/* * Copyright (c) 1980 Regents of the University of California. * All rights reserved. The Berkeley software License Agreement * specifies the terms and conditions for redistribution. */ #ifndef lint static char sccsid[] = "@(#)source.c 5.1 (Berkeley) 6/6/85"; #endif not lint /* * Source file management. */ #include "defs.h" #include "source.h" /* * Seektab is the data structure used for indexing source * seek addresses by line number. * * The constraints are: * * we want an array so indexing is fast and easy * we don't want to waste space for small files * we don't want an upper bound on # of lines in a file * we don't know how many lines there are * * The solution is a sparse array. We have NSLOTS pointers to * arrays of NLINESPERSLOT addresses. To find the source address of * a particular line we find the slot, allocate space if necessary, * and then find its location within the pointed to array. * * As a result, there is a limit of NSLOTS*NLINESPERSLOT lines per file * but this is plenty high and still fairly inexpensive. * * This implementation maintains only one source file at any given * so as to avoid consuming too much memory. In an environment where * memory is less constrained and one expects to be changing between * files often enough, it would be reasonable to have multiple seek tables. */ typedef int SEEKADDR; #define NSLOTS 40 #define NLINESPERSLOT 500 #define slotno(line) ((line)/NLINESPERSLOT) #define index(line) ((line)%NLINESPERSLOT) #define slot_alloc() alloc(NLINESPERSLOT, SEEKADDR) #define srcaddr(line) seektab[(line)/NLINESPERSLOT][(line)%NLINESPERSLOT] LOCAL SEEKADDR *seektab[NSLOTS]; LOCAL FILE *srcfp; /* * check to make sure a source line number is valid */ chkline(linenum) register LINENO linenum; { if (linenum < 1) { error("line number must be positive"); } if (linenum > lastlinenum) { error("not that many lines"); } } /* * print out the given lines from the source */ printlines(l1, l2) LINENO l1, l2; { register int c; register LINENO i; register FILE *fp; chkline(l1); chkline(l2); if (l2 < l1) { error("second line number less than first"); } fp = srcfp; fseek(fp, (long) srcaddr(l1), 0); for (i = l1; i <= l2; i++) { printf("%5d ", i); while ((c = getc(fp)) != '\n') { putchar(c); } putchar('\n'); } } /* * read the source file getting seek pointers for each line */ skimsource(file) char *file; { register int c; register SEEKADDR count; register FILE *fp; register LINENO linenum; register SEEKADDR lastaddr; register int slot; if (file == NIL || file == cursource) { return; } if ((fp = fopen(file, "r")) == NULL) { panic("can't open \"%s\"", file); } if (cursource != NIL) { free_seektab(); } cursource = file; linenum = 0, count = 0, lastaddr = 0; while ((c = getc(fp)) != EOF) { count++; if (c == '\n') { slot = slotno(++linenum); if (slot >= NSLOTS) { panic("skimsource: too many lines"); } if (seektab[slot] == NIL) { seektab[slot] = slot_alloc(); } seektab[slot][index(linenum)] = lastaddr; lastaddr = count; } } lastlinenum = linenum; srcfp = fp; } /* * Erase information and release space in the current seektab. * This is in preparation for reading in seek pointers for a * new file. It is possible that seek pointers for all files * should be kept around, but the current concern is space. */ LOCAL free_seektab() { register int slot; for (slot = 0; slot < NSLOTS; slot++) { if (seektab[slot] != NIL) { free(seektab[slot]); seektab[slot] = NIL; } } }