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|
/*
* tclParse.c --
*
* This file contains functions that parse Tcl scripts. They do so in a
* general-purpose fashion that can be used for many different purposes,
* including compilation, direct execution, code analysis, etc.
*
* Copyright (c) 1997 Sun Microsystems, Inc.
* Copyright (c) 1998-2000 Ajuba Solutions.
* Contributions from Don Porter, NIST, 2002. (not subject to US copyright)
*
* See the file "license.terms" for information on usage and redistribution of
* this file, and for a DISCLAIMER OF ALL WARRANTIES.
*
*/
#include "tclInt.h"
/*
* The following table provides parsing information about each possible 8-bit
* character. The table is designed to be referenced with either signed or
* unsigned characters, so it has 384 entries. The first 128 entries
* correspond to negative character values, the next 256 correspond to
* positive character values. The last 128 entries are identical to the first
* 128. The table is always indexed with a 128-byte offset (the 128th entry
* corresponds to a character value of 0).
*
* The macro CHAR_TYPE is used to index into the table and return information
* about its character argument. The following return values are defined.
*
* TYPE_NORMAL - All characters that don't have special significance to
* the Tcl parser.
* TYPE_SPACE - The character is a whitespace character other than
* newline.
* TYPE_COMMAND_END - Character is newline or semicolon.
* TYPE_SUBS - Character begins a substitution or has other special
* meaning in ParseTokens: backslash, dollar sign, or
* open bracket.
* TYPE_QUOTE - Character is a double quote.
* TYPE_CLOSE_PAREN - Character is a right parenthesis.
* TYPE_CLOSE_BRACK - Character is a right square bracket.
* TYPE_BRACE - Character is a curly brace (either left or right).
*/
#define TYPE_NORMAL 0
#define TYPE_SPACE 0x1
#define TYPE_COMMAND_END 0x2
#define TYPE_SUBS 0x4
#define TYPE_QUOTE 0x8
#define TYPE_CLOSE_PAREN 0x10
#define TYPE_CLOSE_BRACK 0x20
#define TYPE_BRACE 0x40
#define CHAR_TYPE(c) (charTypeTable+128)[(int)(c)]
static const char charTypeTable[] = {
/*
* Negative character values, from -128 to -1:
*/
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
/*
* Positive character values, from 0-127:
*/
TYPE_SUBS, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_SPACE, TYPE_COMMAND_END, TYPE_SPACE,
TYPE_SPACE, TYPE_SPACE, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_SPACE, TYPE_NORMAL, TYPE_QUOTE, TYPE_NORMAL,
TYPE_SUBS, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_CLOSE_PAREN, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_COMMAND_END,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_SUBS,
TYPE_SUBS, TYPE_CLOSE_BRACK, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_BRACE,
TYPE_NORMAL, TYPE_BRACE, TYPE_NORMAL, TYPE_NORMAL,
/*
* Large unsigned character values, from 128-255:
*/
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL, TYPE_NORMAL,
};
/*
* Prototypes for local functions defined in this file:
*/
static inline int CommandComplete(const char *script, int numBytes);
static int ParseComment(const char *src, int numBytes,
Tcl_Parse *parsePtr);
static int ParseTokens(const char *src, int numBytes, int mask,
int flags, Tcl_Parse *parsePtr);
static int ParseWhiteSpace(const char *src, int numBytes,
int *incompletePtr, char *typePtr);
/*
*----------------------------------------------------------------------
*
* TclParseInit --
*
* Initialize the fields of a Tcl_Parse struct.
*
* Results:
* None.
*
* Side effects:
* The Tcl_Parse struct pointed to by parsePtr gets initialized.
*
*----------------------------------------------------------------------
*/
void
TclParseInit(
Tcl_Interp *interp, /* Interpreter to use for error reporting */
const char *start, /* Start of string to be parsed. */
int numBytes, /* Total number of bytes in string. If < 0,
* the script consists of all bytes up to the
* first null character. */
Tcl_Parse *parsePtr) /* Points to struct to initialize */
{
parsePtr->numWords = 0;
parsePtr->tokenPtr = parsePtr->staticTokens;
parsePtr->numTokens = 0;
parsePtr->tokensAvailable = NUM_STATIC_TOKENS;
parsePtr->string = start;
parsePtr->end = start + numBytes;
parsePtr->term = parsePtr->end;
parsePtr->interp = interp;
parsePtr->incomplete = 0;
parsePtr->errorType = TCL_PARSE_SUCCESS;
}
/*
*----------------------------------------------------------------------
*
* Tcl_ParseCommand --
*
* Given a string, this function parses the first Tcl command in the
* string and returns information about the structure of the command.
*
* Results:
* The return value is TCL_OK if the command was parsed successfully and
* TCL_ERROR otherwise. If an error occurs and interp isn't NULL then an
* error message is left in its result. On a successful return, parsePtr
* is filled in with information about the command that was parsed.
*
* Side effects:
* If there is insufficient space in parsePtr to hold all the information
* about the command, then additional space is malloc-ed. If the function
* returns TCL_OK then the caller must eventually invoke Tcl_FreeParse to
* release any additional space that was allocated.
*
*----------------------------------------------------------------------
*/
int
Tcl_ParseCommand(
Tcl_Interp *interp, /* Interpreter to use for error reporting; if
* NULL, then no error message is provided. */
const char *start, /* First character of string containing one or
* more Tcl commands. */
register int numBytes, /* Total number of bytes in string. If < 0,
* the script consists of all bytes up to the
* first null character. */
int nested, /* Non-zero means this is a nested command:
* close bracket should be considered a
* command terminator. If zero, then close
* bracket has no special meaning. */
register Tcl_Parse *parsePtr)
/* Structure to fill in with information about
* the parsed command; any previous
* information in the structure is ignored. */
{
register const char *src; /* Points to current character in the
* command. */
char type; /* Result returned by CHAR_TYPE(*src). */
Tcl_Token *tokenPtr; /* Pointer to token being filled in. */
int wordIndex; /* Index of word token for current word. */
int terminators; /* CHAR_TYPE bits that indicate the end of a
* command. */
const char *termPtr; /* Set by Tcl_ParseBraces/QuotedString to
* point to char after terminating one. */
int scanned;
if ((start == NULL) && (numBytes != 0)) {
if (interp != NULL) {
Tcl_SetResult(interp, "can't parse a NULL pointer", TCL_STATIC);
}
return TCL_ERROR;
}
if (numBytes < 0) {
numBytes = strlen(start);
}
TclParseInit(interp, start, numBytes, parsePtr);
parsePtr->commentStart = NULL;
parsePtr->commentSize = 0;
parsePtr->commandStart = NULL;
parsePtr->commandSize = 0;
if (nested != 0) {
terminators = TYPE_COMMAND_END | TYPE_CLOSE_BRACK;
} else {
terminators = TYPE_COMMAND_END;
}
/*
* Parse any leading space and comments before the first word of the
* command.
*/
scanned = ParseComment(start, numBytes, parsePtr);
src = (start + scanned);
numBytes -= scanned;
if (numBytes == 0) {
if (nested) {
parsePtr->incomplete = nested;
}
}
/*
* The following loop parses the words of the command, one word in each
* iteration through the loop.
*/
parsePtr->commandStart = src;
while (1) {
int expandWord = 0;
/*
* Create the token for the word.
*/
TclGrowParseTokenArray(parsePtr, 1);
wordIndex = parsePtr->numTokens;
tokenPtr = &parsePtr->tokenPtr[wordIndex];
tokenPtr->type = TCL_TOKEN_WORD;
/*
* Skip white space before the word. Also skip a backslash-newline
* sequence: it should be treated just like white space.
*/
scanned = ParseWhiteSpace(src,numBytes, &parsePtr->incomplete, &type);
src += scanned;
numBytes -= scanned;
if (numBytes == 0) {
parsePtr->term = src;
break;
}
if ((type & terminators) != 0) {
parsePtr->term = src;
src++;
break;
}
tokenPtr->start = src;
parsePtr->numTokens++;
parsePtr->numWords++;
/*
* At this point the word can have one of four forms: something
* enclosed in quotes, something enclosed in braces, and expanding
* word, or an unquoted word (anything else).
