIT_DESC InchDesc =
{
LENGTH_UNITS<LENGTH_PCB>::inch(),
wxT( "\"" ),
7
};
const LENGTH_UNIT_DESC MilDesc =
{
LENGTH_UNITS<LENGTH_PCB>::mil(),
wxT( "mil" ),
5
};
const LENGTH_UNIT_DESC UnscaledDesc = /* stub */
{
LENGTH_PCB::quantum(),
wxT( "" ),
4
};
const LENGTH_UNIT_DESC *UnitDescription( EDA_UNITS_T aUnit ) {
switch(aUnit) {
case INCHES:
return &InchDesc;
case MILLIMETRES:
return &MillimetreDesc;
default:
return &UnscaledDesc; /* should not be reached */
}
}
/* TODO: localisation */
wxString LengthToString( const LENGTH_UNIT_DESC *aUnit, LENGTH_PCB aValue,
bool aAdd_unit_symbol ) {
wxString StringValue;
double value_to_print;
value_to_print = LENGTH<double>(aValue) / LENGTH<double>(aUnit->m_Value);
StringValue.Printf( wxT( "%.*f" ), aUnit->m_Precision, value_to_print);
size_t zero_tail = StringValue.find_last_not_of( wxT( "0" ) );
if( zero_tail != std::string::npos )
{
//fprintf( stderr, "pos : %d", (int) zero_tail );
size_t delim_pos = StringValue.Length() - aUnit->m_Precision;
if( zero_tail < delim_pos)
zero_tail = delim_pos;
StringValue.Truncate( zero_tail + 1 );
}
if( aAdd_unit_symbol && aUnit->m_Symbol != wxT( "" ) )
{
StringValue += wxT( " " );
StringValue += wxGetTranslation( aUnit->m_Symbol );
}
return StringValue;
}
LENGTH_PCB StringToLength( const LENGTH_UNIT_DESC *aUnit, const wxString& TextValue )
{
LENGTH_PCB Value;
double dtmp = 0;
/* Acquire the 'right' decimal point separator */
const struct lconv* lc = localeconv();
wxChar decimal_point = lc->decimal_point[0];
wxString buf( TextValue.Strip( wxString::both ) );
/* Convert the period in decimal point */
buf.Replace( wxT( "." ), wxString( decimal_point, 1 ) );
// An ugly fix needed by WxWidgets 2.9.1 that sometimes
// back to a point as separator, although the separator is the comma
// TODO: remove this line if WxWidgets 2.9.2 fixes this issue
buf.Replace( wxT( "," ), wxString( decimal_point, 1 ) );
/* Find the end of the numeric part */
unsigned brk_point = 0;
while( brk_point < buf.Len() )
{
wxChar ch = buf[brk_point];
if( !( (ch >= '0' && ch <='9') || (ch == decimal_point)
|| (ch == '-') || (ch == '+') ) )
{
break;
}
++brk_point;
}
/* Extract the numeric part */
buf.Left( brk_point ).ToDouble( &dtmp );
/* Check the optional unit designator (2 ch significant) */
wxString unit( buf.Mid( brk_point ).Strip( wxString::leading ).Left( 2 ).Lower() );
if( unit == wxT( "in" ) || unit == wxT( "\"" ) )
{
aUnit = &InchDesc;
}
else if( unit == wxT( "mm" ) )
{
aUnit = &MillimetreDesc;
}
else if( unit == wxT( "mi" ) || unit == wxT( "th" ) ) /* Mils or thous */
{
aUnit = &MilDesc;
}
Value = LENGTH_PCB( dtmp * LENGTH< double, 1 >( aUnit->m_Value ) );
return Value;
}
void LengthToTextCtrl( wxTextCtrl& TextCtr, LENGTH_PCB Value )
{
wxString msg = LengthToString( UnitDescription( g_UserUnit ), Value );
TextCtr.SetValue( msg );
}
LENGTH_PCB LengthFromTextCtrl( const wxTextCtrl& TextCtr )
{
LENGTH_PCB value;
wxString msg = TextCtr.GetValue();
value = StringToLength( UnitDescription( g_UserUnit ), msg );
return value;
}
#endif
wxArrayString* wxStringSplit( wxString aString, wxChar aSplitter )
wxArrayString* wxStringSplit( wxString txt, wxChar splitter )
{
wxArrayString* list = new wxArrayString();
while( 1 )
{
int index = aString.Find( aSplitter );
int index = txt.Find( splitter );
if( index == wxNOT_FOUND )
break;
wxString tmp;
tmp = aString.Mid( 0, index );
aString = aString.Mid( index + 1, aString.size() - index );
tmp = txt.Mid( 0, index );
txt = txt.Mid( index + 1, txt.size() - index );
list->Add( tmp );
}
if( !aString.IsEmpty() )
if( !txt.IsEmpty() )
{
list->Add( aString );
list->Add( txt );
}
return list;
}
/**
* Function To_User_Unit
* Convert in inch or mm the variable "val" (double)given in internal units
* @return the converted value, in double
* @param aUnit : user measure unit
* @param val : double : the given value
* @param internal_unit_value = internal units per inch
*/
double To_User_Unit( EDA_UNITS_T aUnit, double val, int internal_unit_value )
{
switch( aUnit )
{
case MILLIMETRES:
@ -611,6 +468,9 @@ double To_User_Unit( EDA_UNITS_T aUnit, double val, int internal_unit_value )
}
/*
* Return in internal units the value "val" given in inch or mm
*/
int From_User_Unit( EDA_UNITS_T aUnit, double val, int internal_unit_value )
{
double value;
@ -627,6 +487,7 @@ int From_User_Unit( EDA_UNITS_T aUnit, double val, int internal_unit_value )
default:
case UNSCALED_UNITS:
value = val;
}
@ -634,6 +495,9 @@ int From_User_Unit( EDA_UNITS_T aUnit, double val, int internal_unit_value )
}
/*
* Return the string date "day month year" like "23 jun 2005"
*/
wxString GenDate()
{
static const wxString mois[12] =
@ -647,6 +511,7 @@ wxString GenDate()
wxString string_date;
time( &buftime );
Date = gmtime( &buftime );
string_date.Printf( wxT( "%d %s %d" ), Date->tm_mday,
GetChars( mois[Date->tm_mon] ),

View File

@ -802,85 +802,3 @@ void PARAM_CFG_LIBNAME_LIST::SaveParam( wxConfigBase* aConfig )
aConfig->Write( configkey, libname );
}
}
/*
* LENGTH_PCB
*/
PARAM_CFG_LENGTH_PCB::PARAM_CFG_LENGTH_PCB( const wxChar* ident,
LENGTH_PCB* ptparam,
LENGTH_PCB default_val,
LENGTH_PCB min,
LENGTH_PCB max,
const wxChar* group ) :
PARAM_CFG_BASE( ident, PARAM_DOUBLE, group )
{
m_Pt_param = ptparam;
m_Default = default_val;
m_Min = min;
m_Max = max;
}
PARAM_CFG_LENGTH_PCB::PARAM_CFG_LENGTH_PCB( bool Insetup,
const wxChar* ident,
LENGTH_PCB* ptparam,
LENGTH_PCB default_val,
LENGTH_PCB min,
LENGTH_PCB max,
const wxChar* group ) :
PARAM_CFG_BASE( ident, PARAM_DOUBLE, group )
{
m_Pt_param = ptparam;
m_Default = default_val;
m_Min = min;
m_Max = max;
m_Setup = Insetup;
}
/** ReadParam
* read the value of parameter this stored in aConfig
* @param aConfig = the wxConfigBase that store the parameter
*/
void PARAM_CFG_LENGTH_PCB::ReadParam( wxConfigBase* aConfig )
{
if( m_Pt_param == NULL || aConfig == NULL )
return;
LENGTH_PCB ftmp;
wxString msg;
msg = aConfig->Read( m_Ident, wxT( "" ) );
if( msg.IsEmpty() )
{
ftmp = m_Default;
}
else
{
double t;
msg.ToDouble( &t );
ftmp = FROM_LEGACY_LU( t );
if( (ftmp < m_Min) || (ftmp > m_Max) )
ftmp = m_Default;
}
*m_Pt_param = ftmp;
}
/** SaveParam
* save the the value of parameter this stored in aConfig
* @param aConfig = the wxConfigBase that can store the parameter
*/
void PARAM_CFG_LENGTH_PCB::SaveParam( wxConfigBase* aConfig )
{
if( m_Pt_param == NULL || aConfig == NULL )
return;
#ifdef KICAD_NANOMETRE
aConfig->Write( m_Ident, TO_LEGACY_LU_DBL( *m_Pt_param ) );
#else // save it as int to mantain compatibility while in transition to nanoscale
aConfig->Write( m_Ident, TO_LEGACY_LU( *m_Pt_param ) );
#endif
}

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@ -167,15 +167,11 @@ public:
* @return const wxPoint& - The position of this object.
* This function exists mainly to satisfy the virtual GetPosition() in parent class
*/
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return m_Start; // it had to be start or end.
}
void SetPosition( const wxPoint& pos ) {
m_Start = pos;
}
/**
* Function GetABPosition
* returns the image position of aPosition for this object.

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@ -7,10 +7,6 @@
#include "pcbstruct.h" // NB_COLORS
#include "lengthpcb.h"
#include "class_via_dimension.h"
// Class for handle current printed board design settings
class BOARD_DESIGN_SETTINGS
{
@ -26,14 +22,11 @@ public:
int m_EdgeSegmentWidth; // current graphic line width (EDGE layer only)
int m_PcbTextWidth; // current Pcb (not module) Text width
wxSize m_PcbTextSize; // current Pcb (not module) Text size
LENGTH_PCB m_TrackMinWidth; // track min value for width ((min copper size value
VIA_DIMENSION m_MinVia;
VIA_DIMENSION m_MinMicroVia;
//LENGTH_PCB m_ViasMinSize; // vias (not micro vias) min diameter
//LENGTH_PCB m_ViasMinDrill; // vias (not micro vias) min drill diameter
//LENGTH_PCB m_MicroViasMinSize; // micro vias (not vias) min diameter
//LENGTH_PCB m_MicroViasMinDrill; // micro vias (not vias) min drill diameter
int m_TrackMinWidth; // track min value for width ((min copper size value
int m_ViasMinSize; // vias (not micro vias) min diameter
int m_ViasMinDrill; // vias (not micro vias) min drill diameter
int m_MicroViasMinSize; // micro vias (not vias) min diameter
int m_MicroViasMinDrill; // micro vias (not vias) min drill diameter
// Global mask margins:
int m_SolderMaskMargin; // Solder mask margin

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@ -76,19 +76,9 @@ public:
/**
* Function GetPosition
* returns the position of this object.
* @return wxPoint - The position of this object
* It seems this function could not return modifiable reference as this
* contradict good design practice: as the class could be able
* doing internal recalculations on reposition.
* @TODO: Check all the GetPosition calls for position assignments.
* @return wxPoint& - The position of this object, non-const so it can be changed
*/
virtual const wxPoint GetPosition() const = 0;
/**
* Sets the position of this object.
* @param pos The position of this object
*/
virtual void SetPosition( const wxPoint& pos ) = 0;
virtual wxPoint& GetPosition() = 0;
/**
* Function GetLayer
@ -323,9 +313,10 @@ public:
{}
//-----< satisfy some virtual functions >------------------------------
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return wxPoint(0, 0);
static wxPoint dummy;
return dummy;
}
void Draw( EDA_DRAW_PANEL* DrawPanel, wxDC* DC,

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@ -22,11 +22,6 @@ public:
m_Drill = FROM_LEGACY_LU( 0 );
}
VIA_DIMENSION( LENGTH_PCB diam, LENGTH_PCB drill )
{
m_Diameter = diam;
m_Drill = drill;
}
bool operator ==( const VIA_DIMENSION& other ) const
{

View File

@ -2,6 +2,7 @@
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2004 Jean-Pierre Charras, jaen-pierre.charras@gipsa-lab.inpg.com
* Copyright (C) 2007-2011 SoftPLC Corporation, Dick Hollenbeck <dick@softplc.com>
* Copyright (C) 2008-2011 Wayne Stambaugh <stambaughw@verizon.net>
* Copyright (C) 1992-2011 KiCad Developers, see AUTHORS.txt for contributors.
*
@ -28,18 +29,13 @@
* @file common.h
*/
#ifndef __INCLUDE__COMMON_H__
#define __INCLUDE__COMMON_H__ 1
#ifndef INCLUDE__COMMON_H_
#define INCLUDE__COMMON_H_
#include "wx/wx.h"
#include "wx/confbase.h"
#include "wx/fileconf.h"
#ifdef KICAD_NANOMETRE
#include "lengthpcb.h"
#endif
class wxAboutDialogInfo;
class BASE_SCREEN;
class EDA_DRAW_FRAME;
@ -363,85 +359,27 @@ wxString ReturnStringFromValue( EDA_UNITS_T aUnit,
int aInternal_Unit,
bool aAdd_unit_symbol = false );
/**
* Function AddUnitSymbol
* adds string " (mm):" or " ("):" to the static text Stext.
* Used in dialog boxes for entering values depending on selected units
*/
void AddUnitSymbol( wxStaticText& Stext, EDA_UNITS_T aUnit = g_UserUnit );
/* Add string " (mm):" or " ("):" to the static text Stext.
* Used in dialog boxes for entering values depending on selected units */
void PutValueInLocalUnits( wxTextCtrl& TextCtr, int Value, int Internal_Unit );
void PutValueInLocalUnits( wxTextCtrl& TextCtr, int Value,
int Internal_Unit );
/**
* Convert the number Value in a string according to the internal units
/* Convert the number Value in a string according to the internal units
* and the selected unit (g_UserUnit) and put it in the wxTextCtrl TextCtrl
*/
int ReturnValueFromTextCtrl( const wxTextCtrl& TextCtr, int Internal_Unit );
#ifdef KICAD_NANOMETRE
struct LENGTH_UNIT_DESC
{
LENGTH_PCB m_Value;
const wxString m_Symbol;
int m_Precision;
};
extern const LENGTH_UNIT_DESC MillimetreDesc, InchDesc, MilDesc;
const LENGTH_UNIT_DESC *UnitDescription( EDA_UNITS_T aUnit );
LENGTH_PCB StringToLength( const LENGTH_UNIT_DESC *aUnit, const wxString& TextValue );
wxString LengthToString( const LENGTH_UNIT_DESC *aUnit, LENGTH_PCB aValue,
bool aAdd_unit_symbol = false );
void LengthToTextCtrl( wxTextCtrl& TextCtr, LENGTH_PCB Value );
LENGTH_PCB LengthFromTextCtrl( const wxTextCtrl& TextCtr );
/* transition macros */
#define STR_TO_LENGTH( unit, str, iu ) \
( StringToLength( UnitDescription( ( unit ) ), ( str ) ) )
#define LENGTH_TO_STR( unit, l, iu ) \
( LengthToString( UnitDescription( ( unit ) ), ( l ) ) )
#define LENGTH_TO_STR_SYM( unit, l, iu ) \
( LengthToString( UnitDescription( ( unit ) ), ( l ), true ) )
#define CTR_GET_LENGTH( ctr, iu ) \
( StringToLength( UnitDescription( g_UserUnit ), ( ctr ).GetValue() ) )
#define CTR_PUT_LENGTH( ctr, l, iu ) \
( ( ctr ).SetValue( LengthToString( UnitDescription( g_UserUnit ), ( l ) ) ) )
#else
#define STR_TO_LENGTH( unit, str, iu ) \
ReturnValueFromString( ( unit ), ( str ), ( iu ) )
#define LENGTH_TO_STR( unit, l, iu ) \
( ReturnStringFromValue( ( unit ), ( l ), ( iu ) ) )
#define LENGTH_TO_STR_SYM( unit, l, iu ) \
( ReturnStringFromValue( ( unit ), ( l ), ( iu ), true ) )
#define CTR_GET_LENGTH( ctr, iu ) \
ReturnValueFromString( g_UserUnit, ( ctr ).GetValue(), ( iu ) )
#define CTR_PUT_LENGTH( ctr, l, iu ) \
( ( ctr ).SetValue( ReturnStringFromValue( g_UserUnit, ( l ), ( iu ) ) ) )
#endif
**/
int ReturnValueFromTextCtrl( const wxTextCtrl& TextCtr,
int Internal_Unit );
/**
* Function wxStringSplit
* splita \a aString to a string list when split by \a aSplitter.
* splits \a aString to a string list separated at \a aSplitter.
* @return the list
* @param aString : wxString : a String text
* @param aSplitter : wxChar : the 'split' character
* @param aString is the text to split
* @param aSplitter is the 'split' character
*/
wxArrayString* wxStringSplit( wxString aString, wxChar aSplitter );
wxArrayString* wxStringSplit( wxString txt, wxChar aSplitter );
/**
* Function To_User_Unit
@ -449,11 +387,12 @@ wxArrayString* wxStringSplit( wxString aString, wxChar aSplitter );
* @return the converted value, in double
* @param aUnit : user unit to be converted to
* @param val : double : the given value
* @param internal_unit_value = internal units per inch
*/
double To_User_Unit( EDA_UNITS_T aUnit, double val, int internal_unit_value );
/*
/**
* Return in internal units the value "val" given in inch or mm
*/
int From_User_Unit( EDA_UNITS_T aUnit, double val, int internal_unit_value );
@ -465,4 +404,4 @@ int From_User_Unit( EDA_UNITS_T aUnit, double val, int internal_unit_value );
*/
wxString GenDate();
#endif // __INCLUDE__COMMON_H__
#endif // INCLUDE__COMMON_H_

View File

@ -1,74 +1,18 @@
/**
* The physical length library. Made for nanometer scale.
* @file length.h
* @brief The physical length library. Made for nanometer scale.
*/
/* sorry if it is not styled correctly, i'll work on it further */
/* sorry it is not styled correctly, i'll work on it further */
#ifndef LENGTH_H_INCLUDED
#define LENGTH_H_INCLUDED 1
#include <math.h>
template < typename T = double, int P = 1 > class LENGTH;
template <typename T> class LENGTH_UNITS;
/*!
* The template that "inflate" LENGTH< T, 0 > class to T. Used with (*) and (/).
*/
template < typename T, int P > struct LENGTH_TRAITS
{
typedef LENGTH<T, P> flat;
};
template < typename T > struct LENGTH_TRAITS< T, 0 >
{
/* length dimension to power 0 is just a number, so LENGTH<T, 0> should be automatically converted to T */
typedef T flat;
};
/*!
* The template for value type conversions
*/
template < typename T > struct LENGTH_CASTS
{
/*! This function to convert length value to given type T. */
template< typename X > static T nearest( const X x )
{
return T( x );
}
};
template <> struct LENGTH_CASTS < int >
{
static int nearest( const double x )
{
return floor( x + 0.5 );
}
};
template <> struct LENGTH_CASTS < long >
{
static long nearest( const double x )
{
return floor( x + 0.5 );
}
};
/** Forward declaration for LIMITED_INT to use with casts. */
template < typename T > class LIMITED_INT;
template < typename T > struct LENGTH_CASTS < LIMITED_INT< T > >
{
static LIMITED_INT< T > nearest( const double x )
{
return LIMITED_INT< T > ( floor( x + 0.5 ) );
}
};
/* type to be used by length units by default */
typedef int DEF_LENGTH_VALUE;
/**
* Length template class.
* Length template class
* @param T actual type holding a value (be aware of precision and range!)
* @param P power of length unit: 1 - length, 2 - area, 3 - volume, -1 - lin. density etc...
* This class check length dimension in compile time. In runtime it behaves
@ -88,7 +32,7 @@ template < typename T > struct LENGTH_CASTS < LIMITED_INT< T > >
* - sqrt and cbrt result type should be instantiated before they used
* Be aware when using them in complex formulae, e. g.
* LENGTH< double, 1 > len = cbrt(vol) - is ok, but
* LENGTH< double, 3 > vol = sqrt(area*area*area*area)/length - will fail
* LENGTH< double, 2 > vol = sqrt(area*area*area*area)/length - will fail
* if LENGTH<..., 4> is not instantiated
* - non-integer power values do not supported
* they should be implemented carefully using natural fractions, not floats, to be exact
@ -101,6 +45,28 @@ template < typename T > struct LENGTH_CASTS < LIMITED_INT< T > >
*
*/
template < typename T = DEF_LENGTH_VALUE, int P = 1 > class LENGTH;
/**
* Length units contained in this class
*/
template <typename T> class LENGTH_UNITS;
/**
* For internal needs
*/
template < typename T, int P > struct LENGTH_TRAITS
{
typedef LENGTH<T, P> flat;
};
template < typename T > struct LENGTH_TRAITS< T, 0 >
{
/* length dimension to power 0 is just a number, so LENGTH<T, 0> should be automatically converted to T */
typedef T flat;
};
template< typename T, int P > class LENGTH
{
friend class LENGTH_UNITS< T >;
@ -108,242 +74,152 @@ template< typename T, int P > class LENGTH
template < typename Y, int R > friend class LENGTH;
protected:
T u;
/**
* The 'direct' constructor which should not be accessed from outside
*/
LENGTH( T units ) : u( units )
T m_U;
LENGTH( T units ) : m_U( units )
{
}
static T RawValue( const LENGTH<T, P> &x )
{
return x.m_U;
}
static T RawValue( const T& x )
{
return x;
}
public:
typedef T value_type;
enum
{
dimension = P
};
template< typename U > LENGTH( const LENGTH< U, P > &orig )
: u( LENGTH_CASTS < T >::nearest( orig.u ) )
LENGTH( const LENGTH <T, P> &orig ) : m_U( orig.m_U )
{
}
LENGTH( void ) : m_U()
{
}
LENGTH( void ) : u()
{
}
/**
* Zero length of given type
* @return A zero
*/
static LENGTH<T, P> zero ( void )
{
return T(0);
}
/**
* Internal unit. Service function. Do not use this, please!
* @return An internal unit
*/
static LENGTH<T, P> quantum ( void )
{
return T(1);
}
LENGTH<T, P> & operator = ( const LENGTH<T, P> & y )
{
this->u = y.u;
this->m_U = y.m_U;
return *this;
}
/** @} */
/**
* @defgroup length-comparisons Comparisons and tests
* @{
*/
template<typename Y> operator LENGTH< Y, P > ( void )
{
return this->m_U;
}
/*************************/
/* comparisons and tests */
/*************************/
bool operator ==( const LENGTH < T, P > y ) const
{
return u == y.u;
return m_U == y.m_U;
}
bool operator !=( const LENGTH < T, P > y ) const
{
return u != y.u;
return m_U != y.m_U;
}
bool operator <( const LENGTH < T, P > y ) const
{
return u < y.u;
return m_U < y.m_U;
}
bool operator >=( const LENGTH < T, P > y ) const
{
return u >= y.u;
return m_U >= y.m_U;
}
bool operator >( const LENGTH < T, P > y ) const
{
return u > y.u;
return m_U > y.m_U;
}
bool operator <=( const LENGTH < T, P > y ) const
{
return u <= y.u;
return m_U <= y.m_U;
}
bool operator !( void ) const
{
return !u;
return !m_U;
}
/** @} */
/**
* @defgroup length-arithmetic Basic arithmetic
* @{
*/
/*************************/
/* basic arithmetic */
/*************************/
LENGTH< T, P > operator - ( void ) const
{
LENGTH< T, P > z;
z.u = -u;
return z;
return LENGTH<T, P>(-this->m_U);
}
LENGTH< T, P >& operator -= ( const LENGTH< T, P > y )
LENGTH< T, P > operator - ( const LENGTH< T, P > y ) const
{
u -= y.u;
return *this;
return m_U - y.m_U;
}
friend LENGTH< T, P > operator - ( const LENGTH< T, P > x, const LENGTH< T, P > y )
LENGTH< T, P > operator + ( const LENGTH< T, P > y ) const
{
LENGTH< T, P > z = x;
z -= y;
return z;
return m_U + y.m_U;
}
LENGTH< T, P >& operator += ( const LENGTH< T, P > y )
{
u += y.u;
return *this;
}
friend LENGTH< T, P > operator + ( const LENGTH< T, P > x, const LENGTH< T, P > y )
{
LENGTH< T, P > z = x;
z += y;
return z;
}
LENGTH< T, P >& operator *= ( const T y )
{
u *= y;
return *this;
}
LENGTH< T, P > operator * ( const T & y) const
{
LENGTH< T, P > z = *this;
z *= y;
return z;
}
template < int R >
typename LENGTH_TRAITS< T, P + R >::flat operator * ( const LENGTH<T, R> &y ) const
{
LENGTH< T, P + R > z;
z.u = u * y.u;
return z;
return m_U * y.m_U;
}
LENGTH< T, P > operator * ( const T & y) const
{
return m_U * y;
}
LENGTH< T, P > friend operator * ( const T &y, const LENGTH<T, P> &x )
{
return x.u * y;
}
LENGTH< T, P >& operator /= ( const T y )
{
u /= y;
return *this;
}
LENGTH< T, P > operator / ( const T &y ) const
{
return u / y;
return x.m_U * y;
}
template < int R >
typename LENGTH_TRAITS< T, P - R >::flat operator / ( const LENGTH< T, R > &y ) const
typename LENGTH_TRAITS< T, P - R >::flat operator / ( const LENGTH<T, R> &y ) const
{
return u / y.u;
return m_U / y.m_U;
}
LENGTH< T, P > operator / ( const T &y ) const
{
return m_U / y;
}
LENGTH< T, -P > friend operator / ( const T &y, const LENGTH< T, P > &x )
{
return y / x.u;
}
/** @} */
/**
* @defgroup length-algebra Algebraic functions
* @{
*/
/** Absolute value. */
friend LENGTH< T, P > abs( LENGTH< T, P > y )
{
return 0 < y.u? y : -y;
return y / x.m_U;
}
/** Maximum of two values. */
friend LENGTH< T, P > max( LENGTH< T, P > x, LENGTH< T, P > y )
{
LENGTH< T, P > z;
z.u = max( x.u, y.u );
return z;
}
/** Minimum of two values. */
friend LENGTH< T, P > min( LENGTH< T, P > x, LENGTH< T, P > y )
{
LENGTH< T, P > z;
z.u = min( x.u, y.u );
return z;
}
/** Square root. */
friend LENGTH< T, P > sqrt( LENGTH< T, P*2 > y )
{
LENGTH< T, P > z;
z.u = sqrt( y.u );
return z;
return sqrt( y.m_U );
}
/** Cubic root. */
friend LENGTH< T, P > cbrt( LENGTH< T, P*3 > y )
{
LENGTH< T, P > z;
z.u = cbrt( y.u );
return z;
return cbrt( y.m_U );
}
/** Hypothenuse of a triangle given katheti. */
friend LENGTH< T, P > hypot( LENGTH< T, P > x, LENGTH< T, P > y )
/*************************/
/* assignment arithmetic */
/*************************/
LENGTH< T, P >& operator -= ( const LENGTH< T, P > y )
{
LENGTH< T, P > z;
z.u = hypot( x.u, y.u );
return z;
return m_U -= y.m_U;
}
/** Direction of vector given cartesian coords. */
friend double atan2( LENGTH< T, P > x, LENGTH< T, P > y )
LENGTH< T, P >& operator += ( const LENGTH< T, P > y )
{
return atan2( double ( x.u ), double( y.u ) );
return m_U += y.m_U;
}
/** @} */
LENGTH< T, P >& operator *= ( const T y )
{
return m_U *= y;
}
LENGTH< T, P >& operator /= ( const T y )
{
return m_U /= y;
}
/*************************/
/* more arithmetic */
/*************************/
};
/*!
/**
* Units of length
*
* How to use them:
@ -355,74 +231,48 @@ public:
* to get numeric value of length in specific units you should use a division
* length/LENGTH_UNITS::metre() gives number of metres in length
* legnth/LENGTH_UNITS::foot() gives number of feet in length
*
* Really these units are used in NEWPCB and printing routines, as EESCHEMA
* is going to use relative units.
*/
template < typename T > class LENGTH_UNITS {
template < typename T = DEF_LENGTH_VALUE > class LENGTH_UNITS {
protected:
enum
{
METRE = 1000000000, /*!< The ONLY constant connecting length to the real world */
METRE = 1000000000, /* The ONLY constant connecting length to the real world */
INCH = METRE / 10000 * 254
};
public:
/** One metre. */
static LENGTH< T, 1 > metre( void )
{
public:
static LENGTH< T, 1 > metre( void ) {
return T( METRE );
}
/** One decimetre, 0.1 m. */
static LENGTH< T, 1 > decimetre( void )
{
static LENGTH< T, 1 > decimetre( void ) {
return T( METRE / 10 );
}
/** One centimetre, 0.01 m. */
static LENGTH< T, 1 > centimetre( void )
{
static LENGTH< T, 1 > centimetre( void ) {
return T( METRE / 100 );
}
/** One millimetre, 0.001 m. */
static LENGTH< T, 1 > millimetre( void )
{
static LENGTH< T, 1 > millimetre( void ) {
return T( METRE / 1000 );
}
/** One micrometre, 1E-6 m. */
static LENGTH< T, 1 > micrometre( void )
{
static LENGTH< T, 1 > micrometre( void ) {
return T( METRE / 1000000 );
}
/** One foot, 304.8 mm, 12 inch. */
static LENGTH< T, 1 > foot( void )
{
static LENGTH< T, 1 > foot( void ) { /* do not think this will ever need */
return T( INCH * 12 );
}
/** One inch, 25.4 mm, 1/12 feet. */
static LENGTH< T, 1 > inch( void )
{
static LENGTH< T, 1 > inch( void ) {
return T( INCH );
}
/** One mil (or thou), 0.001 inch . */
static LENGTH< T, 1 > mil( void )
{
static LENGTH< T, 1 > mil( void ) {
return T( INCH / 1000 );
}
};
/**
* Shortcut to get units of given length type
* shortcut to get units of given length type
*/
template < typename T, int D > class LENGTH_UNITS< LENGTH< T, D > >: public LENGTH_UNITS< T >
{
};
#endif /* def LENGTH_H_INCLUDED */
#endif

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@ -1,102 +0,0 @@
/**
* @file lengthpcb.h
* @brief Length definitions for PCBNEW.
*/
#ifndef LENGTHPCB_H_INCLUDED
#define LENGTHPCB_H_INCLUDED 1
#ifdef KICAD_NANOMETRE
#include "length.h"
#include "limited_int.h"
/* switched type! */
typedef LENGTH< LIMITED_INT< int >, 1 > LENGTH_PCB;
typedef LENGTH< double, 1 > LENGTH_PCB_DBL;
/* Transition macros. they are used for unit conversion between
* nanometre scale and old (0.1 mil) scale */
#define PCB_LEGACY_INCH_SCALE 10000
#define PCB_LEGACY_UNIT( T ) ( LENGTH_UNITS< T >::inch() / PCB_LEGACY_INCH_SCALE )
#define TO_LEGACY_LU( x ) \
( (int) ( LENGTH_PCB( x ) / PCB_LEGACY_UNIT( LENGTH_PCB ) ) )
#define TO_LEGACY_LU_DBL( x ) \
( (double) ( LENGTH_PCB_DBL( x ) / PCB_LEGACY_UNIT( LENGTH_PCB_DBL ) ) )
#ifdef __GNUC__
#define NOT_USED __attribute__ ((unused))
#else
#define NOT_USED
#endif
static LENGTH_PCB NOT_USED from_legacy_lu( int x )
{
return x * PCB_LEGACY_UNIT( LENGTH_PCB );
}
static LENGTH_PCB NOT_USED from_legacy_lu( long x )
{
return x * PCB_LEGACY_UNIT( LENGTH_PCB );
}
static LENGTH_PCB NOT_USED from_legacy_lu( double x )
{
return LENGTH_PCB( x * PCB_LEGACY_UNIT( LENGTH_PCB_DBL ) );
}
static LENGTH_PCB_DBL NOT_USED from_legacy_lu_dbl( double x )
{
return x * LENGTH_UNITS< LENGTH_PCB_DBL >::inch() / PCB_LEGACY_INCH_SCALE;
}
#undef NOT_USED
#define FROM_LEGACY_LU( x ) ( from_legacy_lu( x ) )
#define FROM_LEGACY_LU_DBL( x ) ( from_legacy_lu_dbl( x ) )
#define ZERO_LENGTH ( LENGTH_PCB::zero() )
/* SAVE FILE macros */
#define FM_LENSV "%lf" ///< format specifier for saving
#define ARG_LENSV( x ) TO_LEGACY_LU_DBL( x ) ///< argument for saving
#else
typedef int LENGTH_PCB;
typedef double LENGTH_PCB_DBL;
/* transition macro stubs */
#define TO_LEGACY_LU( x ) ( x )
#define TO_LEGACY_LU_DBL( x ) ( double( x ) )
#define FROM_LEGACY_LU( x ) ( x )
#define FROM_LEGACY_LU_DBL( x ) ( double( x ) )
#define ZERO_LENGTH 0
/* SAVE FILE macros */
/** @TODO: after transition process this could be wrapped in some class */
#define FM_LENSV "%d"
#define ARG_LENSV( x ) ( (int)( x ) )
#endif
/* LOAD FILE macros */
#define FM_LENLD "%lf" ///< scanf format macro for loading
#define ARG_LENLD_TYPE double ///< tmp variable for length read
// they're set to flat type to help the transition process
// there would be some period while program gain ability to
// load float data but not acually save it
#define LENGTH_LOAD_TMP( x ) ( FROM_LEGACY_LU( x ) ) ///< reads tmp value from above
#define LENGTH_LOAD_STR( s ) ( FROM_LEGACY_LU( atof( s ) ) ) ///< reads string
/* used fo loading/saving config */
#define LENGTH_MAX_CONFIG ( FROM_LEGACY_LU( 393700 ) )
#endif /* def LENGTHPCB_H_INCLUDED */

