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Further frame-geometry cleanups
-------------------- ChangeLog entries follow: --------------------
man/ChangeLog addition:
2010-03-03 Ben Wing <ben@xemacs.org>
* internals/internals.texi (Intro to Window and Frame Geometry):
* internals/internals.texi (The Paned Area):
* internals/internals.texi (The Displayable Area):
Update to make note of e.g. the fact that the bottom gutter is
actually above the minibuffer.
src/ChangeLog addition:
2010-03-03 Ben Wing <ben@xemacs.org>
* emacs.c:
* emacs.c (assert_equal_failed):
* lisp.h:
* lisp.h (assert_equal):
New fun assert_equal, asserting that two values == each other, and
printing out both values upon failure.
* frame-gtk.c (gtk_initialize_frame_size):
* frame-impl.h:
* frame-impl.h (FRAME_TOP_INTERNAL_BORDER_START):
* frame-impl.h (FRAME_BOTTOM_INTERNAL_BORDER_START):
* frame-impl.h (FRAME_LEFT_INTERNAL_BORDER_START):
* frame-impl.h (FRAME_PANED_TOP_EDGE):
* frame-impl.h (FRAME_NONPANED_SIZE):
* frame-x.c (x_initialize_frame_size):
* frame.c:
* gutter.c (get_gutter_coords):
* gutter.c (calculate_gutter_size):
* gutter.h:
* gutter.h (WINDOW_REAL_TOP_GUTTER_BOUNDS):
* gutter.h (FRAME_TOP_GUTTER_BOUNDS):
* input-method-xlib.c:
* input-method-xlib.c (XIM_SetGeometry):
* redisplay-output.c (clear_left_border):
* redisplay-output.c (clear_right_border):
* redisplay-output.c (redisplay_output_pixmap):
* redisplay-output.c (redisplay_clear_region):
* redisplay-output.c (redisplay_clear_top_of_window):
* redisplay-output.c (redisplay_clear_to_window_end):
* redisplay-xlike-inc.c (XLIKE_clear_frame):
* redisplay.c:
* redisplay.c (UPDATE_CACHE_RETURN):
* redisplay.c (pixel_to_glyph_translation):
* toolbar.c (update_frame_toolbars_geometry):
* window.c (Fwindow_pixel_edges):
Get rid of some redundant macros. Consistently use the
FRAME_TOP_*_START, FRAME_RIGHT_*_END, etc. format. Rename
FRAME_*_BORDER_* to FRAME_*_INTERNAL_BORDER_*. Comment out
FRAME_BOTTOM_* for gutters and the paned area due to the
uncertainty over where the paned area actually begins. (Eventually
we should probably move the gutters outside the minibuffer so that
the paned area is contiguous.) Use FRAME_PANED_* more often in the
code to make things clearer.
Update the diagram to show that the bottom gutter is inside the
minibuffer (!) and that there are "junk boxes" when you have left
and/or right gutters (dead boxes that are mistakenly left uncleared,
unlike the corresponding scrollbar dead boxes). Update the text
appropriately to cover the bottom gutter position, etc.
Rewrite gutter-geometry code to use the FRAME_*_GUTTER_* in place of
equivalent expressions referencing other frame elements, to make the
code more portable in case we move around the gutter location.
Cleanup FRAME_*_GUTTER_BOUNDS() in gutter.h.
Add some #### GEOM! comments where I think code is incorrect --
typically, it wasn't fixed up properly when the gutter was added.
