(* IOChan.mod implement the ISO IOChan specification. Copyright (C) 2002-2023 Free Software Foundation, Inc. Contributed by Gaius Mulley . This file is part of GNU Modula-2. GNU Modula-2 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, or (at your option) any later version. GNU Modula-2 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. Under Section 7 of GPL version 3, you are granted additional permissions described in the GCC Runtime Library Exception, version 3.1, as published by the Free Software Foundation. You should have received a copy of the GNU General Public License and a copy of the GCC Runtime Library Exception along with this program; see the files COPYING3 and COPYING.RUNTIME respectively. If not, see . *) IMPLEMENTATION MODULE IOChan ; IMPORT FIO, EXCEPTIONS, M2EXCEPTION, RTio, IOConsts, RTentity, errno, ErrnoCategory, IOLink, StdChans, M2RTS ; FROM EXCEPTIONS IMPORT ExceptionSource, RAISE, AllocateSource, IsCurrentSource, IsExceptionalExecution ; FROM Storage IMPORT ALLOCATE ; TYPE ChanId = RTio.ChanId ; VAR iochan : ExceptionSource ; invalid: ChanId ; PROCEDURE InvalidChan () : ChanId ; (* Returns the value identifying the invalid channel. *) BEGIN RETURN( invalid ) END InvalidChan ; PROCEDURE CheckValid (cid: ChanId) ; (* internal routine to check whether we have a valid channel *) BEGIN IF cid=InvalidChan() THEN RAISE(iochan, ORD(notAChannel), 'IOChan: ChanId specified is invalid') END END CheckValid ; (* For each of the following operations, if the device supports the operation on the channel, the behaviour of the procedure conforms with the description below. The full behaviour is defined for each device module. If the device does not support the operation on the channel, the behaviour of the procedure is to raise the exception notAvailable. *) (* Text operations - these perform any required translation between the internal and external representation of text. *) PROCEDURE Look (cid: ChanId; VAR ch: CHAR; VAR res: IOConsts.ReadResults) ; (* If there is a character as the next item in the input stream cid, assigns its value to ch without removing it from the stream; otherwise the value of ch is not defined. res (and the stored read result) are set to the value allRight, endOfLine, or endOfInput. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.Look: device table ptr is NIL') ELSE WITH dtp^ DO IF cid=StdChans.NullChan() THEN result := IOConsts.endOfInput ELSIF (ChanConsts.readFlag IN flags) AND (ChanConsts.textFlag IN flags) THEN doLook(dtp, ch, res) ELSE res := IOConsts.wrongFormat END ; result := res END END END Look ; PROCEDURE Skip (cid: ChanId) ; (* If the input stream cid has ended, the exception skipAtEnd is raised; otherwise the next character or line mark in cid is removed, and the stored read result is set to the value allRight. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.Skip: device table ptr is NIL') ELSE WITH dtp^ DO IF (cid=StdChans.NullChan()) OR (result=IOConsts.endOfInput) THEN RAISE(iochan, ORD(skipAtEnd), 'IOChan.Skip: attempt to skip data from a stream that has ended') ELSIF (ChanConsts.readFlag IN flags) AND (ChanConsts.textFlag IN flags) THEN doSkip(dtp) ; result := IOConsts.allRight ELSE RAISE(iochan, ORD(notAvailable), 'IOChan.Skip: attempt to skip data from a channel which is not configured as read and text') END END END END Skip ; PROCEDURE SkipLook (cid: ChanId; VAR ch: CHAR; VAR res: IOConsts.ReadResults) ; (* If the input stream cid has ended, the exception skipAtEnd is raised; otherwise the next character or line mark in cid is removed. If there is a character as the next item in cid stream, assigns its value to ch without removing it from the stream. Otherwise, the value of ch is not defined. res (and the stored read result) are set to the value allRight, endOfLine, or endOfInput. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.SkipLook: device table ptr is NIL') ELSE WITH dtp^ DO IF (cid=StdChans.NullChan()) OR (result=IOConsts.endOfInput) THEN RAISE(iochan, ORD(skipAtEnd), 'IOChan.SkipLook: attempt to skip data from a stream that has ended') ELSIF (ChanConsts.readFlag IN flags) AND (ChanConsts.textFlag IN flags) THEN doSkipLook(dtp, ch, result) ELSE RAISE(iochan, ORD(notAvailable), 'IOChan.SkipLook: attempt to skip data from a channel which is not configured as read and text') END ; res := result END END END SkipLook ; PROCEDURE WriteLn (cid: ChanId) ; (* Writes a line mark over the channel cid. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.WriteLn: device table ptr is NIL') ELSE WITH dtp^ DO IF cid=StdChans.NullChan() THEN (* do nothing *) ELSIF (ChanConsts.writeFlag IN flags) AND (ChanConsts.textFlag IN flags) THEN dtp^.doLnWrite(dtp) ELSE RAISE(iochan, ORD(notAvailable), 'IOChan.WriteLn: attempting to write to a channel which is not configured as write and text') END END END END WriteLn ; PROCEDURE TextRead (cid: ChanId; to: SYSTEM.ADDRESS; maxChars: CARDINAL; VAR charsRead: CARDINAL) ; (* Reads at most maxChars characters from the current line in cid, and assigns corresponding values to successive components of an ARRAY OF CHAR variable for which the address of the first component is to. The number of characters read is assigned to charsRead. The stored read result is set to allRight, endOfLine, or endOfInput. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.TextRead: device table ptr is NIL') ELSE WITH dtp^ DO IF (cid=StdChans.NullChan()) OR (result=IOConsts.endOfInput) THEN charsRead := 0 ; result := IOConsts.endOfInput ELSIF (ChanConsts.readFlag IN flags) AND (ChanConsts.textFlag IN flags) THEN doTextRead(dtp, to, maxChars, charsRead) ELSE RAISE(iochan, ORD(notAvailable), 'IOChan.TextRead: attempt to read data from a channel which is not configured as read and text') END END END END TextRead ; PROCEDURE TextWrite (cid: ChanId; from: SYSTEM.ADDRESS; charsToWrite: CARDINAL) ; (* Writes a number of characters given by the value of charsToWrite, from successive components of an ARRAY OF CHAR variable for which the address of the first component is from, to the channel cid. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.TextWrite: device table ptr is NIL') ELSE WITH dtp^ DO IF cid=StdChans.NullChan() THEN (* do nothing *) ELSIF (ChanConsts.writeFlag IN flags) AND (ChanConsts.textFlag IN flags) THEN doTextWrite(dtp, from, charsToWrite) ELSE RAISE(iochan, ORD(notAvailable), 'IOChan.TextWrite: attempt to write data to a channel which is not configured as write and text') END END END END TextWrite ; (* Direct raw operations - these do not effect translation between the internal and external representation of data *) PROCEDURE RawRead (cid: ChanId; to: SYSTEM.ADDRESS; maxLocs: CARDINAL; VAR locsRead: CARDINAL) ; (* Reads at most maxLocs items from cid, and assigns corresponding values to successive components of an ARRAY OF LOC variable for which the address of the first component is to. The number of characters read is assigned to locsRead. The stored read result is set to the value allRight, or endOfInput. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.RawRead: device table ptr is NIL') ELSE WITH dtp^ DO IF (cid=StdChans.NullChan()) OR (result=IOConsts.endOfInput) THEN locsRead := 0 ; result := IOConsts.endOfInput ELSIF (ChanConsts.readFlag IN flags) AND (ChanConsts.rawFlag IN flags) THEN doRawRead(dtp, to, maxLocs, locsRead) ELSE RAISE(iochan, ORD(notAvailable), 'IOChan.RawRead: attempt to read data from a channel which is not configured as read and raw') END END END END RawRead ; PROCEDURE RawWrite (cid: ChanId; from: SYSTEM.ADDRESS; locsToWrite: CARDINAL) ; (* Writes a number of items given by the value of charsToWrite, from successive components of an ARRAY OF LOC variable for which the address of the first component is from, to the channel cid. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.RawWrite: device table ptr is NIL') ELSE WITH dtp^ DO IF (cid=StdChans.NullChan()) OR (result=IOConsts.endOfInput) THEN result := IOConsts.endOfInput ELSIF (ChanConsts.writeFlag IN flags) AND (ChanConsts.rawFlag IN flags) THEN doRawWrite(dtp, from, locsToWrite) ELSE RAISE(iochan, ORD(notAvailable), 'IOChan.RawWrite: attempt to write data to a channel which is not configured as write and raw') END END END END RawWrite ; (* Common operations *) PROCEDURE GetName (cid: ChanId; VAR s: ARRAY OF CHAR) ; (* Copies to s a name associated with the channel cid, possibly truncated (depending on the capacity of s). *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.GetName: device table ptr is NIL') ELSE dtp^.doGetName(dtp, s) END END GetName ; PROCEDURE Reset (cid: ChanId) ; (* Resets the channel cid to a state defined by the device module. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.Reset: device table ptr is NIL') ELSE dtp^.doReset(dtp) END END Reset ; PROCEDURE Flush (cid: ChanId) ; (* Flushes any data buffered by the device module out to the channel cid. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.Flush: device table ptr is NIL') ELSE dtp^.doFlush(dtp) END END Flush ; (* Access to read results *) PROCEDURE SetReadResult (cid: ChanId; res: IOConsts.ReadResults) ; (* Sets the read result value for the channel cid to the value res. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.SetReadResult: device table ptr is NIL') ELSE dtp^.result := res END END SetReadResult ; PROCEDURE ReadResult (cid: ChanId) : IOConsts.ReadResults ; (* Returns the stored read result value for the channel cid. (This is initially the value notKnown). *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.SetReadResult: device table ptr is NIL') ELSE RETURN( dtp^.result ) END END ReadResult ; (* Users can discover which flags actually apply to a channel *) PROCEDURE CurrentFlags (cid: ChanId) : ChanConsts.FlagSet ; (* Returns the set of flags that currently apply to the channel cid. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.SetReadResult: device table ptr is NIL') ELSE RETURN( dtp^.flags ) END END CurrentFlags ; (* The following exceptions are defined for this module and its clients *) PROCEDURE IsChanException () : BOOLEAN ; (* Returns TRUE if the current coroutine is in the exceptional execution state because of the raising of an exception from ChanExceptions; otherwise returns FALSE. *) BEGIN RETURN( IsExceptionalExecution() AND IsCurrentSource(iochan) ) END IsChanException ; PROCEDURE ChanException () : ChanExceptions ; (* If the current coroutine is in the exceptional execution state because of the raising of an exception from ChanExceptions, returns the corresponding enumeration value, and otherwise raises an exception. *) BEGIN IF IsChanException() THEN RETURN( VAL(ChanExceptions, EXCEPTIONS.CurrentNumber(iochan)) ) ELSE M2RTS.NoException (SYSTEM.ADR(__FILE__), __LINE__, __COLUMN__, SYSTEM.ADR(__FUNCTION__), SYSTEM.ADR ("not in the exceptional execution state")) END END ChanException ; (* When a device procedure detects a device error, it raises the exception softDeviceError or hardDeviceError. If these exceptions are handled, the following facilities may be used to discover an implementation-defined error number for the channel. *) PROCEDURE DeviceError (cid: ChanId) : DeviceErrNum ; (* If a device error exception has been raised for the channel cid, returns the error number stored by the device module. *) VAR did: IOLink.DeviceId ; dtp: IOLink.DeviceTablePtr ; BEGIN CheckValid(cid) ; did := RTio.GetDeviceId(cid) ; dtp := IOLink.DeviceTablePtrValue(cid, did) ; IF dtp=NIL THEN RAISE(iochan, ORD(hardDeviceError), 'IOChan.DeviceError: device table ptr is NIL') ELSE RETURN( dtp^.errNum ) END END DeviceError ; BEGIN AllocateSource(iochan) ; invalid := ChanId(RTio.InitChanId()) END IOChan.