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@ -1,359 +0,0 @@
/**
* @file limited_int.h
* @brief Integer class catching overflows.
*/
/* sorry if it is not styled correctly, i'll work on it further */
#ifndef LIMITED_INT_H_INCLUDED
#define LIMITED_INT_H_INCLUDED 1
#include <limits>
#include <assert.h>
#include <math.h>
template < typename T = int > class LIMITED_INT {
private:
T m_Value;
public:
LIMITED_INT( void ) : m_Value() {
}
template<typename V> LIMITED_INT( const LIMITED_INT< V >& orig )
: m_Value( orig.m_Value )
{
assert(std::numeric_limits<T>::min() <= orig.m_Value);
assert(orig.m_Value <= std::numeric_limits<T>::max());
}
template<typename V> LIMITED_INT( const double v )
: m_Value( floor(v+0.5) )
{
assert(std::numeric_limits<T>::min() <= v);
assert(v <= std::numeric_limits<T>::max());
}
LIMITED_INT( T v ): m_Value( v )
{
}
operator T( void ) const
{
return m_Value;
}
operator double( void ) const
{
return ( double )m_Value;
}
LIMITED_INT<T> & operator = ( LIMITED_INT< T > src )
{
m_Value = src.m_Value;
return *this;
}
LIMITED_INT<T> & operator = ( T src )
{
m_Value = src;
return *this;
}
/*************************/
/* comparisons and tests */
/*************************/
bool operator ! (void) const {
return !m_Value;
}
bool operator == ( const LIMITED_INT< T > &y ) const
{
return m_Value == y.m_Value;
}
bool operator == ( const T y ) const
{
return m_Value == y;
}
friend bool operator == ( const T x, const LIMITED_INT< T > &y )
{
return x == y.m_Value;
}
bool operator != ( const LIMITED_INT<T> &y ) const
{
return m_Value != y.m_Value;
}
bool operator != ( const T y ) const
{
return m_Value != y;
}
friend bool operator != ( const T x, const LIMITED_INT< T > &y )
{
return x != y.m_Value;
}
bool operator < ( const LIMITED_INT< T > &y ) const
{
return m_Value < y.m_Value;
}
bool operator < ( const T y ) const
{
return m_Value < y;
}
friend bool operator < ( const T x, const LIMITED_INT< T > &y )
{
return x < y.m_Value;
}
bool operator >= ( const LIMITED_INT< T > &y ) const
{
return m_Value >= y.m_Value;
}
bool operator >= ( const T y ) const
{
return m_Value >= y;
}
friend bool operator >= ( const T x, const LIMITED_INT<T> &y )
{
return x >= y.m_Value;
}
bool operator > ( const LIMITED_INT< T > &y ) const
{
return m_Value > y.m_Value;
}
bool operator > ( const T y ) const
{
return m_Value > y;
}
friend bool operator > ( const T x, const LIMITED_INT< T > &y )
{
return x > y.m_Value;
}
bool operator <= ( const LIMITED_INT< T > &y ) const
{
return m_Value <= y.m_Value;
}
bool operator <= ( const T y ) const
{
return m_Value <= y;
}
friend bool operator <= ( const T x, const LIMITED_INT< T > &y )
{
return x <= y.m_Value;
}
/*************************/
/* basic arithmetic */
/*************************/
LIMITED_INT< T > operator + ( const LIMITED_INT< T > &y ) const
{
assert( !( 0 < m_Value ) || y.m_Value <= std::numeric_limits< T >::max() - m_Value );
assert( !( m_Value < 0 ) || std::numeric_limits< T >::min() - m_Value <= y.m_Value );
return m_Value + y.m_Value;
}
LIMITED_INT< T > operator + ( const T y ) const
{
return *this + LIMITED_INT< T >( y );
}
friend LIMITED_INT< T > operator + ( const T x, const LIMITED_INT< T > &y )
{
return LIMITED_INT< T >( x ) + y;
}
double operator + ( const double y ) const
{
return double( m_Value ) + y;
}
friend double operator + ( const double x, const LIMITED_INT< T > &y )
{
return x + double( y.m_Value );
}
LIMITED_INT< T > operator - ( void ) const
{
assert( -std::numeric_limits< T >::max() <= m_Value );
return -m_Value;
}
LIMITED_INT< T > operator - ( const LIMITED_INT< T > &y ) const
{
assert( !( 0 < m_Value ) || m_Value - std::numeric_limits< T >::max() <= y.m_Value );
assert( !( m_Value < 0 ) || y.m_Value <= m_Value - std::numeric_limits< T >::min() );
return m_Value - y.m_Value;
}
LIMITED_INT< T > operator - ( const T y ) const
{
return *this - LIMITED_INT< T >( y );
}
friend LIMITED_INT< T > operator - ( const T x, const LIMITED_INT< T > &y )
{
return LIMITED_INT< T >( x ) - y;
}
double operator - ( const double y ) const
{
return double( m_Value ) - y;
}
friend double operator - ( const double x, const LIMITED_INT< T > &y )
{
return x - double( y.m_Value );
}
LIMITED_INT< T > operator * ( const LIMITED_INT< T > &y ) const
{
assert( !( 0 < m_Value && 0 < y.m_Value )
|| y.m_Value <= std::numeric_limits<T>::max() / m_Value );
assert( !( 0 < m_Value && y.m_Value < 0 )
|| std::numeric_limits<T>::min() / m_Value <= y.m_Value );
assert( !( m_Value < 0 && 0 < y.m_Value )
|| std::numeric_limits<T>::min() / y.m_Value <= m_Value );
assert( !( m_Value < 0 && y.m_Value < 0 )
|| std::numeric_limits<T>::max() / m_Value <= y.m_Value );
return m_Value * y.m_Value;
}
LIMITED_INT<T> operator * ( const T y) const
{
return *this * LIMITED_INT< T >( y );
}
friend LIMITED_INT< T > operator *( const T x, const LIMITED_INT< T > &y )
{
return LIMITED_INT< T >( x ) * y;
}
double operator * ( const double y ) const
{
return double( m_Value ) * y;
}
friend double operator * ( const double x, const LIMITED_INT< T > &y )
{
return x * double( y.m_Value );
}
LIMITED_INT<T> operator / ( const LIMITED_INT<T> &y ) const
{
assert( !( -1 == y.m_Value )
|| -std::numeric_limits< T >::max() <= m_Value );
return m_Value / y.m_Value;
}
LIMITED_INT<T> operator / ( const T y ) const
{
return *this / LIMITED_INT<T>(y);
}
friend LIMITED_INT< T > operator / ( const T x, const LIMITED_INT< T > &y )
{
return LIMITED_INT< T >( x ) / y;
}
double operator / ( const double y ) const
{
return double( m_Value ) / y;
}
friend double operator / ( const double x, const LIMITED_INT< T > &y )
{
return x / double( y.m_Value );
}
LIMITED_INT<T> operator % ( const LIMITED_INT<T> &y ) const
{
return m_Value % y.m_Value;
}
LIMITED_INT<T> operator % ( const T y ) const
{
return *this % LIMITED_INT<T>(y);
}
friend LIMITED_INT< T > operator % ( const T x, const LIMITED_INT< T > &y )
{
return LIMITED_INT< T >( x ) % y;
}
LIMITED_INT< T >& operator += ( const LIMITED_INT< T > &y )
{
*this = *this + y;
return *this;
}
LIMITED_INT< T >& operator += ( const T y )
{
*this = *this + y;
return *this;
}
LIMITED_INT< T >& operator ++ ( void )
{
*this = *this + 1;
return *this;
}
LIMITED_INT< T >& operator -= ( const LIMITED_INT< T > &y )
{
*this = *this - y;
return *this;
}
LIMITED_INT< T >& operator -= ( const T y )
{
*this = *this - y;
return *this;
}
LIMITED_INT< T >& operator -- ( void )
{
*this = *this - 1;
return *this;
}
LIMITED_INT< T >& operator *= ( const LIMITED_INT< T > &y )
{
*this = *this * y;
return *this;
}
LIMITED_INT< T >& operator *= ( const T y )
{
*this = *this * y;
return *this;
}
LIMITED_INT< T >& operator /= ( const LIMITED_INT< T > &y )
{
*this = *this / y;
return *this;
}
LIMITED_INT< T >& operator /= ( const T y )
{
*this = *this / y;
return *this;
}
};
#endif /* def LIMITED_INT_H_INCLUDED*/

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@ -65,8 +65,7 @@ static inline const wxChar* GetChars( const wxString& s )
#endif
#ifndef ABS
#define ABS( y ) ( MAX( ( y ), ( -y ) ) )
// dirty trick: now this should work with LENGTH<> too
#define ABS( y ) ( (y) >= 0 ? (y) : ( -(y) ) )
#endif
#define NEGATE( x ) (x = -x)

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@ -10,7 +10,6 @@
#include "wx/fileconf.h"
#include <boost/ptr_container/ptr_vector.hpp>
#include "lengthpcb.h"
/** Type of parameter in the configuration file */
enum paramcfg_id {
@ -86,35 +85,6 @@ public: PARAM_CFG_INT( const wxChar* ident, int* ptparam,
virtual void SaveParam( wxConfigBase* aConfig );
};
/**
* Configuration parameter - Length PCB Class
*
*/
class PARAM_CFG_LENGTH_PCB : public PARAM_CFG_BASE
{
public:
LENGTH_PCB * m_Pt_param; ///< Pointer to the parameter value
LENGTH_PCB m_Min, m_Max; ///< Minimum and maximum values of the param type
LENGTH_PCB m_Default; ///< The default value of the parameter
public:
PARAM_CFG_LENGTH_PCB( const wxChar* ident, /// @TODO: remove hardcoded constants
LENGTH_PCB* ptparam,
LENGTH_PCB default_val = ZERO_LENGTH,
LENGTH_PCB min = -LENGTH_MAX_CONFIG,
LENGTH_PCB max = LENGTH_MAX_CONFIG,
const wxChar* group = NULL );
PARAM_CFG_LENGTH_PCB( bool Insetup,
const wxChar* ident,
LENGTH_PCB* ptparam,
LENGTH_PCB default_val = ZERO_LENGTH,
LENGTH_PCB min = -LENGTH_MAX_CONFIG,
LENGTH_PCB max = LENGTH_MAX_CONFIG,
const wxChar* group = NULL );
virtual void ReadParam( wxConfigBase* aConfig );
virtual void SaveParam( wxConfigBase* aConfig );
};
/**
* Configuration parameter - SetColor Class

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@ -1,162 +0,0 @@
/**
* @file vectorpcb.h
* @brief Planar vector definitions for PCBNEW.
*/
#ifndef VECTORPCB_H_INCLUDED
#define VECTORPCB_H_INCLUDED 1
/// @TODO: nice template and refiling for it
class VECTOR_PCB
{
public:
LENGTH_PCB data[2];
/** A vector from pair of coords. Constructor is avoided in favor to POD-like object.
*/
static VECTOR_PCB fromXY( LENGTH_PCB x, LENGTH_PCB y )
{
VECTOR_PCB z = { { x, y } };
return z;
}
/** @defgroup vector-elements Access individual attributes
* @{
*/
LENGTH_PCB &operator[]( int i )
{
return data[i];
}
const LENGTH_PCB &operator[]( int i ) const
{
return data[i];
}
/** @} */
/** @defgroup vector-cartesian Access to cartesian coordinates
* Definitions follow the agreement:
* - methods are named exactly as attributes, thus setter and getter have same name;
* - all methods (setters and getterrs) return actual attribute value;
* - method without argument gets the attribute;
* - method with argument sets it to argument value.
* These methods different than operator[]
* because vector actually may have any storage layout,
* so cartesian coords may be calculated rahter than actually stored.
* E. g. homogeneous coordinates is likely to be used in perspective.
* @{
*/
const LENGTH_PCB x() const
{
return data[0];
}
const LENGTH_PCB x( LENGTH_PCB nx )
{
return data[0] = nx;
}
const LENGTH_PCB y() const
{
return data[1];
}
const LENGTH_PCB y( LENGTH_PCB ny )
{
return data[1] = ny;
}
/** @} */
/** @defgroup vector-comparisons Compare vectors
* @{
*/
bool operator == ( const VECTOR_PCB &b ) const
{
return data[0] == b.data[0] && data[1] == b.data[1];
}
bool operator != ( const VECTOR_PCB &b ) const
{
return !(*this == b);
}
/** @} */
/** @defgroup vector-arithmetic Arithmetic operations on vectors
* @{
*/
VECTOR_PCB & operator -= ( const VECTOR_PCB &b )
{
data[0] -= b.data[0];
data[1] -= b.data[1];
return *this;
}
VECTOR_PCB operator - ( const VECTOR_PCB &b ) const
{
VECTOR_PCB z = *this;
z -= b;
return z;
}
VECTOR_PCB & operator += ( const VECTOR_PCB &b )
{
data[0] += b.data[0];
data[1] += b.data[1];
return *this;
}
VECTOR_PCB operator + ( VECTOR_PCB b ) const
{
VECTOR_PCB z = *this;
z += b;
return z;
}
VECTOR_PCB & operator *= ( int b )
{
data[0] *= b;
data[1] *= b;
return *this;
}
VECTOR_PCB operator * ( int b ) const
{
VECTOR_PCB z = *this;
z *= b;
return z;
}
VECTOR_PCB & operator /= ( int b )
{
data[0] /= b;
data[1] /= b;
return *this;
}
VECTOR_PCB operator / ( int b ) const
{
VECTOR_PCB z = *this;
z /= b;
return z;
}
/** @} */
};
#define TO_LEGACY_LU_WXP( p ) ( wxPoint( \
TO_LEGACY_LU( ( p )[0] ), \
TO_LEGACY_LU( ( p )[1] ) ) )
#define TO_LEGACY_LU_WXS( p ) ( wxSize( \
TO_LEGACY_LU( ( p )[0] ), \
TO_LEGACY_LU( ( p )[1] ) ) )
#define FROM_LEGACY_LU_VEC( p ) ( VECTOR_PCB::fromXY( \
FROM_LEGACY_LU( ( p ).x ), \
FROM_LEGACY_LU( ( p ).y ) ) )
#endif /* def VECTORPCB_H_INCLUDED */

View File

@ -460,7 +460,7 @@ void MoveMarkedItems( MODULE* module, wxPoint offset )
continue;
pad->SetPosition( pad->GetPosition() + offset );
pad->m_Pos0 += FROM_LEGACY_LU_VEC( offset );
pad->m_Pos0 += offset;
}
item = module->m_Drawings;
@ -538,7 +538,7 @@ void MirrorMarkedItems( MODULE* module, wxPoint offset )
{
#define SETMIRROR( z ) (z) -= offset.x; (z) = -(z); (z) += offset.x;
EDA_ITEM* item;
wxPoint tmp;
if( module == NULL )
return;
@ -549,12 +549,10 @@ void MirrorMarkedItems( MODULE* module, wxPoint offset )
if( pad->m_Selected == 0 )
continue;
tmp = pad->GetPosition();
SETMIRROR( tmp.x );
pad->SetPosition( tmp );
pad->m_Pos0.x( FROM_LEGACY_LU( pad->GetPosition().x ) );
pad->m_Offset.x( -pad->m_Offset.x() );
pad->m_DeltaSize.x( -pad->m_DeltaSize.x() );
SETMIRROR( pad->GetPosition().x );
pad->m_Pos0.x = pad->GetPosition().x;
NEGATE( pad->m_Offset.x );
NEGATE( pad->m_DeltaSize.x );
pad->m_Orient = 1800 - pad->m_Orient;
NORMALIZE_ANGLE_POS( pad->m_Orient );
}
@ -580,9 +578,7 @@ void MirrorMarkedItems( MODULE* module, wxPoint offset )
break;
case PCB_MODULE_TEXT_T:
tmp = ( (TEXTE_MODULE*) item )->GetPosition();
SETMIRROR( tmp.x );
( (TEXTE_MODULE*) item )->SetPosition( tmp );
SETMIRROR( ( (TEXTE_MODULE*) item )->GetPosition().x );
( (TEXTE_MODULE*) item )->m_Pos0.x = ( (TEXTE_MODULE*) item )->GetPosition().x;
break;
@ -612,10 +608,9 @@ void RotateMarkedItems( MODULE* module, wxPoint offset )
{
if( pad->m_Selected == 0 )
continue;
wxPoint pos = pad->GetPosition();
ROTATE( pos );
pad->SetPosition( pos );
pad->m_Pos0 = FROM_LEGACY_LU_VEC( pad->GetPosition() );
ROTATE( pad->GetPosition() );
pad->m_Pos0 = pad->GetPosition();
pad->m_Orient += 900;
NORMALIZE_ANGLE_POS( pad->m_Orient );
}
@ -637,11 +632,7 @@ void RotateMarkedItems( MODULE* module, wxPoint offset )
break;
case PCB_MODULE_TEXT_T:
{
wxPoint pos = ( (TEXTE_MODULE*) item )->m_Pos;
ROTATE( pos );
( (TEXTE_MODULE*) item )->m_Pos = pos;
}
ROTATE( ( (TEXTE_MODULE*) item )->GetPosition() );
( (TEXTE_MODULE*) item )->m_Pos0 = ( (TEXTE_MODULE*) item )->GetPosition();
( (TEXTE_MODULE*) item )->m_Orient += 900;
break;

View File

@ -328,13 +328,13 @@ void D_PAD:: TransformShapeWithClearanceToPolygon( std:: vector < CPolyPt>& aCor
{
wxPoint corner_position;
int ii, angle;
int dx = TO_LEGACY_LU( m_Size.x() / 2 ) + aClearanceValue;
int dy = TO_LEGACY_LU( m_Size.y() / 2 ) + aClearanceValue;
int dx = (m_Size.x / 2) + aClearanceValue;
int dy = (m_Size.y / 2) + aClearanceValue;
int delta = 3600 / aCircleToSegmentsCount; // rot angle in 0.1 degree
wxPoint PadShapePos = ReturnShapePos(); /* Note: for pad having a shape offset,
* the pad position is NOT the shape position */
wxSize psize = TO_LEGACY_LU_WXS( m_Size ); /* pad size unsed in RECT and TRAPEZOIDAL pads
wxSize psize = m_Size; /* pad size unsed in RECT and TRAPEZOIDAL pads
* trapezoidal pads are considered as rect
* pad shape having they boudary box size */
@ -437,8 +437,8 @@ void D_PAD:: TransformShapeWithClearanceToPolygon( std:: vector < CPolyPt>& aCor
default:
case PAD_TRAPEZOID:
psize.x += TO_LEGACY_LU( abs( m_DeltaSize.y() ) );
psize.y += TO_LEGACY_LU( abs( m_DeltaSize.x() ) );
psize.x += ABS( m_DeltaSize.y );
psize.y += ABS( m_DeltaSize.x );
// fall through
case PAD_RECT:
@ -572,8 +572,8 @@ void CreateThermalReliefPadPolygon( std::vector<CPolyPt>& aCornerBuffer,
wxPoint PadShapePos = aPad.ReturnShapePos(); /* Note: for pad having a shape offset,
* the pad position is NOT the shape position */
wxSize copper_thickness;
int dx = TO_LEGACY_LU( aPad.m_Size.x() / 2 );
int dy = TO_LEGACY_LU( aPad.m_Size.y() / 2 );
int dx = aPad.m_Size.x / 2;
int dy = aPad.m_Size.y / 2;
int delta = 3600 / aCircleToSegmentsCount; // rot angle in 0.1 degree
@ -684,8 +684,8 @@ void CreateThermalReliefPadPolygon( std::vector<CPolyPt>& aCornerBuffer,
// Oval pad support along the lines of round and rectangular pads
std::vector <wxPoint> corners_buffer; // Polygon buffer as vector
int dx = TO_LEGACY_LU( aPad.m_Size.x() / 2 ) + aThermalGap; // Cutout radius x
int dy = TO_LEGACY_LU( aPad.m_Size.y() / 2 ) + aThermalGap; // Cutout radius y
int dx = (aPad.m_Size.x / 2) + aThermalGap; // Cutout radius x
int dy = (aPad.m_Size.y / 2) + aThermalGap; // Cutout radius y
wxPoint shape_offset;
@ -839,8 +839,8 @@ void CreateThermalReliefPadPolygon( std::vector<CPolyPt>& aCornerBuffer,
std::vector <wxPoint> corners_buffer; // Polygon buffer as vector
int dx = TO_LEGACY_LU( aPad.m_Size.x() / 2 ) + aThermalGap; // Cutout radius x
int dy = TO_LEGACY_LU( aPad.m_Size.y() / 2 ) + aThermalGap; // Cutout radius y
int dx = (aPad.m_Size.x / 2) + aThermalGap; // Cutout radius x
int dy = (aPad.m_Size.y / 2) + aThermalGap; // Cutout radius y
// The first point of polygon buffer is left lower corner, second the crosspoint of
// thermal spoke sides, the third is upper right corner and the rest are rounding
@ -861,7 +861,7 @@ void CreateThermalReliefPadPolygon( std::vector<CPolyPt>& aCornerBuffer,
RotatePoint( &corner_position, 1800 / aCircleToSegmentsCount ); // Start at half increment offset
angle_pg = i * delta;
RotatePoint( &corner_position, angle_pg ); // Rounding vector rotation
corner_position -= TO_LEGACY_LU_WXS( aPad.m_Size / 2 ); // Rounding vector + Pad corner offset
corner_position -= aPad.m_Size / 2; // Rounding vector + Pad corner offset
corners_buffer.push_back( wxPoint( corner_position.x, corner_position.y ) );
}

View File

@ -20,8 +20,6 @@
#include "class_zone.h"
#include "class_marker_pcb.h"
#include "lengthpcb.h"
/* This is an odd place for this, but CvPcb won't link if it is
* in class_board_item.cpp like I first tried it.
@ -239,22 +237,21 @@ bool BOARD::SetCurrentNetClass( const wxString& aNetClassName )
if( m_TrackWidthList.size() == 0 )
{
lists_sizes_modified = true;
m_TrackWidthList.push_back( ZERO_LENGTH );
m_TrackWidthList.push_back( 0 );
}
/* note the m_ViasDimensionsList[0] and m_TrackWidthList[0] values
* are always the Netclass values
*/
if( TO_LEGACY_LU( m_ViasDimensionsList[0].m_Diameter ) != netClass->GetViaDiameter() )
if( m_ViasDimensionsList[0].m_Diameter != netClass->GetViaDiameter() )
lists_sizes_modified = true;
m_ViasDimensionsList[0].m_Diameter = FROM_LEGACY_LU( netClass->GetViaDiameter() );
m_ViasDimensionsList[0].m_Diameter = netClass->GetViaDiameter();
/* NOTE: equality comparison on real values is bad... */
if( TO_LEGACY_LU( m_TrackWidthList[0] ) != netClass->GetTrackWidth() )
if( m_TrackWidthList[0] != netClass->GetTrackWidth() )
lists_sizes_modified = true;
m_TrackWidthList[0] = FROM_LEGACY_LU( netClass->GetTrackWidth() );
m_TrackWidthList[0] = netClass->GetTrackWidth();
if( m_ViaSizeSelector >= m_ViasDimensionsList.size() )
m_ViaSizeSelector = m_ViasDimensionsList.size();
@ -647,13 +644,13 @@ bool BOARD::IsModuleLayerVisible( int layer )
const wxPoint BOARD::GetPosition() const
wxPoint& BOARD::GetPosition()
{
return wxPoint ( 0, 0 );
static wxPoint dummy( 0, 0 );
return dummy; // a reference
}
void BOARD::SetPosition( const wxPoint& pos ) {
}
void BOARD::Add( BOARD_ITEM* aBoardItem, int aControl )
{
@ -1668,7 +1665,7 @@ D_PAD* BOARD::GetPadFast( const wxPoint& aPosition, int aLayerMask )
{
D_PAD* pad = m_NetInfo->GetPad(i);
if( TO_LEGACY_LU_WXP( pad->m_Pos ) != aPosition )
if( pad->m_Pos != aPosition )
continue;
/* Pad found, it must be on the correct layer */
@ -1699,7 +1696,7 @@ D_PAD* BOARD::GetPad( std::vector<D_PAD*>& aPadList, const wxPoint& aPosition, i
D_PAD* pad = aPadList[idx];
if( TO_LEGACY_LU_WXP( pad->m_Pos ) == aPosition ) // candidate found
if( pad->m_Pos == aPosition ) // candidate found
{
// The pad must match the layer mask:
if( (aLayerMask & pad->m_layerMask) != 0 )
@ -1712,7 +1709,7 @@ D_PAD* BOARD::GetPad( std::vector<D_PAD*>& aPadList, const wxPoint& aPosition, i
for( int ii = idx+1; ii <= idxmax; ii++ )
{
pad = aPadList[ii];
if( TO_LEGACY_LU_WXP( pad->m_Pos ) != aPosition )
if( pad->m_Pos != aPosition )
break;
if( (aLayerMask & pad->m_layerMask) != 0 )
return pad;
@ -1721,7 +1718,7 @@ D_PAD* BOARD::GetPad( std::vector<D_PAD*>& aPadList, const wxPoint& aPosition, i
for( int ii = idx-1 ;ii >=0; ii-- )
{
pad = aPadList[ii];
if( TO_LEGACY_LU_WXP( pad->m_Pos ) != aPosition )
if( pad->m_Pos != aPosition )
break;
if( (aLayerMask & pad->m_layerMask) != 0 )
return pad;
@ -1731,9 +1728,9 @@ D_PAD* BOARD::GetPad( std::vector<D_PAD*>& aPadList, const wxPoint& aPosition, i
return 0;
}
if( TO_LEGACY_LU( pad->m_Pos.x() ) == aPosition.x ) // Must search considering Y coordinate
if( pad->m_Pos.x == aPosition.x ) // Must search considering Y coordinate
{
if( TO_LEGACY_LU( pad->m_Pos.y() ) < aPosition.y ) // Must search after this item
if(pad->m_Pos.y < aPosition.y) // Must search after this item
{
idx += delta;
if( idx > idxmax )
@ -1746,7 +1743,7 @@ D_PAD* BOARD::GetPad( std::vector<D_PAD*>& aPadList, const wxPoint& aPosition, i
idx = 0;
}
}
else if( TO_LEGACY_LU( pad->m_Pos.x() ) < aPosition.x ) // Must search after this item
else if( pad->m_Pos.x < aPosition.x ) // Must search after this item
{
idx += delta;
if( idx > idxmax )
@ -1770,9 +1767,9 @@ D_PAD* BOARD::GetPad( std::vector<D_PAD*>& aPadList, const wxPoint& aPosition, i
*/
static bool sortPadsByXthenYCoord( D_PAD* const & ref, D_PAD* const & comp )
{
if( ref->m_Pos.x() == comp->m_Pos.x() )
return ref->m_Pos.y() < comp->m_Pos.y();
return ref->m_Pos.x() < comp->m_Pos.x();
if( ref->m_Pos.x == comp->m_Pos.x )
return ref->m_Pos.y < comp->m_Pos.y;
return ref->m_Pos.x < comp->m_Pos.x;
}
@ -2003,13 +2000,13 @@ TRACK* BOARD::MarkTrace( TRACK* aTrace,
if( track->GetState( BEGIN_ONPAD ) )
{
D_PAD * pad = (D_PAD *) track->start;
lenDie += TO_LEGACY_LU_DBL( pad->m_LengthDie );
lenDie += (double) pad->m_LengthDie;
}
if( track->GetState( END_ONPAD ) )
{
D_PAD * pad = (D_PAD *) track->end;
lenDie += TO_LEGACY_LU_DBL( pad->m_LengthDie );
lenDie += (double) pad->m_LengthDie;
}
}
}
@ -2033,13 +2030,13 @@ TRACK* BOARD::MarkTrace( TRACK* aTrace,
if( track->GetState( BEGIN_ONPAD ) )
{
D_PAD * pad = (D_PAD *) track->start;
lenDie += TO_LEGACY_LU_DBL( pad->m_LengthDie );
lenDie += (double) pad->m_LengthDie;
}
if( track->GetState( END_ONPAD ) )
{
D_PAD * pad = (D_PAD *) track->end;
lenDie += TO_LEGACY_LU_DBL( pad->m_LengthDie );
lenDie += (double) pad->m_LengthDie;
}
}
}

View File

@ -9,14 +9,12 @@
#include "dlist.h"
#include "lengthpcb.h"
#include "layers_id_colors_and_visibility.h"
#include "class_netinfo.h"
#include "class_pad.h"
#include "class_colors_design_settings.h"
#include "class_board_design_settings.h"
#include "class_via_dimension.h"
class PCB_BASE_FRAME;
class PCB_EDIT_FRAME;
@ -82,6 +80,35 @@ struct LAYER
};
/** a small helper class to handle a stock of specific vias diameter and drill pair
* in the BOARD class
*/
class VIA_DIMENSION
{
public:
int m_Diameter; // <= 0 means use Netclass via diameter
int m_Drill; // <= 0 means use Netclass via drill
VIA_DIMENSION()
{
m_Diameter = 0; m_Drill = 0;
}
bool operator ==( const VIA_DIMENSION& other ) const
{
return (m_Diameter == other.m_Diameter) && (m_Drill == other.m_Drill);
}
bool operator <( const VIA_DIMENSION& other ) const
{
if( m_Diameter != other.m_Diameter )
return m_Diameter < other.m_Diameter;
return m_Drill < other.m_Drill;
}
};
// Helper class to handle high light nets
@ -179,7 +206,7 @@ public:
// The first value is the current netclass via size
// tracks widths (max count = HISTORY_MAX_COUNT)
// The first value is the current netclass track width
std::vector <LENGTH_PCB> m_TrackWidthList;
std::vector <int> m_TrackWidthList;
/// Index for m_ViaSizeList to select the value.
/// 0 is the index selection of the default value Netclass
@ -226,9 +253,7 @@ public:
* is a dummy.
* @return const wxPoint& of (0,0)
*/
const wxPoint GetPosition() const;
void SetPosition( const wxPoint& pos );
wxPoint& GetPosition();
/**
* Function Add
@ -743,7 +768,7 @@ public:
*/
int GetCurrentTrackWidth()
{
return TO_LEGACY_LU( m_TrackWidthList[m_TrackWidthSelector] );
return m_TrackWidthList[m_TrackWidthSelector];
}
@ -755,7 +780,7 @@ public:
*/
int GetCurrentViaSize()
{
return TO_LEGACY_LU( m_ViasDimensionsList[m_ViaSizeSelector].m_Diameter );
return m_ViasDimensionsList[m_ViaSizeSelector].m_Diameter;
}
@ -767,8 +792,8 @@ public:
*/
int GetCurrentViaDrill()
{
int drill = TO_LEGACY_LU( m_ViasDimensionsList[m_ViaSizeSelector].m_Drill );
return drill > 0 ? drill : -1;
return m_ViasDimensionsList[m_ViaSizeSelector].m_Drill > 0 ?
m_ViasDimensionsList[m_ViaSizeSelector].m_Drill : -1;
}

View File

@ -32,13 +32,11 @@ BOARD_DESIGN_SETTINGS::BOARD_DESIGN_SETTINGS()
m_EdgeSegmentWidth = 100; // current graphic line width (EDGE layer only)
m_PcbTextWidth = 100; // current Pcb (not module) Text width
m_PcbTextSize = wxSize( 500, 500 ); // current Pcb (not module) Text size
m_TrackMinWidth = FROM_LEGACY_LU( 80 ); // track min value for width ((min copper size value
m_MinVia = VIA_DIMENSION( FROM_LEGACY_LU( 350 ), FROM_LEGACY_LU( 200 ) );
m_MinMicroVia = VIA_DIMENSION( FROM_LEGACY_LU( 200 ), FROM_LEGACY_LU( 50 ) );
//m_ViasMinSize = FROM_LEGACY_LU( 350 ); // vias (not micro vias) min diameter
//m_ViasMinDrill = FROM_LEGACY_LU( 200 ); // vias (not micro vias) min drill diameter
//m_MicroViasMinSize = FROM_LEGACY_LU( 200 ); // micro vias (not vias) min diameter
//m_MicroViasMinDrill = FROM_LEGACY_LU( 50 ); // micro vias (not vias) min drill diameter
m_TrackMinWidth = 80; // track min value for width ((min copper size value
m_ViasMinSize = 350; // vias (not micro vias) min diameter
m_ViasMinDrill = 200; // vias (not micro vias) min drill diameter
m_MicroViasMinSize = 200; // micro vias (not vias) min diameter
m_MicroViasMinDrill = 50; // micro vias (not vias) min drill diameter
// Global mask margins:
m_SolderMaskMargin = 150; // Solder mask margin

View File

@ -37,15 +37,11 @@ public:
DIMENSION( BOARD_ITEM* aParent );
~DIMENSION();
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return m_Pos;
}
void SetPosition( const wxPoint& pos ) {
m_Pos = pos;
}
/**
* Function SetLayer
* sets the layer this item is on.

