/*
* $Id: entry.c 443 2006-05-30 04:37:13Z darren $
*
* Copyright (c) 1996-2002, Darren Hiebert
*
* This source code is released for free distribution under the terms of the
* GNU General Public License.
*
* This module contains functions for creating tag entries.
*/
/*
* INCLUDE FILES
*/
#include "general.h" /* must always come first */
#include <string.h>
#include <ctype.h> /* to define isspace () */
#include <errno.h>
#if defined (HAVE_SYS_TYPES_H)
# include <sys/types.h> /* to declare off_t on some hosts */
#endif
#if defined (HAVE_TYPES_H)
# include <types.h> /* to declare off_t on some hosts */
#endif
#if defined (HAVE_UNISTD_H)
# include <unistd.h> /* to declare close (), ftruncate (), truncate () */
#endif
/* These header files provide for the functions necessary to do file
* truncation.
*/
#ifdef HAVE_FCNTL_H
# include <fcntl.h>
#endif
#ifdef HAVE_IO_H
# include <io.h>
#endif
#include "debug.h"
#include "ctags.h"
#include "entry.h"
#include "main.h"
#include "options.h"
#include "read.h"
#include "routines.h"
#include "sort.h"
#include "strlist.h"
/*
* MACROS
*/
#define PSEUDO_TAG_PREFIX "!_"
#define includeExtensionFlags() (Option.tagFileFormat > 1)
/*
* Portability defines
*/
#if !defined(HAVE_TRUNCATE) && !defined(HAVE_FTRUNCATE) && !defined(HAVE_CHSIZE)
# define USE_REPLACEMENT_TRUNCATE
#endif
/* Hack for rediculous practice of Microsoft Visual C++.
*/
#if defined (WIN32) && defined (_MSC_VER)
# define chsize _chsize
# define open _open
# define close _close
# define O_RDWR _O_RDWR
#endif
/*
* DATA DEFINITIONS
*/
tagFile TagFile = {
NULL, /* tag file name */
NULL, /* tag file directory (absolute) */
NULL, /* file pointer */
{ 0, 0 }, /* numTags */
{ 0, 0, 0 }, /* max */
{ NULL, NULL, 0 }, /* etags */
NULL /* vLine */
};
static boolean TagsToStdout = FALSE;
/*
* FUNCTION PROTOTYPES
*/
#ifdef NEED_PROTO_TRUNCATE
extern int truncate (const char *path, off_t length);
#endif
#ifdef NEED_PROTO_FTRUNCATE
extern int ftruncate (int fd, off_t length);
#endif
/*
* FUNCTION DEFINITIONS
*/
extern void freeTagFileResources (void)
{
if (TagFile.directory != NULL)
eFree (TagFile.directory);
vStringDelete (TagFile.vLine);
}
extern const char *tagFileName (void)
{
return TagFile.name;
}
/*
* Pseudo tag support
*/
static void rememberMaxLengths (const size_t nameLength, const size_t lineLength)
{
if (nameLength > TagFile.max.tag)
TagFile.max.tag = nameLength;
if (lineLength > TagFile.max.line)
TagFile.max.line = lineLength;
}
static void writePseudoTag (
const char *const tagName,
const char *const fileName,
const char *const pattern)
{
const int length = fprintf (
TagFile.fp, "%s%s\t%s\t/%s/\n",
PSEUDO_TAG_PREFIX, tagName, fileName, pattern);
++TagFile.numTags.added;
rememberMaxLengths (strlen (tagName), (size_t) length);
}
static void addPseudoTags (void)
{
if (! Option.xref)
{
char format [11];
const char *formatComment = "unknown format";
sprintf (format, "%u", Option.tagFileFormat);
if (Option.tagFileFormat == 1)
formatComment = "original ctags format";
else if (Option.tagFileFormat == 2)
formatComment =
"extended format; --format=1 will not append ;\" to lines";
else if (Option.tagFileFormat == 3)
formatComment = "Acme-style tags";
writePseudoTag ("TAG_FILE_FORMAT", format, formatComment);
writePseudoTag ("TAG_FILE_SORTED",
