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bc: prepare for char-by-char input handling

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function                                             old     new   delta
peek_inbuf                                             -     292    +292
parse_lex_by_checking_eq_sign                          -      26     +26
eat_inbuf                                              -      22     +22
zbc_vm_execute_FILE                                   52      61      +9
bc_lex_lineComment                                    29      30      +1
zbc_lex_number                                       174     172      -2
bc_vm_run                                            104      99      -5
zbc_num_divmod                                       156     150      -6
bc_lex_file                                           24       -     -24
bc_lex_assign                                         26       -     -26
zbc_lex_next                                        1982    1587    -395
------------------------------------------------------------------------------
(add/remove: 3/2 grow/shrink: 2/4 up/down: 350/-458)         Total: -108 bytes

Signed-off-by: Denys Vlasenko <vda.linux@googlemail.com>
This commit is contained in:
Denys Vlasenko 2018-12-26 18:32:43 +01:00
parent 63ad799384
commit 7d32e25bf3
2 changed files with 214 additions and 237 deletions
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443
miscutils/bc.c
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@ -713,7 +713,6 @@ dc_LEX_to_INST[] = { // starts at XC_LEX_OP_POWER // corresponding XC/DC_L
typedef struct BcParse {
smallint lex; // was BcLexType // first member is most used
smallint lex_last; // was BcLexType
bool lex_newline;
size_t lex_line;
const char *lex_inbuf;
const char *lex_end;
@ -2741,147 +2740,6 @@ static BC_STATUS zbc_num_parse(BcNum *n, const char *val, unsigned base_t)
}
#define zbc_num_parse(...) (zbc_num_parse(__VA_ARGS__) COMMA_SUCCESS)
static void bc_lex_lineComment(void)
{
BcParse *p = &G.prs;
// Try: echo -n '#foo' | bc
p->lex = XC_LEX_WHITESPACE;
while (p->lex_inbuf < p->lex_end && *p->lex_inbuf != '\n')
p->lex_inbuf++;
}
static void bc_lex_whitespace(void)
{
BcParse *p = &G.prs;
p->lex = XC_LEX_WHITESPACE;
for (;;) {
char c = *p->lex_inbuf;
if (c == '\n') // this is XC_LEX_NLINE, not XC_LEX_WHITESPACE
break;
if (!isspace(c))
break;
p->lex_inbuf++;
}
}
static BC_STATUS zbc_lex_number(char start)
{
BcParse *p = &G.prs;
const char *buf = p->lex_inbuf;
size_t len, i, ccnt;
bool pt;
pt = (start == '.');
p->lex = XC_LEX_NUMBER;
ccnt = i = 0;
for (;;) {
char c = buf[i];
if (c == '\0')
break;
if (c == '\\' && buf[i + 1] == '\n') {
i += 2;
//number_of_backslashes++ - see comment below
continue;
}
if (!isdigit(c) && (c < 'A' || c > 'F')) {
if (c != '.') break;
// if '.' was already seen, stop on second one:
if (pt) break;
pt = true;
}
// buf[i] is one of "0-9A-F."
i++;
if (c != '.')
ccnt = i;
}
//ccnt is the number of chars in the number string, excluding possible
//trailing "[\<newline>].[\<newline>]" (with any number of \<NL> repetitions).
//i is buf[i] index of the first not-yet-parsed char after that.
p->lex_inbuf += i;
// This might overestimate the size, if there are "\<NL>"'s
// in the number. Subtracting number_of_backslashes*2 correctly
// is not that easy: consider that in the case of "NNN.\<NL>"
// loop above will count "\<NL>" before it realizes it is not
// in fact *inside* the number:
len = ccnt + 1; // +1 byte for NUL termination
// This check makes sense only if size_t is (much) larger than BC_MAX_NUM.
