/** * @file class_worksheet_dataitem.cpp * @brief description of graphic items and texts to build a title block */ /* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 1992-2013 Jean-Pierre Charras . * Copyright (C) 1992-2013 KiCad Developers, see change_log.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 */ /* * the class WORKSHEET_DATAITEM (and derived) defines * a basic shape of a page layout ( frame references and title block ) * Basic shapes are line, rect and texts * the WORKSHEET_DATAITEM coordinates units is the mm, and are relative to * one of 4 page corners. * * These items cannot be drawn or plot "as this". they should be converted * to a "draw list" (WS_DRAW_ITEM_BASE and derived items) * The list of these items is stored in a WORKSHEET_LAYOUT instance. * * When building the draw list: * the WORKSHEET_LAYOUT is used to create a WS_DRAW_ITEM_LIST * coordinates are converted to draw/plot coordinates. * texts are expanded if they contain format symbols. * Items with m_RepeatCount > 1 are created m_RepeatCount times * * the WORKSHEET_LAYOUT is created only once. * the WS_DRAW_ITEM_LIST is created each time the page layout is plot/drawn * * the WORKSHEET_LAYOUT instance is created from a S expression which * describes the page layout (can be the default page layout or a custom file). */ #include #include #include #include #include #include // Static members of class WORKSHEET_DATAITEM: double WORKSHEET_DATAITEM::m_WSunits2Iu = 1.0; DPOINT WORKSHEET_DATAITEM::m_RB_Corner; DPOINT WORKSHEET_DATAITEM::m_LT_Corner; double WORKSHEET_DATAITEM::m_DefaultLineWidth = 0.0; DSIZE WORKSHEET_DATAITEM::m_DefaultTextSize( TB_DEFAULT_TEXTSIZE, TB_DEFAULT_TEXTSIZE ); double WORKSHEET_DATAITEM::m_DefaultTextThickness = 0.0; bool WORKSHEET_DATAITEM::m_SpecialMode = false; EDA_COLOR_T WORKSHEET_DATAITEM::m_Color = RED; // the default color to draw items EDA_COLOR_T WORKSHEET_DATAITEM::m_AltColor = RED; // an alternate color to draw items EDA_COLOR_T WORKSHEET_DATAITEM::m_SelectedColor = BROWN; // the color to draw selected items // The constructor: WORKSHEET_DATAITEM::WORKSHEET_DATAITEM( WS_ItemType aType ) { m_type = aType; m_flags = 0; m_RepeatCount = 1; m_IncrementLabel = 1; m_LineWidth = 0; } // move item to aPosition // starting point is moved to aPosition // the Ending point is moved to a position which keeps the item size // (if both coordinates have the same corner reference) // MoveToUi and MoveTo takes the graphic position (i.e relative to the left top // paper corner void WORKSHEET_DATAITEM::MoveToUi( wxPoint aPosition ) { DPOINT pos_mm; pos_mm.x = aPosition.x / m_WSunits2Iu; pos_mm.y = aPosition.y / m_WSunits2Iu; MoveTo( pos_mm ); } void WORKSHEET_DATAITEM::MoveTo( DPOINT aPosition ) { DPOINT vector = aPosition - GetStartPos(); DPOINT endpos = vector + GetEndPos(); MoveStartPointTo( aPosition ); MoveEndPointTo( endpos ); } /* move the starting point of the item to a new position * aPosition = the new position of the starting point, in mm */ void WORKSHEET_DATAITEM::MoveStartPointTo( DPOINT aPosition ) { DPOINT position; // Calculate