Option.sorted == SO_FOLDSORTED ? "2" :
(Option.sorted == SO_SORTED ? "1" : "0"),
"0=unsorted, 1=sorted, 2=foldcase");
writePseudoTag ("TAG_PROGRAM_AUTHOR", AUTHOR_NAME, AUTHOR_EMAIL);
writePseudoTag ("TAG_PROGRAM_NAME", PROGRAM_NAME, "");
writePseudoTag ("TAG_PROGRAM_URL", PROGRAM_URL, "official site");
writePseudoTag ("TAG_PROGRAM_VERSION", PROGRAM_VERSION, "");
}
}
static void updateSortedFlag (
const char *const line, FILE *const fp, fpos_t startOfLine)
{
const char *const tab = strchr (line, '\t');
if (tab != NULL)
{
const long boolOffset = tab - line + 1; /* where it should be */
if (line [boolOffset] == '0' || line [boolOffset] == '1')
{
fpos_t nextLine;
if (fgetpos (fp, &nextLine) == -1 || fsetpos (fp, &startOfLine) == -1)
error (WARNING, "Failed to update 'sorted' pseudo-tag");
else
{
fpos_t flagLocation;
int c, d;
do
c = fgetc (fp);
while (c != '\t' && c != '\n');
fgetpos (fp, &flagLocation);
d = fgetc (fp);
if (c == '\t' && (d == '0' || d == '1') &&
d != (int) Option.sorted)
{
fsetpos (fp, &flagLocation);
fputc (Option.sorted == SO_FOLDSORTED ? '2' :
(Option.sorted == SO_SORTED ? '1' : '0'), fp);
}
fsetpos (fp, &nextLine);
}
}
}
}
/* Look through all line beginning with "!_TAG_FILE", and update those which
* require it.
*/
static long unsigned int updatePseudoTags (FILE *const fp)
{
enum { maxEntryLength = 20 };
char entry [maxEntryLength + 1];
unsigned long linesRead = 0;
fpos_t startOfLine;
size_t entryLength;
const char *line;
sprintf (entry, "%sTAG_FILE", PSEUDO_TAG_PREFIX);
entryLength = strlen (entry);
Assert (entryLength < maxEntryLength);
fgetpos (fp, &startOfLine);
line = readLine (TagFile.vLine, fp);
while (line != NULL && line [0] == entry [0])
{
++linesRead;
if (strncmp (line, entry, entryLength) == 0)
{
char tab, classType [16];
if (sscanf (line + entryLength, "%15s%c", classType, &tab) == 2 &&
tab == '\t')
{
if (strcmp (classType, "_SORTED") == 0)
updateSortedFlag (line, fp, startOfLine);
}
fgetpos (fp, &startOfLine);
}
line = readLine (TagFile.vLine, fp);
}
while (line != NULL) /* skip to end of file */
{
++linesRead;
line = readLine (TagFile.vLine, fp);
}
return linesRead;
}
/*
* Tag file management
*/
static boolean isValidTagAddress (const char *const excmd)
{
boolean isValid = FALSE;
if (strchr ("/?", excmd [0]) != NULL)
isValid = TRUE;
else
{
char *address = xMalloc (strlen (excmd) + 1, char);
if (sscanf (excmd, "%[^;\n]", address) == 1 &&
strspn (address,"0123456789") == strlen (address))
isValid = TRUE;
eFree (address);
}
return isValid;
}
static boolean isCtagsLine (const char *const line)
{
enum fieldList { TAG, TAB1, SRC_FILE, TAB2, EXCMD, NUM_FIELDS };
boolean ok = FALSE; /* we assume not unless confirmed */
const size_t fieldLength = strlen (line) + 1;
char *const fields = xMalloc (NUM_FIELDS * fieldLength, char);
if (fields == NULL)
error (FATAL, "Cannot analyze tag file");
else
{
#define field(x) (fields + ((size_t) (x) * fieldLength))
const int numFields = sscanf (
line, "%[^\t]%[\t]%[^\t]%[\t]%[^\r\n]",
field (TAG), field (TAB1), field (SRC_FILE),
field (TAB2), field (EXCMD));
/* There must be exactly five fields: two tab fields containing
* exactly one tab each, the tag must not begin with "#", and the
* file name should not end with ";", and the excmd must be
* accceptable.