*/
parseWord:
if (*src == '"') {
if (Tcl_ParseQuotedString(interp, src, numBytes, parsePtr, 1,
&termPtr) != TCL_OK) {
goto error;
}
src = termPtr;
numBytes = parsePtr->end - src;
} else if (*src == '{') {
int expIdx = wordIndex + 1;
Tcl_Token *expPtr;
if (Tcl_ParseBraces(interp, src, numBytes, parsePtr, 1,
&termPtr) != TCL_OK) {
goto error;
}
src = termPtr;
numBytes = parsePtr->end - src;
/*
* Check whether the braces contained the word expansion prefix
* {*}
*/
expPtr = &parsePtr->tokenPtr[expIdx];
if ((0 == expandWord)
/* Haven't seen prefix already */
&& (1 == parsePtr->numTokens - expIdx)
/* Only one token */
&& (((1 == (size_t) expPtr->size)
/* Same length as prefix */
&& (expPtr->start[0] == '*')))
/* Is the prefix */
&& (numBytes > 0) && (0 == ParseWhiteSpace(termPtr,
numBytes, &parsePtr->incomplete, &type))
&& (type != TYPE_COMMAND_END)
/* Non-whitespace follows */) {
expandWord = 1;
parsePtr->numTokens--;
goto parseWord;
}
} else {
/*
* This is an unquoted word. Call ParseTokens and let it do all of
* the work.
*/
if (ParseTokens(src, numBytes, TYPE_SPACE|terminators,
TCL_SUBST_ALL, parsePtr) != TCL_OK) {
goto error;
}
src = parsePtr->term;
numBytes = parsePtr->end - src;
}
/*
* Finish filling in the token for the word and check for the special
* case of a word consisting of a single range of literal text.
*/
tokenPtr = &parsePtr->tokenPtr[wordIndex];
tokenPtr->size = src - tokenPtr->start;
tokenPtr->numComponents = parsePtr->numTokens - (wordIndex + 1);
if (expandWord) {
int i, isLiteral = 1;
/*
* When a command includes a word that is an expanded literal; for
* example, {*}{1 2 3}, the parser performs that expansion
* immediately, generating several TCL_TOKEN_SIMPLE_WORDs instead
* of a single TCL_TOKEN_EXPAND_WORD that the Tcl_ParseCommand()
* caller might have to expand. This notably makes it simpler for
* those callers that wish to track line endings, such as those
* that implement key parts of TIP 280.
*
* First check whether the thing to be expanded is a literal,
* in the sense of being composed entirely of TCL_TOKEN_TEXT
* tokens.
*/
for (i = 1; i <= tokenPtr->numComponents; i++) {
if (tokenPtr[i].type != TCL_TOKEN_TEXT) {
isLiteral = 0;
break;
}
}
if (isLiteral) {
int elemCount = 0, code = TCL_OK, nakedbs = 0;
const char *nextElem, *listEnd, *elemStart;
/*
* The word to be expanded is a literal, so determine the
* boundaries of the literal string to be treated as a list
* and expanded. That literal string starts at
* tokenPtr[1].start, and includes all bytes up to, but not
* including (tokenPtr[tokenPtr->numComponents].start +
* tokenPtr[tokenPtr->numComponents].size)
*/
listEnd = (tokenPtr[tokenPtr->numComponents].start +
tokenPtr[tokenPtr->numComponents].size);
nextElem = tokenPtr[1].start;
/*
* Step through the literal string, parsing and counting list
* elements.
*/
while (nextElem < listEnd) {
int size, brace;
code = TclFindElement(NULL, nextElem, listEnd - nextElem,
&elemStart, &nextElem, &size, &brace);
if (code != TCL_OK) {
break;
}
if (!brace) {
const char *s;
for(s=elemStart;size>0;s++,size--) {
if ((*s)=='\\') {
nakedbs=1;
break;
}
}
}
if (elemStart < listEnd) {
elemCount++;
}
}
if ((code != TCL_OK) || nakedbs) {
/*
* Some list element could not be parsed, or contained
* naked backslashes. This means the literal string was
* not in fact a valid nor canonical list. Defer the
* handling of this to compile/eval time, where code is
* already in place to report the "attempt to expand a
* non-list" error or expand lists that require
* substitution.
*/
tokenPtr->type = TCL_TOKEN_EXPAND_WORD;
} else if (elemCount == 0) {
/*
* We are expanding a literal empty list. This means that
* the expanding word completely disappears, leaving no
* word generated this pass through the loop. Adjust
* accounting appropriately.
*/
parsePtr->numWords--;
parsePtr->numTokens = wordIndex;
} else {
/*
* Recalculate the number of Tcl_Tokens needed to store
* tokens representing the expanded list.
*/
int growthNeeded = wordIndex + 2*elemCount
- parsePtr->numTokens;
parsePtr->numWords += elemCount - 1;
if (growthNeeded > 0) {
TclGrowParseTokenArray(parsePtr, growthNeeded);
tokenPtr = &parsePtr->tokenPtr[wordIndex];
}
parsePtr->numTokens = wordIndex + 2*elemCount;
/*
* Generate a TCL_TOKEN_SIMPLE_WORD token sequence for
* each element of the literal list we are expanding in
* place. Take care with the start and size fields of each
* token so they point to the right literal characters in
* the original script to represent the right expanded
* word value.
*/
nextElem = tokenPtr[1].start;
while (isspace(UCHAR(*nextElem))) {
nextElem++;
}
while (nextElem < listEnd) {
tokenPtr->type = TCL_TOKEN_SIMPLE_WORD;
tokenPtr->numComponents = 1;
tokenPtr->start = nextElem;
tokenPtr++;
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->numComponents = 0;
TclFindElement(NULL, nextElem, listEnd - nextElem,
&(tokenPtr->start), &nextElem,
&(tokenPtr->size), NULL);
if (tokenPtr->start + tokenPtr->size == listEnd) {
tokenPtr[-1].size = listEnd - tokenPtr[-1].start;
} else {
tokenPtr[-1].size = tokenPtr->start
+ tokenPtr->size - tokenPtr[-1].start;
tokenPtr[-1].size += (isspace(UCHAR(
tokenPtr->start[tokenPtr->size])) == 0);
}
tokenPtr++;
}
}
} else {
/*
* The word to be expanded is not a literal, so defer
* expansion to compile/eval time by marking with a
* TCL_TOKEN_EXPAND_WORD token.
*/
tokenPtr->type = TCL_TOKEN_EXPAND_WORD;
}
} else if ((tokenPtr->numComponents == 1)
&& (tokenPtr[1].type == TCL_TOKEN_TEXT)) {
tokenPtr->type = TCL_TOKEN_SIMPLE_WORD;
}
/*
* Do two additional checks: (a) make sure we're really at the end of
* a word (there might have been garbage left after a quoted or braced
* word), and (b) check for the end of the command.
*/
scanned = ParseWhiteSpace(src,numBytes, &parsePtr->incomplete, &type);
if (scanned) {
src += scanned;
numBytes -= scanned;
continue;
}
if (numBytes == 0) {
parsePtr->term = src;
break;
}
if ((type & terminators) != 0) {
parsePtr->term = src;
src++;
break;
}
if (src[-1] == '"') {
if (interp != NULL) {
Tcl_SetResult(interp, "extra characters after close-quote",
TCL_STATIC);
}
parsePtr->errorType = TCL_PARSE_QUOTE_EXTRA;
} else {
if (interp != NULL) {
Tcl_SetResult(interp, "extra characters after close-brace",
TCL_STATIC);
}
parsePtr->errorType = TCL_PARSE_BRACE_EXTRA;
}
parsePtr->term = src;
goto error;
}
parsePtr->commandSize = src - parsePtr->commandStart;
return TCL_OK;
error:
Tcl_FreeParse(parsePtr);
parsePtr->commandSize = parsePtr->end - parsePtr->commandStart;
return TCL_ERROR;
}
/*
*----------------------------------------------------------------------
*
* ParseWhiteSpace --
*
* Scans up to numBytes bytes starting at src, consuming white space
* between words as defined by Tcl's parsing rules.
*
* Results:
* Returns the number of bytes recognized as white space. Records at
* parsePtr, information about the parse. Records at typePtr the
* character type of the non-whitespace character that terminated the
* scan.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
static int
ParseWhiteSpace(
const char *src, /* First character to parse. */
register int numBytes, /* Max number of bytes to scan. */
int *incompletePtr, /* Set this boolean memory to true if parsing
* indicates an incomplete command. */
char *typePtr) /* Points to location to store character type
* of character that ends run of whitespace */
{
register char type = TYPE_NORMAL;
register const char *p = src;
while (1) {
while (numBytes && ((type = CHAR_TYPE(*p)) & TYPE_SPACE)) {
numBytes--;
p++;
}
if (numBytes && (type & TYPE_SUBS)) {
if (*p != '\\') {
break;
}
if (--numBytes == 0) {
break;
}
if (p[1] != '\n') {
break;
}
p+=2;
if (--numBytes == 0) {
*incompletePtr = 1;
break;
}
continue;
}
break;
}
*typePtr = type;
return (p - src);
}
/*
*----------------------------------------------------------------------
*
* TclParseAllWhiteSpace --
*
* Scans up to numBytes bytes starting at src, consuming all white space
* including the command-terminating newline characters.