View File

@ -44,17 +44,13 @@ public:
* Function GetPosition
* returns the position of this object.
* Required by pure virtual BOARD_ITEM::GetPosition()
* @return const wxPoint - The position of this object.
* @return const wxPoint& - The position of this object.
*/
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return m_Start;
}
void SetPosition( const wxPoint& pos ) {
m_Start = pos;
}
/**
* Function GetStart
* returns the starting point of the graphic

View File

@ -81,14 +81,11 @@ public:
* Function GetPosition
* returns the position of this MARKER_PCB.
*/
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return m_Pos;
return (wxPoint&) m_Pos;
}
void SetPosition( const wxPoint& pos ) {
m_Pos = pos;
}
/**
* Function HitTest

View File

@ -30,14 +30,11 @@ public:
PCB_TARGET* Next() const { return (PCB_TARGET*) Pnext; }
PCB_TARGET* Back() const { return (PCB_TARGET*) Pnext; }
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return m_Pos;
}
void SetPosition( const wxPoint& pos ) {
m_Pos = pos;
}
/**
* Function Move

View File

@ -534,10 +534,9 @@ int MODULE::ReadDescr( LINE_READER* aReader )
{
D_PAD* pad = new D_PAD( this );
pad->ReadDescr( aReader );
wxPoint pos = TO_LEGACY_LU_WXP( pad->m_Pos );
RotatePoint( &pos, m_Orient );
pad->m_Pos = FROM_LEGACY_LU_VEC( pos );
pad->m_Pos += FROM_LEGACY_LU_VEC( m_Pos );
RotatePoint( &pad->m_Pos, m_Orient );
pad->m_Pos.x += m_Pos.x;
pad->m_Pos.y += m_Pos.y;
m_Pads.PushBack( pad );
continue;

View File

@ -135,9 +135,9 @@ public:
* Function GetPosition
* returns the position of this object.
* Required by pure virtual BOARD_ITEM::GetPosition()
* @return const wxPoint - The position of this object.
* @return const wxPoint& - The position of this object.
*/
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return m_Pos;
}

View File

@ -183,24 +183,12 @@ void MODULE::Flip(const wxPoint& aCentre )
for( ; pt_pad != NULL; pt_pad = pt_pad->Next() )
{
LENGTH_PCB tmpy = pt_pad->m_Pos.y();
tmpy -= FROM_LEGACY_LU( m_Pos.y );
tmpy = -tmpy;
tmpy += FROM_LEGACY_LU( m_Pos.y );
pt_pad->m_Pos.y( tmpy );
tmpy = pt_pad->m_Pos0.y();
NEGATE( tmpy );
pt_pad->m_Pos0.y( tmpy );
tmpy = pt_pad->m_Offset.y();
NEGATE( tmpy );
pt_pad->m_Offset.y( tmpy );
pt_pad->m_DeltaSize.y();
NEGATE( tmpy );
pt_pad->m_DeltaSize.y( tmpy );
pt_pad->m_Pos.y -= m_Pos.y;
pt_pad->m_Pos.y = -pt_pad->m_Pos.y;
pt_pad->m_Pos.y += m_Pos.y;
NEGATE( pt_pad->m_Pos0.y );
NEGATE( pt_pad->m_Offset.y );
NEGATE( pt_pad->m_DeltaSize.y );
NEGATE_AND_NORMALIZE_ANGLE_POS( pt_pad->m_Orient );
/* flip pads layers*/
@ -320,7 +308,7 @@ void MODULE::SetPosition( const wxPoint& newpos )
for( D_PAD* pad = m_Pads; pad; pad = pad->Next() )
{
pad->m_Pos += FROM_LEGACY_LU_VEC( delta );
pad->m_Pos += delta;
}
EDA_ITEM* PtStruct = m_Drawings;
@ -364,15 +352,15 @@ void MODULE::SetOrientation( int newangle )
for( D_PAD* pad = m_Pads; pad; pad = pad->Next() )
{
px = TO_LEGACY_LU( pad->m_Pos0.x() );
py = TO_LEGACY_LU( pad->m_Pos0.y() );
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, m_Orient );
pad->m_Pos.x( FROM_LEGACY_LU( m_Pos.x + px ) );
pad->m_Pos.y( FROM_LEGACY_LU( m_Pos.y + py ) );
pad->m_Pos.x = m_Pos.x + px;
pad->m_Pos.y = m_Pos.y + py;
}
/* Update of the reference and value. */

View File

@ -42,8 +42,8 @@ extern BOARD_DESIGN_SETTINGS boardDesignSettings;
const wxString NETCLASS::Default = wxT("Default");
// Initial values for netclass initialization
int NETCLASS::DEFAULT_CLEARANCE = 100; // track to track and track to pads clearance
int NETCLASS::DEFAULT_VIA_DRILL = 250; // default via drill (TODO: should be gone on refactoring)
int NETCLASS::DEFAULT_UVIA_DRILL = 50; // micro via drill (TODO: --"--)
int NETCLASS::DEFAULT_VIA_DRILL = 250; // default via drill
int NETCLASS::DEFAULT_UVIA_DRILL = 50; // micro via drill
NETCLASS::NETCLASS( BOARD* aParent, const wxString& aName, const NETCLASS* initialParameters ) :
@ -55,40 +55,37 @@ NETCLASS::NETCLASS( BOARD* aParent, const wxString& aName, const NETCLASS* initi
SetParams( initialParameters );
}
void NETCLASS::SetParams( const NETCLASS* defaults )
{
if( defaults )
{
SetClearance( defaults->GetClearance() );
SetTrackWidth( defaults->GetTrackWidth() );
Via( defaults->Via() );
MicroVia( defaults->MicroVia() );
SetViaDiameter( defaults->GetViaDiameter() );
SetViaDrill( defaults->GetViaDrill() );
SetuViaDiameter( defaults->GetuViaDiameter() );
SetuViaDrill( defaults->GetuViaDrill() );
}
else
{
SetToDefault();
}
}
void NETCLASS::SetToDefault()
{
// We should use m_Parent->GetBoardDesignSettings()
{ // We should use m_Parent->GetBoardDesignSettings()
// But when the NETCLASSES constructor is called
// (it call NETCLASS constructor), the m_Parent constructor (see BOARD::BOARD)
// is not run, and GetBoardDesignSettings() return a bad value
// TODO: see how change that.
const BOARD_DESIGN_SETTINGS& g = boardDesignSettings;
TrackWidth( g.m_TrackMinWidth );
//SetViaDrill( TO_LEGACY_LU( g.m_ViasMinDrill ) ); // was DEFAULT_VIA_DRILL
//SetuViaDrill( TO_LEGACY_LU( g.m_MicroViasMinDrill ) ); // DEFAULT_UVIA_DRILL
Via( g.m_MinVia );
MicroVia( g.m_MinMicroVia );
SetTrackWidth( g.m_TrackMinWidth );
SetViaDiameter( g.m_ViasMinSize );
SetuViaDiameter(g.m_MicroViasMinSize );
// Use default values for next parameters:
Clearance( FROM_LEGACY_LU( DEFAULT_CLEARANCE ) );
SetClearance( DEFAULT_CLEARANCE );
SetViaDrill( DEFAULT_VIA_DRILL );
SetuViaDrill( DEFAULT_UVIA_DRILL );
}
}
NETCLASS::~NETCLASS()
{
}
@ -297,14 +294,14 @@ bool NETCLASS::Save( FILE* aFile ) const
// Write parameters
fprintf( aFile, "Clearance %f\n", TO_LEGACY_LU_DBL( Clearance() ) );
fprintf( aFile, "TrackWidth %f\n", TO_LEGACY_LU_DBL( TrackWidth() ) );
fprintf( aFile, "Clearance %d\n", GetClearance() );
fprintf( aFile, "TrackWidth %d\n", GetTrackWidth() );
fprintf( aFile, "ViaDia %f\n", TO_LEGACY_LU_DBL( Via().m_Diameter ) );
fprintf( aFile, "ViaDrill %f\n", TO_LEGACY_LU_DBL( Via().m_Drill ) );
fprintf( aFile, "ViaDia %d\n", GetViaDiameter() );
fprintf( aFile, "ViaDrill %d\n", GetViaDrill() );
fprintf( aFile, "uViaDia %f\n", TO_LEGACY_LU_DBL( MicroVia().m_Diameter ) );
fprintf( aFile, "uViaDrill %f\n", TO_LEGACY_LU_DBL( MicroVia().m_Drill ) );
fprintf( aFile, "uViaDia %d\n", GetuViaDiameter() );
fprintf( aFile, "uViaDrill %d\n", GetuViaDrill() );
// Write members:
for( const_iterator i = begin(); i!=end(); ++i )
@ -345,8 +342,6 @@ bool NETCLASS::ReadDescr( LINE_READER* aReader )
char* Line;
char Buffer[1024];
wxString netname;
VIA_DIMENSION via = Via();
VIA_DIMENSION uvia = MicroVia();
while( aReader->ReadLine() )
{
@ -367,37 +362,33 @@ bool NETCLASS::ReadDescr( LINE_READER* aReader )
if( strnicmp( Line, "Clearance", 9 ) == 0 )
{
Clearance( FROM_LEGACY_LU( atof( Line + 9 ) ) );
SetClearance( atoi( Line + 9 ) );
continue;
}
if( strnicmp( Line, "TrackWidth", 10 ) == 0 )
{
TrackWidth( FROM_LEGACY_LU( atof( Line + 10 ) ) );
SetTrackWidth( atoi( Line + 10 ) );
continue;
}
if( strnicmp( Line, "ViaDia", 6 ) == 0 )
{
via.m_Diameter = FROM_LEGACY_LU( atof( Line + 6 ) );
Via(via);
SetViaDiameter( atoi( Line + 6 ) );
continue;
}
if( strnicmp( Line, "ViaDrill", 8 ) == 0 )
{
via.m_Drill = FROM_LEGACY_LU( atof( Line + 8 ) );
Via(via);
SetViaDrill( atoi( Line + 8 ) );
continue;
}
if( strnicmp( Line, "uViaDia", 7 ) == 0 )
{
uvia.m_Diameter = FROM_LEGACY_LU( atof( Line + 7 ) );
MicroVia(uvia);
SetuViaDiameter( atoi( Line + 7 ) );
continue;
}
if( strnicmp( Line, "uViaDrill", 9 ) == 0 )
{
uvia.m_Drill = FROM_LEGACY_LU( atof( Line + 9 ) );
MicroVia(uvia);
SetuViaDrill( atoi( Line + 9 ) );
continue;
}
@ -421,27 +412,27 @@ bool NETCLASS::ReadDescr( LINE_READER* aReader )
int NETCLASS::GetTrackMinWidth() const
{
return TO_LEGACY_LU( m_Parent->GetBoardDesignSettings()->m_TrackMinWidth );
return m_Parent->GetBoardDesignSettings()->m_TrackMinWidth;
}
int NETCLASS::GetViaMinDiameter() const
{
return TO_LEGACY_LU( m_Parent->GetBoardDesignSettings()->m_MinVia.m_Diameter );
return m_Parent->GetBoardDesignSettings()->m_ViasMinSize;
}
int NETCLASS::GetViaMinDrill() const
{
return TO_LEGACY_LU( m_Parent->GetBoardDesignSettings()->m_MinVia.m_Drill );
return m_Parent->GetBoardDesignSettings()->m_ViasMinDrill;
}
int NETCLASS::GetuViaMinDiameter() const
{
return TO_LEGACY_LU( m_Parent->GetBoardDesignSettings()->m_MinMicroVia.m_Diameter );
return m_Parent->GetBoardDesignSettings()->m_MicroViasMinSize;
}
int NETCLASS::GetuViaMinDrill() const
{
return TO_LEGACY_LU( m_Parent->GetBoardDesignSettings()->m_MinMicroVia.m_Drill );
return m_Parent->GetBoardDesignSettings()->m_MicroViasMinDrill;
}

View File

@ -36,9 +36,6 @@
#include <wx/string.h>
#include "lengthpcb.h"
#include "class_via_dimension.h"
class LINE_READER;
class BOARD;
@ -70,12 +67,14 @@ protected:
/// The units on these parameters is 1/10000 of an inch, see define #PCB_INTERNAL_UNIT
LENGTH_PCB m_Clearance; ///< clearance when routing
int m_Clearance; ///< clearance when routing
LENGTH_PCB m_TrackWidth; ///< track width used to route NETs in this NETCLASS
int m_TrackWidth; ///< track width used to route NETs in this NETCLASS
int m_ViaDia; ///< via diameter
int m_ViaDrill; ///< via drill hole diameter
VIA_DIMENSION m_Via; ///< Specific normal via
VIA_DIMENSION m_uVia; ///< Specific microvia
int m_uViaDia; ///< microvia diameter
int m_uViaDrill; ///< microvia drill hole diameter
public:
@ -172,40 +171,29 @@ public:
const wxString& GetDescription() const { return m_Description; }
void SetDescription( const wxString& aDesc ) { m_Description = aDesc; }
int GetClearance() const { return TO_LEGACY_LU( m_Clearance ); }
void SetClearance( int aClearance ) { m_Clearance = FROM_LEGACY_LU( aClearance ); }
int GetClearance() const { return m_Clearance; }
void SetClearance( int aClearance ) { m_Clearance = aClearance; }
int GetTrackWidth() const { return TO_LEGACY_LU( m_TrackWidth ); }
int GetTrackWidth() const { return m_TrackWidth; }
int GetTrackMinWidth() const;
void SetTrackWidth( int aWidth ) { m_TrackWidth = FROM_LEGACY_LU( aWidth ); }
void SetTrackWidth( int aWidth ) { m_TrackWidth = aWidth; }
int GetViaDiameter() const { return TO_LEGACY_LU( m_Via.m_Diameter ); }
int GetViaDiameter() const { return m_ViaDia; }
int GetViaMinDiameter() const;
void SetViaDiameter( int aDia ) { m_Via.m_Diameter = FROM_LEGACY_LU( aDia ); }
void SetViaDiameter( int aDia ) { m_ViaDia = aDia; }
int GetViaDrill() const { return TO_LEGACY_LU( m_Via.m_Drill ); }
int GetViaDrill() const { return m_ViaDrill; }
int GetViaMinDrill() const;
void SetViaDrill( int aSize ) { m_Via.m_Drill = FROM_LEGACY_LU( aSize ); }
void SetViaDrill( int aSize ) { m_ViaDrill = aSize; }
int GetuViaDiameter() const { return TO_LEGACY_LU( m_uVia.m_Diameter ); }
int GetuViaDiameter() const { return m_uViaDia; }
int GetuViaMinDiameter() const;
void SetuViaDiameter( int aSize ) { m_uVia.m_Diameter = FROM_LEGACY_LU( aSize ); }
void SetuViaDiameter( int aSize ) { m_uViaDia = aSize; }
int GetuViaDrill() const { return TO_LEGACY_LU( m_uVia.m_Drill ); }
int GetuViaDrill() const { return m_uViaDrill; }
int GetuViaMinDrill() const;
void SetuViaDrill( int aSize ) { m_uVia.m_Drill = FROM_LEGACY_LU( aSize ); }
void SetuViaDrill( int aSize ) { m_uViaDrill = aSize; }
LENGTH_PCB Clearance() const { return m_Clearance; }
LENGTH_PCB Clearance( const LENGTH_PCB a ) { return m_Clearance = a; }
LENGTH_PCB TrackWidth() const { return m_TrackWidth; }
LENGTH_PCB TrackWidth( const LENGTH_PCB a ) { return m_TrackWidth = a; }
VIA_DIMENSION Via() const { return m_Via; }
VIA_DIMENSION Via( const VIA_DIMENSION a ) { return m_Via = a; }
VIA_DIMENSION MicroVia() const { return m_uVia; }
VIA_DIMENSION MicroVia( const VIA_DIMENSION a ) { return m_uVia = a; }
/**
* Function SetParams
@ -216,11 +204,6 @@ public:
*/
void SetParams( const NETCLASS* defaults = NULL );
/**
* Sets Parameters to their default state.
*/
void SetToDefault();
/**
* Function Save
* writes the data structures for this object out to a FILE in "*.brd" format.

View File

@ -153,7 +153,7 @@ void NETINFO_ITEM::DisplayInfo( EDA_DRAW_FRAME* frame )
if( pad->GetNet() == GetNet() )
{
count++;
lengthdie += TO_LEGACY_LU_DBL( pad->m_LengthDie );
lengthdie += pad->m_LengthDie;
}
}
}
@ -224,6 +224,6 @@ void RATSNEST_ITEM::Draw( EDA_DRAW_PANEL* panel,
{
GRSetDrawMode( DC, aDrawMode );
int color = g_ColorsSettings.GetItemColor(RATSNEST_VISIBLE);
GRLine( &panel->m_ClipBox, DC, TO_LEGACY_LU_WXP( m_PadStart->m_Pos ) - aOffset,
TO_LEGACY_LU_WXP( m_PadEnd->m_Pos ) - aOffset, 0, color );
GRLine( &panel->m_ClipBox, DC, m_PadStart->m_Pos - aOffset,
m_PadEnd->m_Pos - aOffset, 0, color );
}

View File

@ -27,23 +27,22 @@ D_PAD::D_PAD( MODULE* parent ) : BOARD_CONNECTED_ITEM( parent, PCB_PAD_T )
{
m_NumPadName = 0;
m_Size[0] = m_Size[1] = FROM_LEGACY_LU( 500 ); // give it a reasonable size
/// TODO: remove hardcoded constant
m_Size.x = m_Size.y = 500; // give it a reasonable size
m_Orient = 0; // Pad rotation in 1/10 degrees
m_LengthDie = ZERO_LENGTH;
m_LengthDie = 0;
if( m_Parent && (m_Parent->Type() == PCB_MODULE_T) )
{
m_Pos = FROM_LEGACY_LU_VEC( ( (MODULE*) m_Parent )->GetPosition() );
m_Pos = ( (MODULE*) m_Parent )->GetPosition();
}
m_PadShape = PAD_CIRCLE; // Shape: PAD_CIRCLE, PAD_RECT PAD_OVAL
// PAD_TRAPEZOID
m_Attribut = PAD_STANDARD; // Type: NORMAL, PAD_SMD, PAD_CONN
m_DrillShape = PAD_CIRCLE; // Drill shape = circle
m_LocalClearance = ZERO_LENGTH;
m_LocalSolderMaskMargin = ZERO_LENGTH;
m_LocalSolderPasteMargin = ZERO_LENGTH;
m_LocalClearance = 0;
m_LocalSolderMaskMargin = 0;
m_LocalSolderPasteMargin = 0;
m_LocalSolderPasteMarginRatio = 0.0;
m_layerMask = PAD_STANDARD_DEFAULT_LAYERS; // set layers mask to
// default for a standard pad
@ -68,23 +67,21 @@ int D_PAD::GetMaxRadius() const
switch( m_PadShape & 0x7F )
{
case PAD_CIRCLE:
radius = TO_LEGACY_LU( m_Size.x() / 2 );
radius = m_Size.x / 2;
break;
case PAD_OVAL:
radius = TO_LEGACY_LU( max( m_Size.x(), m_Size.y() ) / 2 );
radius = MAX( m_Size.x, m_Size.y ) / 2;
break;
case PAD_RECT:
x = TO_LEGACY_LU( m_Size.x() );
y = TO_LEGACY_LU( m_Size.y() );
radius = 1 + (int) ( sqrt( (double) y * y
+ (double) x * x ) / 2 );
radius = 1 + (int) ( sqrt( (double) m_Size.y * m_Size.y
+ (double) m_Size.x * m_Size.x ) / 2 );
break;
case PAD_TRAPEZOID:
x = TO_LEGACY_LU( m_Size.x() + abs( m_DeltaSize.y() ) ); // Remember: m_DeltaSize.y is the m_Size.x change
y = TO_LEGACY_LU( m_Size.y() + abs( m_DeltaSize.x() ) ); // Remember: m_DeltaSize.x is the m_Size.y change
x = m_Size.x + ABS( m_DeltaSize.y ); // Remember: m_DeltaSize.y is the m_Size.x change
y = m_Size.y + ABS( m_DeltaSize.x ); // Remember: m_DeltaSize.x is the m_Size.y change
radius = 1 + (int) ( sqrt( (double) y * y + (double) x * x ) / 2 );
break;
@ -114,7 +111,7 @@ EDA_RECT D_PAD::GetBoundingBox() const
EDA_RECT area;
int radius = GetMaxRadius(); // Calculate the radius of the area, considered as a circle
area.SetOrigin( TO_LEGACY_LU_WXP( m_Pos ) );
area.SetOrigin( m_Pos );
area.Inflate( radius );
return area;
@ -124,19 +121,19 @@ EDA_RECT D_PAD::GetBoundingBox() const
// Returns the position of the pad.
const wxPoint D_PAD::ReturnShapePos()
{
if( m_Offset[0] == ZERO_LENGTH && m_Offset[0] == ZERO_LENGTH )
return TO_LEGACY_LU_WXP( m_Pos );
if( m_Offset.x == 0 && m_Offset.y == 0 )
return m_Pos;
wxPoint shape_pos;
int dX, dY;
dX = TO_LEGACY_LU( m_Offset[0] );
dY = TO_LEGACY_LU( m_Offset[1] );
dX = m_Offset.x;
dY = m_Offset.y;
RotatePoint( &dX, &dY, m_Orient );
shape_pos.x = TO_LEGACY_LU( m_Pos.x() ) + dX;
shape_pos.y = TO_LEGACY_LU( m_Pos.y() ) + dY;
shape_pos.x = m_Pos.x + dX;
shape_pos.y = m_Pos.y + dY;
return shape_pos;
}
@ -245,11 +242,10 @@ int D_PAD::GetClearance( BOARD_CONNECTED_ITEM* aItem ) const
{
// A pad can have specific clearance parameters that
// overrides its NETCLASS clearance value
int clearance = TO_LEGACY_LU( m_LocalClearance );
int clearance = m_LocalClearance;
if( clearance == 0 )
{ // If local clearance is 0, use the parent footprint clearance value
/// @BUG unsafe type cast style
if( GetParent() && ( (MODULE*) GetParent() )->m_LocalClearance )
clearance = ( (MODULE*) GetParent() )->m_LocalClearance;
}
@ -283,7 +279,7 @@ int D_PAD::GetClearance( BOARD_CONNECTED_ITEM* aItem ) const
*/
int D_PAD::GetSolderMaskMargin()
{
int margin = TO_LEGACY_LU( m_LocalSolderMaskMargin );
int margin = m_LocalSolderMaskMargin;
MODULE * module = (MODULE*) GetParent();
if( module )
@ -304,7 +300,7 @@ int D_PAD::GetSolderMaskMargin()
// ensure mask have a size always >= 0
if( margin < 0 )
{
int minsize = TO_LEGACY_LU( -min( m_Size.x(), m_Size.y() ) / 2 );
int minsize = -MIN( m_Size.x, m_Size.y ) / 2;
if( margin < minsize )
minsize = minsize;
@ -325,7 +321,7 @@ int D_PAD::GetSolderMaskMargin()
*/
wxSize D_PAD::GetSolderPasteMargin()
{
int margin = TO_LEGACY_LU( m_LocalSolderPasteMargin );
int margin = m_LocalSolderPasteMargin;
double mratio = m_LocalSolderPasteMarginRatio;
MODULE * module = (MODULE*) GetParent();
@ -349,15 +345,15 @@ wxSize D_PAD::GetSolderPasteMargin()
}
wxSize pad_margin;
pad_margin.x = margin + wxRound( TO_LEGACY_LU_DBL( m_Size.x() ) * mratio );
pad_margin.y = margin + wxRound( TO_LEGACY_LU_DBL( m_Size.y() ) * mratio );
pad_margin.x = margin + wxRound( m_Size.x * mratio );
pad_margin.y = margin + wxRound( m_Size.y * mratio );
// ensure mask have a size always >= 0
if( pad_margin.x < TO_LEGACY_LU( -m_Size.x() / 2 ) )
pad_margin.x = TO_LEGACY_LU( -m_Size.x() / 2 );
if( pad_margin.x < -m_Size.x / 2 )
pad_margin.x = -m_Size.x / 2;
if( pad_margin.y < TO_LEGACY_LU( -m_Size.y() / 2 ) )
pad_margin.y = TO_LEGACY_LU( -m_Size.y() / 2 );
if( pad_margin.y < -m_Size.y / 2 )
pad_margin.y = -m_Size.y / 2;
return pad_margin;
}
@ -379,8 +375,7 @@ int D_PAD::ReadDescr( LINE_READER* aReader )
char* Line;
char BufLine[1024], BufCar[256];
char* PtLine;
int nn, ll;
ARG_LENLD_TYPE sx, sy, ox, oy, dr, dx, dy;
int nn, ll, dx, dy;
while( aReader->ReadLine() )
{
@ -422,14 +417,11 @@ int D_PAD::ReadDescr( LINE_READER* aReader )
if( *PtLine == '"' )
PtLine++;
nn = sscanf( PtLine, " %s "FM_LENLD" "FM_LENLD" "FM_LENLD" "FM_LENLD" %d",
BufCar, &sx, &sy,
&dx, &dy,
nn = sscanf( PtLine, " %s %d %d %d %d %d",
BufCar, &m_Size.x, &m_Size.y,
&m_DeltaSize.x, &m_DeltaSize.y,
&m_Orient );
m_Size.x( LENGTH_LOAD_TMP( sx ) );
m_Size.y( LENGTH_LOAD_TMP( sy ) );
m_DeltaSize.x( LENGTH_LOAD_TMP( dx ) );
m_DeltaSize.y( LENGTH_LOAD_TMP( dy ) );
ll = 0xFF & BufCar[0];
/* Read pad shape */
@ -455,20 +447,16 @@ int D_PAD::ReadDescr( LINE_READER* aReader )
case 'D':
BufCar[0] = 0;
nn = sscanf( PtLine, FM_LENLD" "FM_LENLD" "FM_LENLD" %s "FM_LENLD" "FM_LENLD, &dr,
&ox, &oy, BufCar, &dx, &dy );
m_Offset.x( LENGTH_LOAD_TMP( ox ) );
m_Offset.y( LENGTH_LOAD_TMP( oy ) );
m_Drill.x( LENGTH_LOAD_TMP( dr ) );
m_Drill.y( m_Drill.x() );
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 = PAD_CIRCLE;
if( nn >= 6 ) // Drill shape = OVAL ?
{
if( BufCar[0] == 'O' )
{
m_Drill.x( FROM_LEGACY_LU( dx ) );
m_Drill.y( FROM_LEGACY_LU( dy ) );
m_Drill.x = dx; m_Drill.y = dy;
m_DrillShape = PAD_OVAL;
}
}
@ -476,7 +464,7 @@ int D_PAD::ReadDescr( LINE_READER* aReader )
break;
case 'A':
nn = sscanf( PtLine, "%s %s %X", BufLine, BufCar, /// @BUG Stack overflow vulnerability!
nn = sscanf( PtLine, "%s %s %X", BufLine, BufCar,
&m_layerMask );
/* BufCar is not used now update attributes */
@ -503,25 +491,25 @@ int D_PAD::ReadDescr( LINE_READER* aReader )
break;
case 'P':
nn = sscanf( PtLine, FM_LENLD" "FM_LENLD, &ox, &oy );
m_Pos0 = VECTOR_PCB::fromXY( LENGTH_LOAD_TMP( ox ), LENGTH_LOAD_TMP( oy ) );
nn = sscanf( PtLine, "%d %d", &m_Pos0.x, &m_Pos0.y );
m_Pos = m_Pos0;
break;
case 'L':
nn = sscanf( PtLine, FM_LENLD, &ox );
m_LengthDie = LENGTH_LOAD_TMP( ox );
int lengthdie;
nn = sscanf( PtLine, "%d", &lengthdie );
m_LengthDie = lengthdie;
break;
case '.': /* Read specific data */
if( strnicmp( Line, ".SolderMask ", 12 ) == 0 )
m_LocalSolderMaskMargin = FROM_LEGACY_LU( atof( Line + 12 ) );
m_LocalSolderMaskMargin = atoi( Line + 12 );
else if( strnicmp( Line, ".SolderPaste ", 13 ) == 0 )
m_LocalSolderPasteMargin = FROM_LEGACY_LU( atoi( Line + 13 ) );
m_LocalSolderPasteMargin = atoi( Line + 13 );
else if( strnicmp( Line, ".SolderPasteRatio ", 18 ) == 0 )
m_LocalSolderPasteMarginRatio = atoi( Line + 18 );
else if( strnicmp( Line, ".LocalClearance ", 16 ) == 0 )
m_LocalClearance = FROM_LEGACY_LU( atof( Line + 16 ) );
m_LocalClearance = atoi( Line + 16 );
break;
default:
@ -563,15 +551,15 @@ bool D_PAD::Save( FILE* aFile ) const
break;
}
fprintf( aFile, "Sh \"%.4s\" %c "FM_LENSV" "FM_LENSV" "FM_LENSV" "FM_LENSV" %d\n", // TODO: pad name length limit!
m_Padname, cshape, ARG_LENSV( m_Size.x() ), ARG_LENSV( m_Size.y() ),
ARG_LENSV( m_DeltaSize.x() ), ARG_LENSV( m_DeltaSize.y() ), m_Orient );
fprintf( aFile, "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 );
fprintf( aFile, "Dr "FM_LENSV" "FM_LENSV" "FM_LENSV, ARG_LENSV( m_Drill.x() ), ARG_LENSV( m_Offset.x() ), ARG_LENSV( m_Offset.y() ) );
fprintf( aFile, "Dr %d %d %d", m_Drill.x, m_Offset.x, m_Offset.y );
if( m_DrillShape == PAD_OVAL )
{
fprintf( aFile, " %c "FM_LENSV" "FM_LENSV, 'O', ARG_LENSV( m_Drill.x() ), ARG_LENSV( m_Drill.y() ) );
fprintf( aFile, " %c %d %d", 'O', m_Drill.x, m_Drill.y );
}
fprintf( aFile, "\n" );
@ -600,22 +588,22 @@ bool D_PAD::Save( FILE* aFile ) const
fprintf( aFile, "Ne %d %s\n", GetNet(), EscapedUTF8( m_Netname ).c_str() );
fprintf( aFile, "Po "FM_LENSV" "FM_LENSV"\n", ARG_LENSV( m_Pos0.x() ), ARG_LENSV( m_Pos0.y() ) );
fprintf( aFile, "Po %d %d\n", m_Pos0.x, m_Pos0.y );
if( m_LengthDie != ZERO_LENGTH )
fprintf( aFile, "Le "FM_LENSV"\n", ARG_LENSV( m_LengthDie ) );
if( m_LengthDie != 0 )
fprintf( aFile, "Le %d\n", m_LengthDie );
if( m_LocalSolderMaskMargin != ZERO_LENGTH )
fprintf( aFile, ".SolderMask "FM_LENSV"\n", ARG_LENSV( m_LocalSolderMaskMargin ) );
if( m_LocalSolderMaskMargin != 0 )
fprintf( aFile, ".SolderMask %d\n", m_LocalSolderMaskMargin );
if( m_LocalSolderPasteMargin != ZERO_LENGTH )
fprintf( aFile, ".SolderPaste "FM_LENSV"\n", ARG_LENSV( m_LocalSolderPasteMargin ) );
if( m_LocalSolderPasteMargin != 0 )
fprintf( aFile, ".SolderPaste %d\n", m_LocalSolderPasteMargin );
if( m_LocalSolderPasteMarginRatio != 0 )
fprintf( aFile, ".SolderPasteRatio %g\n", m_LocalSolderPasteMarginRatio );
if( m_LocalClearance != ZERO_LENGTH )
fprintf( aFile, ".LocalClearance "FM_LENSV"\n", ARG_LENSV( m_LocalClearance ) );
if( m_LocalClearance != 0 )
fprintf( aFile, ".LocalClearance %d\n", m_LocalClearance );
if( fprintf( aFile, "$EndPAD\n" ) != sizeof("$EndPAD\n") - 1 )
return false;
@ -756,13 +744,13 @@ void D_PAD::DisplayInfo( EDA_DRAW_FRAME* frame )
frame->AppendMsgPanel( ShowPadShape(), ShowPadAttr(), DARKGREEN );
valeur_param( TO_LEGACY_LU( m_Size.x() ), Line );
valeur_param( m_Size.x, Line );
frame->AppendMsgPanel( _( "H Size" ), Line, RED );
valeur_param( TO_LEGACY_LU( m_Size.y() ), Line );
valeur_param( m_Size.y, Line );
frame->AppendMsgPanel( _( "V Size" ), Line, RED );
valeur_param( (unsigned)(int) TO_LEGACY_LU( m_Drill.x() ), Line );
valeur_param( (unsigned) m_Drill.x, Line );
if( m_DrillShape == PAD_CIRCLE )
{
@ -770,9 +758,9 @@ void D_PAD::DisplayInfo( EDA_DRAW_FRAME* frame )
}
else
{
valeur_param( (unsigned) TO_LEGACY_LU( m_Drill.x() ), Line );
valeur_param( (unsigned) m_Drill.x, Line );
wxString msg;
valeur_param( (unsigned) TO_LEGACY_LU( m_Drill.y() ), msg );
valeur_param( (unsigned) m_Drill.y, msg );
Line += wxT( " / " ) + msg;
frame->AppendMsgPanel( _( "Drill X / Y" ), Line, RED );
}
@ -788,15 +776,15 @@ void D_PAD::DisplayInfo( EDA_DRAW_FRAME* frame )
frame->AppendMsgPanel( _( "Orient" ), Line, LIGHTBLUE );
valeur_param( TO_LEGACY_LU( m_Pos.x() ), Line );
valeur_param( m_Pos.x, Line );
frame->AppendMsgPanel( _( "X Pos" ), Line, LIGHTBLUE );
valeur_param( TO_LEGACY_LU( m_Pos.y() ), Line );
valeur_param( m_Pos.y, Line );
frame->AppendMsgPanel( _( "Y pos" ), Line, LIGHTBLUE );
if( m_LengthDie != ZERO_LENGTH )
if( m_LengthDie )
{
valeur_param( TO_LEGACY_LU( m_LengthDie ), Line );
valeur_param( m_LengthDie, Line );
frame->AppendMsgPanel( _( "Length on die" ), Line, CYAN );
}
}
@ -828,8 +816,8 @@ bool D_PAD::HitTest( const wxPoint& refPos )
if( ( abs( delta.x ) > m_ShapeMaxRadius ) || ( abs( delta.y ) > m_ShapeMaxRadius ) )
return false;
dx = TO_LEGACY_LU( m_Size.x() / 2 ); // dx also is the radius for rounded pads
dy = TO_LEGACY_LU( m_Size.y() / 2 );
dx = m_Size.x >> 1; // dx also is the radius for rounded pads
dy = m_Size.y >> 1;
switch( m_PadShape & 0x7F )
{
@ -866,25 +854,25 @@ int D_PAD::Compare( const D_PAD* padref, const D_PAD* padcmp )
{
int diff;
if( ( diff = padref->m_PadShape - padcmp->m_PadShape) )
if( (diff = padref->m_PadShape - padcmp->m_PadShape) )
return diff;
if( ( diff = TO_LEGACY_LU( padref->m_Size.x() - padcmp->m_Size.x() ) ) )
if( (diff = padref->m_Size.x - padcmp->m_Size.x) )
return diff;
if( ( diff = TO_LEGACY_LU( padref->m_Size.y() - padcmp->m_Size.y() ) ) )
if( (diff = padref->m_Size.y - padcmp->m_Size.y) )
return diff;
if( ( diff = TO_LEGACY_LU( padref->m_Offset.x() - padcmp->m_Offset.x() ) ) )
if( (diff = padref->m_Offset.x - padcmp->m_Offset.x) )
return diff;
if( ( diff = TO_LEGACY_LU( padref->m_Offset.y() - padcmp->m_Offset.y() ) ) )
if( (diff = padref->m_Offset.y - padcmp->m_Offset.y) )
return diff;
if( ( diff = TO_LEGACY_LU( padref->m_DeltaSize.x() - padcmp->m_DeltaSize.x() ) ) )
if( (diff = padref->m_DeltaSize.x - padcmp->m_DeltaSize.x) )
return diff;
if( ( diff = TO_LEGACY_LU( padref->m_DeltaSize.y() - padcmp->m_DeltaSize.y() ) ) )
if( (diff = padref->m_DeltaSize.y - padcmp->m_DeltaSize.y) )
return diff;
// @todo check if export_gencad still works:
@ -988,7 +976,7 @@ void D_PAD::Show( int nestLevel, std::ostream& os )
" num=\"" << padname << '"' <<
" net=\"" << m_Netname.mb_str() << '"' <<
" netcode=\"" << GetNet() << '"' <<
" layerMask=\"" << layerMask << '"' << TO_LEGACY_LU_WXP( m_Pos ) << "/>\n";
" layerMask=\"" << layerMask << '"' << m_Pos << "/>\n";
// NestedSpace( nestLevel+1, os ) << m_Text.mb_str() << '\n';

