{ This file is part of the Free Pascal run time library. A file in Amiga system run time library. Copyright (c) 1998-2003 by Nils Sjoholm member of the Amiga RTL development team. 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. **********************************************************************} { History: Added DoMethodA, DoSuperMethodA, CoerceMethodA and SetSuperAttrsA. I've translated those from amigae. I'm not sure that they are correct but it's a start. Now you can try to make some tests with mui. 30 Jul 2000. Added stuff for commodities. FreeIEvents CxCustom CxDebug CxFilter CxSender CxSignal CxTranslate 19 Aug 2000. Rewrote Createport and DeletePort. 06 Sep 2000. Added two printf, one with pchar and one with string. They use array of const so this unit compiles with mode objfpc. 05 Nov 2002. Added the define use_amiga_smartlink 13 Jan 2003. nils.sjoholm@mailbox.swipnet.se } {$mode objfpc} {$I useamigasmartlink.inc} {$ifdef use_amiga_smartlink} {$smartlink on} {$endif use_amiga_smartlink} unit amigalib; INTERFACE uses exec,intuition,utility,commodities,inputevent,amigados; {* Exec support functions from amiga.lib *} procedure BeginIO (ioRequest: pIORequest); function CreateExtIO (port: pMsgPort; size: Longint): pIORequest; procedure DeleteExtIO (ioReq: pIORequest); function CreateStdIO (port: pMsgPort): pIOStdReq; procedure DeleteStdIO (ioReq: pIOStdReq); function CreatePort (name: PChar; pri: longint): pMsgPort; procedure DeletePort (port: pMsgPort); function CreateTask (name: STRPTR; pri: longint; initPC : Pointer; stackSize : ULONG): pTask; procedure DeleteTask (task: pTask); procedure NewList (list: pList); {* Commodities support functions from amiga.lib *} procedure FreeIEvents (events: pInputEvent); function CxCustom (action: pointer; id: longint): pCxObj; function CxDebug (id: long): pCxObj; function CxFilter (d: STRPTR): pCxObj; function CxSender (port: pMsgPort; id: longint): pCxObj; function CxSignal (task: pTask; sig: byte): pCxObj; function CxTranslate (ie: pInputEvent): pCxObj; function DoMethodA(obj : pObject_; msg : APTR): ulong; function DoSuperMethodA(cl : pIClass; obj : pObject_; msg : APTR): ulong; function CoerceMethodA(cl : pIClass; obj : pObject_; msg : APTR): ulong; function SetSuperAttrsA(cl : pIClass; obj: pObject_; msg : APTR): ulong; { NAME printf - print a formatted output line to the standard output. SYNOPSIS printf(formatstring [,value [,values] ] ); FUNCTION Format the output in accordance with specifications in the format string. INPUTS formatString - a C-language-like NULL-terminated format string, with the following supported % options: %[flags][width][.limit][length]type $ - must follow the arg_pos value, if specified flags - only one allowed. '-' specifies left justification. width - field width. If the first character is a '0', the field is padded with leading 0s. . - must precede the field width value, if specified limit - maximum number of characters to output from a string. (only valid for %s or %b). length - size of input data defaults to word (16-bit) for types c, d, u and x, 'l' changes this to long (32-bit). type - supported types are: b - BSTR, data is 32-bit BPTR to byte count followed by a byte string. A NULL BPTR is treated as an empty string. (V36) d - signed decimal u - unsigned decimal x - hexadecimal with hex digits in uppercase X - hexadecimal with hex digits in lowercase s - string, a 32-bit pointer to a NULL-terminated byte string. A NULL pointer is treated as an empty string. c - character value(s) - numeric variables or addresses of null-terminated strings to be added to the format information. NOTE The global "_stdout" must be defined, and contain a pointer to a legal AmigaDOS file handle. Using the standard Amiga startup module sets this up. In other cases you will need to define stdout, and assign it to some reasonable value (like what the dos.library/Output() call returns). This code would set it up: ULONG stdout; stdout=Output(); BUGS This function will crash if the resulting stream after parameter substitution is longer than 140 bytes. } procedure printf(Fmtstr : pchar; Args : array of const); procedure printf(Fmtstr : string; Args : array of const); IMPLEMENTATION uses pastoc; {* Exec support functions from amiga.lib *} procedure BeginIO (ioRequest: pIORequest); begin asm move.l a6,-(a7) move.l ioRequest,a1 ; get IO Request move.l 20(a1),a6 ; extract Device ptr jsr -30(a6) ; call BEGINIO directly move.l (a7)+,a6 end; end; function CreateExtIO (port: pMsgPort; size: Longint): pIORequest; var IOReq: pIORequest; begin IOReq := NIL; if port <> NIL then begin IOReq := AllocMem(size, MEMF_CLEAR or MEMF_PUBLIC); if IOReq <> NIL then begin IOReq^.io_Message.mn_Node.ln_Type := NT_REPLYMSG; IOReq^.io_Message.mn_Length := size; IOReq^.io_Message.mn_ReplyPort := port; end; end; CreateExtIO := IOReq; end; procedure