/* Context-format output routines for GNU DIFF. Copyright (C) 1988, 1989 Free Software Foundation, Inc. This file is part of GNU DIFF. GNU DIFF 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 1, or (at your option) any later version. GNU DIFF 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 GNU DIFF; see the file COPYING. If not, write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "diff.h" #include "regex.h" static void pr_context_hunk (); static void pr_unidiff_hunk (); static struct change *find_hunk (); static void mark_ignorable (); static void find_function (); /* Last place find_function started searching from. */ static int find_function_last_search; /* The value find_function returned when it started searching there. */ static int find_function_last_match; /* Print a label for a context diff, with a file name and date or a label. */ static void print_context_label (mark, inf, label) const char *mark; struct file_data *inf; const char *label; { if (label) fprintf (outfile, "%s %s\n", mark, label); else if (inf->stat.st_mtime) fprintf (outfile, "%s %s\t%s", mark, inf->name, ctime(&inf->stat.st_mtime)); else /* Don't pretend that standard input is ancient. */ fprintf (outfile, "%s %s\n", mark, inf->name); } /* Print a header for a context diff, with the file names and dates. */ void print_context_header (inf, unidiff_flag) struct file_data *inf; int unidiff_flag; { if (unidiff_flag) { print_context_label ("---", &inf[0], file_label[0]); print_context_label ("+++", &inf[1], file_label[1]); } else { print_context_label ("***", &inf[0], file_label[0]); print_context_label ("---", &inf[1], file_label[1]); } } /* Print an edit script in context format. */ void print_context_script (script, unidiff_flag) struct change *script; int unidiff_flag; { if (ignore_blank_lines_flag || ignore_regexp) mark_ignorable (script); else { struct change *e; for (e = script; e; e = e->link) e->ignore = 0; } find_function_last_search = 0; find_function_last_match = -1; if (unidiff_flag) print_script (script, find_hunk, pr_unidiff_hunk); else print_script (script, find_hunk, pr_context_hunk); } /* Print a pair of line numbers with a comma, translated for file FILE. If the second number is not greater, use the first in place of it. Args A and B are internal line numbers. We print the translated (real) line numbers. */ static void print_context_number_range (file, a, b) struct file_data *file; int a, b; { int trans_a, trans_b; translate_range (file, a, b, &trans_a, &trans_b); /* Note: we can have B < A in the case of a range of no lines. In this case, we should print the line number before the range, which is B. */ if (trans_b > trans_a) fprintf (outfile, "%d,%d", trans_a, trans_b); else fprintf (outfile, "%d", trans_b); } /* Print a portion of an edit script in context format. HUNK is the beginning of the portion to be printed. The end is marked by a `link' that has been nulled out. Prints out lines from both files, and precedes each line with the appropriate flag-character. */ static void pr_context_hunk (hunk) struct change *hunk; { int first0, last0, first1, last1, show_from, show_to, i; struct change *next; char *prefix; char *function; int function_length; /* Determine range of line numbers involved in each file. */ analyze_hunk (hunk, &first0, &last0, &first1, &last1, &show_from, &show_to); if (!show_from && !show_to) return; /* Include a context's width before and after. */ first0 = max (first0 - context, 0); first1 = max (first1 - context, 0); last0 = min (last0 + context, files[0].buffered_lines - 1); last1 = min (last1 + context, files[1].buffered_lines - 1); /* If desired, find the preceding function definition line in file 0. */ function = 0; if (function_regexp) find_function (&files[0], first0, &function, &function_length); /* If we looked for and found a function this is part of, include its name in the header of the diff section. */ fprintf (outfile, "***************"); if (function) { fprintf (outfile, " "); fwrite (function, 1, min (function_length - 1, 40), outfile); } fprintf (outfile, "\n*** "); print_context_number_range (&files[0], first0, last0); fprintf (outfile, " ****\n"); if (show_from) { next = hunk; for (i = first0; i <= last0; i++) { /* Skip past changes that apply (in file 0) only to lines before line I. */ while (next && next->line0 + next->deleted <= i) next = next->link; /* Compute the marking for line I. */ prefix = " "; if (next && next->line0 <= i) /* The change NEXT covers this line. If lines were inserted here in file 1, this is "changed". Otherwise it is "deleted". */ prefix = (next->inserted > 0 ? "!" : "-"); print_1_line (prefix, &files[0].linbuf[i]); } } fprintf (outfile, "--- "); print_context_number_range (&files[1], first1, last1); fprintf (outfile, " ----\n"); if (show_to) { next = hunk; for (i = first1; i <= last1; i++) { /* Skip past changes that apply (in file 1) only to lines before line I. */ while (next && next->line1 + next->inserted <= i) next = next->link; /* Compute the marking for line I. */ prefix = " "; if (next && next->line1 <= i) /* The change NEXT covers this line. If lines were deleted here in file 0, this is "changed". Otherwise it is "inserted". */ prefix = (next->deleted > 0 ? "!" : "+"); print_1_line (prefix, &files[1].linbuf[i]); } } } /* Print a pair of line numbers with a comma, translated for file FILE. If the second number is smaller, use the first in place of it. If the numbers