{ This file is part of the Mufasa Macro Library (MML) Copyright (c) 2009 by Raymond van Venetiƫ and Merlijn Wajer MML 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 3 of the License, or (at your option) any later version. MML 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 MML. If not, see . See the file COPYING, included in this distribution, for details about the copyright. DTM Utilities for the Mufasa Macro Library } unit dtmutil; {$mode objfpc}{$H+} interface uses Classes, SysUtils, MufasaTypes; Function pDTMToTDTM(Const DTM: pDTM): TDTM; Function tDTMTopDTM(Const DTM: TDTM): pDTM; Procedure PrintpDTM(tDTM : pDTM); procedure initdtm(out d: pdtm; len: integer); function ValidMainPointBox(var dtm: pDTM; const x1, y1, x2, y2: Integer): TBox; function ValidMainPointBoxRotated(var dtm: pDTM; const x1, y1, x2, y2: Integer; sAngle, eAngle, aStep: Extended): TBox; function DTMConsistent(var dtm: pdtm): boolean; procedure NormalizeDTM(var dtm: pdtm); const dtm_Rectangle = 0; dtm_Cross = 1; dtm_DiagonalCross = 2; dtm_Circle = 3; dtm_Triangle = 4; implementation uses math; // macro procedure initdtm(out d: pdtm; len: integer); var i: integer; begin d.l := len; d.n := ''; setlength(d.p, len); setlength(d.c, len); setlength(d.t, len); setlength(d.ash, len); setlength(d.asz, len); FillChar(d.p[0], SizeOf(TPoint) * len, 0); FillChar(d.c[0], SizeOf(Integer) * len, 0); FillChar(d.t[0], SizeOf(Integer) * len, 0); FillChar(d.ash[0], SizeOf(Integer) * len, 0); // Better set it to 1, than fill with 0. FillChar(d.asz[0], SizeOf(Integer) * len, 0); {for i := 0 to len - 1 do d.asz[i] := 1; } end; Procedure PrintpDTM(tDTM : pDTM); var i : integer; begin; i := 0; if tdtm.n <> '' then writeln('Name: ' + tdtm.n); WriteLn('MainPoint ' + inttostr(tDTM.p[i].x) + ', ' + inttostr(tDTM.p[i].y) + ' col: ' + inttostr(tDTM.c[i]) + ', tol: ' + inttostr(tDTM.t[i]) + '; ashape ' + inttostr(tdtm.ash[i]) + ' asize ' + inttostr(tdtm.asz[i])); for I := 1 to High(tDTM.p) do WriteLn('SubPoint['+IntToStr(I) + '] ' + inttostr(tDTM.p[i].x) + ', ' + inttostr(tDTM.p[i].y) + ' col: ' + inttostr(tDTM.c[i]) + ', tol: ' + inttostr(tDTM.t[i]) + '; ashape ' + inttostr(tdtm.ash[i]) + ' asize ' + inttostr(tdtm.asz[i])); end; Function pDTMToTDTM(Const DTM: pDTM): TDTM; Var Temp: TDTMPointDef; I: Integer; Begin For I := 0 To 0 Do Begin Temp.X := DTM.p[i].x; Temp.Y := DTM.p[i].y; Temp.AreaSize := DTM.asz[i]; Temp.AreaShape := DTM.ash[i]; Temp.Color := DTM.c[i]; Temp.Tolerance := DTM.t[i]; End; Result.MainPoint := Temp; SetLength(Result.SubPoints, Length(DTM.p) - 1); For I := 1 To DTM.l-1 Do Begin Temp.X := 0; Temp.Y := 0; Temp.AreaSize := 0; Temp.AreaShape := 0; Temp.Color := 0; Temp.Tolerance := 0; Temp.X := DTM.p[i].x; Temp.Y := DTM.p[i].y; Temp.AreaSize := DTM.asz[i]; Temp.AreaShape := DTM.ash[i]; Temp.Color := DTM.c[i]; Temp.Tolerance := DTM.t[i]; Result.SubPoints[I - 1] := Temp; End; End; {/\ Converts a TDTM to a pDTM. /\} Function tDTMTopDTM(Const DTM: TDTM): pDTM; Var //Temp: TDTMPointDef; I: Integer; Begin SetLength(Result.p, Length(DTM.SubPoints) + 1); SetLength(Result.c, Length(DTM.SubPoints) + 1); SetLength(Result.t, Length(DTM.SubPoints) + 1); SetLength(Result.asz, Length(DTM.SubPoints) + 1); SetLength(Result.ash, Length(DTM.SubPoints) + 1); Result.p[0].x := DTM.MainPoint.x; Result.p[0].y := DTM.MainPoint.y; Result.c[0] := DTM.MainPoint.Color; Result.t[0] := DTM.MainPoint.Tolerance; Result.asz[0] := DTM.MainPoint.AreaSize; Result.ash[0] := DTM.MainPoint.AreaShape; For I := 1 To Length(DTM.SubPoints) Do // High + 1 = Length Begin Result.p[I].x := DTM.SubPoints[I - 1].x; Result.p[I].y := DTM.SubPoints[I - 1].y; Result.c[I] := DTM.SubPoints[I - 1].Color; Result.t[I] := DTM.SubPoints[I - 1].Tolerance; Result.asz[I] := DTM.SubPoints[I - 1].AreaSize; Result.ash[I] := DTM.SubPoints[I - 1].AreaShape; End; Result.l := length(Result.p); End; { TODO: Check if bounds are correct? } function DTMConsistent(var dtm: pdtm): boolean; var i: integer; begin if dtm.l = 0 then Exit(False); if dtm.l <> length(dtm.p) then Exit(False); if dtm.l <> length(dtm.c) then Exit(False); if dtm.l <> length(dtm.t) then Exit(False); if dtm.l <> length(dtm.asz) then Exit(False); if dtm.l <> length(dtm.ash) then Exit(False); for i := 0 to dtm.l-1 do if dtm.asz[i] < 0 then Exit(False); for i := 0 to dtm.l-1 do if dtm.c[i] < 0 then Exit(False); for i := 0 to dtm.l-1 do if dtm.t[i] < 0 then Exit(False); for i := 0 to dtm.l-1 do if dtm.ash[i] < 0 then Exit(False); Exit(True); end; procedure NormalizeDTM(var dtm: pdtm); var i:integer; begin for i := 0 to dtm.l do dtm.p[i] := dtm.p[i] - dtm.p[0]; end; Function ValidMainPointBox(var dtm: pDTM; const x1, y1, x2, y2: Integer): TBox; var i: Integer; b: TBox; begin // writeln(format('%d, %d', [0,0])); for i := 1 to high(dtm.c) do begin dtm.p[i] := dtm.p[i] - dtm.p[0]; // writeln(format('%d, %d', [dtm.p[i].x, dtm.p[i].y])); end; dtm.p[0] := dtm.p[0] - dtm.p[0]; FillChar(b, SizeOf(TBox), 0); for i := 0 to high(dtm.c) do begin b.x1 := min(b.x1, dtm.p[i].x - dtm.asz[i]); b.y1 := min(b.y1, dtm.p[i].y - dtm.asz[i]); b.x2 := max(b.x2, dtm.p[i].x + dtm.asz[i]); b.y2 := max(b.y2, dtm.p[i].y + dtm.asz[i]); end; //FillChar(Result, SizeOf(TBox), 0); //writeln(Format('DTM Bounding Box: %d, %d : %d, %d', [b.x1, b.y1,b.x2,b.y2])); Result.x1 := x1 - b.x1; Result.y1 := y1 - b.y1; Result.x2 := x2 - b.x2; Result.y2 := y2 - b.y2; end; Function ValidMainPointBoxRotated(var dtm: pDTM; const x1, y1, x2, y2: Integer; sAngle, eAngle, aStep: Extended): TBox; begin end; end.