the position of the starting point // relative to the reference corner // aPosition is the position relative to the right top paper corner switch( m_Pos.m_Anchor ) { case RB_CORNER: position = m_RB_Corner - aPosition; break; case RT_CORNER: position.x = m_RB_Corner.x - aPosition.x; position.y = aPosition.y - m_LT_Corner.y; break; case LB_CORNER: position.x = aPosition.x - m_LT_Corner.x; position.y = m_RB_Corner.y - aPosition.y; break; case LT_CORNER: position = aPosition - m_LT_Corner; break; } m_Pos.m_Pos = position; } /* move the starting point of the item to a new position * aPosition = the new position of the starting point in graphic units */ void WORKSHEET_DATAITEM::MoveStartPointToUi( wxPoint aPosition ) { DPOINT pos_mm; pos_mm.x = aPosition.x / m_WSunits2Iu; pos_mm.y = aPosition.y / m_WSunits2Iu; MoveStartPointTo( pos_mm ); } /** * move the ending point of the item to a new position * has meaning only for items defined by 2 points * (segments and rectangles) * aPosition = the new position of the ending point, in mm */ void WORKSHEET_DATAITEM::MoveEndPointTo( DPOINT aPosition ) { DPOINT position; // Calculate the position of the starting point // relative to the reference corner // aPosition is the position relative to the right top paper corner switch( m_End.m_Anchor ) { case RB_CORNER: position = m_RB_Corner - aPosition; break; case RT_CORNER: position.x = m_RB_Corner.x - aPosition.x; position.y = aPosition.y - m_LT_Corner.y; break; case LB_CORNER: position.x = aPosition.x - m_LT_Corner.x; position.y = m_RB_Corner.y - aPosition.y; break; case LT_CORNER: position = aPosition - m_LT_Corner; break; } // Modify m_End only for items having 2 coordinates switch( GetType() ) { case WS_SEGMENT: case WS_RECT: m_End.m_Pos = position; break; default: break; } } /* move the ending point of the item to a new position * has meaning only for items defined by 2 points * (segments and rectangles) * aPosition = the new position of the ending point in graphic units */ void WORKSHEET_DATAITEM::MoveEndPointToUi( wxPoint aPosition ) { DPOINT pos_mm; pos_mm.x = aPosition.x / m_WSunits2Iu; pos_mm.y = aPosition.y / m_WSunits2Iu; MoveEndPointTo( pos_mm ); } const DPOINT WORKSHEET_DATAITEM::GetStartPos( int ii ) const { DPOINT pos; pos.x = m_Pos.m_Pos.x + ( m_IncrementVector.x * ii ); pos.y = m_Pos.m_Pos.y + ( m_IncrementVector.y * ii ); switch( m_Pos.m_Anchor ) { case RB_CORNER: // right bottom corner pos = m_RB_Corner - pos; break; case RT_CORNER: // right top corner pos.x = m_RB_Corner.x - pos.x; pos.y = m_LT_Corner.y + pos.y; break; case LB_CORNER: // left bottom corner pos.x = m_LT_Corner.x + pos.x; pos.y = m_RB_Corner.y - pos.y; break; case LT_CORNER: // left top corner pos = m_LT_Corner + pos; break; } return pos; } const wxPoint WORKSHEET_DATAITEM::GetStartPosUi( int ii ) const { DPOINT pos = GetStartPos( ii ); pos = pos * m_WSunits2Iu; return wxPoint( int(pos.x), int(pos.y) ); } const DPOINT WORKSHEET_DATAITEM::GetEndPos( int ii ) const { DPOINT pos; pos.x = m_End.m_Pos.x + ( m_IncrementVector.x * ii ); pos.y = m_End.m_Pos.y + ( m_IncrementVector.y * ii ); switch( m_End.m_Anchor ) { case RB_CORNER: // right bottom corner pos = m_RB_Corner - pos; break; case RT_CORNER: // right top corner pos.x = m_RB_Corner.x - pos.x; pos.y = m_LT_Corner.y + pos.y; break; case LB_CORNER: // left bottom corner pos.x = m_LT_Corner.x + pos.x; pos.y = m_RB_Corner.y - pos.y; break; case LT_CORNER: // left top corner pos = m_LT_Corner + pos; break; } return pos; } const wxPoint WORKSHEET_DATAITEM::GetEndPosUi( int ii ) const { DPOINT pos = GetEndPos( ii ); pos = pos * m_WSunits2Iu; return wxPoint( int(pos.x), int(pos.y) ); } bool WORKSHEET_DATAITEM::IsInsidePage( int ii ) const { DPOINT pos = GetStartPos( ii ); for( int kk = 0; kk < 1; kk++ ) { if( m_RB_Corner.x < pos.x || m_LT_Corner.x > pos.x ) return false; if( m_RB_Corner.y < pos.y || m_LT_Corner.y > pos.y ) return false; pos = GetEndPos( ii ); } return true; } const wxString WORKSHEET_DATAITEM::GetClassName() const { wxString name; switch( GetType() ) { case WS_TEXT: name = wxT("Text"); break; case WS_SEGMENT: name = wxT("Line"); break; case WS_RECT: name = wxT("Rect"); break; case WS_POLYPOLYGON: name = wxT("Poly"); break; } return name; } /* return 0 if the item has no specific option for page 1 * 1 if the item is only on page 1 * -1 if the item is not on page 1 */ int WORKSHEET_DATAITEM::GetPage1Option() { if(( m_flags & PAGE1OPTION) == PAGE1OPTION_NOTONPAGE1 ) return -1; if(( m_flags & PAGE1OPTION) == PAGE1OPTION_PAGE1ONLY ) return 1; return 0; } /* Set the option for page 1 * aChoice = 0 if the item has no specific option for page 1 * > 0 if the item is only on page 1 * < 0 if the item is not on page 1 */ void WORKSHEET_DATAITEM::SetPage1Option( int aChoice ) { ClearFlags( PAGE1OPTION ); if( aChoice > 0) SetFlags( PAGE1OPTION_PAGE1ONLY ); else if( aChoice < 0) SetFlags( PAGE1OPTION_NOTONPAGE1 ); } WORKSHEET_DATAITEM_POLYPOLYGON::WORKSHEET_DATAITEM_POLYPOLYGON() : WORKSHEET_DATAITEM( WS_POLYPOLYGON ) { m_Orient = 0.0; } const DPOINT WORKSHEET_DATAITEM_POLYPOLYGON::GetCornerPosition( unsigned aIdx, int aRepeat ) const { DPOINT pos = m_Corners[aIdx]; // Rotation: RotatePoint( &pos.x, &pos.y, m_Orient * 10 ); pos += GetStartPos( aRepeat ); return pos; } void WORKSHEET_DATAITEM_POLYPOLYGON::SetBoundingBox() { if( m_Corners.size() == 0 ) { m_minCoord.x = m_maxCoord.x = 0.0; m_minCoord.y = m_maxCoord.y = 0.0; return; } DPOINT pos; pos = m_Corners[0]; RotatePoint( &pos.x, &pos.y, m_Orient * 10 ); m_minCoord = m_maxCoord = pos; for( unsigned ii = 1; ii < m_Corners.size(); ii++ ) { pos = m_Corners[ii]; RotatePoint( &pos.x, &pos.y, m_Orient * 10 ); if( m_minCoord.x > pos.x ) m_minCoord.x = pos.x; if( m_minCoord.y > pos.y ) m_minCoord.y = pos.y; if( m_maxCoord.x < pos.x ) m_maxCoord.x = pos.x; if( m_maxCoord.y < pos.y ) m_maxCoord.y = pos.y; } } bool WORKSHEET_DATAITEM_POLYPOLYGON::IsInsidePage( int ii ) const { DPOINT pos = GetStartPos( ii ); pos += m_minCoord; // left top pos of bounding box if( m_LT_Corner.x > pos.x || m_LT_Corner.y > pos.y ) return false; pos = GetStartPos( ii ); pos += m_maxCoord; // rignt bottom pos of bounding box if( m_RB_Corner.x < pos.x || m_RB_Corner.y < pos.y ) return false; return true; } const wxPoint WORKSHEET_DATAITEM_POLYPOLYGON::GetCornerPositionUi( unsigned aIdx, int aRepeat ) const { DPOINT pos = GetCornerPosition( aIdx, aRepeat ); pos = pos * m_WSunits2Iu; return wxPoint( int(pos.x), int(pos.y) ); } WORKSHEET_DATAITEM_TEXT::WORKSHEET_DATAITEM_TEXT( const wxChar* aTextBase ) : WORKSHEET_DATAITEM( WS_TEXT ) { m_TextBase = aTextBase; m_IncrementLabel = 1; m_Hjustify = GR_TEXT_HJUSTIFY_LEFT; m_Vjustify = GR_TEXT_VJUSTIFY_CENTER; m_Orient = 0.0; m_LineWidth = 0.0; // 0.0 means use default value } void WORKSHEET_DATAITEM_TEXT::TransfertSetupToGraphicText( WS_DRAW_ITEM_TEXT* aGText ) { aGText->SetHorizJustify( m_Hjustify ) ; aGText->SetVertJustify( m_Vjustify ); aGText->SetOrientation( m_Orient * 10 ); // graphic text orient unit = 0.1 degree } void WORKSHEET_DATAITEM_TEXT::IncrementLabel( int aIncr ) { int last = m_TextBase.Len() -1; wxChar lbchar = m_TextBase[last]; m_FullText = m_TextBase; m_FullText.RemoveLast(); if( lbchar >= '0' && lbchar <= '9' ) // A number is expected: m_FullText << (int)( aIncr + lbchar - '0' ); else m_FullText << (wxChar) ( aIncr + lbchar ); } // Replace the '\''n' sequence by EOL // and the sequence '\''\' by only one '\' in m_FullText // if m_FullTextis a multiline text (i;e.contains '\n') return true bool WORKSHEET_DATAITEM_TEXT::ReplaceAntiSlashSequence() { bool multiline = false; for( unsigned ii = 0; ii < m_FullText.Len(); ii++ ) { if( m_FullText[ii] == '\n' ) multiline = true; else if( m_FullText[ii] == '\\' ) { if( ++ii >= m_FullText.Len() ) break; if( m_FullText[ii] == '\\' ) { // a double \\ sequence is replaced by a single \ char m_FullText.Remove(ii, 1); ii--; } else if( m_FullText[ii] == 'n' ) { // Replace the "\n" sequence by a EOL char multiline = true; m_FullText[ii] = '\n'; m_FullText.Remove(ii-1, 1); ii--; } } } return multiline; } void WORKSHEET_DATAITEM_TEXT::SetConstrainedTextSize() { m_ConstrainedTextSize = m_TextSize; if( m_ConstrainedTextSize.x == 0 ) m_ConstrainedTextSize.x = m_DefaultTextSize.x; if( m_ConstrainedTextSize.y == 0 ) m_ConstrainedTextSize.y = m_DefaultTextSize.y; if( m_BoundingBoxSize.x || m_BoundingBoxSize.y ) { int linewidth = 0; // to know the X and Y size of the line, we should use // EDA_TEXT::GetTextBox() // but this function uses integers // So, to avoid truncations with our unit in mm, use microns. wxSize size_micron; size_micron.x = KiROUND( m_ConstrainedTextSize.x * 1000.0 ); size_micron.y = KiROUND( m_ConstrainedTextSize.y * 1000.0 ); WS_DRAW_ITEM_TEXT dummy( WS_DRAW_ITEM_TEXT( this, this->m_FullText, wxPoint(0,0), size_micron, linewidth, BLACK, IsItalic(), IsBold() ) ); dummy.SetMultilineAllowed( true ); TransfertSetupToGraphicText( &dummy ); EDA_RECT rect = dummy.GetTextBox(); DSIZE size; size.x = rect.GetWidth() / 1000.0; size.y = rect.GetHeight() / 1000.0; if( m_BoundingBoxSize.x && size.x > m_BoundingBoxSize.x ) m_ConstrainedTextSize.x *= m_BoundingBoxSize.x / size.x; if( m_BoundingBoxSize.y && size.y > m_BoundingBoxSize.y ) m_ConstrainedTextSize.y *= m_BoundingBoxSize.y / size.y; } }