*
* Results:
* Returns the number of bytes recognized as white space.
*
*----------------------------------------------------------------------
*/
int
TclParseAllWhiteSpace(
const char *src, /* First character to parse. */
int numBytes) /* Max number of byes to scan */
{
int dummy;
char type;
const char *p = src;
do {
int scanned = ParseWhiteSpace(p, numBytes, &dummy, &type);
p += scanned;
numBytes -= scanned;
} while (numBytes && (*p == '\n') && (p++, --numBytes));
return (p-src);
}
/*
*----------------------------------------------------------------------
*
* TclParseHex --
*
* Scans a hexadecimal number as a Tcl_UniChar value (e.g., for parsing
* \x and \u escape sequences). At most numBytes bytes are scanned.
*
* Results:
* The numeric value is stored in *resultPtr. Returns the number of bytes
* consumed.
*
* Notes:
* Relies on the following properties of the ASCII character set, with
* which UTF-8 is compatible:
*
* The digits '0' .. '9' and the letters 'A' .. 'Z' and 'a' .. 'z' occupy
* consecutive code points, and '0' < 'A' < 'a'.
*
*----------------------------------------------------------------------
*/
int
TclParseHex(
const char *src, /* First character to parse. */
int numBytes, /* Max number of byes to scan */
Tcl_UniChar *resultPtr) /* Points to storage provided by caller where
* the Tcl_UniChar resulting from the
* conversion is to be written. */
{
Tcl_UniChar result = 0;
register const char *p = src;
while (numBytes--) {
unsigned char digit = UCHAR(*p);
if (!isxdigit(digit)) {
break;
}
++p;
result <<= 4;
if (digit >= 'a') {
result |= (10 + digit - 'a');
} else if (digit >= 'A') {
result |= (10 + digit - 'A');
} else {
result |= (digit - '0');
}
}
*resultPtr = result;
return (p - src);
}
/*
*----------------------------------------------------------------------
*
* TclParseBackslash --
*
* Scans up to numBytes bytes starting at src, consuming a backslash
* sequence as defined by Tcl's parsing rules.
*
* Results:
* Records at readPtr the number of bytes making up the backslash
* sequence. Records at dst the UTF-8 encoded equivalent of that
* backslash sequence. Returns the number of bytes written to dst, at
* most TCL_UTF_MAX. Either readPtr or dst may be NULL, if the results
* are not needed, but the return value is the same either way.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
int
TclParseBackslash(
const char *src, /* Points to the backslash character of a a
* backslash sequence. */
int numBytes, /* Max number of bytes to scan. */
int *readPtr, /* NULL, or points to storage where the number
* of bytes scanned should be written. */
char *dst) /* NULL, or points to buffer where the UTF-8
* encoding of the backslash sequence is to be
* written. At most TCL_UTF_MAX bytes will be
* written there. */
{
register const char *p = src+1;
Tcl_UniChar result;
int count;
char buf[TCL_UTF_MAX];
if (numBytes == 0) {
if (readPtr != NULL) {
*readPtr = 0;
}
return 0;
}
if (dst == NULL) {
dst = buf;
}
if (numBytes == 1) {
/*
* Can only scan the backslash, so return it.
*/
result = '\\';
count = 1;
goto done;
}
count = 2;
switch (*p) {
/*
* Note: in the conversions below, use absolute values (e.g., 0xa)
* rather than symbolic values (e.g. \n) that get converted by the
* compiler. It's possible that compilers on some platforms will do
* the symbolic conversions differently, which could result in
* non-portable Tcl scripts.
*/
case 'a':
result = 0x7;
break;
case 'b':
result = 0x8;
break;
case 'f':
result = 0xc;
break;
case 'n':
result = 0xa;
break;
case 'r':
result = 0xd;
break;
case 't':
result = 0x9;
break;
case 'v':
result = 0xb;
break;
case 'x':
count += TclParseHex(p+1, numBytes-1, &result);
if (count == 2) {
/*
* No hexadigits -> This is just "x".
*/
result = 'x';
} else {
/*
* Keep only the last byte (2 hex digits).
*/
result = (unsigned char) result;
}
break;
case 'u':
count += TclParseHex(p+1, (numBytes > 5) ? 4 : numBytes-1, &result);
if (count == 2) {
/*
* No hexadigits -> This is just "u".
*/
result = 'u';
}
break;
case '\n':
count--;
do {
p++;
count++;
} while ((count < numBytes) && ((*p == ' ') || (*p == '\t')));
result = ' ';
break;
case 0:
result = '\\';
count = 1;
break;
default:
/*
* Check for an octal number \oo?o?
*/
if (isdigit(UCHAR(*p)) && (UCHAR(*p) < '8')) { /* INTL: digit */
result = UCHAR(*p - '0');
p++;
if ((numBytes == 2) || !isdigit(UCHAR(*p)) /* INTL: digit */
|| (UCHAR(*p) >= '8')) {
break;
}
count = 3;
result = UCHAR((result << 3) + (*p - '0'));
p++;
if ((numBytes == 3) || !isdigit(UCHAR(*p)) /* INTL: digit */
|| (UCHAR(*p) >= '8')) {
break;
}
count = 4;
result = UCHAR((result << 3) + (*p - '0'));
break;
}
/*
* We have to convert here in case the user has put a backslash in
* front of a multi-byte utf-8 character. While this means nothing
* special, we shouldn't break up a correct utf-8 character. [Bug
* #217987] test subst-3.2
*/
if (Tcl_UtfCharComplete(p, numBytes - 1)) {
count = Tcl_UtfToUniChar(p, &result) + 1; /* +1 for '\' */
} else {
char utfBytes[TCL_UTF_MAX];
memcpy(utfBytes, p, (size_t) (numBytes - 1));
utfBytes[numBytes - 1] = '\0';
count = Tcl_UtfToUniChar(utfBytes, &result) + 1;
}
break;
}
done:
if (readPtr != NULL) {
*readPtr = count;
}
return Tcl_UniCharToUtf((int) result, dst);
}
/*
*----------------------------------------------------------------------
*
* ParseComment --
*
* Scans up to numBytes bytes starting at src, consuming a Tcl comment as
* defined by Tcl's parsing rules.
*
* Results:
* Records in parsePtr information about the parse. Returns the number of
* bytes consumed.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
static int
ParseComment(
const char *src, /* First character to parse. */
register int numBytes, /* Max number of bytes to scan. */
Tcl_Parse *parsePtr) /* Information about parse in progress.
* Updated if parsing indicates an incomplete
* command. */
{
register const char *p = src;
while (numBytes) {
char type;
int scanned;
do {
scanned = ParseWhiteSpace(p, numBytes,
&parsePtr->incomplete, &type);
p += scanned;
numBytes -= scanned;
} while (numBytes && (*p == '\n') && (p++,numBytes--));
if ((numBytes == 0) || (*p != '#')) {
break;
}
if (parsePtr->commentStart == NULL) {
parsePtr->commentStart = p;
}
while (numBytes) {
if (*p == '\\') {
scanned = ParseWhiteSpace(p, numBytes, &parsePtr->incomplete,
&type);
if (scanned) {
p += scanned;
numBytes -= scanned;
} else {
/*
* General backslash substitution in comments isn't part
* of the formal spec, but test parse-15.47 and history
* indicate that it has been the de facto rule. Don't
* change it now.
*/
TclParseBackslash(p, numBytes, &scanned, NULL);
p += scanned;
numBytes -= scanned;
}
} else {
p++;
numBytes--;
if (p[-1] == '\n') {
break;
}
}
}
parsePtr->commentSize = p - parsePtr->commentStart;
}
return (p - src);
}
/*
*----------------------------------------------------------------------
*
* ParseTokens --
*
* This function forms the heart of the Tcl parser. It parses one or more
* tokens from a string, up to a termination point specified by the
* caller. This function is used to parse unquoted command words (those
* not in quotes or braces), words in quotes, and array indices for
* variables. No more than numBytes bytes will be scanned.