DeleteExtIO (ioReq: pIORequest); begin if ioReq <> NIL then begin ioReq^.io_Message.mn_Node.ln_Type := $FF; ioReq^.io_Message.mn_ReplyPort := pMsgPort(-1); ioReq^.io_Device := pDevice(-1); ExecFreeMem(ioReq, ioReq^.io_Message.mn_Length); end end; function CreateStdIO (port: pMsgPort): pIOStdReq; begin CreateStdIO := pIOStdReq(CreateExtIO(port, sizeof(tIOStdReq))) end; procedure DeleteStdIO (ioReq: pIOStdReq); begin DeleteExtIO(pIORequest(ioReq)) end; function Createport(name : PChar; pri : longint): pMsgPort; var sigbit : Byte; port : pMsgPort; begin sigbit := AllocSignal(-1); if sigbit = -1 then CreatePort := nil; port := Allocmem(sizeof(tMsgPort),MEMF_CLEAR or MEMF_PUBLIC); if port = nil then begin FreeSignal(sigbit); CreatePort := nil; end; with port^ do begin if assigned(name) then mp_Node.ln_Name := name else mp_Node.ln_Name := nil; mp_Node.ln_Pri := pri; mp_Node.ln_Type := NT_MsgPort; mp_Flags := PA_Signal; mp_SigBit := sigbit; mp_SigTask := FindTask(nil); end; if assigned(name) then AddPort(port) else NewList(addr(port^.mp_MsgList)); CreatePort := port; end; procedure DeletePort (port: pMsgPort); begin if port <> NIL then begin if port^.mp_Node.ln_Name <> NIL then RemPort(port); port^.mp_Node.ln_Type := $FF; port^.mp_MsgList.lh_Head := pNode(-1); FreeSignal(port^.mp_SigBit); ExecFreeMem(port, sizeof(tMsgPort)); end; end; function CreateTask (name: STRPTR; pri: longint; initPC: pointer; stackSize: ULONG): pTask; var memlist : pMemList; task : pTask; totalsize : Longint; begin task := NIL; stackSize := (stackSize + 3) and not 3; totalsize := sizeof(tMemList) + sizeof(tTask) + stackSize; memlist := AllocMem(totalsize, MEMF_PUBLIC + MEMF_CLEAR); if memlist <> NIL then begin memlist^.ml_NumEntries := 1; memlist^.ml_ME[0].me_Un.meu_Addr := Pointer(memlist + 1); memlist^.ml_ME[0].me_Length := totalsize - sizeof(tMemList); task := pTask(memlist + sizeof(tMemList) + stackSize); task^.tc_Node.ln_Pri := pri; task^.tc_Node.ln_Type := NT_TASK; task^.tc_Node.ln_Name := name; task^.tc_SPLower := Pointer(memlist + sizeof(tMemList)); task^.tc_SPUpper := Pointer(task^.tc_SPLower + stackSize); task^.tc_SPReg := task^.tc_SPUpper; NewList(@task^.tc_MemEntry); AddTail(@task^.tc_MemEntry,@memlist^.ml_Node); AddTask(task,initPC,NIL) end; CreateTask := task; end; procedure DeleteTask (task: pTask); begin RemTask(task) end; procedure NewList (list: pList); begin with list^ do begin lh_Head := pNode(@lh_Tail); lh_Tail := NIL; lh_TailPred := pNode(@lh_Head) end end; procedure FreeIEvents (events: pInputEvent); begin while events <> NIL do begin FreeMem (events, sizeof (tInputEvent)); events := events^.ie_NextEvent end end; function CxCustom (action: pointer; id: longint): pCxObj; begin CxCustom := CreateCxObj(CX_CUSTOM, longint(action), id) end; function CxDebug (id: long): pCxObj; begin CxDebug := CreateCxObj(CX_DEBUG, id, 0) end; function CxFilter (d: STRPTR): pCxObj; begin CxFilter := CreateCxObj(CX_FILTER, longint(d), 0) end; function CxSender (port: pMsgPort; id: longint): pCxObj; begin CxSender := CreateCxObj(CX_SEND, longint(port), id) end; function CxSignal (task: pTask; sig: byte): pCxObj; begin CxSignal:= CreateCxObj(CX_SIGNAL, longint(task), sig) end; function CxTranslate (ie: pInputEvent): pCxObj; begin CxTranslate := CreateCxObj(CX_TRANSLATE, longint(ie), 0) end; function DoMethodA(obj : pObject_; msg : APTR): ulong; var o : p_Object; begin if assigned(obj) then begin o := p_Object(obj); DoMethodA := CallHookPkt(@o^.o_Class^.cl_Dispatcher, obj,msg); end else DoMethodA := 0; end; function DoSuperMethodA(cl : pIClass; obj : pObject_; msg : APTR): ulong; begin if assigned(obj) and assigned(cl) then DoSuperMethodA := CallHookPkt(@cl^.cl_Super^.cl_Dispatcher,obj,msg) else DoSuperMethodA := 0; end; function CoerceMethodA(cl : pIClass; obj : pObject_; msg : APTR): ulong; begin if assigned(cl) and assigned(obj) then CoerceMethodA := CallHookPkt(@cl^.cl_Dispatcher,obj,msg) else CoerceMethodA := 0; end; function SetSuperAttrsA(cl : pIClass; obj: pObject_; msg : APTR): ulong; var arr : array[0..2] of longint; begin arr[0] := OM_SET; arr[1] := longint(msg); arr[2] := 0; SetSuperAttrsA := DoSuperMethodA(cl, obj, @arr); end; var argarray : array [0..20] of longint; function gettheconst(args : array of const): pointer; var i : longint; begin for i := 0 to High(args) do begin case args[i].vtype of vtinteger : argarray[i] := longint(args[i].vinteger); vtpchar : argarray[i] := longint(args[i].vpchar); vtchar : argarray[i] := longint(args[i].vchar); vtpointer : argarray[i] := longint(args[i].vpointer); vtstring : argarray[i] := longint(pas2c(args[i].vstring^)); end; end; gettheconst := @argarray; end; procedure printf(Fmtstr : pchar; Args : array of const); begin VPrintf(Fmtstr,gettheconst(Args)); end; procedure printf(Fmtstr : string; Args : array of const); begin VPrintf(pas2c(Fmtstr) ,gettheconst(Args)); end; end.