/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2019 KiCad Developers, see AUTHORS.txt for contributors.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include <array_options.h>
#include <trigo.h>
const wxString& ARRAY_OPTIONS::AlphabetFromNumberingScheme( NUMBERING_TYPE_T type )
{
static const wxString alphaNumeric = "0123456789";
static const wxString alphaHex = "0123456789ABCDEF";
static const wxString alphaFull = "ABCDEFGHIJKLMNOPQRSTUVWXYZ";
static const wxString alphaNoIOSQXZ = "ABCDEFGHJKLMNPRTUVWY";
switch( type )
{
default:
case NUMBERING_NUMERIC: return alphaNumeric;
case NUMBERING_HEX: return alphaHex;
case NUMBERING_ALPHA_NO_IOSQXZ: return alphaNoIOSQXZ;
case NUMBERING_ALPHA_FULL: return alphaFull;
}
}
bool ARRAY_OPTIONS::SchemeNonUnitColsStartAt0( NUMBERING_TYPE_T type )
{
return type == NUMBERING_ALPHA_FULL || type == NUMBERING_ALPHA_NO_IOSQXZ;
}
bool ARRAY_OPTIONS::GetNumberingOffset(
const wxString& str, ARRAY_OPTIONS::NUMBERING_TYPE_T type, int& offsetToFill )
{
const wxString& alphabet = ARRAY_OPTIONS::AlphabetFromNumberingScheme( type );
int offset = 0;
const int radix = alphabet.length();
for( unsigned i = 0; i < str.length(); i++ )
{
int chIndex = alphabet.Find( str[i], false );
if( chIndex == wxNOT_FOUND )
return false;
const bool start0 = ARRAY_OPTIONS::SchemeNonUnitColsStartAt0( type );
// eg "AA" is actually index 27, not 26
if( start0 && i < str.length() - 1 )
chIndex++;
offset *= radix;
offset += chIndex;
}
offsetToFill = offset;
return true;
}
wxString ARRAY_OPTIONS::getCoordinateNumber( int n, NUMBERING_TYPE_T type )
{
wxString itemNum;
const wxString& alphabet = AlphabetFromNumberingScheme( type );
const bool nonUnitColsStartAt0 = SchemeNonUnitColsStartAt0( type );
bool firstRound = true;
int radix = alphabet.Length();
do
{
int modN = n % radix;
if( nonUnitColsStartAt0 && !firstRound )
modN--; // Start the "tens/hundreds/etc column" at "Ax", not "Bx"
itemNum.insert( 0, 1, alphabet[modN] );
n /= radix;
firstRound = false;
} while( n );
return itemNum;
}
int ARRAY_GRID_OPTIONS::GetArraySize() const
{
return m_nx * m_ny;
}
VECTOR2I ARRAY_GRID_OPTIONS::getGridCoords( int n ) const
{
const int axisSize = m_horizontalThenVertical ? m_nx : m_ny;
int x = n % axisSize;
int y = n / axisSize;
// reverse on this row/col?
if( m_reverseNumberingAlternate && ( y % 2 ) )
x = axisSize - x - 1;
wxPoint coords( x, y );
return coords;
}
ARRAY_OPTIONS::TRANSFORM ARRAY_GRID_OPTIONS::GetTransform( int n, const VECTOR2I& aPos ) const
{
VECTOR2I point;
VECTOR2I coords = getGridCoords( n );
// swap axes if needed
if( !m_horizontalThenVertical )
std::swap( coords.x, coords.y );
point.x = coords.x * m_delta.x + coords.y * m_offset.x;
point.y = coords.y * m_delta.y + coords.x * m_offset.y;
if( std::abs( m_stagger ) > 1 )
{
const int stagger = std::abs( m_stagger );
const bool sr = m_stagger_rows;
const int stagger_idx = ( ( sr ? coords.y : coords.x ) % stagger );
VECTOR2I stagger_delta( ( sr ? m_delta.x : m_offset.x ), ( sr ? m_offset.y : m_delta.y ) );
// Stagger to the left/up if the sign of the stagger is negative
point += stagger_delta * copysign( stagger_idx, m_stagger ) / stagger;
}
// this is already relative to the first array entry
return { point, 0.0 };
}
wxString ARRAY_GRID_OPTIONS::GetItemNumber( int n ) const
{
wxString itemNum;
if( m_2dArrayNumbering )
{
VECTOR2I coords = getGridCoords( n );
itemNum += getCoordinateNumber( coords.x + m_numberingOffsetX, m_priAxisNumType );
itemNum += getCoordinateNumber( coords.y + m_numberingOffsetY, m_secAxisNumType );
}
else
{
itemNum += getCoordinateNumber( n + m_numberingOffsetX, m_priAxisNumType );
}
return itemNum;
}
int ARRAY_CIRCULAR_OPTIONS::GetArraySize() const
{
return m_nPts;
}
ARRAY_OPTIONS::TRANSFORM ARRAY_CIRCULAR_OPTIONS::GetTransform( int n, const VECTOR2I& aPos ) const
{
double angle;
if( m_angle == 0 )
// angle is zero, divide evenly into m_nPts
angle = 10 * 360.0 * n / double( m_nPts );
else
// n'th step
angle = m_angle * n;
VECTOR2I new_pos = aPos;
RotatePoint( new_pos, m_centre, angle );
// take off the rotation (but not the translation) if needed
if( !m_rotateItems )
angle = 0;
return { new_pos - aPos, angle / 10.0 };
}
wxString ARRAY_CIRCULAR_OPTIONS::GetItemNumber( int aN ) const
{
return getCoordinateNumber( aN + m_numberingOffset, m_numberingType );
}