*
* Results:
* Tokens are added to parsePtr and parsePtr->term is filled in with the
* address of the character that terminated the parse (the first one
* whose CHAR_TYPE matched mask or the character at parsePtr->end). The
* return value is TCL_OK if the parse completed successfully and
* TCL_ERROR otherwise. If a parse error occurs and parsePtr->interp is
* not NULL, then an error message is left in the interpreter's result.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
static int
ParseTokens(
register const char *src, /* First character to parse. */
register int numBytes, /* Max number of bytes to scan. */
int mask, /* Specifies when to stop parsing. The parse
* stops at the first unquoted character whose
* CHAR_TYPE contains any of the bits in
* mask. */
int flags, /* OR-ed bits indicating what substitutions to
* perform: TCL_SUBST_COMMANDS,
* TCL_SUBST_VARIABLES, and
* TCL_SUBST_BACKSLASHES */
Tcl_Parse *parsePtr) /* Information about parse in progress.
* Updated with additional tokens and
* termination information. */
{
char type;
int originalTokens;
int noSubstCmds = !(flags & TCL_SUBST_COMMANDS);
int noSubstVars = !(flags & TCL_SUBST_VARIABLES);
int noSubstBS = !(flags & TCL_SUBST_BACKSLASHES);
Tcl_Token *tokenPtr;
/*
* Each iteration through the following loop adds one token of type
* TCL_TOKEN_TEXT, TCL_TOKEN_BS, TCL_TOKEN_COMMAND, or TCL_TOKEN_VARIABLE
* to parsePtr. For TCL_TOKEN_VARIABLE tokens, additional tokens are added
* for the parsed variable name.
*/
originalTokens = parsePtr->numTokens;
while (numBytes && !((type = CHAR_TYPE(*src)) & mask)) {
TclGrowParseTokenArray(parsePtr, 1);
tokenPtr = &parsePtr->tokenPtr[parsePtr->numTokens];
tokenPtr->start = src;
tokenPtr->numComponents = 0;
if ((type & TYPE_SUBS) == 0) {
/*
* This is a simple range of characters. Scan to find the end of
* the range.
*/
while ((++src, --numBytes)
&& !(CHAR_TYPE(*src) & (mask | TYPE_SUBS))) {
/* empty loop */
}
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->size = src - tokenPtr->start;
parsePtr->numTokens++;
} else if (*src == '$') {
int varToken;
if (noSubstVars) {
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->size = 1;
parsePtr->numTokens++;
src++;
numBytes--;
continue;
}
/*
* This is a variable reference. Call Tcl_ParseVarName to do all
* the dirty work of parsing the name.
*/
varToken = parsePtr->numTokens;
if (Tcl_ParseVarName(parsePtr->interp, src, numBytes, parsePtr,
1) != TCL_OK) {
return TCL_ERROR;
}
src += parsePtr->tokenPtr[varToken].size;
numBytes -= parsePtr->tokenPtr[varToken].size;
} else if (*src == '[') {
Tcl_Parse *nestedPtr;
if (noSubstCmds) {
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->size = 1;
parsePtr->numTokens++;
src++;
numBytes--;
continue;
}
/*
* Command substitution. Call Tcl_ParseCommand recursively (and
* repeatedly) to parse the nested command(s), then throw away the
* parse information.
*/
src++;
numBytes--;
nestedPtr = (Tcl_Parse *)
TclStackAlloc(parsePtr->interp, sizeof(Tcl_Parse));
while (1) {
if (Tcl_ParseCommand(parsePtr->interp, src, numBytes, 1,
nestedPtr) != TCL_OK) {
parsePtr->errorType = nestedPtr->errorType;
parsePtr->term = nestedPtr->term;
parsePtr->incomplete = nestedPtr->incomplete;
TclStackFree(parsePtr->interp, nestedPtr);
return TCL_ERROR;
}
src = nestedPtr->commandStart + nestedPtr->commandSize;
numBytes = parsePtr->end - src;
Tcl_FreeParse(nestedPtr);
/*
* Check for the closing ']' that ends the command
* substitution. It must have been the last character of the
* parsed command.
*/
if ((nestedPtr->term < parsePtr->end)
&& (*(nestedPtr->term) == ']')
&& !(nestedPtr->incomplete)) {
break;
}
if (numBytes == 0) {
if (parsePtr->interp != NULL) {
Tcl_SetResult(parsePtr->interp,
"missing close-bracket", TCL_STATIC);
}
parsePtr->errorType = TCL_PARSE_MISSING_BRACKET;
parsePtr->term = tokenPtr->start;
parsePtr->incomplete = 1;
TclStackFree(parsePtr->interp, nestedPtr);
return TCL_ERROR;
}
}
TclStackFree(parsePtr->interp, nestedPtr);
tokenPtr->type = TCL_TOKEN_COMMAND;
tokenPtr->size = src - tokenPtr->start;
parsePtr->numTokens++;
} else if (*src == '\\') {
if (noSubstBS) {
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->size = 1;
parsePtr->numTokens++;
src++;
numBytes--;
continue;
}
/*
* Backslash substitution.
*/
TclParseBackslash(src, numBytes, &tokenPtr->size, NULL);
if (tokenPtr->size == 1) {
/*
* Just a backslash, due to end of string.
*/
tokenPtr->type = TCL_TOKEN_TEXT;
parsePtr->numTokens++;
src++;
numBytes--;
continue;
}
if (src[1] == '\n') {
if (numBytes == 2) {
parsePtr->incomplete = 1;
}
/*
* Note: backslash-newline is special in that it is treated
* the same as a space character would be. This means that it
* could terminate the token.
*/
if (mask & TYPE_SPACE) {
if (parsePtr->numTokens == originalTokens) {
goto finishToken;
}
break;
}
}
tokenPtr->type = TCL_TOKEN_BS;
parsePtr->numTokens++;
src += tokenPtr->size;
numBytes -= tokenPtr->size;
} else if (*src == 0) {
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->size = 1;
parsePtr->numTokens++;
src++;
numBytes--;
} else {
Tcl_Panic("ParseTokens encountered unknown character");
}
}
if (parsePtr->numTokens == originalTokens) {
/*
* There was nothing in this range of text. Add an empty token for the
* empty range, so that there is always at least one token added.
*/
TclGrowParseTokenArray(parsePtr, 1);
tokenPtr = &parsePtr->tokenPtr[parsePtr->numTokens];
tokenPtr->start = src;
tokenPtr->numComponents = 0;
finishToken:
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->size = 0;
parsePtr->numTokens++;
}
parsePtr->term = src;
return TCL_OK;
}
/*
*----------------------------------------------------------------------
*
* Tcl_FreeParse --
*
* This function is invoked to free any dynamic storage that may have
* been allocated by a previous call to Tcl_ParseCommand.
*
* Results:
* None.
*
* Side effects:
* If there is any dynamically allocated memory in *parsePtr, it is
* freed.
*
*----------------------------------------------------------------------
*/
void
Tcl_FreeParse(
Tcl_Parse *parsePtr) /* Structure that was filled in by a previous
* call to Tcl_ParseCommand. */
{
if (parsePtr->tokenPtr != parsePtr->staticTokens) {
ckfree((char *) parsePtr->tokenPtr);
parsePtr->tokenPtr = parsePtr->staticTokens;
}
}
/*
*----------------------------------------------------------------------
*
* Tcl_ParseVarName --
*
* Given a string starting with a $ sign, parse off a variable name and
* return information about the parse. No more than numBytes bytes will
* be scanned.
*
* Results:
* The return value is TCL_OK if the command was parsed successfully and
* TCL_ERROR otherwise. If an error occurs and interp isn't NULL then an
* error message is left in its result. On a successful return, tokenPtr
* and numTokens fields of parsePtr are filled in with information about
* the variable name that was parsed. The "size" field of the first new
* token gives the total number of bytes in the variable name. Other
* fields in parsePtr are undefined.
*
* Side effects:
* If there is insufficient space in parsePtr to hold all the information
* about the command, then additional space is malloc-ed. If the function
* returns TCL_OK then the caller must eventually invoke Tcl_FreeParse to
* release any additional space that was allocated.
*
*----------------------------------------------------------------------
*/
int
Tcl_ParseVarName(
Tcl_Interp *interp, /* Interpreter to use for error reporting; if
* NULL, then no error message is provided. */
const char *start, /* Start of variable substitution string.
