/* `end' points to the equal sign. Parse from right to left to get the
* identifier. Assume we're dealing with something of form \s*\w+\s*=>
*/
static void makeTagFromLeftSide (const char *begin, const char *end,
vString *name, vString *package)
{
tagEntryInfo entry;
const char *b, *e;
if (! PerlKinds[K_CONSTANT].enabled)
return;
for (e = end - 1; e > begin && isspace(*e); --e)
;
if (e < begin)
return;
for (b = e; b >= begin && isIdentifier(*b); --b)
;
/* Identifier must be either beginning of line of have some whitespace
* on its left:
*/
if (b < begin || isspace(*b) || ',' == *b)
++b;
else if (b != begin)
return;
if (e - b + 1 <= 0)
return; /* Left side of => has an invalid identifier. */
vStringClear(name);
vStringNCatS(name, b, e - b + 1);
initTagEntry(&entry, vStringValue(name), &(PerlKinds[K_CONSTANT]));
makeTagEntry(&entry);
if (Option.include.qualifiedTags && package && vStringLength(package)) {
vStringClear(name);
vStringCopy(name, package);
vStringNCatS(name, b, e - b + 1);
initTagEntry(&entry, vStringValue(name), &(PerlKinds[K_CONSTANT]));
makeTagEntry(&entry);
}
}
static void parseAutogroup (const unsigned char *line)
{
vString *name = vStringNew ();
/* Found Autocommand Group (augroup) */
const unsigned char *cp = line;
if (isspace ((int) *cp))
{
while (*cp && isspace ((int) *cp))
++cp;
if (*cp)
{
const unsigned char *end = skipWord (cp);
/* "end" (caseless) has a special meaning and should not generate a tag */
if (end > cp && strncasecmp ((const char *) cp, "end", end - cp) != 0)
{
vStringNCatS (name, (const char *) cp, end - cp);
vStringTerminate (name);
makeSimpleTag (name, VimKinds, K_AUGROUP);
vStringClear (name);
}
}
}
vStringDelete (name);
}
static void makeJsTag (tokenInfo *const token, const jsKind kind, vString *const signature)
{
if (JsKinds [kind].enabled && ! token->ignoreTag )
{
const char *name = vStringValue (token->string);
vString *fullscope = vStringNewCopy (token->scope);
const char *p;
tagEntryInfo e;
if ( (p = strrchr (name, '.')) != NULL )
{
if (vStringLength (fullscope) > 0)
vStringPut (fullscope, '.');
vStringNCatS (fullscope, name, (size_t) (p - name));
name = p + 1;
}
initTagEntry (&e, name);
e.lineNumber = token->lineNumber;
e.filePosition = token->filePosition;
e.kindName = JsKinds [kind].name;
e.kind = JsKinds [kind].letter;
if ( vStringLength(fullscope) > 0 )
{
jsKind parent_kind = JSTAG_CLASS;
/*
* If we're creating a function (and not a method),
* guess we're inside another function
*/
if (kind == JSTAG_FUNCTION)
parent_kind = JSTAG_FUNCTION;
e.extensionFields.scope[0] = JsKinds [parent_kind].name;
e.extensionFields.scope[1] = vStringValue (fullscope);
}
if (signature && vStringLength(signature))
{
size_t i;
/* sanitize signature by replacing all control characters with a
* space (because it's simple).
* there should never be any junk in a valid signature, but who
* knows what the user wrote and CTags doesn't cope well with weird
* characters. */
for (i = 0; i < signature->length; i++)
{
unsigned char c = (unsigned char) signature->buffer[i];
if (c < 0x20 /* below space */ || c == 0x7F /* DEL */)
signature->buffer[i] = ' ';
}
e.extensionFields.signature = vStringValue(signature);
}
makeTagEntry (&e);
vStringDelete (fullscope);
}
}
/*
* Emits a tag for the given 'name' of kind 'kind' at the current nesting.
