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fpc/utils/fpcm/fpcmdic.pp
fpc 790a4fe2d3 * log and id tags removed 
git-svn-id: trunk@42 -
2005-05-21 09:42:41 +00:00

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{
Copyright (c) 2001 by Peter Vreman
TDictionary class
See the file COPYING.FPC, included in this distribution,
for details about the copyright.
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.
**********************************************************************}
{$ifdef fpc}{$mode objfpc}{$endif}
{$H+}
unit fpcmdic;
interface
const { the real size will be [-hasharray..hasharray] ! }
hasharraysize = 2047;
type
{ namedindexobect for use with dictionary and indexarray }
TDictionaryItem=class
private
Fname : string;
FSpeedValue : cardinal;
protected
procedure SetName(const n:string);
public
left,
right : TDictionaryItem;
constructor create(const n:string);
property Name:string read FName write SetName;
property SpeedValue:cardinal read FSpeedValue;
end;
Pdictionaryhasharray=^Tdictionaryhasharray;
Tdictionaryhasharray=array[-hasharraysize..hasharraysize] of TDictionaryItem;
Tnamedindexcallback = procedure(p:TDictionaryItem) of object;
Tdictionary=class
private
FRoot : TDictionaryItem;
FHashArray : Pdictionaryhasharray;
procedure cleartree(obj:TDictionaryItem);
function insertNode(NewNode:TDictionaryItem;var currNode:TDictionaryItem):TDictionaryItem;
procedure inserttree(currtree,currroot:TDictionaryItem);
public
noclear : boolean;
replace_existing : boolean;
constructor Create;
destructor Destroy;override;
procedure usehash;
procedure clear;
function delete(const s:string):TDictionaryItem;
function empty:boolean;
procedure foreach(proc2call:Tnamedindexcallback);
function insert(obj:TDictionaryItem):TDictionaryItem;
function rename(const olds,News : string):TDictionaryItem;
function search(const s:string):TDictionaryItem;
function speedsearch(const s:string;SpeedValue:Cardinal):TDictionaryItem;
property Items[const s:string]:TDictionaryItem read Search;default;
end;
{ Speed/Hash value }
Function GetSpeedValue(Const s:String):cardinal;
implementation
{*****************************************************************************
GetSpeedValue
*****************************************************************************}
var
Crc32Tbl : array[0..255] of cardinal;
procedure MakeCRC32Tbl;
var
crc : cardinal;
i,n : integer;
begin
for i:=0 to 255 do
begin
crc:=i;
for n:=1 to 8 do
if odd(crc) then
crc:=(crc shr 1) xor $edb88320
else
crc:=crc shr 1;
Crc32Tbl[i]:=crc;
end;
end;
Function GetSpeedValue(Const s:String):cardinal;
var
i : integer;
InitCrc : cardinal;
begin
if Crc32Tbl[1]=0 then
MakeCrc32Tbl;
InitCrc:=$ffffffff;
for i:=1 to Length(s) do
InitCrc:=Crc32Tbl[byte(InitCrc) xor ord(s[i])] xor (InitCrc shr 8);
GetSpeedValue:=InitCrc;
end;
{****************************************************************************
TDictionaryItem
****************************************************************************}
constructor TDictionaryItem.Create(const n:string);
begin
left:=nil;
right:=nil;
FSpeedValue:=$ffffffff;
FName:=n;
end;
procedure TDictionaryItem.Setname(const n:string);
begin
if FSpeedValue=$ffffffff then
FName:=n;
end;
{****************************************************************************
TDICTIONARY
****************************************************************************}
constructor Tdictionary.Create;
begin
FRoot:=nil;
FHashArray:=nil;
noclear:=false;
replace_existing:=false;
end;