*
* These conditions will reject tag-looking lines like:
* int a; <C-comment>
* #define LABEL <C-comment>
*/
if (numFields == NUM_FIELDS &&
strlen (field (TAB1)) == 1 &&
strlen (field (TAB2)) == 1 &&
field (TAG) [0] != '#' &&
field (SRC_FILE) [strlen (field (SRC_FILE)) - 1] != ';' &&
isValidTagAddress (field (EXCMD)))
ok = TRUE;
eFree (fields);
}
return ok;
}
static boolean isEtagsLine (const char *const line)
{
boolean result = FALSE;
if (line [0] == '\f')
result = (boolean) (line [1] == '\n' || line [1] == '\r');
return result;
}
static boolean isTagFile (const char *const filename)
{
boolean ok = FALSE; /* we assume not unless confirmed */
FILE *const fp = fopen (filename, "rb");
if (fp == NULL && errno == ENOENT)
ok = TRUE;
else if (fp != NULL)
{
const char *line = readLine (TagFile.vLine, fp);
if (line == NULL)
ok = TRUE;
else
ok = (boolean) (isCtagsLine (line) || isEtagsLine (line));
fclose (fp);
}
return ok;
}
extern void copyBytes (FILE* const fromFp, FILE* const toFp, const long size)
{
enum { BufferSize = 1000 };
long toRead, numRead;
char* buffer = xMalloc (BufferSize, char);
long remaining = size;
do
{
toRead = (0 < remaining && remaining < BufferSize) ?
remaining : (long) BufferSize;
numRead = fread (buffer, (size_t) 1, (size_t) toRead, fromFp);
if (fwrite (buffer, (size_t)1, (size_t)numRead, toFp) < (size_t)numRead)
error (FATAL | PERROR, "cannot complete write");
if (remaining > 0)
remaining -= numRead;
} while (numRead == toRead && remaining != 0);
eFree (buffer);
}
extern void copyFile (const char *const from, const char *const to, const long size)
{
FILE* const fromFp = fopen (from, "rb");
if (fromFp == NULL)
error (FATAL | PERROR, "cannot open file to copy");
else
{
FILE* const toFp = fopen (to, "wb");
if (toFp == NULL)
error (FATAL | PERROR, "cannot open copy destination");
else
{
copyBytes (fromFp, toFp, size);
fclose (toFp);
}
fclose (fromFp);
}
}
extern void openTagFile (void)
{
setDefaultTagFileName ();
TagsToStdout = isDestinationStdout ();
if (TagFile.vLine == NULL)
TagFile.vLine = vStringNew ();
/* Open the tags file.
*/
if (TagsToStdout)
TagFile.fp = tempFile ("w", &TagFile.name);
else
{
boolean fileExists;
setDefaultTagFileName ();
TagFile.name = eStrdup (Option.tagFileName);
fileExists = doesFileExist (TagFile.name);
if (fileExists && ! isTagFile (TagFile.name))
error (FATAL,
"\"%s\" doesn't look like a tag file; I refuse to overwrite it.",
TagFile.name);
if (Option.etags)
{
if (Option.append && fileExists)
TagFile.fp = fopen (TagFile.name, "a+b");
else
TagFile.fp = fopen (TagFile.name, "w+b");
}
else
{
if (Option.append && fileExists)
{
TagFile.fp = fopen (TagFile.name, "r+");
if (TagFile.fp != NULL)
{
TagFile.numTags.prev = updatePseudoTags (TagFile.fp);
fclose (TagFile.fp);
TagFile.fp = fopen (TagFile.name, "a+");
}
}
else
{
TagFile.fp = fopen (TagFile.name, "w");
if (TagFile.fp != NULL)
addPseudoTags ();
}
}
if (TagFile.fp == NULL)
{
error (FATAL | PERROR, "cannot open tag file");
exit (1);
}
}
if (TagsToStdout)
TagFile.directory = eStrdup (CurrentDirectory);
else
TagFile.directory = absoluteDirname (TagFile.name);
}
#ifdef USE_REPLACEMENT_TRUNCATE
/* Replacement for missing library function.