if (SIZE_MAX > (BC_MAX_NUM | 0xff)) {
if (len > BC_MAX_NUM)
RETURN_STATUS(bc_error("number too long: must be [1,"BC_MAX_NUM_STR"]"));
}
bc_vec_pop_all(&p->lex_strnumbuf);
bc_vec_expand(&p->lex_strnumbuf, 1 + len);
bc_vec_push(&p->lex_strnumbuf, &start);
while (ccnt != 0) {
// If we have hit a backslash, skip it. We don't have
// to check for a newline because it's guaranteed.
if (*buf == '\\') {
buf += 2;
ccnt -= 2;
continue;
}
bc_vec_push(&p->lex_strnumbuf, buf);
buf++;
ccnt--;
}
bc_vec_pushZeroByte(&p->lex_strnumbuf);
RETURN_STATUS(BC_STATUS_SUCCESS);
}
#define zbc_lex_number(...) (zbc_lex_number(__VA_ARGS__) COMMA_SUCCESS)
static void bc_lex_name(void)
{
BcParse *p = &G.prs;
size_t i;
const char *buf;
p->lex = XC_LEX_NAME;
i = 0;
buf = p->lex_inbuf - 1;
for (;;) {
char c = buf[i];
if ((c < 'a' || c > 'z') && !isdigit(c) && c != '_') break;
i++;
}
#if 0 // We do not protect against people with gigabyte-long names
// This check makes sense only if size_t is (much) larger than BC_MAX_STRING.
if (SIZE_MAX > (BC_MAX_STRING | 0xff)) {
if (i > BC_MAX_STRING)
return bc_error("name too long: must be [1,"BC_MAX_STRING_STR"]");
}
#endif
bc_vec_string(&p->lex_strnumbuf, i, buf);
// Increment the index. We minus 1 because it has already been incremented.
p->lex_inbuf += i - 1;
//return BC_STATUS_SUCCESS;
}
static void bc_lex_init(void)
{
bc_char_vec_init(&G.prs.lex_strnumbuf);
}
static void bc_lex_free(void)
{
bc_vec_free(&G.prs.lex_strnumbuf);
}
static void bc_lex_file(void)
{
G.err_line = G.prs.lex_line = 1;
G.prs.lex_newline = false;
}
static bool bc_lex_more_input(void)
{
BcParse *p = &G.prs;
@ -2996,6 +2854,147 @@ static bool bc_lex_more_input(void)
return G.input_buffer.len > 1;
}
// p->lex_inbuf points to the current string to be parsed.
// if p->lex_inbuf points to '\0', it's either EOF or it points after
// last processed line's terminating '\n' (and more reading needs to be done
// to get next character).
//
// If you are in a situation where that is a possibility, call peek_inbuf().
// If necessary, it performs more reading and changes p->lex_inbuf,
// then it returns *p->lex_inbuf (which will be '\0' only if it's EOF).
// After it, just referencing *p->lex_inbuf is valid, and if it wasn't '\0',
// it's ok to do p->lex_inbuf++ once without end-of-buffer checking.
//
// eat_inbuf() is equvalent to "peek_inbuf(); if (c) p->lex_inbuf++":
// it returns current char and advances the pointer (if not EOF).
// After eat_inbuf(), referencing p->lex_inbuf[-1] and *p->lex_inbuf is valid.
//
// In many cases, you can use fast *p->lex_inbuf instead of peek_inbuf():
// unless prev char might have been '\n', *p->lex_inbuf is '\0' ONLY
// on real EOF, not end-of-buffer.
static char peek_inbuf(void)
{
if (G.prs.lex_inbuf == G.prs.lex_end) {
if (G.prs.lex_input_fp)
if (!bc_lex_more_input())
G.prs.lex_input_fp = NULL;
}
return *G.prs.lex_inbuf;
}
static char eat_inbuf(void)
{
char c = peek_inbuf();
if (c) G.prs.lex_inbuf++;
return c;
}
static void bc_lex_lineComment(void)
{
BcParse *p = &G.prs;
char c;
// Try: echo -n '#foo' | bc
p->lex = XC_LEX_WHITESPACE;
// We depend here on input being done in whole lines:
// '\0' which isn't the EOF can only be seen after '\n'.
