ex_temp.h revision 7c478bd95313f5f23a4c958a745db2134aa03244
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License, Version 1.0 only
* (the "License"). You may not use this file except in compliance
* with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */
/* All Rights Reserved */
/* Copyright (c) 1981 Regents of the University of California */
#ident "%Z%%M% %I% %E% SMI" /* SVr4.0 1.7 */
/*
* The editor uses a temporary file for files being edited, in a structure
* similar to that of ed. The first block of the file is used for a header
* block which guides recovery after editor/system crashes.
* Lines are represented in core by a pointer into the temporary file which
* is packed into 16 bits (32 on VMUNIX). All but the low bit index the temp
* file; the last is used by global commands. The parameters below control
* how much the other bits are shifted left before they index the temp file.
* Larger shifts give more slop in the temp file but allow larger files
* to be edited.
*
* The editor does not garbage collect the temporary file. When a new
* file is edited, the temporary file is rather discarded and a new one
* created for the new file. Garbage collection would be rather complicated
* in ex because of the general undo, and in any case would require more
* work when throwing lines away because marks would have be carefully
* checked before reallocating temporary file space. Said another way,
* each time you create a new line in the temporary file you get a unique
* number back, and this is a property used by marks.
*
* The following temp file parameters allow 256k bytes in the temporary
* file. By changing to the numbers in comments you can get 512k.
* For VMUNIX you get more than you could ever want.
* VMUNIX uses long (32 bit) integers giving much more
* space in the temp file and no waste. This doubles core
* requirements but allows files of essentially unlimited size to be edited.
*/
#ifndef VMUNIX
#define BLKMSK 0777 /* 01777 */
#define BNDRY 8 /* 16 */
#define INCRMT 0200 /* 0100 */
#define LBTMSK 0770 /* 0760 */
#define NMBLKS 506 /* 1018 */
#define OFFBTS 7 /* 6 */
#define OFFMSK 0177 /* 077 */
#define SHFT 2 /* 3 */
#else
#define BLKMSK 077777
#define BNDRY 2
#define INCRMT 04000 /* 02000 */
#define LBTMSK 03776 /* 01776 */
#define NMBLKS 077770
#define OFFBTS 11 /* 10 */
#define OFFMSK 03777 /* 01777 */
#define SHFT 0
#endif
/*
* The editor uses three buffers into the temporary file (ed uses two
* and is very similar). These are two read buffers and one write buffer.
* Basically, the editor deals with the file as a sequence of BUFSIZE character
* blocks. Each block contains some number of lines (and lines
* can run across block boundaries.
*
* New lines are written into the last block in the temporary file
* which is in core as obuf. When a line is needed which isn't in obuf,
* then it is brought into an input buffer. As there are two, the choice
* is to take the buffer into which the last read (of the two) didn't go.
* Thus this is a 2 buffer LRU replacement strategy. Measurement
* shows that this saves roughly 25% of the buffer reads over a one
* input buffer strategy. Since the editor (on our VAX over 1 week)
* spends (spent) roughly 30% of its time in the system read routine,
* this can be a big help.
*/
var bool hitin2; /* Last read hit was ibuff2 not ibuff */
var bool ichang2; /* Have actually changed ibuff2 */
var bool ichanged; /* Have actually changed ibuff */
var short iblock; /* Temp file block number of ibuff (or -1) */
var short iblock2; /* Temp file block number of ibuff2 (or -1) */
var short ninbuf; /* Number useful chars left in input buffer */
var short nleft; /* Number usable chars left in output buffer */
var short oblock; /* Temp file block number of obuff (or -1) */
#ifndef VMUNIX
var short tline; /* Current temp file ptr */
#else
var int tline;
#endif
var unsigned char ibuff[BUFSIZE];
var unsigned char ibuff2[BUFSIZE];
var unsigned char obuff[BUFSIZE];
/*
* Structure of the descriptor block which resides
* in the first block of the temporary file and is
* the guiding light for crash recovery.
*
* As the Blocks field below implies, there are temporary file blocks
* devoted to (some) image of the incore array of pointers into the temp
* file. Thus, to recover from a crash we use these indices to get the
* line pointers back, and then use the line pointers to get the text back.
* Except for possible lost lines due to sandbagged I/O, the entire
* file (at the time of the last editor "sync") can be recovered from
* the temp file.
*/
/* This definition also appears in expreserve.c... beware */
struct header {
time_t Time; /* Time temp file last updated */
int Uid;
#ifndef VMUNIX
short Flines; /* Number of lines in file */
#else
int Flines;
#endif
unsigned char Savedfile[FNSIZE]; /* The current file name */
short Blocks[LBLKS]; /* Blocks where line pointers stashed */
short encrypted; /* Encrypted temp file flag */
};
var struct header H;
#define uid H.Uid
#define flines H.Flines
#define savedfile H.Savedfile
#define blocks H.Blocks