* First character must be "$". */
register int numBytes, /* Total number of bytes in string. If < 0,
* the string consists of all bytes up to the
* first null character. */
Tcl_Parse *parsePtr, /* Structure to fill in with information about
* the variable name. */
int append) /* Non-zero means append tokens to existing
* information in parsePtr; zero means ignore
* existing tokens in parsePtr and
* reinitialize it. */
{
Tcl_Token *tokenPtr;
register const char *src;
unsigned char c;
int varIndex, offset;
Tcl_UniChar ch;
unsigned array;
if ((numBytes == 0) || (start == NULL)) {
return TCL_ERROR;
}
if (numBytes < 0) {
numBytes = strlen(start);
}
if (!append) {
TclParseInit(interp, start, numBytes, parsePtr);
}
/*
* Generate one token for the variable, an additional token for the name,
* plus any number of additional tokens for the index, if there is one.
*/
src = start;
TclGrowParseTokenArray(parsePtr, 2);
tokenPtr = &parsePtr->tokenPtr[parsePtr->numTokens];
tokenPtr->type = TCL_TOKEN_VARIABLE;
tokenPtr->start = src;
varIndex = parsePtr->numTokens;
parsePtr->numTokens++;
tokenPtr++;
src++;
numBytes--;
if (numBytes == 0) {
goto justADollarSign;
}
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->start = src;
tokenPtr->numComponents = 0;
/*
* The name of the variable can have three forms:
* 1. The $ sign is followed by an open curly brace. Then the variable
* name is everything up to the next close curly brace, and the
* variable is a scalar variable.
* 2. The $ sign is not followed by an open curly brace. Then the variable
* name is everything up to the next character that isn't a letter,
* digit, or underscore. :: sequences are also considered part of the
* variable name, in order to support namespaces. If the following
* character is an open parenthesis, then the information between
* parentheses is the array element name.
* 3. The $ sign is followed by something that isn't a letter, digit, or
* underscore: in this case, there is no variable name and the token is
* just "$".
*/
if (*src == '{') {
src++;
numBytes--;
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->start = src;
tokenPtr->numComponents = 0;
while (numBytes && (*src != '}')) {
numBytes--;
src++;
}
if (numBytes == 0) {
if (parsePtr->interp != NULL) {
Tcl_SetResult(parsePtr->interp,
"missing close-brace for variable name", TCL_STATIC);
}
parsePtr->errorType = TCL_PARSE_MISSING_VAR_BRACE;
parsePtr->term = tokenPtr->start-1;
parsePtr->incomplete = 1;
goto error;
}
tokenPtr->size = src - tokenPtr->start;
tokenPtr[-1].size = src - tokenPtr[-1].start;
parsePtr->numTokens++;
src++;
} else {
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->start = src;
tokenPtr->numComponents = 0;
while (numBytes) {
if (Tcl_UtfCharComplete(src, numBytes)) {
offset = Tcl_UtfToUniChar(src, &ch);
} else {
char utfBytes[TCL_UTF_MAX];
memcpy(utfBytes, src, (size_t) numBytes);
utfBytes[numBytes] = '\0';
offset = Tcl_UtfToUniChar(utfBytes, &ch);
}
c = UCHAR(ch);
if (isalnum(c) || (c == '_')) { /* INTL: ISO only, UCHAR. */
src += offset;
numBytes -= offset;
continue;
}
if ((c == ':') && (numBytes != 1) && (src[1] == ':')) {
src += 2;
numBytes -= 2;
while (numBytes && (*src == ':')) {
src++;
numBytes--;
}
continue;
}
break;
}
/*
* Support for empty array names here.
*/
array = (numBytes && (*src == '('));
tokenPtr->size = src - tokenPtr->start;
if ((tokenPtr->size == 0) && !array) {
goto justADollarSign;
}
parsePtr->numTokens++;
if (array) {
/*
* This is a reference to an array element. Call ParseTokens
* recursively to parse the element name, since it could contain
* any number of substitutions.
*/
if (TCL_OK != ParseTokens(src+1, numBytes-1, TYPE_CLOSE_PAREN,
TCL_SUBST_ALL, parsePtr)) {
goto error;
}
if ((parsePtr->term == src+numBytes) || (*parsePtr->term != ')')){
if (parsePtr->interp != NULL) {
Tcl_SetResult(parsePtr->interp, "missing )",
TCL_STATIC);
}
parsePtr->errorType = TCL_PARSE_MISSING_PAREN;
parsePtr->term = src;
parsePtr->incomplete = 1;
goto error;
}
src = parsePtr->term + 1;
}
}
tokenPtr = &parsePtr->tokenPtr[varIndex];
tokenPtr->size = src - tokenPtr->start;
tokenPtr->numComponents = parsePtr->numTokens - (varIndex + 1);
return TCL_OK;
/*
* The dollar sign isn't followed by a variable name. Replace the
* TCL_TOKEN_VARIABLE token with a TCL_TOKEN_TEXT token for the dollar
* sign.
*/
justADollarSign:
tokenPtr = &parsePtr->tokenPtr[varIndex];
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->size = 1;
tokenPtr->numComponents = 0;
return TCL_OK;
error:
Tcl_FreeParse(parsePtr);
return TCL_ERROR;
}
/*
*----------------------------------------------------------------------
*
* Tcl_ParseVar --
*
* Given a string starting with a $ sign, parse off a variable name and
* return its value.
*
* Results:
* The return value is the contents of the variable given by the leading
* characters of string. If termPtr isn't NULL, *termPtr gets filled in
* with the address of the character just after the last one in the
* variable specifier. If the variable doesn't exist, then the return
* value is NULL and an error message will be left in interp's result.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
const char *
Tcl_ParseVar(
Tcl_Interp *interp, /* Context for looking up variable. */
register const char *start, /* Start of variable substitution. First
* character must be "$". */
const char **termPtr) /* If non-NULL, points to word to fill in with
* character just after last one in the
* variable specifier. */
{
register Tcl_Obj *objPtr;
int code;
Tcl_Parse *parsePtr = (Tcl_Parse *)
TclStackAlloc(interp, sizeof(Tcl_Parse));
if (Tcl_ParseVarName(interp, start, -1, parsePtr, 0) != TCL_OK) {
TclStackFree(interp, parsePtr);
return NULL;
}
if (termPtr != NULL) {
*termPtr = start + parsePtr->tokenPtr->size;
}
if (parsePtr->numTokens == 1) {
/*
* There isn't a variable name after all: the $ is just a $.
*/
TclStackFree(interp, parsePtr);
return "$";
}
code = TclSubstTokens(interp, parsePtr->tokenPtr, parsePtr->numTokens,
NULL, 1, NULL, NULL);
TclStackFree(interp, parsePtr);
if (code != TCL_OK) {
return NULL;
}
objPtr = Tcl_GetObjResult(interp);
/*
* At this point we should have an object containing the value of a
* variable. Just return the string from that object.
*
* This should have returned the object for the user to manage, but
* instead we have some weak reference to the string value in the object,
* which is why we make sure the object exists after resetting the result.
* This isn't ideal, but it's the best we can do with the current
* documented interface. -- hobbs
*/
if (!Tcl_IsShared(objPtr)) {
Tcl_IncrRefCount(objPtr);
}
Tcl_ResetResult(interp);
return TclGetString(objPtr);
}
/*
*----------------------------------------------------------------------
*
* Tcl_ParseBraces --
*
* Given a string in braces such as a Tcl command argument or a string
* value in a Tcl expression, this function parses the string and returns
* information about the parse. No more than numBytes bytes will be
* scanned.
*
* Results:
* The return value is TCL_OK if the string was parsed successfully and
* TCL_ERROR otherwise. If an error occurs and interp isn't NULL then an
* error message is left in its result. On a successful return, tokenPtr
* and numTokens fields of parsePtr are filled in with information about
* the string that was parsed. Other fields in parsePtr are undefined.
* termPtr is set to point to the character just after the last one in
* the braced string.
*
* Side effects:
* If there is insufficient space in parsePtr to hold all the information
* about the command, then additional space is malloc-ed. If the function
* returns TCL_OK then the caller must eventually invoke Tcl_FreeParse to
* release any additional space that was allocated.