while ((c = *p->lex_inbuf) != '\n' && c != '\0')
p->lex_inbuf++;
}
static void bc_lex_whitespace(void)
{
BcParse *p = &G.prs;
p->lex = XC_LEX_WHITESPACE;
for (;;) {
// We depend here on input being done in whole lines:
// '\0' which isn't the EOF can only be seen after '\n'.
char c = *p->lex_inbuf;
if (c == '\n') // this is XC_LEX_NLINE, not XC_LEX_WHITESPACE
break;
if (!isspace(c))
break;
p->lex_inbuf++;
}
}
static BC_STATUS zbc_lex_number(char last)
{
BcParse *p = &G.prs;
bool pt;
bc_vec_pop_all(&p->lex_strnumbuf);
bc_vec_pushByte(&p->lex_strnumbuf, last);
pt = (last == '.');
p->lex = XC_LEX_NUMBER;
for (;;) {
// We depend here on input being done in whole lines:
// '\0' which isn't the EOF can only be seen after '\n'.
char c = *p->lex_inbuf;
check_c:
if (c == '\0')
break;
if (c == '\\' && p->lex_inbuf[1] == '\n') {
p->lex_inbuf += 2;
p->lex_line++;
c = peek_inbuf(); // force next line to be read
goto check_c;
}
if (!isdigit(c) && (c < 'A' || c > 'F')) {
if (c != '.') break;
// if '.' was already seen, stop on second one:
if (pt) break;
pt = true;
}
// c is one of "0-9A-F."
last = c;
bc_vec_push(&p->lex_strnumbuf, p->lex_inbuf);
p->lex_inbuf++;
}
if (last == '.') // remove trailing '.' if any
bc_vec_pop(&p->lex_strnumbuf);
bc_vec_pushZeroByte(&p->lex_strnumbuf);
G.err_line = G.prs.lex_line;
RETURN_STATUS(BC_STATUS_SUCCESS);
}
#define zbc_lex_number(...) (zbc_lex_number(__VA_ARGS__) COMMA_SUCCESS)
static void bc_lex_name(void)
{
BcParse *p = &G.prs;
size_t i;
const char *buf;
p->lex = XC_LEX_NAME;
// Since names can't cross lines with \<newline>,
// we depend on the fact that whole line is in the buffer
i = 0;
buf = p->lex_inbuf - 1;
for (;;) {
char c = buf[i];
if ((c < 'a' || c > 'z') && !isdigit(c) && c != '_') break;
i++;
}
#if 0 // We do not protect against people with gigabyte-long names
// This check makes sense only if size_t is (much) larger than BC_MAX_STRING.
if (SIZE_MAX > (BC_MAX_STRING | 0xff)) {
if (i > BC_MAX_STRING)
return bc_error("name too long: must be [1,"BC_MAX_STRING_STR"]");
}
#endif
bc_vec_string(&p->lex_strnumbuf, i, buf);
// Increment the index. We minus 1 because it has already been incremented.
p->lex_inbuf += i - 1;
//return BC_STATUS_SUCCESS;
}
IF_BC(static BC_STATUS zbc_lex_token(void);)
IF_DC(static BC_STATUS zdc_lex_token(void);)
#define zbc_lex_token(...) (zbc_lex_token(__VA_ARGS__) COMMA_SUCCESS)
@ -3007,26 +3006,18 @@ static BC_STATUS zbc_lex_next(void)
BcStatus s;
p->lex_last = p->lex;
if (p->lex_last == XC_LEX_EOF) RETURN_STATUS(bc_error("end of file"));
p->lex_line += p->lex_newline;
G.err_line = p->lex_line;
p->lex_newline = false;
if (p->lex_last == XC_LEX_EOF)
RETURN_STATUS(bc_error("end of file"));
// Loop until failure or we don't have whitespace. This
// is so the parser doesn't get inundated with whitespace.
