1
0
mirror of https://github.com/moparisthebest/Simba synced 2024-11-29 12:32:14 -05:00
Simba/Units/MMLCore/dtm.pas

439 lines
11 KiB
ObjectPascal

{
This file is part of the Mufasa Macro Library (MML)
Copyright (c) 2009 by Raymond van Venetië 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 <http://www.gnu.org/licenses/>.
See the file COPYING, included in this distribution,
for details about the copyright.
DTM class for the Mufasa Macro Library
}
unit dtm;
{$mode objfpc}{$H+}
interface
uses
Classes, SysUtils, MufasaTypes;
type
{ TMDTM }
TMDTM = class(TObject)
private
FPoints : TMDTMPointArray;
FLen : integer;
function GetPointerPoints: PMDTMPoint;
procedure SetPointCount(const AValue: integer);
public
Name : string;
Index : integer;
function ToString : string;
function LoadFromString(const s : string) : boolean;
procedure Normalize;
function Valid : boolean;
procedure DeletePoint( Point : integer);
procedure SwapPoint(p1,p2 : integer);
procedure MovePoint(fromIndex,toIndex : integer);
procedure AddPoint( Point : TMDTMPoint);
property PPoints : PMDTMPoint read GetPointerPoints;
property Count : integer read FLen write SetPointCount;
property Points : TMDTMPointArray read FPoints;
end;
{ TMDTMS }
TMDTMS = class(TObject) //Manages the DTMs TMufasaDTMs
private
Client: TObject;
DTMList: Array Of TMDTM;
FreeSpots: Array Of Integer;
procedure CheckIndex(index : integer);
public
function AddDTM(const d: TSDTM): Integer;overload;
function AddDTM(const d: TMDTM): Integer;overload;
function GetDTM(index: Integer) :TMDTM;
procedure FreeDTM(DTM: Integer);
function StringToDTM(const S: String): Integer;
property DTM[Index : integer]: TMDTM read GetDTM; default;
constructor Create(Owner: TObject);
destructor Destroy; override;
end;
implementation
uses
dtmutil, paszlib,
client,
DCPbase64,
graphics, // for TColor
math // for max
;
constructor TMDTMS.Create(Owner: TObject);
begin
inherited Create;
Self.Client := Owner;
SetLength(DTMList, 0);
SetLength(FreeSpots, 0);
end;
{$DEFINE DTM_DEBUG}
destructor TMDTMS.Destroy;
var
i, j: integer;
b:boolean;
WriteStr : string;
begin
WriteStr := '[';
for i := 0 to high(DTMList) do
begin
b := false;
for j := 0 to high(freespots) do
if i = freespots[j] then
begin
b := true;
break;
end;
if not b then
begin;
if DTMList[i].name <> '' then
WriteStr := WriteStr + DTMList[i].name + ', '
else
WriteStr := WriteStr + inttostr(i) + ', ';
FreeDTM(i);
end;
end;
if WriteStr <> '[' then //Has unfreed DTMs
begin
SetLength(WriteStr,length(WriteStr)-1);
WriteStr[Length(writeStr)] := ']';
TClient(Client).Writeln(Format('The following DTMs were not freed: %s',[WriteStr]));
end;
SetLength(DTMList, 0);
SetLength(FreeSpots, 0);
inherited Destroy;
end;
// Rotates the given point (p) by A (in radians) around the point defined by cx, cy.
function RotatePoint(const p: TPoint;const angle, mx, my: Extended): TPoint; inline;
begin
Result.X := Round(mx + cos(angle) * (p.x - mx) - sin(angle) * (p.y - my));
Result.Y := Round(my + sin(angle) * (p.x - mx) + cos(angle) * (p.y- my));
end;
function HexToInt(const HexNum: string): LongInt;inline;
begin
Result:=StrToInt('$' + HexNum);
end;
function TMDTMS.StringToDTM(const S: String): Integer;
var
aDTM : TMDTM;
begin
aDTM := TMDTM.Create;
aDTM.LoadFromString(s);
Result := AddDTM(aDTM);
end;
procedure TMDTMS.CheckIndex(index: integer);
begin
if (index < 0) or (index >= Length(DTMList)) or (DTMList[Index] = nil) then
raise Exception.CreateFmt('The given DTM Index[%d] doesn''t exist',[index]);
end;
function TMDTMS.AddDTM(const d: TSDTM): Integer;
begin
Result := AddDTM(SDTMToMDTM(d));
end;
{/\
Adds the given pDTM to the DTM Array, and returns it's index.