View File

@ -11,8 +11,6 @@
#include "pad_shapes.h"
#include "PolyLine.h"
#include "lengthpcb.h"
#include "vectorpcb.h"
class LINE_READER;
class EDA_3D_CANVAS;
@ -72,9 +70,8 @@ private:
wxString m_ShortNetname; // short net name, like vout from /mysheet/mysubsheet/vout
public: /** TODO: that's not so good if parameters are easily modifiable outside
(e. g. m_Pos, which could be coherent with m_Pos and module orient/pos ) */
VECTOR_PCB m_Pos; // pad Position on board
public:
wxPoint m_Pos; // pad Position on board
union
{
@ -88,17 +85,14 @@ public: /** TODO: that's not so good if parameters are easily modifiable outside
// 2..14 = internal layers
// 16 .. 31 = technical layers
int m_PadShape; ///< Shape: PAD_CIRCLE, PAD_RECT, PAD_OVAL, PAD_TRAPEZOID
int m_DrillShape; ///< Shape PAD_CIRCLE, PAD_OVAL
/// @TODO: as m_DrillShape is eqv. to m_Drill.x==.y
/// it would be relatively easy to remove
/// this redundant flag.
int m_PadShape; // Shape: PAD_CIRCLE, PAD_RECT, PAD_OVAL, PAD_TRAPEZOID
int m_DrillShape; // Shape PAD_CIRCLE, PAD_OVAL
VECTOR_PCB m_Drill; ///< Drill diam (drill shape = PAD_CIRCLE) or drill size
/// (shape = OVAL) for drill shape = PAD_CIRCLE, drill
/// diam = m_Drill.x
wxSize m_Drill; // Drill diam (drill shape = PAD_CIRCLE) or drill size
// (shape = OVAL) for drill shape = PAD_CIRCLE, drill
// diam = m_Drill.x
VECTOR_PCB m_Offset; /* This parameter is useful only for oblong pads (it can be used for other
wxSize m_Offset; /* This parameter is useful only for oblong pads (it can be used for other
* shapes, but without any interest).
* this is the offset between the pad hole and the pad shape (you must
* understand here pad shape = copper area around the hole)
@ -111,11 +105,11 @@ public: /** TODO: that's not so good if parameters are easily modifiable outside
* D_PAD::ReturnShapePos() returns the physical shape position according to
* the offset and the pad rotation.*/
VECTOR_PCB m_Size; // X and Y size ( relative to orient 0)
wxSize m_Size; // X and Y size ( relative to orient 0)
VECTOR_PCB m_DeltaSize; // delta on rectangular shapes
wxSize m_DeltaSize; // delta on rectangular shapes
VECTOR_PCB m_Pos0; // Initial Pad position (i.e. pad position relative to the
wxPoint m_Pos0; // Initial Pad position (i.e. pas position relative to the
// module anchor, orientation 0
int m_ShapeMaxRadius; // radius of the circle containing the pad shape
@ -124,16 +118,16 @@ public: /** TODO: that's not so good if parameters are easily modifiable outside
static int m_PadSketchModePenSize; // Pen size used to draw pads in sketch mode
// (mode used to print pads on silkscreen layer)
LENGTH_PCB m_LengthDie; // Length net from pad to die on chip
int m_LengthDie; // Length net from pad to die on chip
// Local clearance. When null, the module default value is used.
// when the module default value is null, the netclass value is used
// Usually the local clearance is null
LENGTH_PCB m_LocalClearance;
int m_LocalClearance;
// Local mask margins: when NULL, the parent footprint design values are used
LENGTH_PCB m_LocalSolderMaskMargin; // Local solder mask margin
LENGTH_PCB m_LocalSolderPasteMargin; // Local solder paste margin absolute value
int m_LocalSolderMaskMargin; // Local solder mask margin
int m_LocalSolderPasteMargin; // Local solder paste margin absolute value
double m_LocalSolderPasteMarginRatio; // Local solder mask margin ratio value of pad size
// The final margin is the sum of these 2 values
@ -178,17 +172,16 @@ public:
* Function GetPosition
* returns the position of this object.
* @return const wxPoint& - The position of this object.
* @TODO: could move virtual method to .c file
*/
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return TO_LEGACY_LU_WXP( m_Pos );
return m_Pos;
}
void SetPosition( const wxPoint& aPos )
{
m_Pos = FROM_LEGACY_LU_VEC( aPos );
m_Pos = aPos;
}
/**
@ -387,7 +380,7 @@ public:
*/
virtual void Move( const wxPoint& aMoveVector )
{
m_Pos += FROM_LEGACY_LU_VEC( aMoveVector );
m_Pos += aMoveVector;
}

View File

@ -392,9 +392,9 @@ void D_PAD::DrawShape( EDA_RECT* aClipBox, wxDC* aDC, PAD_DRAWINFO& aDrawInfo )
// calculate pad shape position :
wxPoint shape_pos = ReturnShapePos() - aDrawInfo.m_Offset;
wxSize halfsize = TO_LEGACY_LU_WXS( m_Size );
halfsize.x /= 2;
halfsize.y /= 2;
wxSize halfsize = m_Size;
halfsize.x >>= 1;
halfsize.y >>= 1;
switch( GetShape() )
{
@ -475,8 +475,8 @@ void D_PAD::DrawShape( EDA_RECT* aClipBox, wxDC* aDC, PAD_DRAWINFO& aDrawInfo )
}
/* Draw the pad hole */
wxPoint holepos = TO_LEGACY_LU_WXP( m_Pos ) - aDrawInfo.m_Offset;
int hole = TO_LEGACY_LU( m_Drill.x() ) / 2;
wxPoint holepos = m_Pos - aDrawInfo.m_Offset;
int hole = m_Drill.x >> 1;
bool drawhole = hole > 0;
@ -513,20 +513,20 @@ void D_PAD::DrawShape( EDA_RECT* aClipBox, wxDC* aDC, PAD_DRAWINFO& aDrawInfo )
break;
case PAD_OVAL:
halfsize.x = TO_LEGACY_LU( m_Drill.x() ) / 2;
halfsize.y = TO_LEGACY_LU( m_Drill.y() ) / 2;
halfsize.x = m_Drill.x >> 1;
halfsize.y = m_Drill.y >> 1;
if( m_Drill.x() > m_Drill.y() ) /* horizontal */
if( m_Drill.x > m_Drill.y ) /* horizontal */
{
delta_cx = halfsize.x - halfsize.y;
delta_cy = 0;
seg_width = TO_LEGACY_LU( m_Drill.y() );
seg_width = m_Drill.y;
}
else /* vertical */
{
delta_cx = 0;
delta_cy = halfsize.y - halfsize.x;
seg_width = TO_LEGACY_LU( m_Drill.x() );
seg_width = m_Drill.x;
}
RotatePoint( &delta_cx, &delta_cy, angle );
@ -576,13 +576,13 @@ void D_PAD::DrawShape( EDA_RECT* aClipBox, wxDC* aDC, PAD_DRAWINFO& aDrawInfo )
if( GetShape() == PAD_CIRCLE )
angle = 0;
AreaSize = TO_LEGACY_LU_WXS( m_Size );
AreaSize = m_Size;
if( m_Size.y() > m_Size.x() )
if( m_Size.y > m_Size.x )
{
angle += 900;
AreaSize.x = TO_LEGACY_LU( m_Size.y() );
AreaSize.y = TO_LEGACY_LU( m_Size.x() );
AreaSize.x = m_Size.y;
AreaSize.y = m_Size.x;
}
if( shortname_len > 0 ) // if there is a netname, provides room to display this netname
@ -664,23 +664,23 @@ int D_PAD::BuildSegmentFromOvalShape(wxPoint& aSegStart, wxPoint& aSegEnd, int a
{
int width;
if( m_Size.y() < m_Size.x() ) // Build an horizontal equiv segment
if( m_Size.y < m_Size.x ) // Build an horizontal equiv segment
{
int delta = TO_LEGACY_LU( ( m_Size.x() - m_Size.y() ) / 2 );
int delta = ( m_Size.x - m_Size.y ) / 2;
aSegStart.x = -delta;
aSegStart.y = 0;
aSegEnd.x = delta;
aSegEnd.y = 0;
width = TO_LEGACY_LU( m_Size.y() );
width = m_Size.y;
}
else // Vertical oval: build a vertical equiv segment
{
int delta = TO_LEGACY_LU( ( m_Size.y() -m_Size.x() ) / 2 );
int delta = ( m_Size.y -m_Size.x ) / 2;
aSegStart.x = 0;
aSegStart.y = -delta;
aSegEnd.x = 0;
aSegEnd.y = delta;
width = TO_LEGACY_LU( m_Size.x() );
width = m_Size.x;
}
if( aRotation )
@ -701,8 +701,8 @@ void D_PAD::BuildPadPolygon( wxPoint aCoord[4], wxSize aInflateValue, int aRotat
wxSize delta;
wxSize halfsize;
halfsize.x = TO_LEGACY_LU( m_Size.x() / 2 );
halfsize.y = TO_LEGACY_LU( m_Size.y() / 2 );
halfsize.x = m_Size.x >> 1;
halfsize.y = m_Size.y >> 1;
/* For rectangular shapes, inflate is easy
*/
@ -721,8 +721,8 @@ void D_PAD::BuildPadPolygon( wxPoint aCoord[4], wxSize aInflateValue, int aRotat
else
{
// Trapezoidal pad: verify delta values
delta.x = TO_LEGACY_LU( m_DeltaSize.x() / 2 );
delta.y = TO_LEGACY_LU( m_DeltaSize.y() / 2 );
delta.x = ( m_DeltaSize.x >> 1 );
delta.y = ( m_DeltaSize.y >> 1 );
// be sure delta values are not to large
if( (delta.x < 0) && (delta.x <= -halfsize.y) )
@ -762,7 +762,7 @@ void D_PAD::BuildPadPolygon( wxPoint aCoord[4], wxSize aInflateValue, int aRotat
if( delta.y ) // lower and upper segment is horizontal
{
// Calculate angle of left (or right) segment with vertical axis
angle = atan2( m_DeltaSize.y(), m_Size.y() );
angle = atan2( double( m_DeltaSize.y ), double( m_Size.y ) );
// left and right sides are moved by aInflateValue.x in their perpendicular direction
// We must calculate the corresponding displacement on the horizontal axis
@ -778,7 +778,7 @@ void D_PAD::BuildPadPolygon( wxPoint aCoord[4], wxSize aInflateValue, int aRotat
else if( delta.x ) // left and right segment is vertical
{
// Calculate angle of lower (or upper) segment with horizontal axis
angle = atan2( m_DeltaSize.x(), m_Size.x() );
angle = atan2( double( m_DeltaSize.x ), double( m_Size.x ) );
// lower and upper sides are moved by aInflateValue.x in their perpendicular direction
// We must calculate the corresponding displacement on the vertical axis

View File

@ -26,15 +26,11 @@ public:
* returns the position of this object.
* @return wxPoint& - The position of this object, non-const so it can be changed
*/
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return m_Pos; // within EDA_TEXT
}
void SetPosition( const wxPoint& pos ) {
m_Pos = pos;
}
/**
* Function Move
* move this object.

View File

@ -51,14 +51,11 @@ public:
* Required by pure virtual BOARD_ITEM::GetPosition()
* @return const wxPoint& - The position of this object.
*/
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return m_Pos;
}
void SetPosition( const wxPoint& pos ) {
m_Pos = pos;
}
void Copy( TEXTE_MODULE* source ); // copy structure

View File

@ -120,21 +120,13 @@ public:
/**
* Function GetPosition
* returns the position of this object.
* @return const wxPoint - The position of this object.
* @return const wxPoint& - The position of this object.
*/
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return m_Start; // it had to be start or end.
}
/**
* Sets the position of this object. Virtual function, needed by BOARD_ITEM
* @param pos The position of this object
*/
void SetPosition( const wxPoint& pos ) {
m_Start = pos;
}
EDA_RECT GetBoundingBox() const;
/**
@ -478,11 +470,12 @@ public:
* returns the position of this object.
* @return const wxPoint& - The position of this object.
*/
const wxPoint GetPosition() const
wxPoint& GetPosition()
{
return m_Start;
}
void SetPosition( const wxPoint& aPoint ) { m_Start = aPoint; m_End = aPoint; }
/**

View File

@ -84,13 +84,20 @@ bool ZONE_CONTAINER::UnFill()
}
const wxPoint ZONE_CONTAINER::GetPosition() const
wxPoint& ZONE_CONTAINER::GetPosition()
{
return m_Poly? GetCornerPosition( 0 ) : wxPoint( 0, 0 );
static wxPoint pos;
if( m_Poly )
{
pos = GetCornerPosition( 0 );
}
else
pos = wxPoint( 0, 0 );
return pos;
}
void ZONE_CONTAINER::SetPosition( const wxPoint& pos ) {
}
void ZONE_CONTAINER::SetNet( int aNetCode )
{

View File

@ -118,8 +118,8 @@ public:
* Function GetPosition
* @return a wxPoint, position of the first point of the outline
*/
const wxPoint GetPosition() const;
void SetPosition( const wxPoint& pos );
wxPoint& GetPosition();
/**
* Function copy
* copy useful data from the source.

View File

@ -850,7 +850,7 @@ void ConnectDanglingEndToPad( PCB_EDIT_FRAME* frame )
if( pad )
{
// test if the track start point is not exactly starting on the pad
if( segment->m_Start != TO_LEGACY_LU_WXP( pad->m_Pos ) )
if( segment->m_Start != pad->m_Pos )
{
if( segment->GetTrace( frame->GetBoard()->m_Track, NULL, START ) == NULL )
{
@ -858,7 +858,7 @@ void ConnectDanglingEndToPad( PCB_EDIT_FRAME* frame )
frame->GetBoard()->m_Track.Insert( newTrack, segment->Next() );
newTrack->m_End = TO_LEGACY_LU_WXP( pad->m_Pos );
newTrack->m_End = pad->m_Pos;
newTrack->start = segment;
newTrack->end = pad;
@ -872,7 +872,7 @@ void ConnectDanglingEndToPad( PCB_EDIT_FRAME* frame )
if( pad )
{
// test if the track end point is not exactly on the pad
if( segment->m_End != TO_LEGACY_LU_WXP( pad->m_Pos ) )
if( segment->m_End != pad->m_Pos )
{
if( segment->GetTrace( frame->GetBoard()->m_Track, NULL, END ) == NULL )
{
@ -880,7 +880,7 @@ void ConnectDanglingEndToPad( PCB_EDIT_FRAME* frame )
frame->GetBoard()->m_Track.Insert( newTrack, segment->Next() );
newTrack->m_Start = TO_LEGACY_LU_WXP( pad->m_Pos );
newTrack->m_Start = pad->m_Pos;
newTrack->start = pad;
newTrack->end = segment;

View File

@ -212,21 +212,21 @@ void DIALOG_DESIGN_RULES::PrintCurrentSettings()
m_MessagesList->AppendToPage( _( "<b>Current general settings:</b><br>" ) );
// Display min values:
value = LENGTH_TO_STR_SYM( g_UserUnit,
value = ReturnStringFromValue( g_UserUnit,
m_BrdSettings->m_TrackMinWidth,
internal_units );
internal_units,
true );
msg.Printf( _( "Minimum value for tracks width: <b>%s</b><br>\n" ), GetChars( value ) );
m_MessagesList->AppendToPage( msg );
value = LENGTH_TO_STR_SYM( g_UserUnit,
m_BrdSettings->m_MinVia.m_Diameter,
internal_units );
value = ReturnStringFromValue( g_UserUnit, m_BrdSettings->m_ViasMinSize, internal_units, true );
msg.Printf( _( "Minimum value for vias diameter: <b>%s</b><br>\n" ), GetChars( value ) );
m_MessagesList->AppendToPage( msg );
value = LENGTH_TO_STR_SYM( g_UserUnit,
m_BrdSettings->m_MinMicroVia.m_Diameter,
internal_units );
value = ReturnStringFromValue( g_UserUnit,
m_BrdSettings->m_MicroViasMinSize,
internal_units,
true );
msg.Printf( _( "Minimum value for microvias diameter: <b>%s</b><br>\n" ), GetChars( value ) );
m_MessagesList->AppendToPage( msg );
}
@ -291,26 +291,21 @@ void DIALOG_DESIGN_RULES::InitGlobalRules()
AddUnitSymbol( *m_TrackMinWidthTitle );
int Internal_Unit = m_Parent->m_InternalUnits;
PutValueInLocalUnits( *m_SetViasMinSizeCtrl, m_BrdSettings->m_ViasMinSize, Internal_Unit );
PutValueInLocalUnits( *m_SetViasMinDrillCtrl, m_BrdSettings->m_ViasMinDrill, Internal_Unit );
if( m_BrdSettings->m_CurrentViaType != VIA_THROUGH )
m_OptViaType->SetSelection( 1 );
m_AllowMicroViaCtrl->SetSelection( m_BrdSettings->m_MicroViasAllowed ? 1 : 0 );
PutValueInLocalUnits( *m_SetMicroViasMinSizeCtrl,
m_BrdSettings->m_MicroViasMinSize,
Internal_Unit );
PutValueInLocalUnits( *m_SetMicroViasMinDrillCtrl,
m_BrdSettings->m_MicroViasMinDrill,
Internal_Unit );
CTR_PUT_LENGTH( *m_SetViasMinSizeCtrl,
m_BrdSettings->m_MinVia.m_Diameter,
Internal_Unit );
CTR_PUT_LENGTH( *m_SetViasMinDrillCtrl,
m_BrdSettings->m_MinVia.m_Drill,
Internal_Unit );
CTR_PUT_LENGTH( *m_SetMicroViasMinSizeCtrl,
m_BrdSettings->m_MinMicroVia.m_Diameter,
Internal_Unit );
CTR_PUT_LENGTH( *m_SetMicroViasMinDrillCtrl,
m_BrdSettings->m_MinMicroVia.m_Drill,
Internal_Unit );
CTR_PUT_LENGTH( *m_SetTrackMinWidthCtrl,
m_BrdSettings->m_TrackMinWidth,
Internal_Unit );
PutValueInLocalUnits( *m_SetTrackMinWidthCtrl, m_BrdSettings->m_TrackMinWidth, Internal_Unit );
// Initialize Vias and Tracks sizes lists.
// note we display only extra values, never the current netclass value.
@ -352,21 +347,19 @@ void DIALOG_DESIGN_RULES::InitDimensionsLists()
for( unsigned ii = 0; ii < m_TracksWidthList.size(); ii++ )
{
msg = LENGTH_TO_STR( g_UserUnit, m_TracksWidthList[ii], Internal_Unit);
msg = ReturnStringFromValue( g_UserUnit, m_TracksWidthList[ii], Internal_Unit, false );
m_gridTrackWidthList->SetCellValue( ii, 0, msg );
}
for( unsigned ii = 0; ii < m_ViasDimensionsList.size(); ii++ )
{
msg = LENGTH_TO_STR( g_UserUnit,
m_ViasDimensionsList[ii].m_Diameter,
Internal_Unit );
msg = ReturnStringFromValue( g_UserUnit, m_ViasDimensionsList[ii].m_Diameter,
Internal_Unit, false );
m_gridViaSizeList->SetCellValue( ii, 0, msg );
if( m_ViasDimensionsList[ii].m_Drill > ZERO_LENGTH )
if( m_ViasDimensionsList[ii].m_Drill > 0 )
{
msg = LENGTH_TO_STR( g_UserUnit,
m_ViasDimensionsList[ii].m_Drill,
Internal_Unit );
msg = ReturnStringFromValue( g_UserUnit, m_ViasDimensionsList[ii].m_Drill,
Internal_Unit, false );
m_gridViaSizeList->SetCellValue( ii, 1, msg );
}
}
@ -502,12 +495,23 @@ static void class2gridRow( wxGrid* grid, int row, NETCLASS* nc, int units )
// label is netclass name
grid->SetRowLabelValue( row, nc->GetName() );
grid->SetCellValue( row, GRID_CLEARANCE, LENGTH_TO_STR( g_UserUnit, nc->Clearance(), units ) );
grid->SetCellValue( row, GRID_TRACKSIZE, LENGTH_TO_STR( g_UserUnit, nc->TrackWidth(), units ) );
grid->SetCellValue( row, GRID_VIASIZE, LENGTH_TO_STR( g_UserUnit, nc->Via().m_Diameter, units ) );
grid->SetCellValue( row, GRID_VIADRILL, LENGTH_TO_STR( g_UserUnit, nc->Via().m_Drill, units ) );
grid->SetCellValue( row, GRID_uVIASIZE, LENGTH_TO_STR( g_UserUnit, nc->MicroVia().m_Diameter, units ) );
grid->SetCellValue( row, GRID_uVIADRILL, LENGTH_TO_STR( g_UserUnit, nc->MicroVia().m_Drill, units ) );
msg = ReturnStringFromValue( g_UserUnit, nc->GetClearance(), units );
grid->SetCellValue( row, GRID_CLEARANCE, msg );
msg = ReturnStringFromValue( g_UserUnit, nc->GetTrackWidth(), units );
grid->SetCellValue( row, GRID_TRACKSIZE, msg );
msg = ReturnStringFromValue( g_UserUnit, nc->GetViaDiameter(), units );
grid->SetCellValue( row, GRID_VIASIZE, msg );
msg = ReturnStringFromValue( g_UserUnit, nc->GetViaDrill(), units );
grid->SetCellValue( row, GRID_VIADRILL, msg );
msg = ReturnStringFromValue( g_UserUnit, nc->GetuViaDiameter(), units );
grid->SetCellValue( row, GRID_uVIASIZE, msg );
msg = ReturnStringFromValue( g_UserUnit, nc->GetuViaDrill(), units );
grid->SetCellValue( row, GRID_uVIADRILL, msg );
}
@ -541,16 +545,15 @@ void DIALOG_DESIGN_RULES::InitRulesList()
static void gridRow2class( wxGrid* grid, int row, NETCLASS* nc, int units )
{
nc->Clearance(
STR_TO_LENGTH( g_UserUnit, grid->GetCellValue( row, GRID_CLEARANCE ), units ) );
nc->TrackWidth(
STR_TO_LENGTH( g_UserUnit, grid->GetCellValue( row, GRID_TRACKSIZE ), units ) );
nc->Via( VIA_DIMENSION(
STR_TO_LENGTH( g_UserUnit, grid->GetCellValue( row, GRID_VIASIZE ), units ),
STR_TO_LENGTH( g_UserUnit, grid->GetCellValue( row, GRID_VIADRILL ), units ) ) );
nc->MicroVia( VIA_DIMENSION(
STR_TO_LENGTH( g_UserUnit, grid->GetCellValue( row, GRID_uVIASIZE ), units ),
STR_TO_LENGTH( g_UserUnit, grid->GetCellValue( row, GRID_uVIADRILL ), units ) ) );
#define MYCELL( col ) \
ReturnValueFromString( g_UserUnit, grid->GetCellValue( row, col ), units )
nc->SetClearance( MYCELL( GRID_CLEARANCE ) );
nc->SetTrackWidth( MYCELL( GRID_TRACKSIZE ) );
nc->SetViaDiameter( MYCELL( GRID_VIASIZE ) );
nc->SetViaDrill( MYCELL( GRID_VIADRILL ) );
nc->SetuViaDiameter( MYCELL( GRID_uVIASIZE ) );
nc->SetuViaDrill( MYCELL( GRID_uVIADRILL ) );
}
@ -606,22 +609,23 @@ void DIALOG_DESIGN_RULES::CopyGlobalRulesToBoard()
if( m_OptViaType->GetSelection() > 0 )
m_BrdSettings->m_CurrentViaType = VIA_BLIND_BURIED;
// Update vias minimum values for DRC
m_BrdSettings->m_ViasMinSize =
ReturnValueFromTextCtrl( *m_SetViasMinSizeCtrl, m_Parent->m_InternalUnits );
m_BrdSettings->m_ViasMinDrill =
ReturnValueFromTextCtrl( *m_SetViasMinDrillCtrl, m_Parent->m_InternalUnits );
m_BrdSettings->m_MicroViasAllowed = m_AllowMicroViaCtrl->GetSelection() == 1;
// Update vias minimum values for DRC
m_BrdSettings->m_MinVia.m_Diameter =
CTR_GET_LENGTH( *m_SetViasMinSizeCtrl, m_Parent->m_InternalUnits );
m_BrdSettings->m_MinVia.m_Drill =
CTR_GET_LENGTH( *m_SetViasMinDrillCtrl, m_Parent->m_InternalUnits );
// Update microvias minimum values for DRC
m_BrdSettings->m_MinMicroVia.m_Diameter =
CTR_GET_LENGTH( *m_SetMicroViasMinSizeCtrl, m_Parent->m_InternalUnits );
m_BrdSettings->m_MinMicroVia.m_Drill =
CTR_GET_LENGTH( *m_SetMicroViasMinDrillCtrl, m_Parent->m_InternalUnits );
m_BrdSettings->m_MicroViasMinSize =
ReturnValueFromTextCtrl( *m_SetMicroViasMinSizeCtrl, m_Parent->m_InternalUnits );
m_BrdSettings->m_MicroViasMinDrill =
ReturnValueFromTextCtrl( *m_SetMicroViasMinDrillCtrl, m_Parent->m_InternalUnits );
// Update tracks minimum values for DRC
m_BrdSettings->m_TrackMinWidth =
CTR_GET_LENGTH( *m_SetTrackMinWidthCtrl, m_Parent->m_InternalUnits );
ReturnValueFromTextCtrl( *m_SetTrackMinWidthCtrl, m_Parent->m_InternalUnits );
}
@ -638,25 +642,28 @@ void DIALOG_DESIGN_RULES::CopyDimensionsListsToBoard()
msg = m_gridTrackWidthList->GetCellValue( row, 0 );
if( msg.IsEmpty() )
continue;
m_TracksWidthList.push_back( STR_TO_LENGTH( g_UserUnit, msg, m_Parent->m_InternalUnits ) );
int value = ReturnValueFromString( g_UserUnit, msg, m_Parent->m_InternalUnits );
m_TracksWidthList.push_back( value );
}
// Sort new list by by increasing value
sort( m_TracksWidthList.begin(), m_TracksWidthList.end() );
// Reinitialize m_ViaSizeList
// Reinitialize m_TrackWidthList
m_ViasDimensionsList.clear();
for( int row = 0; row < m_gridViaSizeList->GetNumberRows(); ++row )
{
msg = m_gridViaSizeList->GetCellValue( row, 0 );
if( msg.IsEmpty() )
continue;
int value = ReturnValueFromString( g_UserUnit, msg, m_Parent->m_InternalUnits );
VIA_DIMENSION via_dim;
via_dim.m_Diameter = STR_TO_LENGTH( g_UserUnit, msg, m_Parent->m_InternalUnits );
via_dim.m_Diameter = value;
msg = m_gridViaSizeList->GetCellValue( row, 1 );
if( !msg.IsEmpty() )
{
via_dim.m_Drill = STR_TO_LENGTH( g_UserUnit, msg, m_Parent->m_InternalUnits );
value = ReturnValueFromString( g_UserUnit, msg, m_Parent->m_InternalUnits );
via_dim.m_Drill = value;
}
m_ViasDimensionsList.push_back( via_dim );
}
@ -664,7 +671,7 @@ void DIALOG_DESIGN_RULES::CopyDimensionsListsToBoard()
// Sort new list by by increasing value
sort( m_ViasDimensionsList.begin(), m_ViasDimensionsList.end() );
std::vector < LENGTH_PCB >* tlist = &m_Parent->GetBoard()->m_TrackWidthList;
std::vector <int>* tlist = &m_Parent->GetBoard()->m_TrackWidthList;
tlist->erase( tlist->begin() + 1, tlist->end() ); // Remove old "custom" sizes
tlist->insert( tlist->end(), m_TracksWidthList.begin(), m_TracksWidthList.end() ); //Add new "custom" sizes