// Comments are also XC_LEX_WHITESPACE tokens and eaten here.
s = BC_STATUS_SUCCESS;
do {
if (p->lex_inbuf == p->lex_end) {
if (*p->lex_inbuf == '\0') {
p->lex = XC_LEX_EOF;
if (!G.prs.lex_input_fp)
if (peek_inbuf() == '\0')
RETURN_STATUS(BC_STATUS_SUCCESS);
if (!bc_lex_more_input()) {
G.prs.lex_input_fp = NULL;
RETURN_STATUS(BC_STATUS_SUCCESS);
}
// here it's guaranteed that p->lex_ibuf is below p->lex_end
}
p->lex_next_at = p->lex_inbuf;
dbg_lex("next string to parse:'%.*s'",
@ -3126,80 +3117,70 @@ static BC_STATUS zbc_lex_identifier(void)
static BC_STATUS zbc_lex_string(void)
{
BcParse *p = &G.prs;
size_t len, nls, i;
p->lex = XC_LEX_STR;
nls = 0;
i = 0;
bc_vec_pop_all(&p->lex_strnumbuf);
for (;;) {
char c = p->lex_inbuf[i];
char c = peek_inbuf(); // strings can cross lines
if (c == '\0') {
p->lex_inbuf += i;
RETURN_STATUS(bc_error("unterminated string"));
RETURN_STATUS(bc_error("unterminated string1"));
}
if (c == '"')
break;
nls += (c == '\n');
i++;
if (c == '\n')
p->lex_line++;
bc_vec_push(&p->lex_strnumbuf, p->lex_inbuf);
p->lex_inbuf++;
}
bc_vec_pushZeroByte(&p->lex_strnumbuf);
p->lex_inbuf++;
len = i;
// This check makes sense only if size_t is (much) larger than BC_MAX_STRING.
if (SIZE_MAX > (BC_MAX_STRING | 0xff)) {
if (len > BC_MAX_STRING)
RETURN_STATUS(bc_error("string too long: must be [1,"BC_MAX_STRING_STR"]"));
}
bc_vec_string(&p->lex_strnumbuf, len, p->lex_inbuf);
p->lex_inbuf += i + 1;
p->lex_line += nls;
G.err_line = p->lex_line;
RETURN_STATUS(BC_STATUS_SUCCESS);
}
#define zbc_lex_string(...) (zbc_lex_string(__VA_ARGS__) COMMA_SUCCESS)
static void bc_lex_assign(unsigned with_and_without)
static void parse_lex_by_checking_eq_sign(unsigned with_and_without)
{
BcParse *p = &G.prs;
if (*p->lex_inbuf == '=') {
// ^^^ not using peek_inbuf() since '==' etc can't be split across lines
p->lex_inbuf++;
with_and_without >>= 8; // store "with" value
} // else store "without" value
p->lex = (with_and_without & 0xff);
}
#define bc_lex_assign(with, without) \
bc_lex_assign(((with)<<8)|(without))
#define parse_lex_by_checking_eq_sign(with, without) \
parse_lex_by_checking_eq_sign(((with)<<8)|(without))
static BC_STATUS zbc_lex_comment(void)
{
BcParse *p = &G.prs;
size_t i, nls = 0;
const char *buf = p->lex_inbuf;
p->lex = XC_LEX_WHITESPACE;
i = 0; /* here lex_inbuf[0] is the '*' of opening comment delimiter */
// here lex_inbuf is at '*' of opening comment delimiter
for (;;) {
char c = buf[++i];
char c;
p->lex_inbuf++;
c = peek_inbuf();
check_star:
if (c == '*') {
c = buf[++i];
p->lex_inbuf++;
c = peek_inbuf();
if (c == '/')
break;
goto check_star;
}
if (c == '\0') {
p->lex_inbuf += i;
RETURN_STATUS(bc_error("unterminated comment"));
}
nls += (c == '\n');
if (c == '\n')
p->lex_line++;
}
p->lex_inbuf++; // skip trailing '/'
p->lex_inbuf += i + 1;
p->lex_line += nls;
G.err_line = p->lex_line;
RETURN_STATUS(BC_STATUS_SUCCESS);
}
#define zbc_lex_comment(...) (zbc_lex_comment(__VA_ARGS__) COMMA_SUCCESS)
@ -3209,7 +3190,7 @@ static BC_STATUS zbc_lex_token(void)
{
BcParse *p = &G.prs;
BcStatus s = BC_STATUS_SUCCESS;
char c = *p->lex_inbuf++;
char c = eat_inbuf();
char c2;
// This is the workhorse of the lexer.