procedure Tdictionary.usehash;
begin
if not(assigned(FRoot)) and
not(assigned(FHashArray)) then
begin
New(FHashArray);
fillchar(FHashArray^,sizeof(FHashArray^),0);
end;
end;
destructor Tdictionary.destroy;
begin
if not noclear then
clear;
if assigned(FHashArray) then
dispose(FHashArray);
end;
procedure Tdictionary.cleartree(obj:TDictionaryItem);
begin
if assigned(obj.left) then
cleartree(obj.left);
if assigned(obj.right) then
cleartree(obj.right);
obj.free;
obj:=nil;
end;
procedure Tdictionary.clear;
var
w : integer;
begin
if assigned(FRoot) then
cleartree(FRoot);
if assigned(FHashArray) then
for w:=-hasharraysize to hasharraysize do
if assigned(FHashArray^[w]) then
cleartree(FHashArray^[w]);
end;
function Tdictionary.delete(const s:string):TDictionaryItem;
var
p,SpeedValue : cardinal;
n : TDictionaryItem;
procedure insert_right_bottom(var root,Atree:TDictionaryItem);
begin
while root.right<>nil do
root:=root.right;
root.right:=Atree;
end;
function delete_from_tree(root:TDictionaryItem):TDictionaryItem;
type
leftright=(left,right);
var
lr : leftright;
oldroot : TDictionaryItem;
begin
oldroot:=nil;
while (root<>nil) and (root.SpeedValue<>SpeedValue) do
begin
oldroot:=root;
if SpeedValue<root.SpeedValue then
begin
root:=root.right;
lr:=right;
end
else
begin
root:=root.left;
lr:=left;
end;
end;
while (root<>nil) and (root.name<>s) do
begin
oldroot:=root;
if s<root.name then
begin
root:=root.right;
lr:=right;
end
else
begin
root:=root.left;
lr:=left;
end;
end;
if root.left<>nil then
begin
{ Now the Node pointing to root must point to the left
subtree of root. The right subtree of root must be
connected to the right bottom of the left subtree.}
if lr=left then
oldroot.left:=root.left
else
oldroot.right:=root.left;
if root.right<>nil then
insert_right_bottom(root.left,root.right);
end
else
begin
{ There is no left subtree. So we can just replace the Node to
delete with the right subtree.}
if lr=left then
oldroot.left:=root.right
else
oldroot.right:=root.right;
end;
delete_from_tree:=root;
end;
begin
SpeedValue:=GetSpeedValue(s);
n:=FRoot;
if assigned(FHashArray) then
begin
{ First, check if the Node to delete directly located under
the hasharray.}
p:=SpeedValue mod hasharraysize;
n:=FHashArray^[p];
if (n<>nil) and (n.SpeedValue=SpeedValue) and
(n.name=s) then
begin
{ The Node to delete is directly located under the
hasharray. Make the hasharray point to the left
subtree of the Node and place the right subtree on
the right-bottom of the left subtree.}
if n.left<>nil then
begin
FHashArray^[p]:=n.left;
if n.right<>nil then
insert_right_bottom(n.left,n.right);
end
else
FHashArray^[p]:=n.right;
delete:=n;
exit;
end;
end
else
begin
{ First check if the Node to delete is the root.}
if (FRoot<>nil) and (n.SpeedValue=SpeedValue) and
(n.name=s) then
begin
if n.left<>nil then
begin
FRoot:=n.left;
if n.right<>nil then
insert_right_bottom(n.left,n.right);
end
else
FRoot:=n.right;
delete:=n;
exit;
end;
end;
delete:=delete_from_tree(n);
end;
function Tdictionary.empty:boolean;
var
w : integer;
begin
if assigned(FHashArray) then
begin
empty:=false;
for w:=-hasharraysize to hasharraysize do
if assigned(FHashArray^[w]) then
exit;
empty:=true;
end
else
empty:=(FRoot=nil);
end;
procedure Tdictionary.foreach(proc2call:Tnamedindexcallback);
procedure a(p:TDictionaryItem);
begin
proc2call(p);
if assigned(p.left) then
a(p.left);
if assigned(p.right) then
a(p.right);
end;
var
i : integer;
begin
if assigned(FHashArray) then
begin
for i:=-hasharraysize to hasharraysize do