*
*----------------------------------------------------------------------
*/
int
Tcl_ParseBraces(
Tcl_Interp *interp, /* Interpreter to use for error reporting; if
* NULL, then no error message is provided. */
const char *start, /* Start of string enclosed in braces. The
* first character must be {'. */
register int numBytes, /* Total number of bytes in string. If < 0,
* the string consists of all bytes up to the
* first null character. */
register Tcl_Parse *parsePtr,
/* Structure to fill in with information about
* the string. */
int append, /* Non-zero means append tokens to existing
* information in parsePtr; zero means ignore
* existing tokens in parsePtr and
* reinitialize it. */
const char **termPtr) /* If non-NULL, points to word in which to
* store a pointer to the character just after
* the terminating '}' if the parse was
* successful. */
{
Tcl_Token *tokenPtr;
register const char *src;
int startIndex, level, length;
if ((numBytes == 0) || (start == NULL)) {
return TCL_ERROR;
}
if (numBytes < 0) {
numBytes = strlen(start);
}
if (!append) {
TclParseInit(interp, start, numBytes, parsePtr);
}
src = start;
startIndex = parsePtr->numTokens;
TclGrowParseTokenArray(parsePtr, 1);
tokenPtr = &parsePtr->tokenPtr[startIndex];
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->start = src+1;
tokenPtr->numComponents = 0;
level = 1;
while (1) {
while (++src, --numBytes) {
if (CHAR_TYPE(*src) != TYPE_NORMAL) {
break;
}
}
if (numBytes == 0) {
goto missingBraceError;
}
switch (*src) {
case '{':
level++;
break;
case '}':
if (--level == 0) {
/*
* Decide if we need to finish emitting a partially-finished
* token. There are 3 cases:
* {abc \newline xyz} or {xyz}
* - finish emitting "xyz" token
* {abc \newline}
* - don't emit token after \newline
* {} - finish emitting zero-sized token
*
* The last case ensures that there is a token (even if empty)
* that describes the braced string.
*/
if ((src != tokenPtr->start)
|| (parsePtr->numTokens == startIndex)) {
tokenPtr->size = (src - tokenPtr->start);
parsePtr->numTokens++;
}
if (termPtr != NULL) {
*termPtr = src+1;
}
return TCL_OK;
}
break;
case '\\':
TclParseBackslash(src, numBytes, &length, NULL);
if ((length > 1) && (src[1] == '\n')) {
/*
* A backslash-newline sequence must be collapsed, even inside
* braces, so we have to split the word into multiple tokens
* so that the backslash-newline can be represented
* explicitly.
*/
if (numBytes == 2) {
parsePtr->incomplete = 1;
}
tokenPtr->size = (src - tokenPtr->start);
if (tokenPtr->size != 0) {
parsePtr->numTokens++;
}
TclGrowParseTokenArray(parsePtr, 2);
tokenPtr = &parsePtr->tokenPtr[parsePtr->numTokens];
tokenPtr->type = TCL_TOKEN_BS;
tokenPtr->start = src;
tokenPtr->size = length;
tokenPtr->numComponents = 0;
parsePtr->numTokens++;
src += length - 1;
numBytes -= length - 1;
tokenPtr++;
tokenPtr->type = TCL_TOKEN_TEXT;
tokenPtr->start = src + 1;
tokenPtr->numComponents = 0;
} else {
src += length - 1;
numBytes -= length - 1;
}
break;
}
}
missingBraceError:
parsePtr->errorType = TCL_PARSE_MISSING_BRACE;
parsePtr->term = start;
parsePtr->incomplete = 1;
if (parsePtr->interp == NULL) {
/*
* Skip straight to the exit code since we have no interpreter to put
* error message in.
*/
goto error;
}
Tcl_SetResult(parsePtr->interp, "missing close-brace", TCL_STATIC);
/*
* Guess if the problem is due to comments by searching the source string
* for a possible open brace within the context of a comment. Since we
* aren't performing a full Tcl parse, just look for an open brace
* preceded by a '<whitespace>#' on the same line.
*/
{
register int openBrace = 0;
while (--src > start) {
switch (*src) {
case '{':
openBrace = 1;
break;
case '\n':
openBrace = 0;
break;
case '#' :
if (openBrace && isspace(UCHAR(src[-1]))) {
Tcl_AppendResult(parsePtr->interp,
": possible unbalanced brace in comment", NULL);
goto error;
}
break;
}
}
}
error:
Tcl_FreeParse(parsePtr);
return TCL_ERROR;
}
/*
*----------------------------------------------------------------------
*
* Tcl_ParseQuotedString --
*
* Given a double-quoted string such as a quoted Tcl command argument or
* a quoted value in a Tcl expression, this function parses the string
* and returns information about the parse. No more than numBytes bytes
* will be scanned.
*
* Results:
* The return value is TCL_OK if the string was parsed successfully and
* TCL_ERROR otherwise. If an error occurs and interp isn't NULL then an
* error message is left in its result. On a successful return, tokenPtr
* and numTokens fields of parsePtr are filled in with information about
* the string that was parsed. Other fields in parsePtr are undefined.
* termPtr is set to point to the character just after the quoted
* string's terminating close-quote.
*
* Side effects:
* If there is insufficient space in parsePtr to hold all the information
* about the command, then additional space is malloc-ed. If the function
* returns TCL_OK then the caller must eventually invoke Tcl_FreeParse to
* release any additional space that was allocated.
*
*----------------------------------------------------------------------
*/
int
Tcl_ParseQuotedString(
Tcl_Interp *interp, /* Interpreter to use for error reporting; if
* NULL, then no error message is provided. */
const char *start, /* Start of the quoted string. The first
* character must be '"'. */
register int numBytes, /* Total number of bytes in string. If < 0,
* the string consists of all bytes up to the
* first null character. */
register Tcl_Parse *parsePtr,
/* Structure to fill in with information about
* the string. */
int append, /* Non-zero means append tokens to existing
* information in parsePtr; zero means ignore
* existing tokens in parsePtr and
* reinitialize it. */
const char **termPtr) /* If non-NULL, points to word in which to
* store a pointer to the character just after
* the quoted string's terminating close-quote
* if the parse succeeds. */
{
if ((numBytes == 0) || (start == NULL)) {
return TCL_ERROR;
}
if (numBytes < 0) {
numBytes = strlen(start);
}
if (!append) {
TclParseInit(interp, start, numBytes, parsePtr);
}
if (TCL_OK != ParseTokens(start+1, numBytes-1, TYPE_QUOTE, TCL_SUBST_ALL,
parsePtr)) {
goto error;
}
if (*parsePtr->term != '"') {
if (parsePtr->interp != NULL) {
Tcl_SetResult(parsePtr->interp, "missing \"", TCL_STATIC);
}
parsePtr->errorType = TCL_PARSE_MISSING_QUOTE;
parsePtr->term = start;
parsePtr->incomplete = 1;
goto error;
}
if (termPtr != NULL) {
*termPtr = (parsePtr->term + 1);
}
return TCL_OK;
error:
Tcl_FreeParse(parsePtr);
return TCL_ERROR;
}
/*
*----------------------------------------------------------------------
*
* Tcl_SubstObj --
*
* This function performs the substitutions specified on the given string
* as described in the user documentation for the "subst" Tcl command.
*
* Results:
* A Tcl_Obj* containing the substituted string, or NULL to indicate that
* an error occurred.
*
* Side effects:
* See the user documentation.
*
*----------------------------------------------------------------------
*/
Tcl_Obj *
Tcl_SubstObj(
Tcl_Interp *interp, /* Interpreter in which substitution occurs */
Tcl_Obj *objPtr, /* The value to be substituted. */
int flags) /* What substitutions to do. */
{
int length, tokensLeft, code;
Tcl_Token *endTokenPtr;
Tcl_Obj *result, *errMsg = NULL;
const char *p = TclGetStringFromObj(objPtr, &length);
Tcl_Parse *parsePtr = (Tcl_Parse *)
TclStackAlloc(interp, sizeof(Tcl_Parse));
TclParseInit(interp, p, length, parsePtr);
/*
* First parse the string rep of objPtr, as if it were enclosed as a
* "-quoted word in a normal Tcl command. Honor flags that selectively
* inhibit types of substitution.
*/
if (TCL_OK != ParseTokens(p, length, /* mask */ 0, flags, parsePtr)) {
/*
* There was a parse error. Save the error message for possible
* reporting later.
*/
errMsg = Tcl_GetObjResult(interp);
Tcl_IncrRefCount(errMsg);
/*
* We need to re-parse to get the portion of the string we can [subst]
* before the parse error. Sadly, all the Tcl_Token's created by the
* first parse attempt are gone, freed according to the public spec
* for the Tcl_Parse* routines. The only clue we have is parse.term,
* which points to either the unmatched opener, or to characters that
* follow a close brace or close quote.
*
* Call ParseTokens again, working on the string up to parse.term.
* Keep repeating until we get a good parse on a prefix.
*/
do {
parsePtr->numTokens = 0;
parsePtr->tokensAvailable = NUM_STATIC_TOKENS;
parsePtr->end = parsePtr->term;
parsePtr->incomplete = 0;
parsePtr->errorType = TCL_PARSE_SUCCESS;
} while (TCL_OK !=
ParseTokens(p, parsePtr->end - p, 0, flags, parsePtr));
/*
* The good parse will have to be followed by {, (, or [.