@ -3217,11 +3198,10 @@ static BC_STATUS zbc_lex_token(void)
// case '\0': // probably never reached
// p->lex_inbuf--;
// p->lex = XC_LEX_EOF;
// p->lex_newline = true;
// break;
case '\n':
p->lex_line++;
p->lex = XC_LEX_NLINE;
p->lex_newline = true;
break;
case '\t':
case '\v':
@ -3231,7 +3211,7 @@ static BC_STATUS zbc_lex_token(void)
bc_lex_whitespace();
break;
case '!':
bc_lex_assign(XC_LEX_OP_REL_NE, BC_LEX_OP_BOOL_NOT);
parse_lex_by_checking_eq_sign(XC_LEX_OP_REL_NE, BC_LEX_OP_BOOL_NOT);
if (p->lex == BC_LEX_OP_BOOL_NOT) {
s = zbc_POSIX_does_not_allow_bool_ops_this_is_bad("!");
if (s) RETURN_STATUS(s);
@ -3246,7 +3226,7 @@ static BC_STATUS zbc_lex_token(void)
bc_lex_lineComment();
break;
case '%':
bc_lex_assign(BC_LEX_OP_ASSIGN_MODULUS, XC_LEX_OP_MODULUS);
parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_MODULUS, XC_LEX_OP_MODULUS);
break;
case '&':
c2 = *p->lex_inbuf;
@ -3265,7 +3245,7 @@ static BC_STATUS zbc_lex_token(void)
p->lex = (BcLexType)(c - '(' + BC_LEX_LPAREN);
break;
case '*':
bc_lex_assign(BC_LEX_OP_ASSIGN_MULTIPLY, XC_LEX_OP_MULTIPLY);
parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_MULTIPLY, XC_LEX_OP_MULTIPLY);
break;
case '+':
c2 = *p->lex_inbuf;
@ -3273,7 +3253,7 @@ static BC_STATUS zbc_lex_token(void)
p->lex_inbuf++;
p->lex = BC_LEX_OP_INC;
} else
bc_lex_assign(BC_LEX_OP_ASSIGN_PLUS, XC_LEX_OP_PLUS);
parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_PLUS, XC_LEX_OP_PLUS);
break;
case ',':
p->lex = BC_LEX_COMMA;
@ -3284,7 +3264,7 @@ static BC_STATUS zbc_lex_token(void)
p->lex_inbuf++;
p->lex = BC_LEX_OP_DEC;
} else
bc_lex_assign(BC_LEX_OP_ASSIGN_MINUS, XC_LEX_OP_MINUS);
parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_MINUS, XC_LEX_OP_MINUS);
break;
case '.':
if (isdigit(*p->lex_inbuf))
@ -3299,7 +3279,7 @@ static BC_STATUS zbc_lex_token(void)
if (c2 == '*')
s = zbc_lex_comment();
else
bc_lex_assign(BC_LEX_OP_ASSIGN_DIVIDE, XC_LEX_OP_DIVIDE);
parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_DIVIDE, XC_LEX_OP_DIVIDE);
break;
case '0':
case '1':
@ -3323,13 +3303,13 @@ static BC_STATUS zbc_lex_token(void)
p->lex = BC_LEX_SCOLON;
break;
case '<':
bc_lex_assign(XC_LEX_OP_REL_LE, XC_LEX_OP_REL_LT);