Some cosmetic changes.
| author | Ben Wing <ben@xemacs.org> |
|---|---|
| date | Wed, 03 Mar 2010 05:07:47 -0600 |
| parents | 3d3049ae1304 |
| children |
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/* * Copyright (c) 2000, Red Hat, Inc. * * This program 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 2 of the License, or * (at your option) any later version. * * A copy of the GNU General Public License can be found at * http://www.gnu.org/ * * Written by DJ Delorie <dj@cygnus.com> * */ /* Built-in tar functionality. See tar.h for usage. */ #include <stdio.h> #include <stdlib.h> #include <sys/types.h> #include <sys/stat.h> #include "win32.h" #include <zlib.h> #include "tar.h" #include "mkdir.h" #include "log.h" #include "port.h" #if defined(CYGWIN) || defined(MINGW) #define FACTOR (0x19db1ded53ea710LL) #define NSPERSEC 10000000LL #else __int64 FACTOR=0x19db1ded53ea710L; __int64 NSPERSEC=10000000L; #endif #define SYMLINK_COOKIE "!<symlink>" typedef struct { char name[100]; /* 0 */ char mode[8]; /* 100 */ char uid[8]; /* 108 */ char gid[8]; /* 116 */ char size[12]; /* 124 */ char mtime[12]; /* 136 */ char chksum[8]; /* 148 */ char typeflag; /* 156 */ char linkname[100]; /* 157 */ char magic[6]; /* 257 */ char version[2]; /* 263 */ char uname[32]; /* 265 */ char gname[32]; /* 297 */ char devmajor[8]; /* 329 */ char devminor[8]; /* 337 */ char prefix[155]; /* 345 */ char junk[12]; /* 500 */ } tar_header_type; typedef struct tar_map_result_type_s { struct tar_map_result_type_s *next; char *stored_name; char *mapped_name; } tar_map_result_type; static tar_map_result_type *tar_map_result = 0; static int err; static char file_name[_MAX_PATH+512]; static char have_longname = 0; static int file_length; static tar_header_type tar_header; static char buf[512]; static int _tar_file_size = 0; int _tar_verbose = 0; FILE * _tar_vfile = 0; #define vp if (_tar_verbose) fprintf #define vp2 if (_tar_verbose>1) fprintf static gzFile g = 0; static char * xstrdup (char *c) { char *r = (char *) malloc (strlen (c) + 1); if (!r) exit_setup (1); strcpy (r, c); return r; } int tar_open (char *pathname) { struct stat s; if (_tar_vfile == 0) _tar_vfile = stderr; vp2 (_tar_vfile, "tar: open `%s'\n", pathname); if (stat (pathname, &s) < 0) return 1; _tar_file_size = s.st_size; g = gzopen (pathname, "rb"); if (sizeof (tar_header) != 512) { /* drastic, but important */ fprintf (stderr, "compilation error: tar header struct not 512" " bytes (it's %d)\n", sizeof (tar_header)); exit_setup (1); } err = 0; return g ? 0 : 1; } /* For some reason the cygwin version uses a function that is not in the original source. We duplicate it here - although this does mean revealing some internals. */ extern "C" { z_off_t ZEXPORT tar_gzctell (gzFile file); typedef struct gz_stream { z_stream stream; int z_err; /* error code for last stream operation */ int z_eof; /* set if end of input file */ FILE *file; /* .gz file */ Byte *inbuf; /* input buffer */ Byte *outbuf; /* output buffer */ uLong crc; /* crc32 of uncompressed data */ char *msg; /* error message */ char *path; /* path name for debugging only */ int transparent; /* 1 if input file is not a .gz file */ char mode; /* 'w' or 'r' */ long startpos; /* start of compressed data in file (header skipped) */ } gz_stream; }; z_off_t ZEXPORT tar_gzctell (gzFile file) { gz_stream *s = (gz_stream *)file; return ftell(s->file); } int tar_ftell () { return tar_gzctell (g); } static void skip_file () { while (file_length > 0) { gzread (g, buf, 512); file_length -= 512; } } char * tar_next_file () { int r, n; char *c; r = gzread (g, &tar_header, 512); /* See if we're at end of file */ if (r != 512) return 0; /* See if the header is all zeros (i.e. last block) */ n = 0; for (r = 512/sizeof (int); r; r--) n |= ((int *)&tar_header)[r-1]; if (n == 0) return 0; if (!have_longname && tar_header.typeflag != 'L') { memcpy (file_name, tar_header.name, 100); file_name[100] = 0; } sscanf (tar_header.size, "%o", &file_length); vp2 (_tar_vfile, "%c %9d %s\n", tar_header.typeflag, file_length, file_name); switch (tar_header.typeflag) { case 'L': /* GNU tar long name extension */ if (file_length > _MAX_PATH) { skip_file (); fprintf (stderr, "error: long file name exceeds %d characters\n", _MAX_PATH); err ++; gzread (g, &tar_header, 512); sscanf (tar_header.size, "%o", &file_length); skip_file (); return tar_next_file (); } c = file_name; while (file_length > 0) { int need = file_length > 512 ? 512 : file_length; if (gzread (g, buf, 512) < 512) return 0; memcpy (c, buf, need); c += need; file_length -= need; } *c = 0; have_longname = 1; return tar_next_file (); case '3': /* char */ case '4': /* block */ case '6': /* fifo */ fprintf (stderr, "warning: not extracting special file %s\n", file_name); err ++; return tar_next_file (); case '0': /* regular file */ case 0: /* regular file also */ case '2': /* symbolic link */ case '5': /* directory */ case '7': /* contiguous file */ return file_name; case '1': /* hard link, we just copy */ return file_name; default: fprintf (stderr, "error: unknown (or unsupported) file type `%c'\n", tar_header.typeflag); err ++; skip_file (); return tar_next_file (); } } static void fix_time_stamp (char *path) { int mtime; #if defined(CYGWIN) || defined(MINGW) long long ftimev; #else __int64 ftimev; #endif FILETIME ftime; HANDLE h; sscanf (tar_header.mtime, "%o", &mtime); ftimev = mtime * NSPERSEC + FACTOR; ftime.dwHighDateTime = ftimev >> 32; ftime.dwLowDateTime = ftimev; h = CreateFileA (path, GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, 0, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL | FILE_FLAG_BACKUP_SEMANTICS, 0); if (h) { SetFileTime (h, 0, 0, &ftime); CloseHandle (h); } } static FILE * common_fopen (char *path) { FILE *out; out = fopen (path, "wb"); if (!out) { /* maybe we need to create a directory */ if (mkdir_p (0, path)) { skip_file (); return 0; } out = fopen (path, "wb"); } if (!out) { fprintf (stderr, "unable to write to file %s\n", path); perror ("The error was"); skip_file (); return 0; } return out; } static void prepare_for_file (char *path) { DWORD w; mkdir_p (0, path); w = GetFileAttributes (path); if (w != 0xffffffff && w & FILE_ATTRIBUTE_DIRECTORY) { char *tmp = (char *) malloc (strlen (path) + 10); int i = 0; do { i++; sprintf (tmp, "%s.old-%d", path, i); } while (GetFileAttributes (tmp) != 0xffffffff); fprintf (stderr, "warning: moving directory \"%s\" out of the way.\n", path); MoveFile (path, tmp); free (tmp); } DeleteFileA (path); } int tar_read_file (char *path) { FILE *out, *copy; HANDLE h; DWORD w; int got; tar_map_result_type *tmr; switch (tar_header.typeflag) { case '0': /* regular files */ case 0: case '7': vp (_tar_vfile, "F %s\n", path); prepare_for_file (path); out = common_fopen (path); if (!out) return 1; while (file_length > 0) { int put; int want = file_length > 512 ? 