{ 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. Plugins Class for the Mufasa Macro Library } unit plugins; { Problems with SMART; you cannot free the plugin when smart is open.. Therefore, loading & free-ing plugins per script run is not an option. Assigning a TMPlugin per Tab might be a do-able solution, but will still cope with the SMART Problems.. So the question is: Plugins Per Tab,Per Run or Global? } {$mode objfpc}{$H+} interface uses Classes, SysUtils, dynlibs, libloader; const cv_StdCall = 0; //StdCall cv_Register = 1; //Register type TPasScriptType = record TypeName, TypeDef: string; end; TMPluginMethod = record FuncPtr: pointer; FuncStr: string; FuncConv: integer; end; TMPlugin = record Methods: array of TMPluginMethod; MethodLen: integer; Types: array of TPasScriptType; TypesLen: integer; end; TMPluginArray = array of TMPlugin; { TMPlugins } TMPlugins = class (TGenericLoader) private Plugins: TMPluginArray; NumPlugins: integer; protected function InitPlugin(plugin: TLibHandle): boolean; override; public property MPlugins: TMPluginArray read Plugins; property Count: integer read NumPlugins; end; implementation uses MufasaTypes,FileUtil; { TMPlugins } function TMPlugins.InitPlugin(Plugin: TLibHandle): boolean; var GetFuncCount: function: integer; stdcall; GetFuncInfo: function(x: Integer; var ProcAddr: Pointer; var ProcDef: PChar): integer; stdcall; GetFuncConv: function(x: integer): integer; stdcall; GetTypeCount: function: integer; stdcall; GetTypeInfo: function(x: Integer; var sType, sTypeDef: string): integer; stdcall; PD: PChar; pntr: Pointer; ArrC, I: integer; begin Pointer(GetFuncCount) := GetProcAddress(Plugin, PChar('GetFunctionCount')); if (GetFuncCount = nil) then begin Result := False; Exit; end; Pointer(GetFuncInfo) := GetProcAddress(Plugin, PChar('GetFunctionInfo')); if (GetFuncInfo = nil) then begin Result := False; Exit; end; Pointer(GetFuncConv) := GetProcAddress(Plugin, PChar('GetFunctionCallingConv')); SetLength(Plugins, NumPlugins + 1); Pointer(GetTypeCount) := GetProcAddress(Plugin, PChar('GetTypeCount')); if (not (GetTypeCount = nil)) then begin Pointer(GetTypeInfo) := GetProcAddress(Plugin, PChar('GetTypeInfo')); if (not (GetTypeInfo = nil)) then begin ArrC := GetTypeCount(); Plugins[NumPlugins].TypesLen := ArrC; SetLength(Plugins[NumPlugins].Types, ArrC); for I := 0 to ArrC - 1 do begin if (GetTypeInfo(I, Plugins[NumPlugins].Types[I].TypeName, Plugins[NumPlugins].Types[I].TypeDef) < 0) then begin Plugins[NumPlugins].Types[I].TypeName := ''; Plugins[NumPlugins].Types[I].TypeDef := ''; end; end; end; end; ArrC := GetFuncCount(); Plugins[NumPlugins].MethodLen := ArrC; SetLength(Plugins[NumPlugins].Methods, ArrC); PD := StrAlloc(255); for I := 0 to ArrC - 1 do begin; if (GetFuncInfo(I, pntr, PD) < 0) then Continue; Plugins[NumPlugins].Methods[I].FuncPtr := pntr; Plugins[NumPlugins].Methods[I].FuncStr := PD; if (GetFuncConv <> nil) then Plugins[NumPlugins].Methods[I].FuncConv := GetFuncConv(I) else Plugins[NumPlugins].Methods[I].FuncConv := cv_stdcall; end; StrDispose(PD); Inc(NumPlugins); Result := True; end; end.