*/
static void emitRubyTag (vString* name, rubyKind kind)
{
tagEntryInfo tag;
vString* scope;
tagEntryInfo *parent;
rubyKind parent_kind = K_UNDEFINED;
NestingLevel *lvl;
const char *unqualified_name;
const char *qualified_name;
int r;
if (!RubyKinds[kind].enabled) {
return;
}
vStringTerminate (name);
scope = nestingLevelsToScope (nesting);
lvl = nestingLevelsGetCurrent (nesting);
parent = getEntryOfNestingLevel (lvl);
if (parent)
parent_kind = parent->kind - RubyKinds;
qualified_name = vStringValue (name);
unqualified_name = strrchr (qualified_name, SCOPE_SEPARATOR);
if (unqualified_name && unqualified_name[1])
{
if (unqualified_name > qualified_name)
{
if (vStringLength (scope) > 0)
vStringPut (scope, SCOPE_SEPARATOR);
vStringNCatS (scope, qualified_name,
unqualified_name - qualified_name);
/* assume module parent type for a lack of a better option */
parent_kind = K_MODULE;
}
unqualified_name++;
}
else
unqualified_name = qualified_name;
initTagEntry (&tag, unqualified_name, &(RubyKinds [kind]));
if (vStringLength (scope) > 0) {
Assert (0 <= parent_kind &&
(size_t) parent_kind < (ARRAY_SIZE (RubyKinds)));
tag.extensionFields.scopeKind = &(RubyKinds [parent_kind]);
tag.extensionFields.scopeName = vStringValue (scope);
}
r = makeTagEntry (&tag);
nestingLevelsPush (nesting, r);
vStringClear (name);
vStringDelete (scope);
}
/* Match a "label:" style label. */
static void match_colon_label (char const *p)
{
char const *end = p + strlen (p) - 1;
while (isspace (*end))
end--;
if (*end == ':')
{
vString *name = vStringNew ();
vStringNCatS (name, p, end - p);
makeSimpleTag (name, BasicKinds, K_LABEL);
vStringDelete (name);
}
}
static void makeJsTag (tokenInfo *const token, const jsKind kind)
{
if (JsKinds [kind].enabled && ! token->ignoreTag )
{
const char *name = vStringValue (token->string);
vString *fullscope = vStringNewCopy (token->scope);
const char *p;
tagEntryInfo e;
if ( (p = strrchr (name, '.')) != NULL )
{
if (vStringLength (fullscope) > 0)
vStringPut (fullscope, '.');
vStringNCatS (fullscope, name, (size_t) (p - name));
name = p + 1;
}
initTagEntry (&e, name);
e.lineNumber = token->lineNumber;
e.filePosition = token->filePosition;
e.kindName = JsKinds [kind].name;
e.kind = JsKinds [kind].letter;
if ( vStringLength(fullscope) > 0 )
{
jsKind parent_kind = JSTAG_CLASS;
/*
* If we're creating a function (and not a method),
* guess we're inside another function
*/
if (kind == JSTAG_FUNCTION)
parent_kind = JSTAG_FUNCTION;
e.extensionFields.scope[0] = JsKinds [parent_kind].name;
e.extensionFields.scope[1] = vStringValue (fullscope);
}
makeTagEntry (&e);
vStringDelete (fullscope);
}
}
static vString* substitute (
const char* const in, const char* out,
const int nmatch, const regmatch_t* const pmatch)
{
vString* result = vStringNew ();
const char* p;
for (p = out ; *p != '\0' ; p++)
{
if (*p == '\\' && isdigit ((int) *++p))
{
const int dig = *p - '0';
if (0 < dig && dig < nmatch && pmatch [dig].rm_so != -1)
{
const int diglen = pmatch [dig].rm_eo - pmatch [dig].rm_so;
vStringNCatS (result, in + pmatch [dig].rm_so, diglen);
}
}
else if (*p != '\n' && *p != '\r')
vStringPut (result, *p);
}
vStringTerminate (result);
return result;
}
/* reads an HereDoc or a NowDoc (the part after the <<<).
* <<<[ \t]*(ID|'ID'|"ID")
* ...
* ID;?
*
* note that:
* 1) starting ID must be immediately followed by a newline;
* 2) closing ID is the same as opening one;
* 3) closing ID must be immediately followed by a newline or a semicolon
* then a newline.