View File

@ -57,7 +57,7 @@ private:
// List of values to "customize" some tracks and vias
std::vector <VIA_DIMENSION> m_ViasDimensionsList;
std::vector <LENGTH_PCB> m_TracksWidthList;
std::vector <int> m_TracksWidthList;
private:
void OnNetClassesNameLeftClick( wxGridEvent& event ){ event.Skip(); }

View File

@ -213,6 +213,7 @@ DIALOG_DESIGN_RULES_BASE::DIALOG_DESIGN_RULES_BASE( wxWindow* parent, wxWindowID
fgMinValuesSizer->Add( m_MicroViaMinSizeTitle, 0, wxALIGN_RIGHT|wxALIGN_CENTER_VERTICAL|wxTOP|wxLEFT, 5 );
m_SetMicroViasMinSizeCtrl = new wxTextCtrl( m_panelGolbalDesignRules, wxID_ANY, wxEmptyString, wxDefaultPosition, wxDefaultSize, 0 );
m_SetMicroViasMinSizeCtrl->SetMaxLength( 6 );
fgMinValuesSizer->Add( m_SetMicroViasMinSizeCtrl, 0, wxEXPAND|wxTOP|wxRIGHT|wxLEFT, 5 );
m_MicroViaMinDrillTitle = new wxStaticText( m_panelGolbalDesignRules, wxID_ANY, _("Min uvia drill dia"), wxDefaultPosition, wxDefaultSize, 0 );
@ -220,6 +221,7 @@ DIALOG_DESIGN_RULES_BASE::DIALOG_DESIGN_RULES_BASE( wxWindow* parent, wxWindowID
fgMinValuesSizer->Add( m_MicroViaMinDrillTitle, 0, wxALIGN_RIGHT|wxTOP|wxBOTTOM|wxLEFT, 5 );
m_SetMicroViasMinDrillCtrl = new wxTextCtrl( m_panelGolbalDesignRules, wxID_ANY, wxEmptyString, wxDefaultPosition, wxDefaultSize, 0 );
m_SetMicroViasMinDrillCtrl->SetMaxLength( 6 );
fgMinValuesSizer->Add( m_SetMicroViasMinDrillCtrl, 0, wxEXPAND|wxALL, 5 );
sbMinSizesSizer->Add( fgMinValuesSizer, 0, wxEXPAND, 5 );

View File

@ -130,21 +130,12 @@ void DIALOG_DRC_CONTROL::InitValues()
*/
void DIALOG_DRC_CONTROL::SetDrcParmeters( )
{
#ifdef KICAD_NANOMETRE
m_BrdSettings->m_TrackMinWidth =
LengthFromTextCtrl( *m_SetTrackMinWidthCtrl );
m_BrdSettings->m_MinVia.m_Diameter =
LengthFromTextCtrl( *m_SetViaMinSizeCtrl );
m_BrdSettings->m_MinMicroVia.m_Diameter =
LengthFromTextCtrl( *m_SetMicroViakMinSizeCtrl );
#else
m_BrdSettings->m_TrackMinWidth =
ReturnValueFromTextCtrl( *m_SetTrackMinWidthCtrl, m_Parent->m_InternalUnits );
m_BrdSettings->m_MinVia.m_Diameter =
m_BrdSettings->m_ViasMinSize =
ReturnValueFromTextCtrl( *m_SetViaMinSizeCtrl, m_Parent->m_InternalUnits );
m_BrdSettings->m_MinMicroVia.m_Diameter =
m_BrdSettings->m_MicroViasMinSize =
ReturnValueFromTextCtrl( *m_SetMicroViakMinSizeCtrl, m_Parent->m_InternalUnits );
#endif
}

View File

@ -185,7 +185,7 @@ void DIALOG_GENDRILL::InitDisplayParams( void )
{
if( pad->m_DrillShape == PAD_CIRCLE )
{
if( pad->m_Drill.x() != ZERO_LENGTH )
if( pad->m_Drill.x != 0 )
{
if( pad->m_Attribut == PAD_HOLE_NOT_PLATED )
m_notplatedPadsHoleCount++;
@ -195,7 +195,7 @@ void DIALOG_GENDRILL::InitDisplayParams( void )
}
else
{
if( min( TO_LEGACY_LU( pad->m_Drill.x() ), TO_LEGACY_LU( pad->m_Drill.y() ) ) != 0 )
if( MIN( pad->m_Drill.x, pad->m_Drill.y ) != 0 )
{
if( pad->m_Attribut == PAD_HOLE_NOT_PLATED )
m_notplatedPadsHoleCount++;

View File

@ -117,26 +117,26 @@ void DIALOG_PAD_PROPERTIES::OnPaintShowPanel( wxPaintEvent& event )
drawInfo.m_Color = color;
drawInfo.m_HoleColor = DARKGRAY;
drawInfo.m_Offset = TO_LEGACY_LU_WXP( m_dummyPad->m_Pos );
drawInfo.m_Offset = m_dummyPad->m_Pos;
drawInfo.m_Display_padnum = true;
drawInfo.m_Display_netname = true;
if( m_dummyPad->m_Attribut == PAD_HOLE_NOT_PLATED )
drawInfo.m_ShowNotPlatedHole = true;
// Shows the local pad clearance
drawInfo.m_PadClearance = TO_LEGACY_LU( m_dummyPad->m_LocalClearance );
drawInfo.m_PadClearance = m_dummyPad->m_LocalClearance;
wxSize dc_size = dc.GetSize();
dc.SetDeviceOrigin( dc_size.x / 2, dc_size.y / 2 );
// Calculate a suitable scale to fit the available draw area
int dim = TO_LEGACY_LU( m_dummyPad->m_Size.x() + abs( m_dummyPad->m_DeltaSize.y() ) );
if( m_dummyPad->m_LocalClearance > ZERO_LENGTH )
dim += TO_LEGACY_LU( m_dummyPad->m_LocalClearance * 2 );
int dim = m_dummyPad->m_Size.x + ABS( m_dummyPad->m_DeltaSize.y);
if( m_dummyPad->m_LocalClearance > 0 )
dim += m_dummyPad->m_LocalClearance * 2;
double scale = (double) dc_size.x / dim;
dim = TO_LEGACY_LU( m_dummyPad->m_Size.y() + abs( m_dummyPad->m_DeltaSize.x() ) );
if( m_dummyPad->m_LocalClearance > ZERO_LENGTH )
dim += TO_LEGACY_LU( m_dummyPad->m_LocalClearance * 2 );
dim = m_dummyPad->m_Size.y + ABS( m_dummyPad->m_DeltaSize.x);
if( m_dummyPad->m_LocalClearance > 0 )
dim += m_dummyPad->m_LocalClearance * 2;
double altscale = (double) dc_size.y / dim;
scale = MIN( scale, altscale );
@ -207,8 +207,8 @@ void DIALOG_PAD_PROPERTIES::initValues()
if( m_isFlipped )
{
m_dummyPad->m_Offset.y( -m_dummyPad->m_Offset.y() );
m_dummyPad->m_DeltaSize.y( -m_dummyPad->m_DeltaSize.y() );
NEGATE( m_dummyPad->m_Offset.y );
NEGATE( m_dummyPad->m_DeltaSize.y );
/* flip pads layers*/
m_dummyPad->m_layerMask = ChangeSideMaskLayer( m_dummyPad->m_layerMask );
}
@ -236,40 +236,41 @@ void DIALOG_PAD_PROPERTIES::initValues()
m_SolderPasteMarginUnits->SetLabel( GetUnitsLabel( g_UserUnit ) );
// Display current pad parameters units:
CTR_PUT_LENGTH( *m_PadPosition_X_Ctrl, m_dummyPad->m_Pos.x(), internalUnits );
CTR_PUT_LENGTH( *m_PadPosition_Y_Ctrl, m_dummyPad->m_Pos.y(), internalUnits );
PutValueInLocalUnits( *m_PadPosition_X_Ctrl, m_dummyPad->m_Pos.x, internalUnits );
PutValueInLocalUnits( *m_PadPosition_Y_Ctrl, m_dummyPad->m_Pos.y, internalUnits );
CTR_PUT_LENGTH( *m_PadDrill_X_Ctrl, m_dummyPad->m_Drill.x(), internalUnits );
CTR_PUT_LENGTH( *m_PadDrill_Y_Ctrl, m_dummyPad->m_Drill.y(), internalUnits );
PutValueInLocalUnits( *m_PadDrill_X_Ctrl, m_dummyPad->m_Drill.x, internalUnits );
PutValueInLocalUnits( *m_PadDrill_Y_Ctrl, m_dummyPad->m_Drill.y, internalUnits );
CTR_PUT_LENGTH( *m_ShapeSize_X_Ctrl, m_dummyPad->m_Size.x(), internalUnits );
CTR_PUT_LENGTH( *m_ShapeSize_Y_Ctrl, m_dummyPad->m_Size.y(), internalUnits );
PutValueInLocalUnits( *m_ShapeSize_X_Ctrl, m_dummyPad->m_Size.x, internalUnits );
PutValueInLocalUnits( *m_ShapeSize_Y_Ctrl, m_dummyPad->m_Size.y, internalUnits );
CTR_PUT_LENGTH( *m_ShapeOffset_X_Ctrl, m_dummyPad->m_Offset.x(), internalUnits );
CTR_PUT_LENGTH( *m_ShapeOffset_Y_Ctrl, m_dummyPad->m_Offset.y(), internalUnits );
PutValueInLocalUnits( *m_ShapeOffset_X_Ctrl, m_dummyPad->m_Offset.x, internalUnits );
PutValueInLocalUnits( *m_ShapeOffset_Y_Ctrl, m_dummyPad->m_Offset.y, internalUnits );
if( m_dummyPad->m_DeltaSize.x() != ZERO_LENGTH )
if( m_dummyPad->m_DeltaSize.x )
{
CTR_PUT_LENGTH( *m_ShapeDelta_Ctrl, m_dummyPad->m_DeltaSize.x(), internalUnits );
PutValueInLocalUnits( *m_ShapeDelta_Ctrl, m_dummyPad->m_DeltaSize.x, internalUnits );
m_radioBtnDeltaXdir->SetValue(true);
}
else
{
CTR_PUT_LENGTH( *m_ShapeDelta_Ctrl, m_dummyPad->m_DeltaSize.y(), internalUnits );
PutValueInLocalUnits( *m_ShapeDelta_Ctrl, m_dummyPad->m_DeltaSize.y, internalUnits );
m_radioBtnDeltaYdir->SetValue(true);
}
CTR_PUT_LENGTH( *m_LengthDieCtrl, m_dummyPad->m_LengthDie, internalUnits );
PutValueInLocalUnits( *m_LengthDieCtrl, m_dummyPad->m_LengthDie, internalUnits );
CTR_PUT_LENGTH( *m_NetClearanceValueCtrl,
m_dummyPad->m_LocalClearance, internalUnits );
CTR_PUT_LENGTH( *m_SolderMaskMarginCtrl,
m_dummyPad->m_LocalSolderMaskMargin, internalUnits );
PutValueInLocalUnits( *m_NetClearanceValueCtrl, m_dummyPad->m_LocalClearance, internalUnits );
PutValueInLocalUnits( *m_SolderMaskMarginCtrl,
m_dummyPad->m_LocalSolderMaskMargin,
internalUnits );
// These 2 parameters are usually < 0, so prepare entering a negative value, if current is 0
CTR_PUT_LENGTH( *m_SolderPasteMarginCtrl, m_dummyPad->m_LocalSolderPasteMargin,
PutValueInLocalUnits( *m_SolderPasteMarginCtrl,
m_dummyPad->m_LocalSolderPasteMargin,
internalUnits );
if( m_dummyPad->m_LocalSolderPasteMargin == ZERO_LENGTH )
if( m_dummyPad->m_LocalSolderPasteMargin == 0 )
m_SolderPasteMarginCtrl->SetValue( wxT( "-" ) + m_SolderPasteMarginCtrl->GetValue() );
msg.Printf( wxT( "%.1f" ), m_dummyPad->m_LocalSolderPasteMarginRatio * 100.0 );
@ -614,19 +615,17 @@ void DIALOG_PAD_PROPERTIES::PadPropertiesAccept( wxCommandEvent& event )
/* compute the pos 0 value, i.e. pad position for module orient = 0 i.e.
* refer to module origin (module position) */
m_CurrentPad->m_Pos0 = m_CurrentPad->m_Pos;
m_CurrentPad->m_Pos0 -= FROM_LEGACY_LU_VEC( Module->m_Pos );
m_CurrentPad->m_Pos0 -= Module->m_Pos;
m_CurrentPad->m_Orient = (g_Pad_Master.m_Orient * isign) + Module->m_Orient;
wxPoint p = TO_LEGACY_LU_WXP( m_CurrentPad->m_Pos0 );
RotatePoint( &p.x, &p.y, -Module->m_Orient );
m_CurrentPad->m_Pos0 = FROM_LEGACY_LU_VEC( p );
RotatePoint( &m_CurrentPad->m_Pos0.x, &m_CurrentPad->m_Pos0.y, -Module->m_Orient );
m_CurrentPad->m_Size = g_Pad_Master.m_Size;
m_CurrentPad->m_DeltaSize = g_Pad_Master.m_DeltaSize;
m_CurrentPad->m_DeltaSize.y( m_CurrentPad->m_DeltaSize.y() * isign );
m_CurrentPad->m_DeltaSize.y *= isign;
m_CurrentPad->m_Drill = g_Pad_Master.m_Drill;
m_CurrentPad->m_DrillShape = g_Pad_Master.m_DrillShape;
m_CurrentPad->m_Offset = g_Pad_Master.m_Offset;
m_CurrentPad->m_Offset.y( m_CurrentPad->m_Offset.y() * isign );
m_CurrentPad->m_Offset.y *= isign;
m_CurrentPad->m_LengthDie = g_Pad_Master.m_LengthDie;
@ -696,9 +695,12 @@ bool DIALOG_PAD_PROPERTIES::TransfertDataToPad( D_PAD* aPad, bool aPromptOnError
aPad->m_PadShape = CodeShape[m_PadShape->GetSelection()];
// Read pad clearances values:
aPad->m_LocalClearance = CTR_GET_LENGTH( *m_NetClearanceValueCtrl, internalUnits );
aPad->m_LocalSolderMaskMargin = CTR_GET_LENGTH( *m_SolderMaskMarginCtrl, internalUnits );
aPad->m_LocalSolderPasteMargin = CTR_GET_LENGTH( *m_SolderPasteMarginCtrl, internalUnits );
aPad->m_LocalClearance = ReturnValueFromTextCtrl( *m_NetClearanceValueCtrl,
internalUnits );
aPad->m_LocalSolderMaskMargin = ReturnValueFromTextCtrl( *m_SolderMaskMarginCtrl,
internalUnits );
aPad->m_LocalSolderPasteMargin = ReturnValueFromTextCtrl( *m_SolderPasteMarginCtrl,
internalUnits );
double dtmp = 0.0;
msg = m_SolderPasteMarginRatioCtrl->GetValue();
msg.ToDouble( &dtmp );
@ -711,66 +713,66 @@ bool DIALOG_PAD_PROPERTIES::TransfertDataToPad( D_PAD* aPad, bool aPromptOnError
aPad->m_LocalSolderPasteMarginRatio = dtmp / 100;
// Read pad position:
aPad->m_Pos.x( CTR_GET_LENGTH( *m_PadPosition_X_Ctrl, internalUnits ) );
aPad->m_Pos.y( CTR_GET_LENGTH( *m_PadPosition_Y_Ctrl, internalUnits ) );
aPad->m_Pos.x = ReturnValueFromTextCtrl( *m_PadPosition_X_Ctrl, internalUnits );
aPad->m_Pos.y = ReturnValueFromTextCtrl( *m_PadPosition_Y_Ctrl, internalUnits );
aPad->m_Pos0 = aPad->m_Pos;
// Read pad drill:
aPad->m_Drill.x( CTR_GET_LENGTH( *m_PadDrill_X_Ctrl, internalUnits ) );
aPad->m_Drill.y( CTR_GET_LENGTH( *m_PadDrill_Y_Ctrl, internalUnits ) );
aPad->m_Drill.x = ReturnValueFromTextCtrl( *m_PadDrill_X_Ctrl, internalUnits );
aPad->m_Drill.y = ReturnValueFromTextCtrl( *m_PadDrill_Y_Ctrl, internalUnits );
if( m_DrillShapeCtrl->GetSelection() == 0 )
{
aPad->m_DrillShape = PAD_CIRCLE;
aPad->m_Drill.y( aPad->m_Drill.x() );
aPad->m_Drill.y = aPad->m_Drill.x;
}
else
aPad->m_DrillShape = PAD_OVAL;
// Read pad shape size:
aPad->m_Size.x( CTR_GET_LENGTH( *m_ShapeSize_X_Ctrl, internalUnits ) );
aPad->m_Size.y( CTR_GET_LENGTH( *m_ShapeSize_Y_Ctrl, internalUnits ) );
aPad->m_Size.x = ReturnValueFromTextCtrl( *m_ShapeSize_X_Ctrl, internalUnits );
aPad->m_Size.y = ReturnValueFromTextCtrl( *m_ShapeSize_Y_Ctrl, internalUnits );
if( aPad->m_PadShape == PAD_CIRCLE )
aPad->m_Size.y( aPad->m_Size.x() );
aPad->m_Size.y = aPad->m_Size.x;
// Read pad shape delta size:
// m_DeltaSize.x or m_DeltaSize.y must be NULL. for a trapezoid.
//wxSize delta;
LENGTH_PCB delta;
delta = CTR_GET_LENGTH( *m_ShapeDelta_Ctrl, internalUnits );
aPad->m_DeltaSize = m_radioBtnDeltaXdir->GetValue()?
VECTOR_PCB::fromXY( delta, ZERO_LENGTH ):
VECTOR_PCB::fromXY( ZERO_LENGTH, delta );
wxSize delta;
if( m_radioBtnDeltaXdir->GetValue() )
delta.x = ReturnValueFromTextCtrl( *m_ShapeDelta_Ctrl, internalUnits );
else
delta.y = ReturnValueFromTextCtrl( *m_ShapeDelta_Ctrl, internalUnits );
aPad->m_DeltaSize = delta;
// Read pad lenght die
aPad->m_LengthDie = CTR_GET_LENGTH( *m_LengthDieCtrl, internalUnits );
aPad->m_LengthDie = ReturnValueFromTextCtrl( *m_LengthDieCtrl, internalUnits );
// Test bad values (be sure delta values are not to large)
// remember DeltaSize.x is the Y size variation TODO: this can be optimized
// remember DeltaSize.x is the Y size variation
bool error = false;
if( (aPad->m_DeltaSize.x() < ZERO_LENGTH) && (aPad->m_DeltaSize.x() <= -aPad->m_Size.y() ) )
if( (aPad->m_DeltaSize.x < 0) && (aPad->m_DeltaSize.x <= -aPad->m_Size.y) )
{
aPad->m_DeltaSize.x( -aPad->m_Size.y() + FROM_LEGACY_LU( 2 ) );
aPad->m_DeltaSize.x = -aPad->m_Size.y + 2;
error = true;
}
if( (aPad->m_DeltaSize.x() > ZERO_LENGTH) && (aPad->m_DeltaSize.x() >= aPad->m_Size.y() ) )
if( (aPad->m_DeltaSize.x > 0) && (aPad->m_DeltaSize.x >= aPad->m_Size.y) )
{
aPad->m_DeltaSize.x( aPad->m_Size.y() - FROM_LEGACY_LU( 2 ) );
aPad->m_DeltaSize.x = aPad->m_Size.y - 2;
error = true;
}
if( (aPad->m_DeltaSize.y() < ZERO_LENGTH) && (aPad->m_DeltaSize.y() <= -aPad->m_Size.x() ) )
if( (aPad->m_DeltaSize.y < 0) && (aPad->m_DeltaSize.y <= -aPad->m_Size.x) )
{
aPad->m_DeltaSize.y( -aPad->m_Size.x() + FROM_LEGACY_LU( 2 ) );
aPad->m_DeltaSize.y = -aPad->m_Size.x + 2;
error = true;
}
if( (aPad->m_DeltaSize.y() > ZERO_LENGTH) && (aPad->m_DeltaSize.y() >= aPad->m_Size.x() ) )
if( (aPad->m_DeltaSize.y > 0) && (aPad->m_DeltaSize.y >= aPad->m_Size.x) )
{
aPad->m_DeltaSize.y( aPad->m_Size.x() - FROM_LEGACY_LU( 2 ) );
aPad->m_DeltaSize.y = aPad->m_Size.x - 2;
error = true;
}
// Read pad shape offset:
aPad->m_Offset.x( CTR_GET_LENGTH( *m_ShapeOffset_X_Ctrl, internalUnits ) );
aPad->m_Offset.y( CTR_GET_LENGTH( *m_ShapeOffset_Y_Ctrl, internalUnits ) );
aPad->m_Offset.x = ReturnValueFromTextCtrl( *m_ShapeOffset_X_Ctrl, internalUnits );
aPad->m_Offset.y = ReturnValueFromTextCtrl( *m_ShapeOffset_Y_Ctrl, internalUnits );
long orient_value = 0;
msg = m_PadOrientCtrl->GetValue();
@ -785,17 +787,17 @@ bool DIALOG_PAD_PROPERTIES::TransfertDataToPad( D_PAD* aPad, bool aPromptOnError
switch( aPad->m_PadShape )
{
case PAD_CIRCLE:
aPad->m_Offset = VECTOR_PCB::fromXY( ZERO_LENGTH, ZERO_LENGTH ); // wxSize( 0, 0 );
aPad->m_DeltaSize = VECTOR_PCB::fromXY( ZERO_LENGTH, ZERO_LENGTH );
aPad->m_Size.y( aPad->m_Size.x() );
aPad->m_Offset = wxSize( 0, 0 );
aPad->m_DeltaSize = wxSize( 0, 0 );
aPad->m_Size.y = aPad->m_Size.x;
break;
case PAD_RECT:
aPad->m_DeltaSize = VECTOR_PCB::fromXY( ZERO_LENGTH, ZERO_LENGTH );
aPad->m_DeltaSize = wxSize( 0, 0 );
break;
case PAD_OVAL:
aPad->m_DeltaSize = VECTOR_PCB::fromXY( ZERO_LENGTH, ZERO_LENGTH );
aPad->m_DeltaSize = wxSize( 0, 0 );
break;
case PAD_TRAPEZOID:
@ -809,14 +811,14 @@ bool DIALOG_PAD_PROPERTIES::TransfertDataToPad( D_PAD* aPad, bool aPromptOnError
case PAD_CONN:
case PAD_SMD:
aPad->m_Offset = VECTOR_PCB::fromXY( ZERO_LENGTH, ZERO_LENGTH );
aPad->m_Drill = VECTOR_PCB::fromXY( ZERO_LENGTH, ZERO_LENGTH );
aPad->m_Offset = wxSize( 0, 0 );
aPad->m_Drill = wxSize( 0, 0 );
break;
case PAD_HOLE_NOT_PLATED:
// Mechanical purpose only:
// no offset, no net name, no pad name allowed
aPad->m_Offset = VECTOR_PCB::fromXY( ZERO_LENGTH, ZERO_LENGTH ); //wxSize( 0, 0 );
aPad->m_Offset = wxSize( 0, 0 );
aPad->SetPadName( wxEmptyString );
aPad->SetNetname( wxEmptyString );
break;
@ -873,8 +875,8 @@ bool DIALOG_PAD_PROPERTIES::TransfertDataToPad( D_PAD* aPad, bool aPromptOnError
/* Test for incorrect values */
if( aPromptOnError )
{
if( (aPad->m_Size.x() < aPad->m_Drill.x() )
|| (aPad->m_Size.y() < aPad->m_Drill.y() ) )
if( (aPad->m_Size.x < aPad->m_Drill.x)
|| (aPad->m_Size.y < aPad->m_Drill.y) )
{
DisplayError( NULL, _( "Incorrect value for pad drill: pad drill bigger than pad size" ) );
return false;
@ -883,7 +885,7 @@ bool DIALOG_PAD_PROPERTIES::TransfertDataToPad( D_PAD* aPad, bool aPromptOnError
int padlayers_mask = PadLayerMask & (LAYER_BACK | LAYER_FRONT);
if( padlayers_mask == 0 )
{
if( aPad->m_Drill.x() != ZERO_LENGTH || aPad->m_Drill.y() != ZERO_LENGTH )
if( aPad->m_Drill.x || aPad->m_Drill.y )
{
msg = _( "Error: pad is not on a copper layer and has a hole" );
if( aPad->m_Attribut == PAD_HOLE_NOT_PLATED )
@ -897,8 +899,8 @@ if you do not want this pad plotted in gerber files");
}
}
if( ( aPad->m_Size.x() / 2 <= abs( aPad->m_Offset.x() ) )
|| ( aPad->m_Size.y() / 2 <= abs( aPad->m_Offset.y() ) ) )
if( ( aPad->m_Size.x / 2 <= ABS( aPad->m_Offset.x ) )
|| ( aPad->m_Size.y / 2 <= ABS( aPad->m_Offset.y ) ) )
{
DisplayError( NULL, _( "Incorrect value for pad offset" ) );
return false;

View File

@ -52,7 +52,7 @@ void DrawSegmentWhileMovingFootprint( EDA_DRAW_PANEL* panel, wxDC* DC )
if( pt_pad )
{
pos = TO_LEGACY_LU_WXP( pt_pad->m_Pos ) - g_Offset_Module;
pos = pt_pad->m_Pos - g_Offset_Module;
Track->m_Start = pos;
}
@ -60,7 +60,7 @@ void DrawSegmentWhileMovingFootprint( EDA_DRAW_PANEL* panel, wxDC* DC )
if( pt_pad )
{
pos = TO_LEGACY_LU_WXP( pt_pad->m_Pos ) - g_Offset_Module;
pos = pt_pad->m_Pos - g_Offset_Module;
Track->m_End = pos;
}
@ -105,7 +105,7 @@ void Build_1_Pad_SegmentsToDrag( EDA_DRAW_PANEL* panel, wxDC* DC, D_PAD* PtPad )
Track = pcb->m_Track->GetStartNetCode( net_code );
pos = TO_LEGACY_LU_WXP( PtPad->m_Pos );
pos = PtPad->m_Pos;
LayerMask = PtPad->m_layerMask;
for( ; Track; Track = Track->Next() )