parse_lex_by_checking_eq_sign(XC_LEX_OP_REL_LE, XC_LEX_OP_REL_LT);
break;
case '=':
bc_lex_assign(XC_LEX_OP_REL_EQ, BC_LEX_OP_ASSIGN);
parse_lex_by_checking_eq_sign(XC_LEX_OP_REL_EQ, BC_LEX_OP_ASSIGN);
break;
case '>':
bc_lex_assign(XC_LEX_OP_REL_GE, XC_LEX_OP_REL_GT);
parse_lex_by_checking_eq_sign(XC_LEX_OP_REL_GE, XC_LEX_OP_REL_GT);
break;
case '[':
case ']':
@ -3343,7 +3323,7 @@ static BC_STATUS zbc_lex_token(void)
s = bc_error_bad_character(c);
break;
case '^':
bc_lex_assign(BC_LEX_OP_ASSIGN_POWER, XC_LEX_OP_POWER);
parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_POWER, XC_LEX_OP_POWER);
break;
case 'a':
case 'b':
@ -3422,43 +3402,30 @@ static BC_STATUS zdc_lex_register(void)
static BC_STATUS zdc_lex_string(void)
{
BcParse *p = &G.prs;
size_t depth, nls, i;
size_t depth;
p->lex = XC_LEX_STR;
bc_vec_pop_all(&p->lex_strnumbuf);
nls = 0;
depth = 1;
i = 0;
for (;;) {
char c = p->lex_inbuf[i];
char c = peek_inbuf();
if (c == '\0') {
p->lex_inbuf += i;
RETURN_STATUS(bc_error("string end could not be found"));
RETURN_STATUS(bc_error("unterminated string"));
}
nls += (c == '\n');
if (i == 0 || p->lex_inbuf[i - 1] != '\\') {
if (c == '[') depth++;
if (c == ']')
if (--depth == 0)
break;
}
bc_vec_push(&p->lex_strnumbuf, &p->lex_inbuf[i]);
i++;
if (c == '[') depth++;
if (c == ']')
if (--depth == 0)
break;
if (c == '\n')
p->lex_line++;
bc_vec_push(&p->lex_strnumbuf, p->lex_inbuf);
p->lex_inbuf++;
}
i++;
bc_vec_pushZeroByte(&p->lex_strnumbuf);
// This check makes sense only if size_t is (much) larger than BC_MAX_STRING.
if (SIZE_MAX > (BC_MAX_STRING | 0xff)) {
if (i > BC_MAX_STRING)
RETURN_STATUS(bc_error("string too long: must be [1,"BC_MAX_STRING_STR"]"));
}
p->lex_inbuf++; // skip trailing ']'
p->lex_inbuf += i;
p->lex_line += nls;
G.err_line = p->lex_line;
RETURN_STATUS(BC_STATUS_SUCCESS);
}
#define zdc_lex_string(...) (zdc_lex_string(__VA_ARGS__) COMMA_SUCCESS)
@ -3486,7 +3453,7 @@ static BC_STATUS zdc_lex_token(void)
}
s = BC_STATUS_SUCCESS;
c = *p->lex_inbuf++;
c = eat_inbuf();
if (c >= '%' && c <= '~'
&& (p->lex = dc_char_to_LEX[c - '%']) != XC_LEX_INVALID
) {
@ -3507,15 +3474,14 @@ static BC_STATUS zdc_lex_token(void)
// commands are not executed on pressing <enter>).
