/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2012 Jean-Pierre Charras, jean-pierre.charras@ujf-grenoble.fr * Copyright (C) 2012 SoftPLC Corporation, Dick Hollenbeck * Copyright (C) 2012 Wayne Stambaugh * * Copyright (C) 1992-2012 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 */ /** * @file autorout.h */ #ifndef AUTOROUT_H #define AUTOROUT_H #include #include class BOARD; class DRAWSEGMENT; #define TOP 0 #define BOTTOM 1 #define EMPTY 0 #define ILLEGAL -1 /* Autorouter commands. */ enum AUTOPLACEROUTE_OPTIONS { PLACE_ALL, PLACE_OUT_OF_BOARD, PLACE_INCREMENTAL, PLACE_1_MODULE, ROUTE_ALL, ROUTE_NET, ROUTE_MODULE, ROUTE_PAD }; #define MAX_ROUTING_LAYERS_COUNT 2 #define FORCE_PADS 1 /* Force placement of pads for any Netcode */ /* search statistics */ extern int OpenNodes; /* total number of nodes opened */ extern int ClosNodes; /* total number of nodes closed */ extern int MoveNodes; /* total number of nodes moved */ extern int MaxNodes; /* maximum number of nodes opened at one time */ /* Structures useful to the generation of board as bitmap. */ typedef char MATRIX_CELL; typedef int DIST_CELL; typedef char DIR_CELL; /** * class MATRIX_ROUTING_HEAD * handle the matrix routing that describes the actual board */ class MATRIX_ROUTING_HEAD { public: MATRIX_CELL* m_BoardSide[MAX_ROUTING_LAYERS_COUNT]; // the image map of 2 board sides DIST_CELL* m_DistSide[MAX_ROUTING_LAYERS_COUNT]; // the image map of 2 board sides: // distance to cells DIR_CELL* m_DirSide[MAX_ROUTING_LAYERS_COUNT]; // the image map of 2 board sides: // pointers back to source bool m_InitMatrixDone; int m_RoutingLayersCount; // Number of layers for autorouting (0 or 1) int m_GridRouting; // Size of grid for autoplace/autoroute EDA_RECT m_BrdBox; // Actual board bounding box int m_Nrows, m_Ncols; // Matrix size int m_MemSize; // Memory requirement, just for statistics int m_RouteCount; // Number of routes private: // a pointer to the current selected cell operation void (MATRIX_ROUTING_HEAD::* m_opWriteCell)( int aRow, int aCol, int aSide, MATRIX_CELL aCell); public: MATRIX_ROUTING_HEAD(); ~MATRIX_ROUTING_HEAD(); void WriteCell( int aRow, int aCol, int aSide, MATRIX_CELL aCell) { (*this.*m_opWriteCell)( aRow, aCol, aSide, aCell ); } /** * function GetBrdCoordOrigin * @return the board coordinate corresponding to the * routing matrix origin ( board coordinate offset ) */ wxPoint GetBrdCoordOrigin() { return m_BrdBox.GetOrigin(); } /** * Function ComputeMatrixSize * calculates the number of rows and columns of dimensions of \a aPcb for routing and * automatic calculation of area. * @param aPcb = the physical board * @param aUseBoardEdgesOnly = true to use board edges only, * = false to use the full board bounding box (default) */ bool ComputeMatrixSize( BOARD* aPcb, bool aUseBoardEdgesOnly = false ); /** * Function InitBoard * initializes the data structures. * * @return the amount of memory used or -1 if default. */ int InitRoutingMatrix(); void UnInitRoutingMatrix(); // Initialize WriteCell to make the aLogicOp void SetCellOperation( int aLogicOp ); // functions to read/write one cell ( point on grid routing matrix: MATRIX_CELL GetCell( int aRow, int aCol, int aSide); void SetCell( int aRow, int aCol, int aSide, MATRIX_CELL aCell); void OrCell( int aRow, int aCol, int aSide, MATRIX_CELL aCell); void XorCell( int aRow, int aCol, int aSide, MATRIX_CELL aCell); void AndCell( int aRow, int aCol, int aSide, MATRIX_CELL aCell); void AddCell( int aRow, int aCol, int aSide, MATRIX_CELL aCell); DIST_CELL GetDist( int aRow, int aCol, int aSide ); void SetDist( int aRow, int aCol, int aSide, DIST_CELL ); int GetDir( int aRow, int aCol, int aSide ); void SetDir( int aRow, int aCol, int aSide, int aDir); // calculate distance (with penalty) of a trace through a cell int CalcDist(int x,int y,int z ,int side ); // calculate approximate distance (manhattan distance) int GetApxDist( int r1, int c1, int r2, int c2 ); }; extern MATRIX_ROUTING_HEAD RoutingMatrix; /* 2-sided board */ /* Constants used to trace the cells on the BOARD */ #define WRITE_CELL 0 #define WRITE_OR_CELL 1 #define WRITE_XOR_CELL 2 #define WRITE_AND_CELL 3 #define WRITE_ADD_CELL 4 // Functions: class PCB_EDIT_FRAME; class BOARD; class D_PAD; class RATSNEST_ITEM; class TRACK; /* Initialize a color value, the cells included in the board edge of the * pad surface by pt_pad, with the margin reserved for isolation and the * half width of the runway * Parameters: * Pt_pad: pointer to the description of the pad * color: mask write in cells * margin: add a value to the radius or half the score pad * op_logic: type of writing in the cell (WRITE, OR) */ void PlacePad( D_PAD* pt_pad, int type, int marge, int op_logic ); /* Draws a segment of track on the board. */ void TraceSegmentPcb( TRACK* pt_segm, int type, int marge, int op_logic ); void TraceSegmentPcb( DRAWSEGMENT* pt_segm, int type, int marge, int op_logic ); /* Uses the color value of all cells included in the board * coord of the rectangle ux0, uy0 (top right corner) * a ux1, uy1 (lower left corner) (coord PCB) * the rectangle is horizontal (or vertical) * masque_layer = mask layers; * op_logic = WRITE_CELL, WRITE_OR_CELL, WRITE_XOR_CELL, WRITE_AND_CELL */ void TraceFilledRectangle( int ux0, int uy0, int ux1, int uy1, LSET side, int color, int op_logic); /* Same as above, but the rectangle is inclined angle angle. */ void TraceFilledRectangle( int ux0, int uy0, int ux1, int uy1, double angle, LSET masque_layer, int color, int op_logic ); /* QUEUE.CPP */ void FreeQueue(); void InitQueue(); void GetQueue( int *, int *, int *, int *, int * ); bool SetQueue( int, int, int, int, int, int, int ); void ReSetQueue( int, int, int, int, int, int, int ); /* WORK.CPP */ void InitWork(); void ReInitWork(); int SetWork( int, int, int , int, int, RATSNEST_ITEM *, int ); void GetWork( int *, int *, int *, int *, int *, RATSNEST_ITEM ** ); void SortWork(); /* order the work items; shortest first */ /* routing_matrix.cpp */ int Build_Work( BOARD * Pcb ); void PlaceCells( BOARD * Pcb, int net_code, int flag = 0 ); #endif // AUTOROUT_H