View File

@ -54,24 +54,15 @@ void DRC::ShowDialog()
// copy data retained in this DRC object into the m_ui DrcPanel:
#ifdef KICAD_NANOMETRE
LengthToTextCtrl( *m_ui->m_SetTrackMinWidthCtrl,
m_pcb->GetBoardDesignSettings()->m_TrackMinWidth );
LengthToTextCtrl( *m_ui->m_SetViaMinSizeCtrl,
m_pcb->GetBoardDesignSettings()->m_MinVia.m_Diameter );
LengthToTextCtrl( *m_ui->m_SetMicroViakMinSizeCtrl,
m_pcb->GetBoardDesignSettings()->m_MinMicroVia.m_Diameter );
#else
PutValueInLocalUnits( *m_ui->m_SetTrackMinWidthCtrl,
TO_LEGACY_LU( m_pcb->GetBoardDesignSettings()->m_TrackMinWidth ),
m_pcb->GetBoardDesignSettings()->m_TrackMinWidth,
m_mainWindow->m_InternalUnits );
PutValueInLocalUnits( *m_ui->m_SetViaMinSizeCtrl,
TO_LEGACY_LU( m_pcb->GetBoardDesignSettings()->m_MinVia.m_Diameter ),
m_pcb->GetBoardDesignSettings()->m_ViasMinSize,
m_mainWindow->m_InternalUnits );
PutValueInLocalUnits( *m_ui->m_SetMicroViakMinSizeCtrl,
TO_LEGACY_LU( m_pcb->GetBoardDesignSettings()->m_MinMicroVia.m_Diameter ),
m_pcb->GetBoardDesignSettings()->m_MicroViasMinSize,
m_mainWindow->m_InternalUnits );
#endif
m_ui->m_CreateRptCtrl->SetValue( m_doCreateRptFile );
m_ui->m_RptFilenameCtrl->SetValue( m_rptFilename );
@ -321,12 +312,12 @@ bool DRC::doNetClass( NETCLASS* nc, wxString& msg )
}
#endif
if( nc->GetTrackWidth() < TO_LEGACY_LU( g.m_TrackMinWidth ) )
if( nc->GetTrackWidth() < g.m_TrackMinWidth )
{
msg.Printf( _( "NETCLASS: '%s' has TrackWidth:%s which is less than global:%s" ),
GetChars( nc->GetName() ),
FmtVal( nc->GetTrackWidth() ),
FmtVal( TO_LEGACY_LU( g.m_TrackMinWidth ) )
FmtVal( g.m_TrackMinWidth )
);
m_currentMarker = fillMarker( DRCE_NETCLASS_TRACKWIDTH, msg, m_currentMarker );
@ -335,12 +326,12 @@ bool DRC::doNetClass( NETCLASS* nc, wxString& msg )
ret = false;
}
if( nc->GetViaDiameter() < TO_LEGACY_LU( g.m_MinVia.m_Diameter ) )
if( nc->GetViaDiameter() < g.m_ViasMinSize )
{
msg.Printf( _( "NETCLASS: '%s' has Via Dia:%s which is less than global:%s" ),
GetChars( nc->GetName() ),
FmtVal( nc->GetViaDiameter() ),
FmtVal( TO_LEGACY_LU( g.m_MinVia.m_Diameter ) )
FmtVal( g.m_ViasMinSize )
);
m_currentMarker = fillMarker( DRCE_NETCLASS_VIASIZE, msg, m_currentMarker );
@ -349,12 +340,12 @@ bool DRC::doNetClass( NETCLASS* nc, wxString& msg )
ret = false;
}
if( nc->GetViaDrill() < TO_LEGACY_LU( g.m_MinVia.m_Drill ) )
if( nc->GetViaDrill() < g.m_ViasMinDrill )
{
msg.Printf( _( "NETCLASS: '%s' has Via Drill:%s which is less than global:%s" ),
GetChars( nc->GetName() ),
FmtVal( nc->GetViaDrill() ),
FmtVal( TO_LEGACY_LU( g.m_MinVia.m_Drill ) )
FmtVal( g.m_ViasMinDrill )
);
m_currentMarker = fillMarker( DRCE_NETCLASS_VIADRILLSIZE, msg, m_currentMarker );
@ -363,12 +354,12 @@ bool DRC::doNetClass( NETCLASS* nc, wxString& msg )
ret = false;
}
if( nc->GetuViaDiameter() < TO_LEGACY_LU( g.m_MinMicroVia.m_Diameter ) )
if( nc->GetuViaDiameter() < g.m_MicroViasMinSize )
{
msg.Printf( _( "NETCLASS: '%s' has uVia Dia:%s which is less than global:%s" ),
GetChars( nc->GetName() ),
FmtVal( nc->GetuViaDiameter() ),
FmtVal( TO_LEGACY_LU( g.m_MinMicroVia.m_Diameter ) )
FmtVal( g.m_MicroViasMinSize )
);
m_currentMarker = fillMarker( DRCE_NETCLASS_uVIASIZE, msg, m_currentMarker );
@ -377,12 +368,12 @@ bool DRC::doNetClass( NETCLASS* nc, wxString& msg )
ret = false;
}
if( nc->GetuViaDrill() < TO_LEGACY_LU( g.m_MinMicroVia.m_Drill ) )
if( nc->GetuViaDrill() < g.m_MicroViasMinDrill )
{
msg.Printf( _( "NETCLASS: '%s' has uVia Drill:%s which is less than global:%s" ),
GetChars( nc->GetName() ),
FmtVal( nc->GetuViaDrill() ),
FmtVal( TO_LEGACY_LU( g.m_MinMicroVia.m_Drill ) )
FmtVal( g.m_MicroViasMinDrill )
);
m_currentMarker = fillMarker( DRCE_NETCLASS_uVIADRILLSIZE, msg, m_currentMarker );
@ -577,7 +568,7 @@ bool DRC::doPadToPadsDrc( D_PAD* aRefPad, D_PAD** aStart, D_PAD** aEnd, int x_li
MODULE dummymodule( m_pcb ); // Creates a dummy parent
D_PAD dummypad( &dummymodule );
dummypad.m_layerMask |= ALL_CU_LAYERS; // Ensure the hole is on all copper layers
dummypad.m_LocalClearance = FROM_LEGACY_LU( 1 ); /* Use the minimal local clearance value for the dummy pad
dummypad.m_LocalClearance = 1; /* Use the minimal local clearance value for the dummy pad
* the clearance of the active pad will be used
* as minimum distance to a hole
* (a value = 0 means use netclass value)
@ -592,7 +583,7 @@ bool DRC::doPadToPadsDrc( D_PAD* aRefPad, D_PAD** aStart, D_PAD** aEnd, int x_li
// We can stop the test when pad->m_Pos.x > x_limit
// because the list is sorted by X values
if( TO_LEGACY_LU( pad->m_Pos.x() ) > x_limit )
if( pad->m_Pos.x > x_limit )
break;
// No problem if pads are on different copper layers,
@ -617,7 +608,7 @@ bool DRC::doPadToPadsDrc( D_PAD* aRefPad, D_PAD** aStart, D_PAD** aEnd, int x_li
/* Here, we must test clearance between holes and pads
* dummy pad size and shape is adjusted to pad drill size and shape
*/
if( pad->m_Drill.x() != ZERO_LENGTH )
if( pad->m_Drill.x )
{
// pad under testing has a hole, test this hole against pad reference
dummypad.SetPosition( pad->GetPosition() );
@ -637,7 +628,7 @@ bool DRC::doPadToPadsDrc( D_PAD* aRefPad, D_PAD** aStart, D_PAD** aEnd, int x_li
}
}
if( aRefPad->m_Drill.x() != ZERO_LENGTH ) // pad reference has a hole
if( aRefPad->m_Drill.x ) // pad reference has a hole
{
dummypad.SetPosition( aRefPad->GetPosition() );
dummypad.m_Size = aRefPad->m_Drill;

View File

@ -290,7 +290,7 @@ bool DRC::doTrackDrc( TRACK* aRefSeg, TRACK* aStart, bool testPads )
* checkClearanceSegmToPad(),a pseudo pad is used, with a shape and a
* size like the hole
*/
if( pad->m_Drill.x() == ZERO_LENGTH )
if( pad->m_Drill.x == 0 )
continue;
dummypad.m_Size = pad->m_Drill;
@ -633,7 +633,7 @@ bool DRC::checkClearancePadToPad( D_PAD* aRefPad, D_PAD* aPad )
m_segmEnd.x = m_segmEnd.y = 0;
m_padToTestPos = relativePadPos;
diag = checkClearanceSegmToPad( aPad, TO_LEGACY_LU( aRefPad->m_Size.x() ), dist_min );
diag = checkClearanceSegmToPad( aPad, aRefPad->m_Size.x, dist_min );
break;
case PAD_RECT:
@ -644,7 +644,7 @@ bool DRC::checkClearancePadToPad( D_PAD* aRefPad, D_PAD* aPad )
if( aPad->m_PadShape == PAD_RECT )
{
wxSize size = TO_LEGACY_LU_WXS( aPad->m_Size );
wxSize size = aPad->m_Size;
// The trivial case is if both rects are rotated by multiple of 90 deg
// Most of time this is the case, and the test is fast
@ -664,10 +664,10 @@ bool DRC::checkClearancePadToPad( D_PAD* aRefPad, D_PAD* aPad )
relativePadPos.x = ABS( relativePadPos.x );
relativePadPos.y = ABS( relativePadPos.y );
if( ( relativePadPos.x - ( (size.x + TO_LEGACY_LU( aRefPad->m_Size.x() ) ) / 2 ) ) >= dist_min )
if( ( relativePadPos.x - ( (size.x + aRefPad->m_Size.x) / 2 ) ) >= dist_min )
diag = true;
if( ( relativePadPos.y - ( (size.y + TO_LEGACY_LU( aRefPad->m_Size.y() ) ) / 2 ) ) >= dist_min )
if( ( relativePadPos.y - ( (size.y + aRefPad->m_Size.y) / 2 ) ) >= dist_min )
diag = true;
}
else // at least one pad has any other orient. Test is more tricky
@ -716,15 +716,15 @@ bool DRC::checkClearancePadToPad( D_PAD* aRefPad, D_PAD* aPad )
int segm_width;
m_segmAngle = aRefPad->m_Orient; // Segment orient.
if( aRefPad->m_Size.y() < aRefPad->m_Size.x() ) // Build an horizontal equiv segment
if( aRefPad->m_Size.y < aRefPad->m_Size.x ) // Build an horizontal equiv segment
{
segm_width = TO_LEGACY_LU( aRefPad->m_Size.y() );
m_segmLength = TO_LEGACY_LU( aRefPad->m_Size.x() - aRefPad->m_Size.y() );
segm_width = aRefPad->m_Size.y;
m_segmLength = aRefPad->m_Size.x - aRefPad->m_Size.y;
}
else // Vertical oval: build an horizontal equiv segment and rotate 90.0 deg
{
segm_width = TO_LEGACY_LU( aRefPad->m_Size.x() );
m_segmLength = TO_LEGACY_LU( aRefPad->m_Size.y() - aRefPad->m_Size.x() );
segm_width = aRefPad->m_Size.x;
m_segmLength = aRefPad->m_Size.y - aRefPad->m_Size.x;
m_segmAngle += 900;
}
@ -796,13 +796,13 @@ bool DRC::checkClearanceSegmToPad( const D_PAD* aPad, int aSegmentWidth, int aMi
int segmHalfWidth = aSegmentWidth / 2;
seuil = segmHalfWidth + aMinDist;
padHalfsize.x = TO_LEGACY_LU( aPad->m_Size.x() / 2 );
padHalfsize.y = TO_LEGACY_LU( aPad->m_Size.y() / 2 );
padHalfsize.x = aPad->m_Size.x >> 1;
padHalfsize.y = aPad->m_Size.y >> 1;
if( aPad->m_PadShape == PAD_TRAPEZOID ) // The size is bigger, due to m_DeltaSize extra size
{
padHalfsize.x += TO_LEGACY_LU( abs( aPad->m_DeltaSize.y() ) / 2 ); // Remember: m_DeltaSize.y is the m_Size.x change
padHalfsize.y += TO_LEGACY_LU( abs( aPad->m_DeltaSize.x() ) / 2 ); // Remember: m_DeltaSize.x is the m_Size.y change
padHalfsize.x += ABS(aPad->m_DeltaSize.y) / 2; // Remember: m_DeltaSize.y is the m_Size.x change
padHalfsize.y += ABS(aPad->m_DeltaSize.x) / 2; // Remember: m_DeltaSize.x is the m_Size.y change
}
if( aPad->m_PadShape == PAD_CIRCLE )

View File

@ -69,10 +69,10 @@
#define DRCE_TOO_SMALL_MICROVIA 29 ///< Too small micro via size
#define DRCE_NETCLASS_TRACKWIDTH 30 ///< netclass has TrackWidth < board.m_designSettings->m_TrackMinWidth
#define DRCE_NETCLASS_CLEARANCE 31 ///< netclass has Clearance < board.m_designSettings->m_TrackClearance
#define DRCE_NETCLASS_VIASIZE 32 ///< netclass has ViaSize < board.m_designSettings->m_MinVia.m_Diameter
#define DRCE_NETCLASS_VIADRILLSIZE 33 ///< netclass has ViaDrillSize < board.m_designSettings->m_MinVia.m_Drill
#define DRCE_NETCLASS_uVIASIZE 34 ///< netclass has ViaSize < board.m_designSettings->m_MinMicroVia.m_Diameter
#define DRCE_NETCLASS_uVIADRILLSIZE 35 ///< netclass has ViaSize < board.m_designSettings->m_MinMicroVia.m_Drill
#define DRCE_NETCLASS_VIASIZE 32 ///< netclass has ViaSize < board.m_designSettings->m_ViasMinSize
#define DRCE_NETCLASS_VIADRILLSIZE 33 ///< netclass has ViaDrillSize < board.m_designSettings->m_ViasMinDrill
#define DRCE_NETCLASS_uVIASIZE 34 ///< netclass has ViaSize < board.m_designSettings->m_MicroViasMinSize
#define DRCE_NETCLASS_uVIADRILLSIZE 35 ///< netclass has ViaSize < board.m_designSettings->m_MicroViasMinDrill
class EDA_DRAW_PANEL;

View File

@ -82,7 +82,7 @@ void FOOTPRINT_EDIT_FRAME::Place_Ancre( MODULE* pt_mod )
for( ; pt_pad != NULL; pt_pad = pt_pad->Next() )
{
pt_pad->m_Pos0 += VECTOR_PCB::fromXY( FROM_LEGACY_LU( moveVector.x ), FROM_LEGACY_LU( moveVector.y ) );
pt_pad->m_Pos0 += moveVector;
}
/* Update the draw element coordinates. */
@ -93,7 +93,7 @@ void FOOTPRINT_EDIT_FRAME::Place_Ancre( MODULE* pt_mod )
switch( PtStruct->Type() )
{
case PCB_MODULE_EDGE_T:
#undef STRUCT /// @BUG: unsafe type cast
#undef STRUCT
#define STRUCT ( (EDGE_MODULE*) PtStruct )
STRUCT->m_Start0 += moveVector;
STRUCT->m_End0 += moveVector;

View File

@ -125,7 +125,7 @@ TRACK* PCB_EDIT_FRAME::Begin_Route( TRACK* aTrack, wxDC* aDC )
pt_pad = (D_PAD*) LockPoint;
/* A pad is found: put the starting point on pad center */
pos = TO_LEGACY_LU_WXP( pt_pad->m_Pos );
pos = pt_pad->m_Pos;
GetBoard()->SetHighLightNet( pt_pad->GetNet() );
}
else /* A track segment is found */
@ -783,7 +783,7 @@ void ShowNewTrackWhenMovingCursor( EDA_DRAW_PANEL* aPanel, wxDC* aDC, const wxPo
if( g_FirstTrackSegment->GetState( BEGIN_ONPAD ) )
{
D_PAD * pad = (D_PAD *) g_FirstTrackSegment->start;
lenDie = TO_LEGACY_LU_DBL( pad->m_LengthDie );
lenDie = (double) pad->m_LengthDie;
}
// calculate track len on board:
@ -1067,7 +1067,7 @@ void DeleteNullTrackSegments( BOARD* pcb, DLIST<TRACK>& aTrackList )
*/
void EnsureEndTrackOnPad( D_PAD* Pad )
{
if( g_CurrentTrackSegment->m_End == TO_LEGACY_LU_WXP( Pad->m_Pos ) ) // Ok !
if( g_CurrentTrackSegment->m_End == Pad->m_Pos ) // Ok !
{
g_CurrentTrackSegment->end = Pad;
g_CurrentTrackSegment->SetState( END_ONPAD, ON );
@ -1084,7 +1084,7 @@ void EnsureEndTrackOnPad( D_PAD* Pad )
lasttrack->end = g_CurrentTrackSegment;
}
g_CurrentTrackSegment->m_End = TO_LEGACY_LU_WXP( Pad->m_Pos );
g_CurrentTrackSegment->m_End = Pad->m_Pos;
g_CurrentTrackSegment->SetState( END_ONPAD, OFF );
g_CurrentTrackSegment->end = Pad;

View File

@ -252,70 +252,70 @@ void CreatePadsShapesSection( FILE* file, BOARD* pcb )
fprintf( file, "PAD PAD%d", pad->GetSubRatsnest() );
int dx = TO_LEGACY_LU( pad->m_Size.x() / 2 );
int dy = TO_LEGACY_LU( pad->m_Size.y() / 2 );
int dx = pad->m_Size.x / 2;
int dy = pad->m_Size.y / 2;
switch( pad->m_PadShape )
{
default:
case PAD_CIRCLE:
pad_type = "ROUND"; // how about oval holes?
fprintf( file, " %s %d\n", pad_type, ( int )TO_LEGACY_LU( pad->m_Drill.x() ) );
pad_type = "ROUND";
fprintf( file, " %s %d\n", pad_type, pad->m_Drill.x );
fprintf( file, "CIRCLE %d %d %d\n",
TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ), dx );
pad->m_Offset.x, -pad->m_Offset.y, dx );
break;
case PAD_RECT:
pad_type = "RECTANGULAR";
fprintf( file, " %s %d\n", pad_type, ( int )TO_LEGACY_LU( pad->m_Drill.x() ) );
fprintf( file, " %s %d\n", pad_type, pad->m_Drill.x );
fprintf( file, "RECTANGLE %d %d %d %d\n",
TO_LEGACY_LU( pad->m_Offset.x() ) - dx, -TO_LEGACY_LU( pad->m_Offset.y() ) - dy,
TO_LEGACY_LU( pad->m_Size.x() ), TO_LEGACY_LU( pad->m_Size.y() ) );
pad->m_Offset.x - dx, -pad->m_Offset.y - dy,
pad->m_Size.x, pad->m_Size.y );
break;
case PAD_OVAL: /* Create outline by 2 lines and 2 arcs */
{
pad_type = "FINGER";
fprintf( file, " %s %d\n", pad_type, ( int )TO_LEGACY_LU( pad->m_Drill.x() ) );
fprintf( file, " %s %d\n", pad_type, pad->m_Drill.x );
int dr = dx - dy;
if( dr >= 0 ) // Horizontal oval
{
int radius = dy;
fprintf( file, "LINE %d %d %d %d\n",
-dr + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) - radius,
dr + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) - radius );
-dr + pad->m_Offset.x, -pad->m_Offset.y - radius,
dr + pad->m_Offset.x, -pad->m_Offset.y - radius );
fprintf( file, "ARC %d %d %d %d %d %d\n",
dr + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) - radius,
dr + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) + radius,
dr + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) );
dr + pad->m_Offset.x, -pad->m_Offset.y - radius,
dr + pad->m_Offset.x, -pad->m_Offset.y + radius,
dr + pad->m_Offset.x, -pad->m_Offset.y );
fprintf( file, "LINE %d %d %d %d\n",
dr + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) + radius,
-dr + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) + radius );
dr + pad->m_Offset.x, -pad->m_Offset.y + radius,
-dr + pad->m_Offset.x, -pad->m_Offset.y + radius );
fprintf( file, "ARC %d %d %d %d %d %d\n",
-dr + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) + radius,
-dr + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) - radius,
-dr + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) );
-dr + pad->m_Offset.x, -pad->m_Offset.y + radius,
-dr + pad->m_Offset.x, -pad->m_Offset.y - radius,
-dr + pad->m_Offset.x, -pad->m_Offset.y );
}
else // Vertical oval
{
dr = -dr;
int radius = dx;
fprintf( file, "LINE %d %d %d %d\n",
-radius + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) - dr,
-radius + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) + dr );
-radius + pad->m_Offset.x, -pad->m_Offset.y - dr,
-radius + pad->m_Offset.x, -pad->m_Offset.y + dr );
fprintf( file, "ARC %d %d %d %d %d %d\n",
-radius + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) + dr,
radius + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) + dr,
TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) + dr );
-radius + pad->m_Offset.x, -pad->m_Offset.y + dr,
radius + pad->m_Offset.x, -pad->m_Offset.y + dr,
pad->m_Offset.x, -pad->m_Offset.y + dr );
fprintf( file, "LINE %d %d %d %d\n",
radius + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) + dr,
radius + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) - dr );
radius + pad->m_Offset.x, -pad->m_Offset.y + dr,
radius + pad->m_Offset.x, -pad->m_Offset.y - dr );
fprintf( file, "ARC %d %d %d %d %d %d\n",
radius + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) - dr,
-radius + TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) - dr,
TO_LEGACY_LU( pad->m_Offset.x() ), -TO_LEGACY_LU( pad->m_Offset.y() ) - dr );
radius + pad->m_Offset.x, -pad->m_Offset.y - dr,
-radius + pad->m_Offset.x, -pad->m_Offset.y - dr,
pad->m_Offset.x, -pad->m_Offset.y - dr );
}
break;
}
@ -410,7 +410,7 @@ void CreateShapesSection( FILE* file, BOARD* pcb )
NORMALIZE_ANGLE_POS( orient );
fprintf( file, "PIN %s PAD%d %d %d %s %d %s",
TO_UTF8( pinname ), pad->GetSubRatsnest(),
TO_LEGACY_LU( pad->m_Pos0.x() ), TO_LEGACY_LU( -pad->m_Pos0.y() ),
pad->m_Pos0.x, -pad->m_Pos0.y,
layer, orient / 10, mirror );
if( orient % 10 )

View File

@ -881,11 +881,11 @@ static void export_vrml_edge_module( EDGE_MODULE* module ) /*{{{*/
static void export_vrml_pad( BOARD* pcb, D_PAD* pad ) /*{{{*/
{
double hole_drill_w = (double) TO_LEGACY_LU_DBL( pad->m_Drill.x() / 2 );
double hole_drill_h = (double) TO_LEGACY_LU_DBL( pad->m_Drill.y() / 2 );
double hole_drill_w = (double) pad->m_Drill.x / 2;
double hole_drill_h = (double) pad->m_Drill.y / 2;
double hole_drill = MIN( hole_drill_w, hole_drill_h );
double hole_x = TO_LEGACY_LU_DBL( pad->m_Pos.x() );
double hole_y = TO_LEGACY_LU_DBL( pad->m_Pos.y() );
double hole_x = pad->m_Pos.x;
double hole_y = pad->m_Pos.y;
/* Export the hole on the edge layer */
if( hole_drill > 0 )
@ -913,11 +913,11 @@ static void export_vrml_pad( BOARD* pcb, D_PAD* pad ) /*{{{*/
wxPoint pad_pos = pad->ReturnShapePos();
double pad_x = pad_pos.x;
double pad_y = pad_pos.y;
wxSize pad_delta = TO_LEGACY_LU_WXS( pad->m_DeltaSize );
wxSize pad_delta = pad->m_DeltaSize;
double pad_dx = pad_delta.x / 2;
double pad_dy = pad_delta.y / 2;
double pad_w = TO_LEGACY_LU_DBL( pad->m_Size.x() / 2 );
double pad_h = TO_LEGACY_LU_DBL( pad->m_Size.y() / 2 );
double pad_w = pad->m_Size.x / 2;
double pad_h = pad->m_Size.y / 2;
for( int layer = FIRST_COPPER_LAYER; layer < copper_layers; layer++ )
{

View File

@ -127,22 +127,21 @@ void Build_Holes_List( BOARD* aPcb,
if( aGenerateNPTH_list && pad->m_Attribut != PAD_HOLE_NOT_PLATED )
continue;
if( pad->m_Drill.x() == ZERO_LENGTH )
if( pad->m_Drill.x == 0 )
continue;
new_hole.m_Hole_NotPlated = (pad->m_Attribut == PAD_HOLE_NOT_PLATED);
new_hole.m_Tool_Reference = -1; // Flag is: Not initialized
new_hole.m_Hole_Orient = pad->m_Orient;
new_hole.m_Hole_Shape = 0; // hole shape: round
new_hole.m_Hole_Diameter = min( TO_LEGACY_LU( pad->m_Drill.x() ), TO_LEGACY_LU( pad->m_Drill.y() ) );
new_hole.m_Hole_Diameter = min( pad->m_Drill.x, pad->m_Drill.y );
new_hole.m_Hole_Size.x = new_hole.m_Hole_Size.y = new_hole.m_Hole_Diameter;
if( pad->m_DrillShape != PAD_CIRCLE )
new_hole.m_Hole_Shape = 1; // oval flag set
new_hole.m_Hole_Size.x = TO_LEGACY_LU( pad->m_Drill.x() );
new_hole.m_Hole_Size.y = TO_LEGACY_LU( pad->m_Drill.y() );
new_hole.m_Hole_Pos = TO_LEGACY_LU_WXP( pad->m_Pos ); // hole position
new_hole.m_Hole_Size = pad->m_Drill;
new_hole.m_Hole_Pos = pad->m_Pos; // hole position
new_hole.m_Hole_Bottom_Layer = LAYER_N_BACK;
new_hole.m_Hole_Top_Layer = LAYER_N_FRONT;// pad holes are through holes
aHoleListBuffer.push_back( new_hole );

View File

@ -438,20 +438,19 @@ void PCB_EDIT_FRAME::GenModuleReport( wxCommandEvent& event )
{
fprintf( rptfile, "$PAD \"%.4s\"\n", pad->m_Padname );
sprintf( line, "position %9.6f %9.6f\n",
TO_LEGACY_LU_DBL( pad->m_Pos0.x() ) * conv_unit,
TO_LEGACY_LU_DBL( pad->m_Pos0.y() ) * conv_unit );
pad->m_Pos0.x * conv_unit,
pad->m_Pos0.y * conv_unit );
fputs( line, rptfile );
sprintf( line, "size %9.6f %9.6f\n",
TO_LEGACY_LU_DBL( pad->m_Size.x() ) * conv_unit,
TO_LEGACY_LU_DBL( pad->m_Size.y() ) * conv_unit );
pad->m_Size.x * conv_unit,
pad->m_Size.y * conv_unit );
fputs( line, rptfile );
sprintf( line, "drill %9.6f\n",
TO_LEGACY_LU_DBL( pad->m_Drill.x() ) * conv_unit );
sprintf( line, "drill %9.6f\n", pad->m_Drill.x * conv_unit );
fputs( line, rptfile );
sprintf( line, "shape_offset %9.6f %9.6f\n",
TO_LEGACY_LU_DBL( pad->m_Offset.x() ) * conv_unit,
TO_LEGACY_LU_DBL( pad->m_Offset.y() ) * conv_unit );
pad->m_Offset.x * conv_unit,
pad->m_Offset.y * conv_unit );
fputs( line, rptfile );
sprintf( line, "orientation %.2f\n",

View File

@ -254,19 +254,19 @@ void PCB_BASE_FRAME::Global_Import_Pad_Settings( D_PAD* aPad, bool aDraw )
if( pt_pad->m_PadShape != PAD_TRAPEZOID )
{
pt_pad->m_DeltaSize.x( ZERO_LENGTH );
pt_pad->m_DeltaSize.y( ZERO_LENGTH );
pt_pad->m_DeltaSize.x = 0;
pt_pad->m_DeltaSize.y = 0;
}
if( pt_pad->m_PadShape == PAD_CIRCLE )
pt_pad->m_Size.y( pt_pad->m_Size.x() );
pt_pad->m_Size.y = pt_pad->m_Size.x;
switch( pt_pad->m_Attribut & 0x7F )
{
case PAD_SMD:
case PAD_CONN:
pt_pad->m_Drill = VECTOR_PCB::fromXY(ZERO_LENGTH, ZERO_LENGTH);//wxSize( 0, 0 );
pt_pad->m_Offset.x( ZERO_LENGTH );
pt_pad->m_Offset.y( ZERO_LENGTH );
pt_pad->m_Drill = wxSize( 0, 0 );
pt_pad->m_Offset.x = 0;
pt_pad->m_Offset.y = 0;
break;
default:

View File

@ -369,14 +369,16 @@ bool MODULE::Read_GPCB_Descr( const wxString& CmpFullFileName )
{
Pad->SetPadName( params[10] );
}
Pad->m_Size.x( FROM_LEGACY_LU( ibuf[4] + abs( ibuf[0] - ibuf[2] ) ) );
Pad->m_Size.y( FROM_LEGACY_LU( ibuf[4] + abs( ibuf[1] - ibuf[3] ) ) );
Pad->m_Pos.x( FROM_LEGACY_LU( (ibuf[0] + ibuf[2]) / 2 + m_Pos.x ) );
Pad->m_Pos.y( FROM_LEGACY_LU( (ibuf[1] + ibuf[3]) / 2 + m_Pos.y ) );
Pad->m_Pos.x = (ibuf[0] + ibuf[2]) / 2;
Pad->m_Pos.y = (ibuf[1] + ibuf[3]) / 2;
Pad->m_Size.x = ibuf[4] + abs( ibuf[0] - ibuf[2] );
Pad->m_Size.y = ibuf[4] + abs( ibuf[1] - ibuf[3] );
Pad->m_Pos.x += m_Pos.x;
Pad->m_Pos.y += m_Pos.y;
if( !TestFlags( params[iflgidx], 0x0100, wxT( "square" ) ) )
{
if( Pad->m_Size.x() == Pad->m_Size.y() )
if( Pad->m_Size.x == Pad->m_Size.y )
Pad->m_PadShape = PAD_ROUND;
else
Pad->m_PadShape = PAD_OVAL;
@ -426,14 +428,14 @@ bool MODULE::Read_GPCB_Descr( const wxString& CmpFullFileName )
Pad->SetPadName( params[9] );
}
Pad->m_Drill.x( FROM_LEGACY_LU( (int) ibuf[5] ) );
Pad->m_Drill.y( Pad->m_Drill.x() );
Pad->m_Size.x( FROM_LEGACY_LU( ibuf[3] ) + Pad->m_Drill.x() );
Pad->m_Size.y( Pad->m_Size.x() );
Pad->m_Pos.x( FROM_LEGACY_LU( ibuf[0] + m_Pos.x ) );
Pad->m_Pos.y( FROM_LEGACY_LU( ibuf[1] + m_Pos.y ) );
Pad->m_Pos.x = ibuf[0];
Pad->m_Pos.y = ibuf[1];
Pad->m_Drill.x = Pad->m_Drill.y = ibuf[5];
Pad->m_Size.x = Pad->m_Size.y = ibuf[3] + Pad->m_Drill.x;
Pad->m_Pos.x += m_Pos.x;
Pad->m_Pos.y += m_Pos.y;
if( (Pad->m_PadShape == PAD_ROUND) && (Pad->m_Size.x() != Pad->m_Size.y()) )
if( (Pad->m_PadShape == PAD_ROUND) && (Pad->m_Size.x != Pad->m_Size.y) )
Pad->m_PadShape = PAD_OVAL;
m_Pads.PushBack( Pad );

View File

@ -89,7 +89,7 @@ void PlacePad( BOARD* Pcb, D_PAD* pt_pad, int color, int marge, int op_logic )
int dx, dy;
wxPoint shape_pos = pt_pad->ReturnShapePos();
dx = TO_LEGACY_LU( pt_pad->m_Size.x() / 2 );
dx = pt_pad->m_Size.x / 2;
dx += marge;
if( pt_pad->m_PadShape == PAD_CIRCLE )
@ -100,13 +100,13 @@ void PlacePad( BOARD* Pcb, D_PAD* pt_pad, int color, int marge, int op_logic )
}
dy = TO_LEGACY_LU( pt_pad->m_Size.y() / 2 );
dy = pt_pad->m_Size.y / 2;
dy += marge;
if( pt_pad->m_PadShape == PAD_TRAPEZOID )
{
dx += TO_LEGACY_LU( abs( pt_pad->m_DeltaSize.y() ) / 2 );
dy += TO_LEGACY_LU( abs( pt_pad->m_DeltaSize.x() ) / 2 );
dx += abs( pt_pad->m_DeltaSize.y ) / 2;
dy += abs( pt_pad->m_DeltaSize.x ) / 2;
}
if( ( pt_pad->m_Orient % 900 ) == 0 ) /* The pad is a rectangle