if assigned(FHashArray^[i]) then
a(FHashArray^[i]);
end
else
if assigned(FRoot) then
a(FRoot);
end;
function Tdictionary.insert(obj:TDictionaryItem):TDictionaryItem;
begin
obj.FSpeedValue:=GetSpeedValue(obj.name);
if assigned(FHashArray) then
insert:=insertNode(obj,FHashArray^[obj.SpeedValue mod hasharraysize])
else
insert:=insertNode(obj,FRoot);
end;
function tdictionary.insertNode(NewNode:TDictionaryItem;var currNode:TDictionaryItem):TDictionaryItem;
begin
if currNode=nil then
begin
currNode:=NewNode;
insertNode:=NewNode;
end
{ First check SpeedValue, to allow a fast insert }
else
if currNode.SpeedValue>NewNode.SpeedValue then
insertNode:=insertNode(NewNode,currNode.right)
else
if currNode.SpeedValue<NewNode.SpeedValue then
insertNode:=insertNode(NewNode,currNode.left)
else
begin
if currNode.name>NewNode.name then
insertNode:=insertNode(NewNode,currNode.right)
else
if currNode.name<NewNode.name then
insertNode:=insertNode(NewNode,currNode.left)
else
begin
if replace_existing and
assigned(currNode) then
begin
NewNode.left:=currNode.left;
NewNode.right:=currNode.right;
currNode:=NewNode;
insertNode:=NewNode;
end
else
insertNode:=currNode;
end;
end;
end;
procedure tdictionary.inserttree(currtree,currroot:TDictionaryItem);
begin
if assigned(currtree) then
begin
inserttree(currtree.left,currroot);
inserttree(currtree.right,currroot);
currtree.right:=nil;
currtree.left:=nil;
insertNode(currtree,currroot);
end;
end;
function tdictionary.rename(const olds,News : string):TDictionaryItem;
var
spdval : Cardinal;
lasthp,
hp,hp2,hp3 : TDictionaryItem;
begin
spdval:=GetSpeedValue(olds);
if assigned(FHashArray) then
hp:=FHashArray^[spdval mod hasharraysize]
else
hp:=FRoot;
lasthp:=nil;
while assigned(hp) do
begin
if spdval>hp.SpeedValue then
begin
lasthp:=hp;
hp:=hp.left
end
else
if spdval<hp.SpeedValue then
begin
lasthp:=hp;
hp:=hp.right
end
else
begin
if (hp.name=olds) then
begin
{ Get in hp2 the replacer for the root or hasharr }
hp2:=hp.left;
hp3:=hp.right;
if not assigned(hp2) then
begin
hp2:=hp.right;
hp3:=hp.left;
end;
{ remove entry from the tree }
if assigned(lasthp) then
begin
if lasthp.left=hp then
lasthp.left:=hp2
else
lasthp.right:=hp2;
end
else
begin
if assigned(FHashArray) then
FHashArray^[spdval mod hasharraysize]:=hp2
else
FRoot:=hp2;
end;
{ reinsert the hp3 in the tree from hp2 }
inserttree(hp3,hp2);
{ reset Node with New values }
hp.name:=newS;
hp.FSpeedValue:=GetSpeedValue(newS);
hp.left:=nil;
hp.right:=nil;
{ reinsert }
if assigned(FHashArray) then
rename:=insertNode(hp,FHashArray^[hp.SpeedValue mod hasharraysize])
else
rename:=insertNode(hp,FRoot);
exit;
end
else
if olds>hp.name then
begin
lasthp:=hp;
hp:=hp.left
end
else
begin
lasthp:=hp;
hp:=hp.right;
end;
end;
end;
end;
function Tdictionary.search(const s:string):TDictionaryItem;
begin
search:=speedsearch(s,GetSpeedValue(s));
end;
function Tdictionary.speedsearch(const s:string;SpeedValue:Cardinal):TDictionaryItem;
var
NewNode:TDictionaryItem;
begin
if assigned(FHashArray) then
NewNode:=FHashArray^[SpeedValue mod hasharraysize]
else
NewNode:=FRoot;
while assigned(NewNode) do
begin
if SpeedValue>NewNode.SpeedValue then
NewNode:=NewNode.left
else
if SpeedValue<NewNode.SpeedValue then
NewNode:=NewNode.right
else
begin
if (NewNode.name=s) then
begin
speedsearch:=NewNode;
exit;
end
else
if s>NewNode.name then
NewNode:=NewNode.left
else
NewNode:=NewNode.right;
end;
end;
speedsearch:=nil;
end;
end.
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