// IOW: typing "1p<enter>" should print "1" _at once_,
// not after some more input.
p->lex_line++;
p->lex = XC_LEX_NLINE;
p->lex_newline = true;
break;
case '\t':
case '\v':
case '\f':
case '\r':
case ' ':
p->lex_newline = 0; // was (c == '\n')
bc_lex_whitespace();
break;
case '!':
@ -3702,7 +3668,7 @@ static void bc_parse_free(void)
IF_BC(bc_vec_free(&p->exits);)
IF_BC(bc_vec_free(&p->conds);)
IF_BC(bc_vec_free(&p->ops);)
bc_lex_free();
bc_vec_free(&G.prs.lex_strnumbuf);
}
static void bc_parse_create(size_t fidx)
@ -3710,7 +3676,7 @@ static void bc_parse_create(size_t fidx)
BcParse *p = &G.prs;
memset(p, 0, sizeof(BcParse));
bc_lex_init();
bc_char_vec_init(&G.prs.lex_strnumbuf);
IF_BC(bc_vec_init(&p->exits, sizeof(size_t), NULL);)
IF_BC(bc_vec_init(&p->conds, sizeof(size_t), NULL);)
IF_BC(bc_vec_init(&p->ops, sizeof(BcLexType), NULL);)
@ -4753,11 +4719,13 @@ static BcStatus bc_parse_expr_empty_ok(uint8_t flags)
switch (t) {
case BC_LEX_OP_INC:
case BC_LEX_OP_DEC:
dbg_lex("%s:%d LEX_OP_INC/DEC", __func__, __LINE__);
s = zbc_parse_incdec(&prev, &paren_expr, &nexprs, flags);
rprn = bin_last = false;
//get_token = false; - already is
break;
case XC_LEX_OP_MINUS:
dbg_lex("%s:%d LEX_OP_MINUS", __func__, __LINE__);
s = zbc_parse_minus(&prev, ops_bgn, rprn, &nexprs);
rprn = false;
//get_token = false; - already is
@ -4770,6 +4738,7 @@ static BcStatus bc_parse_expr_empty_ok(uint8_t flags)
case BC_LEX_OP_ASSIGN_PLUS:
case BC_LEX_OP_ASSIGN_MINUS:
case BC_LEX_OP_ASSIGN:
dbg_lex("%s:%d LEX_ASSIGNxyz", __func__, __LINE__);
if (prev != XC_INST_VAR && prev != XC_INST_ARRAY_ELEM
&& prev != XC_INST_SCALE && prev != XC_INST_IBASE
&& prev != XC_INST_OBASE && prev != BC_INST_LAST
@ -4794,6 +4763,7 @@ static BcStatus bc_parse_expr_empty_ok(uint8_t flags)
case BC_LEX_OP_BOOL_NOT:
case BC_LEX_OP_BOOL_OR:
case BC_LEX_OP_BOOL_AND:
dbg_lex("%s:%d LEX_OP_xyz", __func__, __LINE__);
if (((t == BC_LEX_OP_BOOL_NOT) != bin_last)
|| (t != BC_LEX_OP_BOOL_NOT && prev == XC_INST_BOOL_NOT)
) {
@ -4808,6 +4778,7 @@ static BcStatus bc_parse_expr_empty_ok(uint8_t flags)
bin_last = (t != BC_LEX_OP_BOOL_NOT);
break;
case BC_LEX_LPAREN:
dbg_lex("%s:%d LEX_LPAREN", __func__, __LINE__);
if (BC_PARSE_LEAF(prev, rprn))
return bc_error_bad_expression();
bc_vec_push(&p->ops, &t);
@ -4817,6 +4788,7 @@ static BcStatus bc_parse_expr_empty_ok(uint8_t flags)
rprn = bin_last = false;
break;
case BC_LEX_RPAREN:
dbg_lex("%s:%d LEX_RPAREN", __func__, __LINE__);
if (bin_last || prev == XC_INST_BOOL_NOT)
return bc_error_bad_expression();
if (nparens == 0) {
@ -4833,6 +4805,7 @@ static BcStatus bc_parse_expr_empty_ok(uint8_t flags)