View File

@ -436,21 +436,20 @@ int PCB_BASE_FRAME::ReadSetup( LINE_READER* aReader )
if( stricmp( line, "TrackWidthList" ) == 0 )
{
//double tmp = atof( data );
GetBoard()->m_TrackWidthList.push_back( LENGTH_LOAD_STR( data ) );
int tmp = atoi( data );
GetBoard()->m_TrackWidthList.push_back( tmp );
continue;
}
if( stricmp( line, "TrackClearence" ) == 0 )
{
netclass_default->Clearance( LENGTH_LOAD_STR( data ) );
netclass_default->SetClearance( atoi( data ) );
continue;
}
if( stricmp( line, "TrackMinWidth" ) == 0 )
{
//double width = atof( data );
GetBoard()->GetBoardDesignSettings()->m_TrackMinWidth = LENGTH_LOAD_STR( data );
GetBoard()->GetBoardDesignSettings()->m_TrackMinWidth = atoi( data );
continue;
}
@ -479,8 +478,7 @@ int PCB_BASE_FRAME::ReadSetup( LINE_READER* aReader )
if( stricmp( line, "ViaMinSize" ) == 0 )
{
//double diameter = atof( data );
GetBoard()->GetBoardDesignSettings()->m_MinVia.m_Diameter = LENGTH_LOAD_STR( data );
GetBoard()->GetBoardDesignSettings()->m_ViasMinSize = atoi( data );
continue;
}
@ -491,23 +489,21 @@ int PCB_BASE_FRAME::ReadSetup( LINE_READER* aReader )
if( stricmp( line, "MicroViaMinSize" ) == 0 )
{
//double diameter = atof( data );
GetBoard()->GetBoardDesignSettings()->m_MinMicroVia.m_Diameter = LENGTH_LOAD_STR( data );
GetBoard()->GetBoardDesignSettings()->m_MicroViasMinSize = atoi( data );
continue;
}
if( stricmp( line, "ViaSizeList" ) == 0 )
{
//double tmp = atof( data );
int tmp = atoi( data );
VIA_DIMENSION via_dim;
via_dim.m_Diameter = LENGTH_LOAD_STR( data );
via_dim.m_Diameter = tmp;
data = strtok( NULL, " \n\r" );
if( data )
{
//tmp = atof( data );
LENGTH_PCB tmp = LENGTH_LOAD_STR( data );
via_dim.m_Drill = tmp > ZERO_LENGTH ? tmp : ZERO_LENGTH;
tmp = atoi( data );
via_dim.m_Drill = tmp > 0 ? tmp : 0;
}
GetBoard()->m_ViasDimensionsList.push_back( via_dim );
@ -516,31 +512,28 @@ int PCB_BASE_FRAME::ReadSetup( LINE_READER* aReader )
if( stricmp( line, "ViaDrill" ) == 0 )
{
VIA_DIMENSION via = netclass_default->Via();
via.m_Drill = LENGTH_LOAD_STR( data );
netclass_default->Via( via );
int diameter = atoi( data );
netclass_default->SetViaDrill( diameter );
continue;
}
if( stricmp( line, "ViaMinDrill" ) == 0 )
{
//double diameter = atof( data );
GetBoard()->GetBoardDesignSettings()->m_MinVia.m_Drill = LENGTH_LOAD_STR( data );
GetBoard()->GetBoardDesignSettings()->m_ViasMinDrill = atoi( data );
continue;
}
if( stricmp( line, "MicroViaDrill" ) == 0 )
{
VIA_DIMENSION via = netclass_default->MicroVia();
via.m_Drill = LENGTH_LOAD_STR( data );
netclass_default->MicroVia( via );
int diameter = atoi( data );
netclass_default->SetuViaDrill( diameter );
continue;
}
if( stricmp( line, "MicroViaMinDrill" ) == 0 )
{
//double diameter = atof( data );
GetBoard()->GetBoardDesignSettings()->m_MinMicroVia.m_Drill = LENGTH_LOAD_STR( data );
int diameter = atoi( data );
GetBoard()->GetBoardDesignSettings()->m_MicroViasMinDrill = diameter;
continue;
}
@ -586,16 +579,16 @@ int PCB_BASE_FRAME::ReadSetup( LINE_READER* aReader )
if( stricmp( line, "PadSize" ) == 0 )
{
g_Pad_Master.m_Size.x( LENGTH_LOAD_STR( data ) );
g_Pad_Master.m_Size.x = atoi( data );
data = strtok( NULL, delims );
g_Pad_Master.m_Size.y( LENGTH_LOAD_STR( data ) );
g_Pad_Master.m_Size.y = atoi( data );
continue;
}
if( stricmp( line, "PadDrill" ) == 0 )
{
g_Pad_Master.m_Drill.x( LENGTH_LOAD_STR( data ) );
g_Pad_Master.m_Drill.y( g_Pad_Master.m_Drill.x() );
g_Pad_Master.m_Drill.x = atoi( data );
g_Pad_Master.m_Drill.y = g_Pad_Master.m_Drill.x;
continue;
}
@ -696,57 +689,41 @@ static int WriteSetup( FILE* aFile, PCB_EDIT_FRAME* aFrame, BOARD* aBoard )
// Save custom tracks width list (the first is not saved here: this is the netclass value
for( unsigned ii = 1; ii < aBoard->m_TrackWidthList.size(); ii++ )
fprintf( aFile, "TrackWidthList "FM_LENSV"\n", ARG_LENSV( aBoard->m_TrackWidthList[ii] ) );
fprintf( aFile, "TrackWidthList %d\n", aBoard->m_TrackWidthList[ii] );
fprintf( aFile,
"TrackClearence "FM_LENSV"\n",
ARG_LENSV( netclass_default->Clearance() ) );
fprintf( aFile, "TrackClearence %d\n", netclass_default->GetClearance() );
fprintf( aFile, "ZoneClearence %d\n", g_Zone_Default_Setting.m_ZoneClearance );
fprintf( aFile,
"TrackMinWidth "FM_LENSV"\n",
ARG_LENSV( aBoard->GetBoardDesignSettings()->m_TrackMinWidth ) );
fprintf( aFile, "TrackMinWidth %d\n", aBoard->GetBoardDesignSettings()->m_TrackMinWidth );
fprintf( aFile, "DrawSegmWidth %d\n", aBoard->GetBoardDesignSettings()->m_DrawSegmentWidth );
fprintf( aFile, "EdgeSegmWidth %d\n", aBoard->GetBoardDesignSettings()->m_EdgeSegmentWidth );
// Save current default via size, for compatibility with older Pcbnew version;
fprintf( aFile,
"ViaSize "FM_LENSV"\n",
ARG_LENSV( netclass_default->Via().m_Diameter ) );
fprintf( aFile,
"ViaDrill "FM_LENSV"\n",
ARG_LENSV( netclass_default->Via().m_Drill ) );
fprintf( aFile,
"ViaMinSize "FM_LENSV"\n",
ARG_LENSV( aBoard->GetBoardDesignSettings()->m_MinVia.m_Diameter ) );
fprintf( aFile,
"ViaMinDrill "FM_LENSV"\n",
ARG_LENSV( aBoard->GetBoardDesignSettings()->m_MinVia.m_Drill ) );
fprintf( aFile, "ViaSize %d\n", netclass_default->GetViaDiameter() );
fprintf( aFile, "ViaDrill %d\n", netclass_default->GetViaDrill() );
fprintf( aFile, "ViaMinSize %d\n", aBoard->GetBoardDesignSettings()->m_ViasMinSize );
fprintf( aFile, "ViaMinDrill %d\n", aBoard->GetBoardDesignSettings()->m_ViasMinDrill );
// Save custom vias diameters list (the first is not saved here: this is
// the netclass value
for( unsigned ii = 1; ii < aBoard->m_ViasDimensionsList.size(); ii++ )
fprintf( aFile, "ViaSizeList "FM_LENSV" "FM_LENSV"\n",
ARG_LENSV( aBoard->m_ViasDimensionsList[ii].m_Diameter ),
ARG_LENSV( aBoard->m_ViasDimensionsList[ii].m_Drill ) );
fprintf( aFile, "ViaSizeList %d %d\n",
aBoard->m_ViasDimensionsList[ii].m_Diameter,
aBoard->m_ViasDimensionsList[ii].m_Drill );
// for old versions compatibility:
fprintf( aFile,
"MicroViaSize "FM_LENSV"\n",
ARG_LENSV( netclass_default->MicroVia().m_Diameter ) );
fprintf( aFile,
"MicroViaDrill "FM_LENSV"\n",
ARG_LENSV( netclass_default->MicroVia().m_Drill ) );
fprintf( aFile, "MicroViaSize %d\n", netclass_default->GetuViaDiameter() );
fprintf( aFile, "MicroViaDrill %d\n", netclass_default->GetuViaDrill() );
fprintf( aFile,
"MicroViasAllowed %d\n",
aBoard->GetBoardDesignSettings()->m_MicroViasAllowed );
fprintf( aFile,
"MicroViaMinSize "FM_LENSV"\n",
ARG_LENSV( aBoard->GetBoardDesignSettings()->m_MinMicroVia.m_Diameter ) );
"MicroViaMinSize %d\n",
aBoard->GetBoardDesignSettings()->m_MicroViasMinSize );
fprintf( aFile,
"MicroViaMinDrill "FM_LENSV"\n",
ARG_LENSV( aBoard->GetBoardDesignSettings()->m_MinMicroVia.m_Drill ) );
"MicroViaMinDrill %d\n",
aBoard->GetBoardDesignSettings()->m_MicroViasMinDrill );
fprintf( aFile, "TextPcbWidth %d\n", aBoard->GetBoardDesignSettings()->m_PcbTextWidth );
fprintf( aFile,
@ -757,8 +734,8 @@ static int WriteSetup( FILE* aFile, PCB_EDIT_FRAME* aFrame, BOARD* aBoard )
fprintf( aFile, "EdgeModWidth %d\n", g_ModuleSegmentWidth );
fprintf( aFile, "TextModSize %d %d\n", g_ModuleTextSize.x, g_ModuleTextSize.y );
fprintf( aFile, "TextModWidth %d\n", g_ModuleTextWidth );
fprintf( aFile, "PadSize "FM_LENSV" "FM_LENSV"\n", ARG_LENSV( g_Pad_Master.m_Size.x() ), ARG_LENSV( g_Pad_Master.m_Size.y() ) );
fprintf( aFile, "PadDrill "FM_LENSV"\n", ARG_LENSV( g_Pad_Master.m_Drill.x() ) );
fprintf( aFile, "PadSize %d %d\n", g_Pad_Master.m_Size.x, g_Pad_Master.m_Size.y );
fprintf( aFile, "PadDrill %d\n", g_Pad_Master.m_Drill.x );
fprintf( aFile,
"Pad2MaskClearance %d\n",
aBoard->GetBoardDesignSettings()->m_SolderMaskMargin );

View File

@ -165,7 +165,7 @@ bool Magnetize( BOARD* m_Pcb, PCB_EDIT_FRAME* frame, int aCurrentTool, wxSize gr
if( doCheckNet && currTrack && currTrack->GetNet() != pad->GetNet() )
return false;
*curpos = TO_LEGACY_LU_WXP( pad->m_Pos );
*curpos = pad->m_Pos;
return true;
}
}

View File

@ -692,7 +692,7 @@ void FOOTPRINT_EDIT_FRAME::Process_Special_Functions( wxCommandEvent& event )
DrawPanel->Refresh();
}
// TODO: this should be refactored in the name of good programming style
void FOOTPRINT_EDIT_FRAME::Transform( MODULE* module, int transform )
{
D_PAD* pad = module->m_Pads;
@ -710,16 +710,9 @@ void FOOTPRINT_EDIT_FRAME::Transform( MODULE* module, int transform )
{
pad->m_Pos0 = pad->m_Pos;
pad->m_Orient -= angle;
wxPoint of;
of.x = TO_LEGACY_LU( pad->m_Offset.x() );
of.y = TO_LEGACY_LU( pad->m_Offset.y() );
RotatePoint( &of.x, &of.y, angle );
pad->m_Offset.x( FROM_LEGACY_LU( of.x ) );
pad->m_Offset.y( FROM_LEGACY_LU( of.y ) );
EXCHG( pad->m_Size[0], pad->m_Size[1] ); /// @TODO: make it using geom. transform
wxSize delta = TO_LEGACY_LU_WXS( pad->m_DeltaSize );
RotatePoint( &delta.x, &delta.y, -angle );
pad->m_DeltaSize = VECTOR_PCB::fromXY( FROM_LEGACY_LU( delta.x ), FROM_LEGACY_LU( delta.y ) );
RotatePoint( &pad->m_Offset.x, &pad->m_Offset.y, angle );
EXCHG( pad->m_Size.x, pad->m_Size.y );
RotatePoint( &pad->m_DeltaSize.x, &pad->m_DeltaSize.y, -angle );
}
module->m_Reference->m_Pos0 = module->m_Reference->m_Pos;
@ -756,10 +749,10 @@ void FOOTPRINT_EDIT_FRAME::Transform( MODULE* module, int transform )
case ID_MODEDIT_MODULE_MIRROR:
for( ; pad != NULL; pad = (D_PAD*) pad->Next() )
{
pad->m_Pos.y( -pad->m_Pos.y() );
pad->m_Pos0.y( -pad->m_Pos0.y() );
pad->m_Offset.y( -pad->m_Offset.y() );
pad->m_DeltaSize.y( -pad->m_DeltaSize.y() );
NEGATE( pad->m_Pos.y );
NEGATE( pad->m_Pos0.y );
NEGATE( pad->m_Offset.y );
NEGATE( pad->m_DeltaSize.y );
if( pad->m_Orient )
pad->m_Orient = 3600 - pad->m_Orient;

View File

@ -23,7 +23,7 @@
static D_PAD* s_CurrentSelectedPad;
static VECTOR_PCB Pad_OldPos;
static wxPoint Pad_OldPos;
/* Cancel move pad command.
@ -76,7 +76,7 @@ static void Show_Pad_Move( EDA_DRAW_PANEL* aPanel, wxDC* aDC, const wxPoint& aPo
if( aErase )
pad->Draw( aPanel, aDC, GR_XOR );
pad->m_Pos = FROM_LEGACY_LU_VEC( screen->GetCrossHairPosition() );
pad->m_Pos = screen->GetCrossHairPosition();
pad->Draw( aPanel, aDC, GR_XOR );
if( !g_Drag_Pistes_On )
@ -91,12 +91,12 @@ static void Show_Pad_Move( EDA_DRAW_PANEL* aPanel, wxDC* aDC, const wxPoint& aPo
if( g_DragSegmentList[ii].m_Pad_Start )
{
Track->m_Start = TO_LEGACY_LU_WXP( pad->m_Pos );
Track->m_Start = pad->m_Pos;
}
if( g_DragSegmentList[ii].m_Pad_End )
{
Track->m_End = TO_LEGACY_LU_WXP( pad->m_Pos );
Track->m_End = pad->m_Pos;
}
Track->Draw( aPanel, aDC, GR_XOR );
@ -148,7 +148,7 @@ void PCB_BASE_FRAME::Import_Pad_Settings( D_PAD* aPad, bool aDraw )
aPad->m_Orient = g_Pad_Master.m_Orient +
( (MODULE*) aPad->GetParent() )->m_Orient;
aPad->m_Size = g_Pad_Master.m_Size;
aPad->m_DeltaSize = VECTOR_PCB::fromXY( ZERO_LENGTH, ZERO_LENGTH );//wxSize( 0, 0 );
aPad->m_DeltaSize = wxSize( 0, 0 );
aPad->m_Offset = g_Pad_Master.m_Offset;
aPad->m_Drill = g_Pad_Master.m_Drill;
aPad->m_DrillShape = g_Pad_Master.m_DrillShape;
@ -160,7 +160,7 @@ void PCB_BASE_FRAME::Import_Pad_Settings( D_PAD* aPad, bool aDraw )
break;
case PAD_CIRCLE:
aPad->m_Size.y( aPad->m_Size.x() );
aPad->m_Size.y = aPad->m_Size.x;
break;
}
@ -168,8 +168,9 @@ void PCB_BASE_FRAME::Import_Pad_Settings( D_PAD* aPad, bool aDraw )
{
case PAD_SMD:
case PAD_CONN:
aPad->m_Drill = VECTOR_PCB::fromXY( ZERO_LENGTH, ZERO_LENGTH ); //wxSize( 0, 0 );
aPad->m_Offset = VECTOR_PCB::fromXY( ZERO_LENGTH, ZERO_LENGTH );
aPad->m_Drill = wxSize( 0, 0 );
aPad->m_Offset.x = 0;
aPad->m_Offset.y = 0;
}
aPad->ComputeShapeMaxRadius();
@ -200,14 +201,12 @@ void PCB_BASE_FRAME::AddPad( MODULE* Module, bool draw )
Import_Pad_Settings( Pad, false );
Pad->SetNetname( wxEmptyString );
Pad->m_Pos = FROM_LEGACY_LU_VEC( GetScreen()->GetCrossHairPosition() );
Pad->m_Pos = GetScreen()->GetCrossHairPosition();
// Set the relative pad position
// ( pad position for module orient, 0, and relative to the module position)
Pad->m_Pos0 = Pad->m_Pos - FROM_LEGACY_LU_VEC( Module->m_Pos );
wxPoint p = TO_LEGACY_LU_WXP( Pad->m_Pos0 );
RotatePoint( &p, -Module->m_Orient );
Pad->m_Pos0 = FROM_LEGACY_LU_VEC( p );
Pad->m_Pos0 = Pad->m_Pos - Module->m_Pos;
RotatePoint( &Pad->m_Pos0, -Module->m_Orient );
/* Automatically increment the current pad number. */
long num = 0;
@ -317,17 +316,17 @@ void PCB_BASE_FRAME::PlacePad( D_PAD* Pad, wxDC* DC )
// Set the old state
if( g_DragSegmentList[ii].m_Pad_Start )
Track->m_Start = TO_LEGACY_LU_WXP( Pad_OldPos );
Track->m_Start = Pad_OldPos;
if( g_DragSegmentList[ii].m_Pad_End )
Track->m_End = TO_LEGACY_LU_WXP( Pad_OldPos );
Track->m_End = Pad_OldPos;
picker.m_PickedItem = Track;
pickList.PushItem( picker );
}
/* Save old module and old items values */
wxPoint pad_curr_position = TO_LEGACY_LU_WXP( Pad->m_Pos );
wxPoint pad_curr_position = Pad->m_Pos;
Pad->m_Pos = Pad_OldPos;
@ -340,7 +339,7 @@ void PCB_BASE_FRAME::PlacePad( D_PAD* Pad, wxDC* DC )
SaveCopyInUndoList( pickList, UR_CHANGED );
}
Pad->m_Pos = FROM_LEGACY_LU_VEC( pad_curr_position );
Pad->m_Pos = pad_curr_position;
Pad->Draw( DrawPanel, DC, GR_XOR );
/* Redraw dragged track segments */
@ -350,10 +349,10 @@ void PCB_BASE_FRAME::PlacePad( D_PAD* Pad, wxDC* DC )
// Set the new state
if( g_DragSegmentList[ii].m_Pad_Start )
Track->m_Start = TO_LEGACY_LU_WXP( Pad->m_Pos );
Track->m_Start = Pad->m_Pos;
if( g_DragSegmentList[ii].m_Pad_End )
Track->m_End = TO_LEGACY_LU_WXP( Pad->m_Pos );
Track->m_End = Pad->m_Pos;
Track->SetState( IN_EDIT, OFF );
@ -362,12 +361,12 @@ void PCB_BASE_FRAME::PlacePad( D_PAD* Pad, wxDC* DC )
}
/* Compute local coordinates (i.e refer to Module position and for Module orient = 0) */
dX = TO_LEGACY_LU( Pad->m_Pos.x() - Pad_OldPos.x() );
dY = TO_LEGACY_LU( Pad->m_Pos.y() - Pad_OldPos.y() );
dX = Pad->m_Pos.x - Pad_OldPos.x;
dY = Pad->m_Pos.y - Pad_OldPos.y;
RotatePoint( &dX, &dY, -Module->m_Orient );
Pad->m_Pos0.x( Pad->m_Pos0.x() + FROM_LEGACY_LU( dX ) );
Pad->m_Pos0.y( Pad->m_Pos0.y() + FROM_LEGACY_LU( dY ) ); /// @BUG was it really s_CurrentSelectedPad ???
Pad->m_Pos0.x += dX;
s_CurrentSelectedPad->m_Pos0.y += dY;
Pad->m_Flags = 0;
@ -402,13 +401,13 @@ void PCB_BASE_FRAME::RotatePad( D_PAD* Pad, wxDC* DC )
if( DC )
Module->Draw( DrawPanel, DC, GR_XOR );
EXCHG( Pad->m_Size[0], Pad->m_Size[1] ); /// @TODO: make it using geom. transform
EXCHG( Pad->m_Drill[0], Pad->m_Drill[1] );
EXCHG( Pad->m_Offset[0], Pad->m_Offset[1] );
Pad->m_Offset.y( -Pad->m_Offset.y() );
EXCHG( Pad->m_Size.x, Pad->m_Size.y );
EXCHG( Pad->m_Drill.x, Pad->m_Drill.y );
EXCHG( Pad->m_Offset.x, Pad->m_Offset.y );
Pad->m_Offset.y = -Pad->m_Offset.y;
EXCHG( Pad->m_DeltaSize[0], Pad->m_DeltaSize[1] );
Pad->m_DeltaSize.x( -Pad->m_DeltaSize.x() );
EXCHG( Pad->m_DeltaSize.x, Pad->m_DeltaSize.y );
Pad->m_DeltaSize.x = -Pad->m_DeltaSize.x;
Module->CalculateBoundingBox();
Pad->DisplayInfo( this );

View File

@ -260,10 +260,9 @@ MODULE* PCB_EDIT_FRAME::Genere_Self( wxDC* DC )
Module->m_Pads.PushFront( PtPad );
PtPad->SetPadName( wxT( "1" ) );
PtPad->m_Pos = FROM_LEGACY_LU_VEC( Mself.m_End );
PtPad->m_Pos0 = PtPad->m_Pos - FROM_LEGACY_LU_VEC( Module->m_Pos );
PtPad->m_Size.x( FROM_LEGACY_LU( Mself.m_Width ) );
PtPad->m_Size.y( PtPad->m_Size.x() );
PtPad->m_Pos = Mself.m_End;
PtPad->m_Pos0 = PtPad->m_Pos - Module->m_Pos;
PtPad->m_Size.x = PtPad->m_Size.y = Mself.m_Width;
PtPad->m_layerMask = g_TabOneLayerMask[Module->GetLayer()];
PtPad->m_Attribut = PAD_SMD;
PtPad->m_PadShape = PAD_CIRCLE;
@ -276,8 +275,8 @@ MODULE* PCB_EDIT_FRAME::Genere_Self( wxDC* DC )
PtPad = newpad;
PtPad->SetPadName( wxT( "2" ) );
PtPad->m_Pos = FROM_LEGACY_LU_VEC( Mself.m_Start );
PtPad->m_Pos0 = PtPad->m_Pos - FROM_LEGACY_LU_VEC( Module->m_Pos );
PtPad->m_Pos = Mself.m_Start;
PtPad->m_Pos0 = PtPad->m_Pos - Module->m_Pos;
/* Modify text positions. */
Module->DisplayInfo( this );
@ -553,9 +552,8 @@ MODULE* PCB_EDIT_FRAME::Create_MuWaveBasicShape( const wxString& name, int pad_c
Module->m_Pads.PushFront( pad );
pad->m_Size.x( FROM_LEGACY_LU( GetBoard()->GetCurrentTrackWidth() ) );
pad->m_Size.y( pad->m_Size.x() );
pad->m_Pos = FROM_LEGACY_LU_VEC( Module->m_Pos );
pad->m_Size.x = pad->m_Size.y = GetBoard()->GetCurrentTrackWidth();
pad->m_Pos = Module->m_Pos;
pad->m_PadShape = PAD_RECT;
pad->m_Attribut = PAD_SMD;
pad->m_layerMask = LAYER_FRONT;
@ -658,19 +656,19 @@ MODULE* PCB_EDIT_FRAME::Create_MuWaveComponent( int shape_type )
switch( shape_type )
{
case 0: //Gap :
pad->m_Pos0.x( FROM_LEGACY_LU( oX = -( gap_size + TO_LEGACY_LU( pad->m_Size.x() ) ) / 2 ) );
pad->m_Pos.x( pad->m_Pos.x() + pad->m_Pos0.x() );
oX = pad->m_Pos0.x = -( gap_size + pad->m_Size.x ) / 2;
pad->m_Pos.x += pad->m_Pos0.x;
pad = pad->Next();
pad->m_Pos0.x( FROM_LEGACY_LU( oX + gap_size + TO_LEGACY_LU( pad->m_Size.x() ) ) );
pad->m_Pos.x( pad->m_Pos.x() + pad->m_Pos0.x() );
pad->m_Pos0.x = oX + gap_size + pad->m_Size.x;
pad->m_Pos.x += pad->m_Pos0.x;
break;
case 1: //Stub :
pad->SetPadName( wxT( "1" ) );
pad = pad->Next();
pad->m_Pos0.y( FROM_LEGACY_LU( -( gap_size + TO_LEGACY_LU( pad->m_Size.y() ) ) / 2 ) );
pad->m_Size.y( FROM_LEGACY_LU( gap_size ) );
pad->m_Pos.y( pad->m_Pos.y() + pad->m_Pos0.y() );
pad->m_Pos0.y = -( gap_size + pad->m_Size.y ) / 2;
pad->m_Size.y = gap_size;
pad->m_Pos.y += pad->m_Pos0.y;
break;
case 2: // Arc Stub created by a polygonal approach:
@ -685,7 +683,7 @@ MODULE* PCB_EDIT_FRAME::Create_MuWaveComponent( int shape_type )
std::vector<wxPoint> polyPoints = edge->GetPolyPoints();
polyPoints.reserve( numPoints );
edge->m_Start0.y = TO_LEGACY_LU( -pad->m_Size.y() / 2 );
edge->m_Start0.y = -pad->m_Size.y / 2;
polyPoints.push_back( wxPoint( 0, 0 ) );
@ -970,12 +968,12 @@ MODULE* PCB_EDIT_FRAME::Create_MuWavePolygonShape()
Module = Create_MuWaveBasicShape( cmp_name, pad_count );
pad1 = Module->m_Pads;
pad1->m_Pos0.x( FROM_LEGACY_LU( -ShapeSize.x / 2 ) );
pad1->m_Pos.x( pad1->m_Pos.x() + pad1->m_Pos0.x() );
pad1->m_Pos0.x = -ShapeSize.x / 2;
pad1->m_Pos.x += pad1->m_Pos0.x;
pad2 = (D_PAD*) pad1->Next();
pad2->m_Pos0.x( pad1->m_Pos0.x() + FROM_LEGACY_LU( ShapeSize.x ) );
pad2->m_Pos.x( pad2->m_Pos.x() + pad2->m_Pos0.x() );
pad2->m_Pos0.x = pad1->m_Pos0.x + ShapeSize.x;
pad2->m_Pos.x += pad2->m_Pos0.x;
edge = new EDGE_MODULE( Module );
@ -989,13 +987,13 @@ MODULE* PCB_EDIT_FRAME::Create_MuWavePolygonShape()
polyPoints.reserve( 2 * PolyEdges.size() + 2 );
// Init start point coord:
polyPoints.push_back( wxPoint( TO_LEGACY_LU( pad1->m_Pos0.x() ), 0 ) );
polyPoints.push_back( wxPoint( pad1->m_Pos0.x, 0 ) );
wxPoint first_coordinate, last_coordinate;
for( unsigned ii = 0; ii < PolyEdges.size(); ii++ ) // Copy points
{
last_coordinate.x = wxRound( PolyEdges[ii] * ShapeScaleX ) + TO_LEGACY_LU( pad1->m_Pos0.x() );
last_coordinate.x = wxRound( PolyEdges[ii] * ShapeScaleX ) + pad1->m_Pos0.x;
last_coordinate.y = -wxRound( PolyEdges[ii] * ShapeScaleY );
polyPoints.push_back( last_coordinate );
}
@ -1007,17 +1005,15 @@ MODULE* PCB_EDIT_FRAME::Create_MuWavePolygonShape()
case 0: // Single
case 2: // Single mirrored
// Init end point coord:
pad2->m_Pos0.x( FROM_LEGACY_LU( last_coordinate.x ) );
pad2->m_Pos0.x = last_coordinate.x;
polyPoints.push_back( wxPoint( last_coordinate.x, 0 ) );
pad1->m_Size.x( FROM_LEGACY_LU( abs( first_coordinate.y ) ) );
pad1->m_Size.y( pad1->m_Size.x() );
pad2->m_Size.x( FROM_LEGACY_LU( abs( last_coordinate.y ) ) );
pad2->m_Size.y( pad2->m_Size.x() );
pad1->m_Pos0.y( FROM_LEGACY_LU( first_coordinate.y / 2 ) );
pad2->m_Pos0.y( FROM_LEGACY_LU( last_coordinate.y / 2 ) );
pad1->m_Pos.y( pad1->m_Pos0.y() + FROM_LEGACY_LU( Module->m_Pos.y ) );
pad2->m_Pos.y( pad2->m_Pos0.y() + FROM_LEGACY_LU( Module->m_Pos.y ) );
pad1->m_Size.x = pad1->m_Size.y = ABS( first_coordinate.y );
pad2->m_Size.x = pad2->m_Size.y = ABS( last_coordinate.y );
pad1->m_Pos0.y = first_coordinate.y / 2;
pad2->m_Pos0.y = last_coordinate.y / 2;
pad1->m_Pos.y = pad1->m_Pos0.y + Module->m_Pos.y;
pad2->m_Pos.y = pad2->m_Pos0.y + Module->m_Pos.y;
break;
case 1: // Symmetric
@ -1030,10 +1026,8 @@ MODULE* PCB_EDIT_FRAME::Create_MuWavePolygonShape()
polyPoints.push_back( pt );
}
pad1->m_Size.x( FROM_LEGACY_LU( 2 * abs( first_coordinate.y ) ) );
pad1->m_Size.y( pad1->m_Size.x() );
pad2->m_Size.x( FROM_LEGACY_LU( 2 * abs( last_coordinate.y ) ) );
pad2->m_Size.y( pad2->m_Size.x() );
pad1->m_Size.x = pad1->m_Size.y = 2 * ABS( first_coordinate.y );
pad2->m_Size.x = pad2->m_Size.y = 2 * ABS( last_coordinate.y );
break;
}
@ -1079,7 +1073,7 @@ void PCB_EDIT_FRAME::Edit_Gap( wxDC* DC, MODULE* Module )
Module->Draw( DrawPanel, DC, GR_XOR );
/* Calculate the current dimension. */
gap_size = TO_LEGACY_LU( next_pad->m_Pos0.x() - pad->m_Pos0.x() - pad->m_Size.x() );
gap_size = next_pad->m_Pos0.x - pad->m_Pos0.x - pad->m_Size.x;
/* Entrer the desired length of the gap. */
msg = ReturnStringFromValue( g_UserUnit, gap_size, GetScreen()->GetInternalUnits() );
@ -1092,29 +1086,21 @@ void PCB_EDIT_FRAME::Edit_Gap( wxDC* DC, MODULE* Module )
gap_size = ReturnValueFromString( g_UserUnit, msg, GetScreen()->GetInternalUnits() );
/* Updating sizes of pads forming the gap. */
pad->m_Size.x( FROM_LEGACY_LU( GetBoard()->GetCurrentTrackWidth() ) );
pad->m_Size.y( pad->m_Size.x() );
pad->m_Pos0.y( ZERO_LENGTH );
pad->m_Pos0.x( FROM_LEGACY_LU( oX = -( ( gap_size + TO_LEGACY_LU( pad->m_Size.x() ) ) / 2 ) ) );
pad->m_Pos.x( pad->m_Pos0.x() + FROM_LEGACY_LU( Module->m_Pos.x ) );
pad->m_Pos.y( pad->m_Pos0.y() + FROM_LEGACY_LU( Module->m_Pos.y ) );
wxPoint pos = TO_LEGACY_LU_WXP( pad->m_Pos );
RotatePoint( &pos.x, &pos.y,
pad->m_Size.x = pad->m_Size.y = GetBoard()->GetCurrentTrackWidth();
pad->m_Pos0.y = 0;
oX = pad->m_Pos0.x = -( (gap_size + pad->m_Size.x) / 2 );
pad->m_Pos.x = pad->m_Pos0.x + Module->m_Pos.x;
pad->m_Pos.y = pad->m_Pos0.y + Module->m_Pos.y;
RotatePoint( &pad->m_Pos.x, &pad->m_Pos.y,
Module->m_Pos.x, Module->m_Pos.y, Module->m_Orient );
pad->m_Pos = FROM_LEGACY_LU_VEC( pos );
next_pad->m_Size.x( FROM_LEGACY_LU( GetBoard()->GetCurrentTrackWidth() ) );
next_pad->m_Size.y( next_pad->m_Size.x() );
next_pad->m_Pos0.y( ZERO_LENGTH );
next_pad->m_Pos0.x( FROM_LEGACY_LU( oX + gap_size + TO_LEGACY_LU( next_pad->m_Size.x() ) ) );
next_pad->m_Pos.x( next_pad->m_Pos0.x() + FROM_LEGACY_LU( Module->m_Pos.x ) );
next_pad->m_Pos.y( next_pad->m_Pos0.y() + FROM_LEGACY_LU( Module->m_Pos.y ) );
pos = TO_LEGACY_LU_WXP( next_pad->m_Pos );
RotatePoint( &pos.x, &pos.y,
next_pad->m_Size.x = next_pad->m_Size.y = GetBoard()->GetCurrentTrackWidth();
next_pad->m_Pos0.y = 0;
next_pad->m_Pos0.x = oX + gap_size + next_pad->m_Size.x;
next_pad->m_Pos.x = next_pad->m_Pos0.x + Module->m_Pos.x;
next_pad->m_Pos.y = next_pad->m_Pos0.y + Module->m_Pos.y;
RotatePoint( &next_pad->m_Pos.x, &next_pad->m_Pos.y,
Module->m_Pos.x, Module->m_Pos.y, Module->m_Orient );
next_pad->m_Pos = FROM_LEGACY_LU_VEC( pos );
Module->Draw( DrawPanel, DC, GR_OR );
}