512 : file_length; got = gzread (g, buf, 512); if (got < 512) { fprintf (stderr, "tar: unexpected end of file reading %s\n", path); fclose (out); remove (path); return 1; } put = fwrite (buf, 1, want, out); if (put < want) { fprintf (stderr, "tar: out of disk space writing %s\n", path); fclose (out); remove (path); skip_file (); return 1; } file_length -= want; } fclose (out); fix_time_stamp (path); /* we need this to do hard links below */ tmr = (tar_map_result_type *) malloc (sizeof (tar_map_result_type)); tmr->next = tar_map_result; tmr->stored_name = xstrdup (file_name); tmr->mapped_name = xstrdup (path); tar_map_result = tmr; return 0; case '1': /* hard links; we just copy */ for (tmr = tar_map_result; tmr; tmr=tmr->next) if (strcmp (tmr->stored_name, tar_header.linkname) == 0) break; if (!tmr) { fprintf (stderr, "tar: can't find %s to link %s to\n", tar_header.linkname, path); return 1; } vp (_tar_vfile, "H %s <- %s\n", path, tmr->mapped_name); prepare_for_file (path); copy = fopen (tmr->mapped_name, "rb"); if (!copy) { fprintf (stderr, "tar: unable to read %s\n", tmr->mapped_name); return 1; } out = common_fopen (path); if (!out) return 1; while ((got = fread (buf, 1, 512, copy)) > 0) { int put = fwrite (buf, 1, got, out); if (put < got) { fprintf (stderr, "tar: out of disk space writing %s\n", path); fclose (out); fclose (copy); remove (path); return 1; } } fclose (out); fclose (copy); fix_time_stamp (path); return 0; case '5': /* directories */ vp (_tar_vfile, "D %s\n", path); while (path[0] && path[strlen (path)-1] == '/') path[strlen (path) - 1] = 0; return mkdir_p (1, path); case '2': /* symbolic links */ vp (_tar_vfile, "L %s -> %s\n", path, tar_header.linkname); prepare_for_file (path); h = CreateFileA (path, GENERIC_WRITE, 0, 0, CREATE_NEW, FILE_ATTRIBUTE_NORMAL, 0); if (h == INVALID_HANDLE_VALUE) { fprintf (stderr, "error: unable to create symlink \"%s\" -> \"%s\"\n", path, tar_header.linkname); return 1; } strcpy (buf, SYMLINK_COOKIE); strcat (buf, tar_header.linkname); if (WriteFile (h, buf, strlen (buf) + 1, &w, NULL)) { CloseHandle (h); SetFileAttributesA (path, FILE_ATTRIBUTE_SYSTEM); return 0; } CloseHandle (h); fprintf (stderr, "error: unable to write symlink \"%s\"\n", path); DeleteFileA (path); return 1; } return 0; } int tar_close () { #if 0 while (tar_map_result) { tar_map_result_type *t = tar_map_result->next; free (tar_map_result->stored_name); free (tar_map_result->mapped_name); free (tar_map_result); tar_map_result = t; } #endif tar_map_result = 0; if (gzclose (g)) err ++; return err; /* includes errors for skipped files, etc */ } typedef struct { char *from; int from_len; char *to; int to_len; } map_type; static map_type *map; static int nmaps; int tar_auto (char *pathname, char **maplist) { char *c; int errcount = 0; int i, j; map_type mtemp; char newname[_MAX_PATH+512]; static char twiddles[] = "|\b/\b-\b\\\b"; int t = 0; for (nmaps=0; maplist[nmaps*2]; nmaps++) ; map = (map_type *) malloc ((nmaps+1) * sizeof (map_type)); for (nmaps=0; maplist[nmaps*2]; nmaps++) { map[nmaps].from = maplist[nmaps*2]; map[nmaps].from_len = strlen (maplist[nmaps*2]); map[nmaps].to = maplist[nmaps*2+1]; map[nmaps].to_len = strlen (maplist[nmaps*2+1]); } /* bubble sort - expect the maps to be short */ for (i=0; i<nmaps-1; i++) for (j=i+1; j<nmaps; j++) if (map[i].from_len < map[j].from_len) { mtemp = map[i]; map[i] = map[j]; map[j] = mtemp; } if ((tar_open (pathname))) return 1; while ((c = tar_next_file ())) { int l = strlen (c); for (i=0; i<nmaps; i++) if (l >= map[i].from_len && strncmp (c, map[i].from, map[i].from_len) == 0) { strcpy (newname, map[i].to); strcpy (newname+map[i].to_len, c + map[i].from_len); c = newname; break; } t = (t+2) % 8; fwrite (twiddles+t, 1, 2, stderr); if (tar_read_file (c)) errcount ++; } if (tar_close ()) errcount ++; fwrite (" \b", 1, 2, stderr); vp2 (_tar_vfile, "tar_auto returns %d\n", errcount); return errcount; }