*/
switch (*(parsePtr->term)) {
case '{':
/*
* Parse error was a missing } in a ${varname} variable
* substitution at the toplevel. We will subst everything up to
* that broken variable substitution before reporting the parse
* error. Substituting the leftover '$' will have no side-effects,
* so the current token stream is fine.
*/
break;
case '(':
/*
* Parse error was during the parsing of the index part of an
* array variable substitution at the toplevel.
*/
if (*(parsePtr->term - 1) == '$') {
/*
* Special case where removing the array index left us with
* just a dollar sign (array variable with name the empty
* string as its name), instead of with a scalar variable
* reference.
*
* As in the previous case, existing token stream is OK.
*/
} else {
/*
* The current parse includes a successful parse of a scalar
* variable substitution where there should have been an array
* variable substitution. We remove that mistaken part of the
* parse before moving on. A scalar variable substitution is
* two tokens.
*/
Tcl_Token *varTokenPtr =
parsePtr->tokenPtr + parsePtr->numTokens - 2;
if (varTokenPtr->type != TCL_TOKEN_VARIABLE) {
Tcl_Panic("Tcl_SubstObj: programming error");
}
if (varTokenPtr[1].type != TCL_TOKEN_TEXT) {
Tcl_Panic("Tcl_SubstObj: programming error");
}
parsePtr->numTokens -= 2;
}
break;
case '[':
/*
* Parse error occurred during parsing of a toplevel command
* substitution.
*/
parsePtr->end = p + length;
p = parsePtr->term + 1;
length = parsePtr->end - p;
if (length == 0) {
/*
* No commands, just an unmatched [. As in previous cases,
* existing token stream is OK.
*/
} else {
/*
* We want to add the parsing of as many commands as we can
* within that substitution until we reach the actual parse
* error. We'll do additional parsing to determine what length
* to claim for the final TCL_TOKEN_COMMAND token.
*/
Tcl_Token *tokenPtr;
const char *lastTerm = parsePtr->term;
Tcl_Parse *nestedPtr = (Tcl_Parse *)
TclStackAlloc(interp, sizeof(Tcl_Parse));
while (TCL_OK ==
Tcl_ParseCommand(NULL, p, length, 0, nestedPtr)) {
Tcl_FreeParse(nestedPtr);
p = nestedPtr->term + (nestedPtr->term < nestedPtr->end);
length = nestedPtr->end - p;
if ((length == 0) && (nestedPtr->term == nestedPtr->end)) {
/*
* If we run out of string, blame the missing close
* bracket on the last command, and do not evaluate it
* during substitution.
*/
break;
}
lastTerm = nestedPtr->term;
}
TclStackFree(interp, nestedPtr);
if (lastTerm == parsePtr->term) {
/*
* Parse error in first command. No commands to subst, add
* no more tokens.
*/
break;
}
/*
* Create a command substitution token for whatever commands
* got parsed.
*/
TclGrowParseTokenArray(parsePtr, 1);
tokenPtr = &(parsePtr->tokenPtr[parsePtr->numTokens]);
tokenPtr->start = parsePtr->term;
tokenPtr->numComponents = 0;
tokenPtr->type = TCL_TOKEN_COMMAND;
tokenPtr->size = lastTerm - tokenPtr->start + 1;
parsePtr->numTokens++;
}
break;
default:
Tcl_Panic("bad parse in Tcl_SubstObj: %c", p[length]);
}
}
/*
* Next, substitute the parsed tokens just as in normal Tcl evaluation.
*/
endTokenPtr = parsePtr->tokenPtr + parsePtr->numTokens;
tokensLeft = parsePtr->numTokens;
code = TclSubstTokens(interp, endTokenPtr - tokensLeft, tokensLeft,
&tokensLeft, 1, NULL, NULL);
if (code == TCL_OK) {
Tcl_FreeParse(parsePtr);
TclStackFree(interp, parsePtr);
if (errMsg != NULL) {
Tcl_SetObjResult(interp, errMsg);
Tcl_DecrRefCount(errMsg);
return NULL;
}
return Tcl_GetObjResult(interp);
}
result = Tcl_NewObj();
while (1) {
switch (code) {
case TCL_ERROR:
Tcl_FreeParse(parsePtr);
TclStackFree(interp, parsePtr);
Tcl_DecrRefCount(result);
if (errMsg != NULL) {
Tcl_DecrRefCount(errMsg);
}
return NULL;
case TCL_BREAK:
tokensLeft = 0; /* Halt substitution */
default:
Tcl_AppendObjToObj(result, Tcl_GetObjResult(interp));
}
if (tokensLeft == 0) {
Tcl_FreeParse(parsePtr);
TclStackFree(interp, parsePtr);
if (errMsg != NULL) {
if (code != TCL_BREAK) {
Tcl_DecrRefCount(result);
Tcl_SetObjResult(interp, errMsg);
Tcl_DecrRefCount(errMsg);
return NULL;
}
Tcl_DecrRefCount(errMsg);
}
return result;
}
code = TclSubstTokens(interp, endTokenPtr - tokensLeft, tokensLeft,
&tokensLeft, 1, NULL, NULL);
}
}
/*
*----------------------------------------------------------------------
*
* TclSubstTokens --
*
* Accepts an array of count Tcl_Token's, and creates a result value in
* the interp from concatenating the results of performing Tcl
* substitution on each Tcl_Token. Substitution is interrupted if any
* non-TCL_OK completion code arises.
*
* Results:
* The return value is a standard Tcl completion code. The result in
* interp is the substituted value, or an error message if TCL_ERROR is
* returned. If tokensLeftPtr is not NULL, then it points to an int where
* the number of tokens remaining to be processed is written.
*
* Side effects:
* Can be anything, depending on the types of substitution done.
*
*----------------------------------------------------------------------
*/
int
TclSubstTokens(
Tcl_Interp *interp, /* Interpreter in which to lookup variables,
* execute nested commands, and report
* errors. */
Tcl_Token *tokenPtr, /* Pointer to first in an array of tokens to
* evaluate and concatenate. */
int count, /* Number of tokens to consider at tokenPtr.
* Must be at least 1. */
int *tokensLeftPtr, /* If not NULL, points to memory where an
* integer representing the number of tokens
* left to be substituted will be written */
int line, /* The line the script starts on. */
int* clNextOuter, /* Information about an outer context for */
CONST char* outerScript) /* continuation line data. This is set by
* EvalEx() to properly handle [...]-nested
* commands. The 'outerScript' refers to the
* most-outer script containing the embedded
* command, which is refered to by 'script'. The
* 'clNextOuter' refers to the current entry in
* the table of continuation lines in this
* "master script", and the character offsets are
* relative to the 'outerScript' as well.
*
* If outerScript == script, then this call is for
* words in the outer-most script/command. See
* Tcl_EvalEx() and TclEvalObjEx() for the places
* generating arguments for which this is true.
*/
{
Tcl_Obj *result;
int code = TCL_OK;
#define NUM_STATIC_POS 20
int isLiteral, maxNumCL, numCL, i, adjust;
int* clPosition;
Interp* iPtr = (Interp*) interp;
int inFile = iPtr->evalFlags & TCL_EVAL_FILE;
/*
* Each pass through this loop will substitute one token, and its
* components, if any. The only thing tricky here is that we go to some
* effort to pass Tcl_Obj's through untouched, to avoid string copying and
* Tcl_Obj creation if possible, to aid performance and limit shimmering.
*
* Further optimization opportunities might be to check for the equivalent
* of Tcl_SetObjResult(interp, Tcl_GetObjResult(interp)) and omit them.
*/
/*
* For the handling of continuation lines in literals we first check if
* this is actually a literal. For if not we can forego the additional
* processing. Otherwise we pre-allocate a small table to store the
* locations of all continuation lines we find in this literal, if
* any. The table is extended if needed.
*/
numCL = 0;
maxNumCL = 0;
isLiteral = 1;
for (i=0 ; i < count; i++) {
if ((tokenPtr[i].type != TCL_TOKEN_TEXT) &&
(tokenPtr[i].type != TCL_TOKEN_BS)) {
isLiteral = 0;
break;
}
}
if (isLiteral) {
maxNumCL = NUM_STATIC_POS;
clPosition = (int*) ckalloc (maxNumCL*sizeof(int));
}
adjust = 0;
result = NULL;
for (; count>0 && code==TCL_OK ; count--, tokenPtr++) {
Tcl_Obj *appendObj = NULL;
const char *append = NULL;
int appendByteLength = 0;
char utfCharBytes[TCL_UTF_MAX];
switch (tokenPtr->type) {
case TCL_TOKEN_TEXT:
append = tokenPtr->start;
appendByteLength = tokenPtr->size;
break;
case TCL_TOKEN_BS:
appendByteLength = Tcl_UtfBackslash(tokenPtr->start, NULL,
utfCharBytes);
append = utfCharBytes;
/*
* If the backslash sequence we found is in a literal, and
* represented a continuation line, we compute and store its
* location (as char offset to the beginning of the _result_
* script). We may have to extend the table of locations.