View File

@ -839,8 +839,7 @@ static wxMenu* Append_Track_Width_List( BOARD* aBoard )
for( unsigned ii = 0; ii < aBoard->m_TrackWidthList.size(); ii++ )
{
value = ReturnStringFromValue( g_UserUnit,
TO_LEGACY_LU( aBoard->m_TrackWidthList[ii] ),
value = ReturnStringFromValue( g_UserUnit, aBoard->m_TrackWidthList[ii],
PCB_INTERNAL_UNIT, true );
msg.Printf( _( "Track %s" ), GetChars( value ) );
@ -854,14 +853,13 @@ static wxMenu* Append_Track_Width_List( BOARD* aBoard )
for( unsigned ii = 0; ii < aBoard->m_ViasDimensionsList.size(); ii++ )
{
value = ReturnStringFromValue( g_UserUnit,
TO_LEGACY_LU( aBoard->m_ViasDimensionsList[ii].m_Diameter ),
value = ReturnStringFromValue( g_UserUnit, aBoard->m_ViasDimensionsList[ii].m_Diameter,
PCB_INTERNAL_UNIT, true );
wxString drill = ReturnStringFromValue( g_UserUnit,
TO_LEGACY_LU( aBoard->m_ViasDimensionsList[ii].m_Drill ),
aBoard->m_ViasDimensionsList[ii].m_Drill,
PCB_INTERNAL_UNIT, true );
if( TO_LEGACY_LU( aBoard->m_ViasDimensionsList[ii].m_Drill ) <= 0 )
if( aBoard->m_ViasDimensionsList[ii].m_Drill <= 0 )
{
msg.Printf( _( "Via %s" ), GetChars( value ) );
}

View File

@ -217,25 +217,12 @@ PARAM_CFG_ARRAY& PCB_EDIT_FRAME::GetProjectFileParameters()
m_projectFileParams.push_back( new PARAM_CFG_LIBNAME_LIST( wxT( "LibName" ),
&g_LibraryNames,
GROUPLIB ) );
//#ifdef KICAD_NANOMETRE
/* TODO: something should be done here!!! */
//#else
m_projectFileParams.push_back( new PARAM_CFG_LENGTH_PCB( wxT( "PadDrlX" ),
&g_Pad_Master.m_Drill[0],
FROM_LEGACY_LU( 320 ),
ZERO_LENGTH,
FROM_LEGACY_LU( 0x7FFF ) ) );
m_projectFileParams.push_back( new PARAM_CFG_LENGTH_PCB( wxT( "PadDimH" ),
&g_Pad_Master.m_Size[0],
FROM_LEGACY_LU( 550 ),
ZERO_LENGTH,
FROM_LEGACY_LU( 0x7FFF ) ) );
m_projectFileParams.push_back( new PARAM_CFG_LENGTH_PCB( wxT( "PadDimV" ),
&g_Pad_Master.m_Size[1],
FROM_LEGACY_LU( 550 ),
ZERO_LENGTH,
FROM_LEGACY_LU( 0x7FFF ) ) );
//#endif
m_projectFileParams.push_back( new PARAM_CFG_INT( wxT( "PadDrlX" ), &g_Pad_Master.m_Drill.x,
320, 0, 0x7FFF ) );
m_projectFileParams.push_back( new PARAM_CFG_INT( wxT( "PadDimH" ), &g_Pad_Master.m_Size.x,
550, 0, 0x7FFF ) );
m_projectFileParams.push_back( new PARAM_CFG_INT( wxT( "PadDimV" ), &g_Pad_Master.m_Size.y,
550, 0, 0x7FFF ) );
m_projectFileParams.push_back( new PARAM_CFG_INT( wxT( "BoardThickness" ),
&boardDesignSettings.m_BoardThickness,
630, 0, 0xFFFF ) );

View File

@ -97,11 +97,11 @@ void PCB_BASE_FRAME::PlotSilkScreen( PLOTTER* plotter, int aLayerMask, GRTraceMo
switch( pad->m_PadShape & 0x7F )
{
case PAD_CIRCLE:
plotter->flash_pad_circle( shape_pos, TO_LEGACY_LU( pad->m_Size.x() ), FILAIRE );
plotter->flash_pad_circle( shape_pos, pad->m_Size.x, FILAIRE );
break;
case PAD_OVAL:
plotter->flash_pad_oval( shape_pos, TO_LEGACY_LU_WXS( pad->m_Size ), pad->m_Orient, FILAIRE );
plotter->flash_pad_oval( shape_pos, pad->m_Size, pad->m_Orient, FILAIRE );
break;
case PAD_TRAPEZOID:
@ -114,7 +114,7 @@ void PCB_BASE_FRAME::PlotSilkScreen( PLOTTER* plotter, int aLayerMask, GRTraceMo
case PAD_RECT:
default:
plotter->flash_pad_rect( shape_pos, TO_LEGACY_LU_WXS( pad->m_Size ), pad->m_Orient, FILAIRE );
plotter->flash_pad_rect( shape_pos, pad->m_Size, pad->m_Orient, FILAIRE );
break;
}
}
@ -840,8 +840,8 @@ void PCB_BASE_FRAME::Plot_Standard_Layer( PLOTTER* aPlotter,
break;
}
size.x = TO_LEGACY_LU( pad->m_Size.x() ) + ( 2 * margin.x );
size.y = TO_LEGACY_LU( pad->m_Size.y() ) + ( 2 * margin.y );
size.x = pad->m_Size.x + ( 2 * margin.x );
size.y = pad->m_Size.y + ( 2 * margin.y );
/* Don't draw a null size item : */
if( size.x <= 0 || size.y <= 0 )
@ -851,8 +851,7 @@ void PCB_BASE_FRAME::Plot_Standard_Layer( PLOTTER* aPlotter,
{
case PAD_CIRCLE:
if( aSkipNPTH_Pads &&
( pad->m_Size.x() == pad->m_Drill.x() ) &&
( pad->m_Size.y() == pad->m_Drill.y() ) &&
(pad->m_Size == pad->m_Drill) &&
(pad->m_Attribut == PAD_HOLE_NOT_PLATED) )
break;
@ -861,8 +860,7 @@ void PCB_BASE_FRAME::Plot_Standard_Layer( PLOTTER* aPlotter,
case PAD_OVAL:
if( aSkipNPTH_Pads &&
(pad->m_Size.x() == pad->m_Drill.x() ) &&
(pad->m_Size.y() == pad->m_Drill.y() ) &&
(pad->m_Size == pad->m_Drill) &&
(pad->m_Attribut == PAD_HOLE_NOT_PLATED) )
break;
@ -1018,21 +1016,20 @@ void PCB_BASE_FRAME::PlotDrillMark( PLOTTER* aPlotter,
{
for( PtPad = Module->m_Pads; PtPad != NULL; PtPad = PtPad->Next() )
{
if( PtPad->m_Drill.x() == ZERO_LENGTH )
if( PtPad->m_Drill.x == 0 )
continue;
// Output hole shapes:
pos = TO_LEGACY_LU_WXP( PtPad->m_Pos );
pos = PtPad->m_Pos;
if( PtPad->m_DrillShape == PAD_OVAL )
{
diam.x = TO_LEGACY_LU( PtPad->m_Drill.x() );
diam.y = TO_LEGACY_LU( PtPad->m_Drill.y() );
diam = PtPad->m_Drill;
aPlotter->flash_pad_oval( pos, diam, PtPad->m_Orient, aTraceMode );
}
else
{
diam.x = aSmallDrillShape ? SMALL_DRILL : TO_LEGACY_LU( PtPad->m_Drill.x() );
diam.x = aSmallDrillShape ? SMALL_DRILL : PtPad->m_Drill.x;
aPlotter->flash_pad_circle( pos, diam.x, aTraceMode );
}
}

View File

@ -351,18 +351,16 @@ static void Print_Module( EDA_DRAW_PANEL* aPanel, wxDC* aDC, MODULE* aModule,
continue;
// Manage hole according to the print drill option
wxSize drill_tmp;
drill_tmp.x = TO_LEGACY_LU( pt_pad->m_Drill.x() );
drill_tmp.y = TO_LEGACY_LU( pt_pad->m_Drill.y() );
wxSize drill_tmp = pt_pad->m_Drill;
switch ( aDrillShapeOpt )
{
case PRINT_PARAMETERS::NO_DRILL_SHAPE:
pt_pad->m_Drill = VECTOR_PCB::fromXY(ZERO_LENGTH, ZERO_LENGTH); //wxSize(0,0);
pt_pad->m_Drill = wxSize(0,0);
break;
case PRINT_PARAMETERS::SMALL_DRILL_SHAPE:
pt_pad->m_Drill.x( min( FROM_LEGACY_LU( SMALL_DRILL ),pt_pad->m_Drill.x() ) );
pt_pad->m_Drill.y( min( FROM_LEGACY_LU( SMALL_DRILL ),pt_pad->m_Drill.y() ) );
pt_pad->m_Drill.x = MIN(SMALL_DRILL,pt_pad->m_Drill.x);
pt_pad->m_Drill.y = MIN(SMALL_DRILL,pt_pad->m_Drill.y);
break;
case PRINT_PARAMETERS::FULL_DRILL_SHAPE:
// Do nothing
@ -370,8 +368,7 @@ static void Print_Module( EDA_DRAW_PANEL* aPanel, wxDC* aDC, MODULE* aModule,
}
pt_pad->Draw( aPanel, aDC, aDraw_mode );
pt_pad->m_Drill.x( FROM_LEGACY_LU( drill_tmp.x ) );
pt_pad->m_Drill.y( FROM_LEGACY_LU( drill_tmp.y ) );
pt_pad->m_Drill = drill_tmp;
}
/* Print footprint graphic shapes */

View File

@ -107,8 +107,8 @@ int MIN_SPAN_TREE_PADS::GetWeight( int aItem1, int aItem2 )
if( pad1 == pad2 )
return 0;
int weight = TO_LEGACY_LU( abs( pad2->m_Pos.x() - pad1->m_Pos.x() ) +
abs( pad2->m_Pos.y() - pad1->m_Pos.y() ) );
int weight = abs( pad2->m_Pos.x - pad1->m_Pos.x ) +
abs( pad2->m_Pos.y - pad1->m_Pos.y );
return weight + 1;
}
@ -667,7 +667,7 @@ void PCB_BASE_FRAME::build_ratsnest_module( MODULE* aModule )
local_rats.m_Lenght = INT_MAX;
}
pad_pos = TO_LEGACY_LU_WXP( pad_ref->m_Pos ) - g_Offset_Module;
pad_pos = pad_ref->m_Pos - g_Offset_Module;
// Search the nearest external pad of this current pad
for( unsigned jj = pads_module_count; jj < localPadList.size(); jj++ )
@ -681,8 +681,8 @@ void PCB_BASE_FRAME::build_ratsnest_module( MODULE* aModule )
if( pad_externe->GetNet() > pad_ref->GetNet() ) // pads are sorted by net code
break;
distance = abs( TO_LEGACY_LU( pad_externe->m_Pos.x() ) - pad_pos.x ) +
abs( TO_LEGACY_LU( pad_externe->m_Pos.y() ) - pad_pos.y );
distance = abs( pad_externe->m_Pos.x - pad_pos.x ) +
abs( pad_externe->m_Pos.y - pad_pos.y );
if( distance < local_rats.m_Lenght )
{
@ -724,8 +724,8 @@ void PCB_BASE_FRAME::TraceModuleRatsNest( wxDC* DC )
else
{
g_ColorsSettings.SetItemColor(RATSNEST_VISIBLE, tmpcolor);
VECTOR_PCB tmp = rats->m_PadStart->m_Pos;
rats->m_PadStart->m_Pos -= FROM_LEGACY_LU_VEC( g_Offset_Module );
wxPoint tmp = rats->m_PadStart->m_Pos;
rats->m_PadStart->m_Pos -= g_Offset_Module;
rats->Draw( DrawPanel, DC, GR_XOR, wxPoint( 0, 0 ) );
rats->m_PadStart->m_Pos = tmp;
}
@ -827,7 +827,7 @@ void PCB_BASE_FRAME::BuildAirWiresTargetsList( BOARD_CONNECTED_ITEM* aItemRef,
continue;
if( !pad->GetSubNet() || (pad->GetSubNet() != subnet) )
s_TargetsLocations.push_back( TO_LEGACY_LU_WXP( pad->m_Pos ) );
s_TargetsLocations.push_back( pad->m_Pos );
}
// Create a list of tracks ends candidates, not already connected to the

View File

@ -464,8 +464,8 @@ static int Autoroute_One_Track( PCB_EDIT_FRAME* pcbframe,
+ pcbframe->GetBoard()->m_BoundaryBox.m_Pos.x;
int cY = ( Board.m_GridRouting * row_source )
+ pcbframe->GetBoard()->m_BoundaryBox.m_Pos.y;
int dx = TO_LEGACY_LU( pt_cur_ch->m_PadStart->m_Size.x() / 2 );
int dy = TO_LEGACY_LU( pt_cur_ch->m_PadStart->m_Size.y() / 2 );
int dx = pt_cur_ch->m_PadStart->m_Size.x / 2;
int dy = pt_cur_ch->m_PadStart->m_Size.y / 2;
int px = pt_cur_ch->m_PadStart->GetPosition().x;
int py = pt_cur_ch->m_PadStart->GetPosition().y;
@ -479,8 +479,8 @@ static int Autoroute_One_Track( PCB_EDIT_FRAME* pcbframe,
+ pcbframe->GetBoard()->m_BoundaryBox.m_Pos.x;
cY = ( Board.m_GridRouting * row_target )
+ pcbframe->GetBoard()->m_BoundaryBox.m_Pos.y;
dx = TO_LEGACY_LU( pt_cur_ch->m_PadEnd->m_Size.x() / 2 );
dy = TO_LEGACY_LU( pt_cur_ch->m_PadEnd->m_Size.y() / 2 );
dx = pt_cur_ch->m_PadEnd->m_Size.x / 2;
dy = pt_cur_ch->m_PadEnd->m_Size.y / 2;
px = pt_cur_ch->m_PadEnd->GetPosition().x;
py = pt_cur_ch->m_PadEnd->GetPosition().y;

View File

@ -250,7 +250,7 @@ static bool isRoundKeepout( D_PAD* aPad )
{
if( aPad->m_PadShape==PAD_CIRCLE )
{
if( aPad->m_Drill.x() >= aPad->m_Size.x() )
if( aPad->m_Drill.x >= aPad->m_Size.x )
return true;
if( (aPad->m_layerMask & ALL_CU_LAYERS) == 0 )
@ -321,11 +321,11 @@ PADSTACK* SPECCTRA_DB::makePADSTACK( BOARD* aBoard, D_PAD* aPad )
POINT dsnOffset;
if( aPad->m_Offset.x() != ZERO_LENGTH || aPad->m_Offset.y() != ZERO_LENGTH )
if( aPad->m_Offset.x || aPad->m_Offset.y )
{
char offsetTxt[64]; /// @BUG !!!Unsafe
char offsetTxt[64];
wxPoint offset( TO_LEGACY_LU( aPad->m_Offset.x() ), TO_LEGACY_LU( aPad->m_Offset.y() ) );
wxPoint offset( aPad->m_Offset.x, aPad->m_Offset.y );
dsnOffset = mapPt( offset );
@ -341,7 +341,7 @@ PADSTACK* SPECCTRA_DB::makePADSTACK( BOARD* aBoard, D_PAD* aPad )
default:
case PAD_CIRCLE:
{
double diameter = scale( TO_LEGACY_LU( aPad->m_Size.x() ) );
double diameter = scale(aPad->m_Size.x);
for( int ndx=0; ndx<reportedLayers; ++ndx )
{
@ -357,7 +357,7 @@ PADSTACK* SPECCTRA_DB::makePADSTACK( BOARD* aBoard, D_PAD* aPad )
}
snprintf( name, sizeof(name), "Round%sPad_%.6g_mil",
uniqifier.c_str(), scale(TO_LEGACY_LU( aPad->m_Size.x() ) ) );
uniqifier.c_str(), scale(aPad->m_Size.x) );
name[ sizeof(name)-1 ] = 0;
padstack->SetPadstackId( name );
@ -366,8 +366,8 @@ PADSTACK* SPECCTRA_DB::makePADSTACK( BOARD* aBoard, D_PAD* aPad )
case PAD_RECT:
{
double dx = scale( TO_LEGACY_LU( aPad->m_Size.x() ) ) / 2.0;
double dy = scale( TO_LEGACY_LU( aPad->m_Size.y() ) ) / 2.0;
double dx = scale( aPad->m_Size.x ) / 2.0;
double dy = scale( aPad->m_Size.y ) / 2.0;
POINT lowerLeft( -dx, -dy );
POINT upperRight( dx, dy );
@ -388,7 +388,7 @@ PADSTACK* SPECCTRA_DB::makePADSTACK( BOARD* aBoard, D_PAD* aPad )
}
snprintf( name, sizeof(name), "Rect%sPad_%.6gx%.6g_mil",
uniqifier.c_str(), scale( TO_LEGACY_LU( aPad->m_Size.x() ) ), scale( TO_LEGACY_LU( aPad->m_Size.y() ) ) );
uniqifier.c_str(), scale(aPad->m_Size.x), scale(aPad->m_Size.y) );
name[ sizeof(name)-1 ] = 0;
padstack->SetPadstackId( name );
@ -397,8 +397,8 @@ PADSTACK* SPECCTRA_DB::makePADSTACK( BOARD* aBoard, D_PAD* aPad )
case PAD_OVAL:
{
double dx = scale( TO_LEGACY_LU( aPad->m_Size.x() ) ) / 2.0;
double dy = scale( TO_LEGACY_LU( aPad->m_Size.y() ) ) / 2.0;
double dx = scale( aPad->m_Size.x ) / 2.0;
double dy = scale( aPad->m_Size.y ) / 2.0;
double dr = dx - dy;
double radius;
POINT start;
@ -436,7 +436,7 @@ PADSTACK* SPECCTRA_DB::makePADSTACK( BOARD* aBoard, D_PAD* aPad )
}
snprintf( name, sizeof(name), "Oval%sPad_%.6gx%.6g_mil",
uniqifier.c_str(), scale( TO_LEGACY_LU( aPad->m_Size.x() ) ), scale( TO_LEGACY_LU( aPad->m_Size.y() ) ) );
uniqifier.c_str(), scale(aPad->m_Size.x), scale(aPad->m_Size.y) );
name[ sizeof(name)-1 ] = 0;
padstack->SetPadstackId( name );
@ -445,11 +445,11 @@ PADSTACK* SPECCTRA_DB::makePADSTACK( BOARD* aBoard, D_PAD* aPad )
case PAD_TRAPEZOID:
{
double dx = scale( TO_LEGACY_LU( aPad->m_Size.x() ) ) / 2.0;
double dy = scale( TO_LEGACY_LU( aPad->m_Size.y() ) ) / 2.0;
double dx = scale( aPad->m_Size.x ) / 2.0;
double dy = scale( aPad->m_Size.y ) / 2.0;
double ddx = scale( TO_LEGACY_LU( aPad->m_DeltaSize.x() ) ) / 2.0;
double ddy = scale( TO_LEGACY_LU( aPad->m_DeltaSize.y() ) ) / 2.0;
double ddx = scale( aPad->m_DeltaSize.x ) / 2.0;
double ddy = scale( aPad->m_DeltaSize.y ) / 2.0;
// see class_pad_draw_functions.cpp which draws the trapezoid pad
POINT lowerLeft( -dx - ddy, -dy - ddx );
@ -479,15 +479,15 @@ PADSTACK* SPECCTRA_DB::makePADSTACK( BOARD* aBoard, D_PAD* aPad )
polygon->AppendPoint( lowerRight );
}
D(printf( "m_DeltaSize: %d,%d\n", TO_LEGACY_LU( aPad->m_DeltaSize.x() ), TO_LEGACY_LU( aPad->m_DeltaSize.y() ) );)
D(printf( "m_DeltaSize: %d,%d\n", aPad->m_DeltaSize.x, aPad->m_DeltaSize.y );)
// this string _must_ be unique for a given physical shape
snprintf( name, sizeof(name), "Trapz%sPad_%.6gx%.6g_%c%.6gx%c%.6g_mil",
uniqifier.c_str(), scale( TO_LEGACY_LU( aPad->m_Size.x() ) ), scale( TO_LEGACY_LU( aPad->m_Size.y() ) ),
aPad->m_DeltaSize.x() < ZERO_LENGTH ? 'n' : 'p',
fabs( scale( TO_LEGACY_LU( aPad->m_DeltaSize.x() ) )),
aPad->m_DeltaSize.y() < ZERO_LENGTH ? 'n' : 'p',
fabs( scale( TO_LEGACY_LU( aPad->m_DeltaSize.y() ) ))
uniqifier.c_str(), scale(aPad->m_Size.x), scale(aPad->m_Size.y),
aPad->m_DeltaSize.x < 0 ? 'n' : 'p',
abs( scale( aPad->m_DeltaSize.x )),
aPad->m_DeltaSize.y < 0 ? 'n' : 'p',
abs( scale( aPad->m_DeltaSize.y ))
);
name[ sizeof(name)-1 ] = 0;
@ -527,8 +527,8 @@ IMAGE* SPECCTRA_DB::makeIMAGE( BOARD* aBoard, MODULE* aModule )
// see if this pad is a through hole with no copper on its perimeter
if( isRoundKeepout( pad ) )
{
double diameter = scale( TO_LEGACY_LU( pad->m_Drill.x() ) );
POINT vertex = mapPt( TO_LEGACY_LU_WXP( pad->m_Pos0 ) );
double diameter = scale( pad->m_Drill.x );
POINT vertex = mapPt( pad->m_Pos0 );
int layerCount = aBoard->GetCopperLayerCount();
for( int layer=0; layer<layerCount; ++layer )
@ -596,7 +596,7 @@ IMAGE* SPECCTRA_DB::makeIMAGE( BOARD* aBoard, MODULE* aModule )
pin->SetRotation( angle / 10.0 );
}
wxPoint pos( TO_LEGACY_LU_WXP( pad->m_Pos0 ) );
wxPoint pos( pad->m_Pos0 );
pin->SetVertex( mapPt( pos ) );
}
@ -1309,8 +1309,8 @@ void SPECCTRA_DB::FromBOARD( BOARD* aBoard ) throw( IO_ERROR )
// using LookupVia().
for( unsigned i=0; i < aBoard->m_ViasDimensionsList.size(); ++i )
{
int viaSize = TO_LEGACY_LU( aBoard->m_ViasDimensionsList[i].m_Diameter );
int viaDrill = TO_LEGACY_LU( aBoard->m_ViasDimensionsList[i].m_Drill );
int viaSize = aBoard->m_ViasDimensionsList[i].m_Diameter;
int viaDrill = aBoard->m_ViasDimensionsList[i].m_Drill;
via = makeVia( viaSize, viaDrill,
0, aBoard->GetCopperLayerCount()-1 );

View File

@ -576,7 +576,7 @@ void PCB_EDIT_FRAME::updateTraceWidthSelectBox()
for( unsigned ii = 0; ii < GetBoard()->m_TrackWidthList.size(); ii++ )
{
msg = _( "Track " ) + CoordinateToString( TO_LEGACY_LU( GetBoard()->m_TrackWidthList[ii] ), true );
msg = _( "Track " ) + CoordinateToString( GetBoard()->m_TrackWidthList[ii], true );
if( ii == 0 )
msg << _( " *" );
@ -601,11 +601,11 @@ void PCB_EDIT_FRAME::updateViaSizeSelectBox()
for( unsigned ii = 0; ii < GetBoard()->m_ViasDimensionsList.size(); ii++ )
{
msg = _( "Via " );
msg << CoordinateToString( TO_LEGACY_LU( GetBoard()->m_ViasDimensionsList[ii].m_Diameter ), true );
msg << CoordinateToString( GetBoard()->m_ViasDimensionsList[ii].m_Diameter, true );
if( 0 != TO_LEGACY_LU( GetBoard()->m_ViasDimensionsList[ii].m_Drill ) )
if( GetBoard()->m_ViasDimensionsList[ii].m_Drill )
msg << wxT("/ ")
<< CoordinateToString( TO_LEGACY_LU( GetBoard()->m_ViasDimensionsList[ii].m_Drill ), true );
<< CoordinateToString( GetBoard()->m_ViasDimensionsList[ii].m_Drill, true );
if( ii == 0 )
msg << _( " *" );
@ -625,7 +625,7 @@ LAYER_BOX_SELECTOR* PCB_EDIT_FRAME::ReCreateLayerBox( EDA_TOOLBAR* parent )
m_SelLayerBox->m_hotkeys = g_Board_Editor_Hokeys_Descr;
m_SelLayerBox->Resync();
m_SelLayerBox->SetToolTip( _( "+/- to switch" ) ); // TODO: actual hotkeys
m_SelLayerBox->SetToolTip( _( "+/- to switch" ) );
return m_SelLayerBox;
}

View File

@ -201,7 +201,7 @@ void ZONE_CONTAINER::AddClearanceAreasPolygonsToPolysList( BOARD* aPcb )
* inside the board (in fact inside the hole. Some photo diodes and Leds are
* like this)
*/
if( (pad->m_Drill.x() == ZERO_LENGTH) && (pad->m_Drill.y() == ZERO_LENGTH) )
if( (pad->m_Drill.x == 0) && (pad->m_Drill.y == 0) )
continue;
// Use a dummy pad to calculate a hole shape that have the same dimension as

View File

@ -68,15 +68,15 @@ void BuildUnconnectedThermalStubsPolygonList( std::vector<CPolyPt>& aCornerBuffe
// Thermal bridges are like a segment from a starting point inside the pad
// to an ending point outside the pad
wxPoint startpoint, endpoint;
endpoint.x = ( TO_LEGACY_LU( pad->m_Size.x() / 2 ) ) + aZone->m_ThermalReliefGapValue;
endpoint.y = ( TO_LEGACY_LU( pad->m_Size.y() / 2 ) ) + aZone->m_ThermalReliefGapValue;
endpoint.x = ( pad->m_Size.x / 2 ) + aZone->m_ThermalReliefGapValue;
endpoint.y = ( pad->m_Size.y / 2 ) + aZone->m_ThermalReliefGapValue;
int copperThickness = aZone->m_ThermalReliefCopperBridgeValue - aZone->m_ZoneMinThickness;
if( copperThickness < 0 )
copperThickness = 0;
startpoint.x = min( TO_LEGACY_LU( pad->m_Size.x() ), copperThickness );
startpoint.y = min( TO_LEGACY_LU( pad->m_Size.y() ), copperThickness );
startpoint.x = min( pad->m_Size.x, copperThickness );
startpoint.y = min( pad->m_Size.y, copperThickness );
startpoint.x /= 2;
startpoint.y /= 2;

View File

@ -40,7 +40,7 @@ void ZONE_CONTAINER::Test_For_Copper_Island_And_Remove_Insulated_Islands( BOARD
if( pad->GetNet() != GetNet() )
continue;
ListPointsCandidates.push_back( TO_LEGACY_LU_WXP( pad->m_Pos ) );
ListPointsCandidates.push_back( pad->m_Pos );
}
}

View File

@ -111,7 +111,7 @@ void BOARD::Test_Connections_To_Copper_Areas( int aNetcode )
if( item->Type() == PCB_PAD_T )
{
pos1 = pos2 = TO_LEGACY_LU_WXP( ( (D_PAD*) item )->m_Pos ); /// @BUG Unsafe type conversion
pos1 = pos2 = ( (D_PAD*) item )->m_Pos;
}
else if( item->Type() == PCB_VIA_T )
{

View File

@ -1,8 +1,8 @@
// math stuff for graphics, from FreePCB
/*#ifndef abs
#ifndef abs
#define abs(x) (((x) >=0) ? (x) : (-(x)))
#endif*/
#endif
typedef struct PointTag

View File

@ -73,8 +73,6 @@ static inline int floordiv( int a, int n )
/* Note: the following work for integers and other numeric types. */
/* those are bad programming practice because of several issues with
overloading and integer limits
#undef sign
#undef abs
#undef min
@ -86,79 +84,6 @@ overloading and integer limits
#define min( a, b ) ( (a)<(b) ? (a) : (b) )
#define max( a, b ) ( (a)>(b) ? (a) : (b) )
#define sq( a ) ( (a) * (a) )
#define cu( a ) ( (a) * (a) * (a) )*/
// these functions better than macros because they do not cause double evaluation.
static inline int sign( int x )
{
return (0 < x) - (x < 0);
}
static inline int sign( long x )
{
return (0 < x) - (x < 0);
}
static inline int sign( double x )
{
return (0.0 < x) - (x < 0.0);
}
/*static inline int abs( int x ) is not required because exist in stdlib.h */
static inline long abs( long x )
{
return x < 0? -x : x;
}
static inline int max( int x, int y )
{
return x < y? y : x;
}
static inline long max( long x, long y )
{
return x < y? y : x;
}
static inline int min( int x, int y )
{
return x < y? x : y;
}
static inline long min( long x, long y )
{
return x < y? x : y;
}
static inline int sq( int x )
{
return x * x;
}
static inline long sq( long x )
{
return x * x;
}
static inline double sq( double x )
{
return x * x;
}
static inline int cu( int x )
{
return x * x * x;
}
static inline long cu( long x )
{
return x * x * x;
}
static inline double cu( double x )
{
return x * x * x;
}
#define cu( a ) ( (a) * (a) * (a) )
#endif /* AUXILIARY_H */

View File

@ -278,7 +278,7 @@ void render_curveto( render_t* rm,
* occur at an endpoint. */
dd0 = sq( x1 - 2 * x2 + x3 ) + sq( y1 - 2 * y2 + y3 );
dd1 = sq( x2 - 2 * x3 + x4 ) + sq( y2 - 2 * y3 + y4 );
dd = 6 * sqrt( fmax( dd0, dd1 ) );
dd = 6 * sqrt( max( dd0, dd1 ) );
e2 = 8 * delta <= dd ? 8 * delta / dd : 1;
epsilon = sqrt( e2 ); /* necessary interval size */