*/
static int replacementTruncate (const char *const name, const long size)
{
char *tempName = NULL;
FILE *fp = tempFile ("w", &tempName);
fclose (fp);
copyFile (name, tempName, size);
copyFile (tempName, name, WHOLE_FILE);
remove (tempName);
eFree (tempName);
return 0;
}
#endif
static void sortTagFile (void)
{
if (TagFile.numTags.added > 0L)
{
if (Option.sorted != SO_UNSORTED)
{
verbose ("sorting tag file\n");
#ifdef EXTERNAL_SORT
externalSortTags (TagsToStdout);
#else
internalSortTags (TagsToStdout);
#endif
}
else if (TagsToStdout)
catFile (tagFileName ());
}
if (TagsToStdout)
remove (tagFileName ()); /* remove temporary file */
}
static void resizeTagFile (const long newSize)
{
int result;
#ifdef USE_REPLACEMENT_TRUNCATE
result = replacementTruncate (TagFile.name, newSize);
#else
# ifdef HAVE_TRUNCATE
result = truncate (TagFile.name, (off_t) newSize);
# else
const int fd = open (TagFile.name, O_RDWR);
if (fd == -1)
result = -1;
else
{
# ifdef HAVE_FTRUNCATE
result = ftruncate (fd, (off_t) newSize);
# else
# ifdef HAVE_CHSIZE
result = chsize (fd, newSize);
# endif
# endif
close (fd);
}
# endif
#endif
if (result == -1)
fprintf (errout, "Cannot shorten tag file: errno = %d\n", errno);
}
static void writeEtagsIncludes (FILE *const fp)
{
if (Option.etagsInclude)
{
unsigned int i;
for (i = 0 ; i < stringListCount (Option.etagsInclude) ; ++i)
{
vString *item = stringListItem (Option.etagsInclude, i);
fprintf (fp, "\f\n%s,include\n", vStringValue (item));
}
}
}
extern void closeTagFile (const boolean resize)
{
long desiredSize, size;
if (Option.etags)
writeEtagsIncludes (TagFile.fp);
desiredSize = ftell (TagFile.fp);
fseek (TagFile.fp, 0L, SEEK_END);
size = ftell (TagFile.fp);
fclose (TagFile.fp);
if (resize && desiredSize < size)
{
DebugStatement (
debugPrintf (DEBUG_STATUS, "shrinking %s from %ld to %ld bytes\n",
TagFile.name, size, desiredSize); )
resizeTagFile (desiredSize);
}
sortTagFile ();
eFree (TagFile.name);
TagFile.name = NULL;
}
extern void beginEtagsFile (void)
{
TagFile.etags.fp = tempFile ("w+b", &TagFile.etags.name);
TagFile.etags.byteCount = 0;
}
extern void endEtagsFile (const char *const name)
{
const char *line;
fprintf (TagFile.fp, "\f\n%s,%ld\n", name, (long) TagFile.etags.byteCount);
if (TagFile.etags.fp != NULL)
{
rewind (TagFile.etags.fp);
while ((line = readLine (TagFile.vLine, TagFile.etags.fp)) != NULL)
fputs (line, TagFile.fp);
fclose (TagFile.etags.fp);
remove (TagFile.etags.name);
eFree (TagFile.etags.name);
TagFile.etags.fp = NULL;
TagFile.etags.name = NULL;
}
}
/*
* Tag entry management
*/
/* This function copies the current line out to a specified file. It has no
* effect on the fileGetc () function. During copying, any '\' characters
* are doubled and a leading '^' or trailing '$' is also quoted. End of line
* characters (line feed or carriage return) are dropped.
*/
static size_t writeSourceLine (FILE *const fp, const char *const line)
{
size_t length = 0;
const char *p;
/* Write everything up to, but not including, a line end character.
*/
for (p = line ; *p != '\0' ; ++p)
{
const int next = *(p + 1);
const int c = *p;
if (c == CRETURN || c == NEWLINE)
break;
/* If character is '\', or a terminal '$', then quote it.
*/
if (c == BACKSLASH || c == (Option.backward ? '?' : '/') ||
(c == '$' && (next == NEWLINE || next == CRETURN)))
{
putc (BACKSLASH, fp);
++length;
}
putc (c, fp);
++length;
}
return length;
}
/* Writes "line", stripping leading and duplicate white space.
