/* dquote.c * * This file contains functions that are related to * parsing double-quotish expressions. * */ #include "EXTERN.h" #define PERL_IN_DQUOTE_C #include "perl.h" /* XXX Add documentation after final interface and behavior is decided */ /* May want to show context for error, so would pass S_grok_bslash_c(pTHX_ const char* current, const char* start, const bool output_warning) U8 source = *current; */ char Perl_grok_bslash_c(pTHX_ const char source, const bool output_warning) { U8 result; if (! isPRINT_A(source)) { Perl_croak(aTHX_ "%s", "Character following \"\\c\" must be printable ASCII"); } else if (source == '{') { const char control = toCTRL('{'); if (isPRINT_A(control)) { /* diag_listed_as: Use "%s" instead of "%s" */ Perl_croak(aTHX_ "Use \"%c\" instead of \"\\c{\"", control); } else { Perl_croak(aTHX_ "Sequence \"\\c{\" invalid"); } } result = toCTRL(source); if (output_warning && isPRINT_A(result)) { U8 clearer[3]; U8 i = 0; if (! isWORDCHAR(result)) { clearer[i++] = '\\'; } clearer[i++] = result; clearer[i++] = '\0'; Perl_ck_warner(aTHX_ packWARN(WARN_SYNTAX), "\"\\c%c\" is more clearly written simply as \"%s\"", source, clearer); } return result; } bool Perl_grok_bslash_o(pTHX_ char **s, UV *uv, const char** error_msg, const bool output_warning, const bool strict, const bool silence_non_portable, const bool UTF) { /* Documentation to be supplied when interface nailed down finally * This returns FALSE if there is an error which the caller need not recover * from; otherwise TRUE. In either case the caller should look at *len [???]. * It guarantees that the returned codepoint, *uv, when expressed as * utf8 bytes, would fit within the skipped "\o{...}" bytes. * On input: * s is the address of a pointer to a NULL terminated string that begins * with 'o', and the previous character was a backslash. At exit, *s * will be advanced to the byte just after those absorbed by this * function. Hence the caller can continue parsing from there. In * the case of an error, this routine has generally positioned *s to * point just to the right of the first bad spot, so that a message * that has a "<--" to mark the spot will be correctly positioned. * uv points to a UV that will hold the output value, valid only if the * return from the function is TRUE * error_msg is a pointer that will be set to an internal buffer giving an * error message upon failure (the return is FALSE). Untouched if * function succeeds * output_warning says whether to output any warning messages, or suppress * them * strict is true if this should fail instead of warn if there are * non-octal digits within the braces * silence_non_portable is true if to suppress warnings about the code * point returned being too large to fit on all platforms. * UTF is true iff the string *s is encoded in UTF-8. */ char* e; STRLEN numbers_len; I32 flags = PERL_SCAN_ALLOW_UNDERSCORES | PERL_SCAN_DISALLOW_PREFIX /* XXX Until the message is improved in grok_oct, handle errors * ourselves */ | PERL_SCAN_SILENT_ILLDIGIT; #ifdef DEBUGGING char *start = *s - 1; assert(*start == '\\'); #endif PERL_ARGS_ASSERT_GROK_BSLASH_O; assert(**s == 'o'); (*s)++; if (**s != '{') { *error_msg = "Missing braces on \\o{}"; return FALSE; } e = strchr(*s, '}'); if (!e) { (*s)++; /* Move past the '{' */ while (isOCTAL(**s)) { /* Position beyond the legal digits */ (*s)++; } *error_msg = "Missing right brace on \\o{"; return FALSE; } (*s)++; /* Point to expected first digit (could be first byte of utf8 sequence if not a digit) */ numbers_len = e - *s; if (numbers_len == 0) { (*s)++; /* Move past the } */ *error_msg = "Number with no digits"; return FALSE; } if (silence_non_portable) { flags |= PERL_SCAN_SILENT_NON_PORTABLE; } *uv = grok_oct(*s, &numbers_len, &flags, NULL); /* Note that if has non-octal, will ignore everything starting with that up * to the '}' */ if (numbers_len != (STRLEN) (e - *s)) { if (strict) { *s += numbers_len; *s += (UTF) ? UTF8SKIP(*s) : (STRLEN) 1; *error_msg = "Non-octal character"; return FALSE; } else if (output_warning) { Perl_ck_warner(aTHX_ packWARN(WARN_DIGIT), /* diag_listed_as: Non-octal character '%c'. Resolved as "%s" */ "Non-octal character '%c'. Resolved as \"\\o{%.*s}\"", *(*s + numbers_len), (int) numbers_len, *s); } } /* Return past the '}' */ *s = e + 1; return TRUE; } char* Perl_form_short_octal_warning(pTHX_ const char * const s, /* Points to first non-octal */ const STRLEN len /* Length of octals string, so (s-len) points to first octal */ ) { /* Return a character string consisting of a warning message for when a * string constant in octal is weird, like "\078". */ const char * sans_leading_zeros = s - len; PERL_ARGS_ASSERT_FORM_SHORT_OCTAL_WARNING; assert(*s == '8' || *s == '9'); /* Remove the leading zeros, retaining one zero so won't be zero length */ while (*sans_leading_zeros == '0') sans_leading_zeros++; if (sans_leading_zeros == s) { sans_leading_zeros--; } return Perl_form(aTHX_ "'%.*s' resolved to '\\o{%.*s}%c'", (int) (len + 2), s - len - 1, (int) (s - sans_leading_zeros), sans_leading_zeros, *s); } /* * ex: set ts=8 sts=4 sw=4 et: */