/\}
function TMDTMS.AddDTM(const d: TMDTM): Integer;
begin
if Length(FreeSpots) > 0 then
begin
Result := FreeSpots[High(FreeSpots)];
SetLength(FreeSpots, High(FreeSpots));
end
else
begin
SetLength(DTMList, Length(DTMList) + 1);
Result := High(DTMList);
end;
DTMList[Result] := d;
DTMList[Result].Index:= Result;
DTMList[result].Normalize;
end;
{/\
Returns the DTM (pDTM type) in the variable dtm at the given index.
Returns true is succesfull, false if the dtm does not exist.
/\}
function TMDTMS.GetDTM(index: Integer) :TMDTM;
begin
CheckIndex(index);
result := DTMList[index];
end;
{/\
Unloads the DTM at the given index from the DTM Array.
Notes:
Will keep track of not used index, so it is very memory efficient.
/\}
procedure TMDTMS.FreeDTM(DTM: Integer);
begin
CheckIndex(DTM);
DTMList[DTM].Free;
DTMList[DTM] := nil;
SetLength(FreeSpots, Length(FreeSpots) + 1);
FreeSpots[High(FreeSpots)] := DTM;
end;
{ TMDTM }
function TMDTM.GetPointerPoints: PMDTMPoint;
begin
if count < 1 then
result := nil
else
result := @FPoints[0];
end;
procedure TMDTM.SetPointCount(const AValue: integer);
begin
SetLength(FPoints,AValue);
FLen := AValue;
end;
//We save the data as arrays for each point (so we can add features to DTMs without having to change
//the way the ToString is done..
//E.G. A DTM with 3 points would become
//LenXXXYYYCCCTTTASZASZASZBPBPBP
function TMDTM.ToString: string;
var
i,len : integer;
Ptr,Start : Pointer;
Destlen : Longword;
procedure WriteInteger(int : integer);
begin
PLongInt(Ptr)^ := int;
Inc(ptr,sizeof(int));
end;
procedure WriteBool(bool : boolean);
begin;
PBoolean(Ptr)^ := bool;
inc(ptr,sizeof(boolean));
end;
begin
result := '';
if Count < 1 then
exit;
len := Count * TMDTMPointSize + SizeOf(Integer);
Start:= GetMem(len);
Ptr := Start;
WriteInteger(FLen);
for i := 0 to FLen-1 do
WriteInteger(FPoints[i].x);
for i := 0 to FLen-1 do
WriteInteger(FPoints[i].y);
for i := 0 to FLen-1 do
WriteInteger(FPoints[i].c);
for i := 0 to FLen-1 do
WriteInteger(FPoints[i].t);
for i := 0 to FLen-1 do
WriteInteger(FPoints[i].asz);
for i := 0 to FLen-1 do
WriteBool(FPoints[i].bp);
Destlen :=BufferLen;
if compress(BufferString,destlen,pchar(start),len) = Z_OK then
begin
setlength(result,Destlen + SizeOf(Integer));
PInteger(@result[1])^ := len;
Move(bufferstring[0],result[1 + sizeof(integer)],Destlen);
//We now have Size + Compressed data.. Lets Base64Encrypt it!
Result := 'm' + Base64EncodeStr(result);
//It now looks like m + base64encoded data! The 'm' is to indicate we used this encryption method.
end;
Freemem(start,len);
end;
function TMDTM.LoadFromString(const s: string): boolean;
var
MDTM : TMDTM;
Source : String;
DestLen : longword;
i,ii,c : integer;
DPoints : PMDTMPoint;
Ptr : Pointer;
function ReadInteger : integer;
begin
Result := PInteger(ptr)^;
inc(ptr,sizeof(integer));
end;
function ReadBoolean : boolean;
begin
result := PBoolean(ptr)^;
inc(ptr,sizeof(boolean));
end;
begin
Result := false;
ii := Length(S);
if (ii = 0) then
exit;
if S[1] = 'm' then
begin
if ii < 9 then
raise Exception.CreateFMT('Invalid DTM-String passed to StringToDTM: %s',[s]);
Source := Base64DecodeStr(copy(s,2,ii-1));
i:= PLongint(@source[1])^; //The 4 four bytes should contain the dest len!