*/
static size_t writeCompactSourceLine (FILE *const fp, const char *const line)
{
boolean lineStarted = FALSE;
size_t length = 0;
const char *p;
int c;
/* Write everything up to, but not including, the newline.
*/
for (p = line, c = *p ; c != NEWLINE && c != '\0' ; c = *++p)
{
if (lineStarted || ! isspace (c)) /* ignore leading spaces */
{
lineStarted = TRUE;
if (isspace (c))
{
int next;
/* Consume repeating white space.
*/
while (next = *(p+1) , isspace (next) && next != NEWLINE)
++p;
c = ' '; /* force space character for any white space */
}
if (c != CRETURN || *(p + 1) != NEWLINE)
{
putc (c, fp);
++length;
}
}
}
return length;
}
static int writeXrefEntry (const tagEntryInfo *const tag)
{
const char *const line =
readSourceLine (TagFile.vLine, tag->filePosition, NULL);
int length;
if (Option.tagFileFormat == 1)
length = fprintf (TagFile.fp, "%-16s %4lu %-16s ", tag->name,
tag->lineNumber, tag->sourceFileName);
else if (Option.tagFileFormat == 3)
length = fprintf (TagFile.fp, "%-16s\t%s\t%16s:%-lu\t", tag->name,
tag->kindName, tag->sourceFileName, tag->lineNumber);
else
length = fprintf (TagFile.fp, "%-16s %-10s %4lu %-16s ", tag->name,
tag->kindName, tag->lineNumber, tag->sourceFileName);
length += writeCompactSourceLine (TagFile.fp, line);
putc (NEWLINE, TagFile.fp);
++length;
return length;
}
/* Truncates the text line containing the tag at the character following the
* tag, providing a character which designates the end of the tag.
*/
static void truncateTagLine (
char *const line, const char *const token, const boolean discardNewline)
{
char *p = strstr (line, token);
if (p != NULL)
{
p += strlen (token);
if (*p != '\0' && ! (*p == '\n' && discardNewline))
++p; /* skip past character terminating character */
*p = '\0';
}
}
static int writeEtagsEntry (const tagEntryInfo *const tag)
{
int length;
if (tag->isFileEntry)
length = fprintf (TagFile.etags.fp, "\177%s\001%lu,0\n",
tag->name, tag->lineNumber);
else
{
long seekValue;
char *const line =
readSourceLine (TagFile.vLine, tag->filePosition, &seekValue);
if (tag->truncateLine)
truncateTagLine (line, tag->name, TRUE);
else
line [strlen (line) - 1] = '\0';
length = fprintf (TagFile.etags.fp, "%s\177%s\001%lu,%ld\n", line,
tag->name, tag->lineNumber, seekValue);
}
TagFile.etags.byteCount += length;
return length;
}
static int addExtensionFields (const tagEntryInfo *const tag)
{
const char* const kindKey = Option.extensionFields.kindKey ? "kind:" : "";
boolean first = TRUE;
const char* separator = ";\"";
const char* const empty = "";
int length = 0;
/* "sep" returns a value only the first time it is evaluated */
#define sep (first ? (first = FALSE, separator) : empty)
if (tag->kindName != NULL && (Option.extensionFields.kindLong ||
(Option.extensionFields.kind && tag->kind == '\0')))
length += fprintf (TagFile.fp,"%s\t%s%s", sep, kindKey, tag->kindName);
else if (tag->kind != '\0' && (Option.extensionFields.kind ||
(Option.extensionFields.kindLong && tag->kindName == NULL)))
length += fprintf (TagFile.fp, "%s\t%s%c", sep, kindKey, tag->kind);
if (Option.extensionFields.lineNumber)
length += fprintf (TagFile.fp, "%s\tline:%ld", sep, tag->lineNumber);
if (Option.extensionFields.language && tag->language != NULL)
length += fprintf (TagFile.fp, "%s\tlanguage:%s", sep, tag->language);
if (Option.extensionFields.scope &&
tag->extensionFields.scope [0] != NULL &&
tag->extensionFields.scope [1] != NULL)
length += fprintf (TagFile.fp, "%s\t%s:%s", sep,
tag->extensionFields.scope [0],