*
* Note that the continuation line information is relevant even if
* the word we are processing is not a literal, as it can affect
* nested commands. See the branch for TCL_TOKEN_COMMAND below,
* where the adjustment we are tracking here is taken into
* account. The good thing is that we do not need a table of
* everything, just the number of lines we have to add as
* correction.
*/
if ((appendByteLength == 1) && (utfCharBytes[0] == ' ') &&
(tokenPtr->start[1] == '\n')) {
if (isLiteral) {
int clPos;
if (result == 0) {
clPos = 0;
} else {
Tcl_GetStringFromObj(result, &clPos);
}
if (numCL >= maxNumCL) {
maxNumCL *= 2;
clPosition = (int*) ckrealloc ((char*)clPosition,
maxNumCL*sizeof(int));
}
clPosition[numCL] = clPos;
numCL ++;
}
adjust ++;
}
break;
case TCL_TOKEN_COMMAND: {
/* TIP #280: Transfer line information to nested command */
iPtr->numLevels++;
code = TclInterpReady(interp);
if (code == TCL_OK) {
/*
* Test cases: info-30.{6,8,9}
*/
int theline;
TclAdvanceContinuations (&line, &clNextOuter,
tokenPtr->start - outerScript);
theline = line + adjust;
code = TclEvalEx(interp, tokenPtr->start+1, tokenPtr->size-2,
0, theline, clNextOuter, outerScript);
/*
* Restore flag reset by nested eval for future bracketed
* commands and their cmdframe setup
*/
if (inFile) {
iPtr->evalFlags |= TCL_EVAL_FILE;
}
}
iPtr->numLevels--;
TclResetCancellation(interp, 0);
appendObj = Tcl_GetObjResult(interp);
break;
}
case TCL_TOKEN_VARIABLE: {
Tcl_Obj *arrayIndex = NULL;
Tcl_Obj *varName = NULL;
if (tokenPtr->numComponents > 1) {
/*
* Subst the index part of an array variable reference.
*/
code = TclSubstTokens(interp, tokenPtr+2,
tokenPtr->numComponents - 1, NULL, line, NULL, NULL);
arrayIndex = Tcl_GetObjResult(interp);
Tcl_IncrRefCount(arrayIndex);
}
if (code == TCL_OK) {
varName = Tcl_NewStringObj(tokenPtr[1].start,
tokenPtr[1].size);
appendObj = Tcl_ObjGetVar2(interp, varName, arrayIndex,
TCL_LEAVE_ERR_MSG);
Tcl_DecrRefCount(varName);
if (appendObj == NULL) {
code = TCL_ERROR;
}
}
switch (code) {
case TCL_OK: /* Got value */
case TCL_ERROR: /* Already have error message */
case TCL_BREAK: /* Will not substitute anyway */
case TCL_CONTINUE: /* Will not substitute anyway */
break;
default:
/*
* All other return codes, we will subst the result from the
* code-throwing evaluation.
*/
appendObj = Tcl_GetObjResult(interp);
}
if (arrayIndex != NULL) {
Tcl_DecrRefCount(arrayIndex);
}
count -= tokenPtr->numComponents;
tokenPtr += tokenPtr->numComponents;
break;
}
default:
Tcl_Panic("unexpected token type in TclSubstTokens: %d",
tokenPtr->type);
}
if ((code == TCL_BREAK) || (code == TCL_CONTINUE)) {
/*
* Inhibit substitution.
*/
continue;
}
if (result == NULL) {
/*
* First pass through. If we have a Tcl_Obj, just use it. If not,
* create one from our string.
*/
if (appendObj != NULL) {
result = appendObj;
} else {
result = Tcl_NewStringObj(append, appendByteLength);
}
Tcl_IncrRefCount(result);
} else {
/*
* Subsequent passes. Append to result.
*/
if (Tcl_IsShared(result)) {
Tcl_DecrRefCount(result);
result = Tcl_DuplicateObj(result);
Tcl_IncrRefCount(result);
}
if (appendObj != NULL) {
Tcl_AppendObjToObj(result, appendObj);
} else {
Tcl_AppendToObj(result, append, appendByteLength);
}
}
}
if (code != TCL_ERROR) { /* Keep error message in result! */
if (result != NULL) {
Tcl_SetObjResult(interp, result);
/*
* If the code found continuation lines (which implies that this
* word is a literal), then we store the accumulated table of
* locations in the thread-global data structure for the bytecode
* compiler to find later, assuming that the literal is a script
* which will be compiled.
*/
if (numCL) {
TclContinuationsEnter(result, numCL, clPosition);
}
/*
* Release the temp table we used to collect the locations of
* continuation lines, if any.
*/
if (maxNumCL) {
ckfree ((char*) clPosition);
}
} else {
Tcl_ResetResult(interp);
}
}
if (tokensLeftPtr != NULL) {
*tokensLeftPtr = count;
}
if (result != NULL) {
Tcl_DecrRefCount(result);
}
return code;
}
/*
*----------------------------------------------------------------------
*
* CommandComplete --
*
* This function is shared by TclCommandComplete and
* Tcl_ObjCommandComplete; it does all the real work of seeing whether a
* script is complete
*
* Results:
* 1 is returned if the script is complete, 0 if there are open
* delimiters such as " or (. 1 is also returned if there is a parse
* error in the script other than unmatched delimiters.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
static inline int
CommandComplete(
const char *script, /* Script to check. */
int numBytes) /* Number of bytes in script. */
{
Tcl_Parse parse;
const char *p, *end;
int result;
p = script;
end = p + numBytes;
while (Tcl_ParseCommand(NULL, p, end - p, 0, &parse) == TCL_OK) {
p = parse.commandStart + parse.commandSize;
if (p >= end) {
break;
}
Tcl_FreeParse(&parse);
}
if (parse.incomplete) {
result = 0;
} else {
result = 1;
}
Tcl_FreeParse(&parse);
return result;
}
/*
*----------------------------------------------------------------------
*
* Tcl_CommandComplete --
*
* Given a partial or complete Tcl script, this function determines
* whether the script is complete in the sense of having matched braces
* and quotes and brackets.
*
* Results:
* 1 is returned if the script is complete, 0 otherwise. 1 is also
* returned if there is a parse error in the script other than unmatched
* delimiters.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
int
Tcl_CommandComplete(
const char *script) /* Script to check. */
{
return CommandComplete(script, (int) strlen(script));
}
/*
*----------------------------------------------------------------------
*
* TclObjCommandComplete --
*
* Given a partial or complete Tcl command in a Tcl object, this function
* determines whether the command is complete in the sense of having
* matched braces and quotes and brackets.
*
* Results:
* 1 is returned if the command is complete, 0 otherwise.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
int
TclObjCommandComplete(
Tcl_Obj *objPtr) /* Points to object holding script to
* check. */
{
int length;
const char *script = Tcl_GetStringFromObj(objPtr, &length);
return CommandComplete(script, length);
}
/*
*----------------------------------------------------------------------
*
* TclIsLocalScalar --
*
* Check to see if a given string is a legal scalar variable name with no
* namespace qualifiers or substitutions.
*
* Results:
* Returns 1 if the variable is a local scalar.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
int
TclIsLocalScalar(
const char *src,
int len)
{
const char *p;
const char *lastChar = src + (len - 1);
for (p=src ; p<=lastChar ; p++) {
if ((CHAR_TYPE(*p) != TYPE_NORMAL) &&
(CHAR_TYPE(*p) != TYPE_COMMAND_END)) {
/*
* TCL_COMMAND_END is returned for the last character of the
* string. By this point we know it isn't an array or namespace
* reference.
*/
return 0;
}
if (*p == '(') {
if (*lastChar == ')') { /* We have an array element */
return 0;
}
} else if (*p == ':') {
if ((p != lastChar) && *(p+1) == ':') { /* qualified name */
return 0;
}
}
}
return 1;
}
/*
* Local Variables:
* mode: c
* c-basic-offset: 4
* fill-column: 78
* End:
*/
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