are equal, print just one number. Args A and B are internal line numbers. We print the translated (real) line numbers. */ static void print_unidiff_number_range (file, a, b) struct file_data *file; int a, b; { int trans_a, trans_b; translate_range (file, a, b, &trans_a, &trans_b); /* Note: we can have B < A in the case of a range of no lines. In this case, we should print the line number before the range, which is B. */ if (trans_b <= trans_a) fprintf (outfile, trans_b == trans_a ? "%d" : "%d,0", trans_b); else fprintf (outfile, "%d,%d", trans_a, trans_b - trans_a + 1); } /* Print a portion of an edit script in unidiff format. HUNK is the beginning of the portion to be printed. The end is marked by a `link' that has been nulled out. Prints out lines from both files, and precedes each line with the appropriate flag-character. */ static void pr_unidiff_hunk (hunk) struct change *hunk; { int first0, last0, first1, last1, show_from, show_to, i, j, k; struct change *next; int lastline; char *function; int function_length; /* Determine range of line numbers involved in each file. */ analyze_hunk (hunk, &first0, &last0, &first1, &last1, &show_from, &show_to); if (!show_from && !show_to) return; /* Include a context's width before and after. */ first0 = max (first0 - context, 0); first1 = max (first1 - context, 0); last0 = min (last0 + context, files[0].buffered_lines - 1); last1 = min (last1 + context, files[1].buffered_lines - 1); /* If desired, find the preceding function definition line in file 0. */ function = 0; if (function_regexp) find_function (&files[0], first0, &function, &function_length); /* If we looked for and found a function this is part of, include its name in the header of the diff section. */ fprintf (outfile, "@@ -"); print_unidiff_number_range (&files[0], first0, last0); fprintf (outfile, " +"); print_unidiff_number_range (&files[1], first1, last1); fprintf (outfile, " @@"); if (function) { putc (' ', outfile); fwrite (function, 1, min (function_length - 1, 40), outfile); } putc ('\n', outfile); next = hunk; i = first0; j = first1; while (i <= last0 || j <= last1) { /* If the line isn't a difference, output the context from file 0. */ if (!next || i < next->line0) { putc (' ', outfile); print_1_line ((char *)0, &files[0].linbuf[i++]); j++; } else { /* For each difference, first output the deleted part. */ k = next->deleted; while (k--) { putc ('-', outfile); print_1_line ((char *)0, &files[0].linbuf[i++]); } /* Then output the inserted part. */ k = next->inserted; while (k--) { putc ('+', outfile); print_1_line ((char *)0, &files[1].linbuf[j++]); } /* We're done with this hunk, so on to the next! */ next = next->link; } } } /* Scan a (forward-ordered) edit script for the first place that at least 2*CONTEXT unchanged lines appear, and return a pointer to the `struct change' for the last change before those lines. */ static struct change * find_hunk (start) struct change *start; { struct change *prev; int top0, top1; int thresh; do { /* Computer number of first line in each file beyond this changed. */ top0 = start->line0 + start->deleted; top1 = start->line1 + start->inserted; prev = start; start = start->link; /* Threshold distance is 2*CONTEXT between two non-ignorable changes, but only CONTEXT if one is ignorable. */ thresh = ((prev->ignore || (start && start->ignore)) ? context : 2 * context); /* It is not supposed to matter which file we check in the end-test. If it would matter, crash. */ if (start && start->line0 - top0 != start->line1 - top1) abort (); } while (start /* Keep going if less than THRESH lines elapse before the affected line. */ && start->line0 < top0 + thresh); return prev; } /* Set the `ignore' flag properly in each change in SCRIPT. It should be 1 if all the lines inserted or deleted in that change are ignorable lines. */ static void mark_ignorable (script) struct change *script; { while (script) { struct change *next = script->link; int first0, last0, first1, last1, deletes, inserts; /* Turn this change into a hunk: detach it from the others. */ script->link = 0; /* Determine whether this change is ignorable. */ analyze_hunk (script, &first0, &last0, &first1, &last1, &deletes, &inserts); /* Reconnect the chain as before. */ script->link = next; /* If the change is ignorable, mark it. */ script->ignore = (!deletes && !inserts); /* Advance to the following change. */ script = next; } } /* Find the last function-header line in FILE prior to line number LINENUM. This is a line containing a match for the regexp in `function_regexp'. Store the address of the line text into LINEP and the length of the line into LENP. Do not store anything if no function-header is found. */ static void find_function (file, linenum, linep, lenp) struct file_data *file; int linenum; char **linep; int *lenp; { int i = linenum; int last = find_function_last_search; find_function_last_search = i; while (--i >= last) { /* See if this line is what we want. */ if (0 <= re_search (&function_regexp_compiled, file->linbuf[i].text, file->linbuf[i].length, 0, file->linbuf[i].length, 0)) { *linep = file->linbuf[i].text; *lenp = file->linbuf[i].length; find_function_last_match = i; return; } } /* If we search back to where we started searching the previous time, find the line we found last time. */ if (find_function_last_match >= 0) { i = find_function_last_match; *linep = file->linbuf[i].text; *lenp = file->linbuf[i].length; return; } return; }