tag->extensionFields.scope [1]);
if (Option.extensionFields.typeRef &&
tag->extensionFields.typeRef [0] != NULL &&
tag->extensionFields.typeRef [1] != NULL)
length += fprintf (TagFile.fp, "%s\ttyperef:%s:%s", sep,
tag->extensionFields.typeRef [0],
tag->extensionFields.typeRef [1]);
if (Option.extensionFields.fileScope && tag->isFileScope)
length += fprintf (TagFile.fp, "%s\tfile:", sep);
if (Option.extensionFields.inheritance &&
tag->extensionFields.inheritance != NULL)
length += fprintf (TagFile.fp, "%s\tinherits:%s", sep,
tag->extensionFields.inheritance);
if (Option.extensionFields.access && tag->extensionFields.access != NULL)
length += fprintf (TagFile.fp, "%s\taccess:%s", sep,
tag->extensionFields.access);
if (Option.extensionFields.implementation &&
tag->extensionFields.implementation != NULL)
length += fprintf (TagFile.fp, "%s\timplementation:%s", sep,
tag->extensionFields.implementation);
if (Option.extensionFields.signature &&
tag->extensionFields.signature != NULL)
length += fprintf (TagFile.fp, "%s\tsignature:%s", sep,
tag->extensionFields.signature);
return length;
#undef sep
}
static int writePatternEntry (const tagEntryInfo *const tag)
{
char *const line = readSourceLine (TagFile.vLine, tag->filePosition, NULL);
const int searchChar = Option.backward ? '?' : '/';
boolean newlineTerminated;
int length = 0;
if (tag->truncateLine)
truncateTagLine (line, tag->name, FALSE);
newlineTerminated = (boolean) (line [strlen (line) - 1] == '\n');
length += fprintf (TagFile.fp, "%c^", searchChar);
length += writeSourceLine (TagFile.fp, line);
length += fprintf (TagFile.fp, "%s%c", newlineTerminated ? "$":"", searchChar);
return length;
}
static int writeLineNumberEntry (const tagEntryInfo *const tag)
{
return fprintf (TagFile.fp, "%lu", tag->lineNumber);
}
static int writeAtagsEntry (const tagEntryInfo *const tag)
{
int length = fprintf (TagFile.fp, "%s\t%s:%lu ",
tag->name, tag->sourceFileName, tag->lineNumber);
if (includeExtensionFlags ())
length += addExtensionFields (tag);
length += fprintf (TagFile.fp, "\n");
return length;
}
static int writeCtagsEntry (const tagEntryInfo *const tag)
{
int length = fprintf (TagFile.fp, "%s\t%s\t",
tag->name, tag->sourceFileName);
if (tag->lineNumberEntry)
length += writeLineNumberEntry (tag);
else
length += writePatternEntry (tag);
if (includeExtensionFlags ())
length += addExtensionFields (tag);
length += fprintf (TagFile.fp, "\n");
return length;
}
extern void makeTagEntry (const tagEntryInfo *const tag)
{
Assert (tag->name != NULL);
if (tag->name [0] == '\0')
error (WARNING, "ignoring null tag in %s", vStringValue (File.name));
else
{
int length = 0;
DebugStatement ( debugEntry (tag); )
if (Option.xref)
{
if (! tag->isFileEntry)
length = writeXrefEntry (tag);
}
else if (Option.etags)
length = writeEtagsEntry (tag);
else if (Option.atags)
length = writeAtagsEntry (tag);
else
length = writeCtagsEntry (tag);
++TagFile.numTags.added;
rememberMaxLengths (strlen (tag->name), (size_t) length);
DebugStatement ( fflush (TagFile.fp); )
}
}
extern void initTagEntry (tagEntryInfo *const e, const char *const name)
{
Assert (File.source.name != NULL);
memset (e, 0, sizeof (tagEntryInfo));
e->lineNumberEntry = (boolean) (Option.locate == EX_LINENUM);
e->lineNumber = getSourceLineNumber ();
e->language = getSourceLanguageName ();
e->filePosition = getInputFilePosition ();
e->sourceFileName = getSourceFileTagPath ();
e->name = name;
}
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