if i < 1 then
raise Exception.CreateFMT('Invalid DTM-String passed to StringToDTM: %s',[s]);
DestLen := BufferLen;
ptr := @Source[1 + sizeof(longint)];
if uncompress(BufferString,DestLen,ptr,length(source)-sizeof(integer)) = Z_OK then
begin
ptr := BufferString;
Self.Count:= ReadInteger;
ii := Self.Count;
if (Self.Count * TMDTMPointSize) <> (Destlen - SizeOf(integer)) then
raise Exception.CreateFMT('Invalid DTM-String passed to StringToDTM: %s',[s]);
DPoints := Self.PPoints;
for i := 0 to ii-1 do
DPoints[i].x := ReadInteger;
for i := 0 to ii-1 do
DPoints[i].y := ReadInteger;
for i := 0 to ii-1 do
DPoints[i].c := ReadInteger;
for i := 0 to ii-1 do
DPoints[i].t := ReadInteger;
for i := 0 to ii-1 do
DPoints[i].asz := ReadInteger;
for i := 0 to ii-1 do
DPoints[i].bp := ReadBoolean;
Result := true;
end;
end else
begin
if (ii mod 2 <> 0) then
exit;
ii := ii div 2;
SetLength(Source,ii);
for i := 1 to ii do
Source[i] := Chr(HexToInt(S[i * 2 - 1] + S[i * 2]));
DestLen := BufferLen;
if uncompress(Bufferstring,Destlen,pchar(Source), ii) = Z_OK then
begin;
if (Destlen mod 36) > 0 then
raise Exception.CreateFMT('Invalid DTM-String passed to StringToDTM: %s',[s]);
DestLen := DestLen div 36;
Self.Count:= DestLen;
DPoints := Self.PPoints;
ptr := bufferstring;
for i := 0 to DestLen - 1 do
begin;
DPoints[i].x :=PInteger(ptr + 1)^;
DPoints[i].y := PInteger(ptr + 5)^;
DPoints[i].asz := PInteger(ptr + 12)^;
// DPoints.ash[i] := PInteger(@b^[c+16])^;
DPoints[i].c := PInteger(ptr + 20)^;
DPoints[i].t := PInteger(ptr + 24)^;
DPoints[i].bp := False;
inc(ptr,36);
end;
Result := true;
end;
end;
if result then
Normalize;
end;
procedure TMDTM.Normalize;
var
i:integer;
begin
if (self = nil) or (Self.count < 1) or ((Self.Points[0].x = 0) and (Self.Points[0].y = 0)) then //Already normalized
exit;
for i := 1 to Self.Count - 1 do
begin
Self.Points[i].x := Self.Points[i].x - Self.Points[0].x;
Self.Points[i].y := Self.Points[i].y - Self.Points[0].y;
end;
Self.Points[0].x := 0;
Self.Points[0].y := 0;
end;
function TMDTM.Valid: boolean;
begin
result := false;
if Count < 1 then
exit;
Normalize;
result := true;
end;
procedure TMDTM.DeletePoint(Point: integer);
begin
MovePoint(Point,FLen-1);
Count := Count - 1;
end;
procedure TMDTM.SwapPoint(p1, p2: integer);
var
Temp : TMDTMPoint;
begin
Temp := FPoints[p1];
FPoints[p1] := FPoints[p2];
FPoints[p2] := Temp;
end;
procedure TMDTM.MovePoint(fromIndex, toIndex: integer);
var
i : integer;
begin
if fromIndex > toIndex then //We are going down
begin
for i := fromindex downto Toindex+1 do
SwapPoint(i,i-1);
end else if fromIndex < toIndex then
for i := fromindex to toindex - 1 do
SwapPoint(i,i+1);
end;
procedure TMDTM.AddPoint(Point: TMDTMPoint);
begin
Count:= Count + 1;
FPoints[FLen-1] := Point;
end;
end.