bin_last = false;
break;
case XC_LEX_NAME:
dbg_lex("%s:%d LEX_NAME", __func__, __LINE__);
if (BC_PARSE_LEAF(prev, rprn))
return bc_error_bad_expression();
s = zbc_parse_name(&prev, flags & ~BC_PARSE_NOCALL);
@ -4842,6 +4815,7 @@ static BcStatus bc_parse_expr_empty_ok(uint8_t flags)
nexprs++;
break;
case XC_LEX_NUMBER:
dbg_lex("%s:%d LEX_NUMBER", __func__, __LINE__);
if (BC_PARSE_LEAF(prev, rprn))
return bc_error_bad_expression();
bc_parse_pushNUM();
@ -4854,6 +4828,7 @@ static BcStatus bc_parse_expr_empty_ok(uint8_t flags)
case BC_LEX_KEY_IBASE:
case BC_LEX_KEY_LAST:
case BC_LEX_KEY_OBASE:
dbg_lex("%s:%d LEX_IBASE/LAST/OBASE", __func__, __LINE__);
if (BC_PARSE_LEAF(prev, rprn))
return bc_error_bad_expression();
prev = (char) (t - BC_LEX_KEY_IBASE + XC_INST_IBASE);
@ -4865,6 +4840,7 @@ static BcStatus bc_parse_expr_empty_ok(uint8_t flags)
break;
case BC_LEX_KEY_LENGTH:
case BC_LEX_KEY_SQRT:
dbg_lex("%s:%d LEX_LEN/SQRT", __func__, __LINE__);
if (BC_PARSE_LEAF(prev, rprn))
return bc_error_bad_expression();
s = zbc_parse_builtin(t, flags, &prev);
@ -4874,6 +4850,7 @@ static BcStatus bc_parse_expr_empty_ok(uint8_t flags)
nexprs++;
break;
case BC_LEX_KEY_READ:
dbg_lex("%s:%d LEX_READ", __func__, __LINE__);
if (BC_PARSE_LEAF(prev, rprn))
return bc_error_bad_expression();
s = zbc_parse_read();
@ -4884,6 +4861,7 @@ static BcStatus bc_parse_expr_empty_ok(uint8_t flags)
nexprs++;
break;
case BC_LEX_KEY_SCALE:
dbg_lex("%s:%d LEX_SCALE", __func__, __LINE__);
if (BC_PARSE_LEAF(prev, rprn))
return bc_error_bad_expression();
s = zbc_parse_scale(&prev, flags);
@ -5348,7 +5326,7 @@ static BC_STATUS zbc_program_read(void)
sv_parse = G.prs; // struct copy
bc_parse_create(BC_PROG_READ);
//bc_lex_file(&G.prs.l); - not needed, error line info is not printed for read()
//G.err_line = G.prs.lex_line = 1; - not needed, error line info is not printed for read()
s = zbc_parse_text_init(buf.v);
if (s) goto exec_err;
@ -6950,7 +6928,7 @@ static BC_STATUS zbc_vm_execute_FILE(FILE *fp, const char *filename)
G.prs.lex_filename = filename;
G.prs.lex_input_fp = fp;
bc_lex_file();
G.err_line = G.prs.lex_line = 1;
do {
s = zbc_vm_process("");
@ -7232,7 +7210,6 @@ static BC_STATUS zbc_vm_exec(void)
// We know that internal library is not buggy,
// thus error checking is normally disabled.
# define DEBUG_LIB 0
bc_lex_file();
s = zbc_vm_process(bc_lib);
if (DEBUG_LIB && s) RETURN_STATUS(s);
}

8
testsuite/dc_strings_results.txt
View File

@ -1,9 +1,9 @@
13
Hello, World!
16
Hello, \[ World!
16
Hello, \] World!
Hello, \[ World!]ZpR
[Hello, \[ World!]pR
[Hello, \] World!]ZpR
[Hello, \] World!
1
2
3