*
* Example of a *single* valid heredoc:
* <<< FOO
* something
* something else
* FOO this is not an end
* FOO; this isn't either
* FOO; # neither this is
* FOO;
* # previous line was the end, but the semicolon wasn't required
*/
static void parseHeredoc (vString *const string)
{
int c;
unsigned int len;
char delimiter[64]; /* arbitrary limit, but more is crazy anyway */
int quote = 0;
do
{
c = getcFromInputFile ();
}
while (c == ' ' || c == '\t');
if (c == '\'' || c == '"')
{
quote = c;
c = getcFromInputFile ();
}
for (len = 0; len < ARRAY_SIZE (delimiter) - 1; len++)
{
if (! isIdentChar (c))
break;
delimiter[len] = (char) c;
c = getcFromInputFile ();
}
delimiter[len] = 0;
if (len == 0) /* no delimiter, give up */
goto error;
if (quote)
{
if (c != quote) /* no closing quote for quoted identifier, give up */
goto error;
c = getcFromInputFile ();
}
if (c != '\r' && c != '\n') /* missing newline, give up */
goto error;
do
{
c = getcFromInputFile ();
if (c != '\r' && c != '\n')
vStringPut (string, (char) c);
else
{
/* new line, check for a delimiter right after */
int nl = c;
int extra = EOF;
c = getcFromInputFile ();
for (len = 0; c != 0 && (c - delimiter[len]) == 0; len++)
c = getcFromInputFile ();
if (delimiter[len] != 0)
ungetcToInputFile (c);
else
{
/* line start matched the delimiter, now check whether there
* is anything after it */
if (c == '\r' || c == '\n')
{
ungetcToInputFile (c);
break;
}
else if (c == ';')
{
int d = getcFromInputFile ();
if (d == '\r' || d == '\n')
{
/* put back the semicolon since it's not part of the
* string. we can't put back the newline, but it's a
* whitespace character nobody cares about it anyway */
ungetcToInputFile (';');
break;
}
else
{
/* put semicolon in the string and continue */
extra = ';';
ungetcToInputFile (d);
}
}
}
/* if we are here it wasn't a delimiter, so put everything in the
* string */
vStringPut (string, (char) nl);
vStringNCatS (string, delimiter, len);
if (extra != EOF)
vStringPut (string, (char) extra);
}
}
while (c != EOF);
vStringTerminate (string);
return;
error:
ungetcToInputFile (c);
}
static void findAsciidocTags(void)
{
vString *name = vStringNew();
const unsigned char *line;
unsigned char in_block = '\0'; /* holds the block marking char or \0 if not in block */
nestingLevels = nestingLevelsNew();
while ((line = readLineFromInputFile()) != NULL)
{
int line_len = strlen((const char*) line);
int name_len_bytes = vStringLength(name);
int name_len = utf8_strlen(vStringValue(name), name_len_bytes);
/* if the name doesn't look like UTF-8, assume one-byte charset */
if (name_len < 0) name_len = name_len_bytes;
/* if its a title underline, or a delimited block marking character */
if (line[0] == '=' || line[0] == '-' || line[0] == '~' ||
line[0] == '^' || line[0] == '+' || line[0] == '.' ||
line[0] == '*' || line[0] == '_' || line[0] == '/')
{
int n_same;
for (n_same = 1; line[n_same] == line[0]; ++n_same);
/* is it a two line title or a delimited block */
if (n_same == line_len)
{
/* if in a block, can't be block start or title, look for block end */
if (in_block)
{
if (line[0] == in_block) in_block = '\0';
}
/* if its a =_~^+ and the same length +-2 as the line before then its a title */
/* (except in the special case its a -- open block start line) */
else if ((line[0] == '=' || line[0] == '-' || line[0] == '~' ||
line[0] == '^' || line[0] == '+') &&
line_len <= name_len + 2 && line_len >= name_len - 2 &&
!(line_len == 2 && line[0] == '-'))
{
int kind = get_kind((char)(line[0]));
if (kind >= 0)
{
makeAsciidocTag(name, kind);
continue;
}
}
/* else if its 4 or more /+-.*_= (plus the -- special case) its a block start */
else if (((line[0] == '/' || line[0] == '+' || line[0] == '-' ||
line[0] == '.' || line[0] == '*' || line[0] == '_' ||
line[0] == '=') && line_len >= 4 )
|| (line[0] == '-' && line_len == 2))
{
in_block = line[0];
}
}
/* otherwise is it a one line title */
else if (line[0] == '=' && n_same <= 5 && isspace(line[n_same]) &&
!in_block)
{
int kind = n_same - 1;
int start = n_same;
int end = line_len - 1;
while (line[end] == line[0])--end;
while (isspace(line[start]))++start;
while (isspace(line[end]))--end;
vStringClear(name);
vStringNCatS(name, (const char*)(&(line[start])), end - start + 1);
vStringTerminate(name);
makeAsciidocTag(name, kind);
continue;
}
}
vStringClear(name);
if (! isspace(*line))
vStringCatS(name, (const char*) line);
vStringTerminate(name);
}
vStringDelete(name);
nestingLevelsFree(nestingLevels);
}
