// file : xsde/cxx/parser/validating/time.cxx // author : Boris Kolpackov // copyright : Copyright (c) 2005-2011 Code Synthesis Tools CC // license : GNU GPL v2 + exceptions; see accompanying LICENSE file #include // strtod #include #include #include #include namespace xsde { namespace cxx { namespace parser { namespace validating { void time_pimpl:: _pre () { #ifdef XSDE_EXCEPTIONS str_.assign ("", 0); #else if (str_.assign ("", 0)) _sys_error (sys_error::no_memory); #endif } void time_pimpl:: _characters (const ro_string& s) { if (str_.size () == 0) { ro_string tmp (s.data (), s.size ()); if (trim_left (tmp) != 0) { #ifdef XSDE_EXCEPTIONS str_.append (tmp.data (), tmp.size ()); #else if (str_.append (tmp.data (), tmp.size ())) _sys_error (sys_error::no_memory); #endif } } else { #ifdef XSDE_EXCEPTIONS str_.append (s.data (), s.size ()); #else if (str_.append (s.data (), s.size ())) _sys_error (sys_error::no_memory); #endif } } void time_pimpl:: _post () { char* s = str_.data (); ro_string tmp (s, str_.size ()); ro_string::size_type n = trim_right (tmp); // time := HH:MM:SS[.S+][Z|(+|-)HH:MM] // if (n < 8 || s[2] != ':' || s[5] != ':') { _schema_error (schema_error::invalid_time_value); return; } // hours // char d1 = s[0]; char d2 = s[1]; if (d1 < '0' || d1 > '9' || d2 < '0' || d2 > '9') { _schema_error (schema_error::invalid_time_value); return; } hours_ = 10 * (d1 - '0') + (d2 - '0'); if (hours_ > 24) { _schema_error (schema_error::invalid_time_value); return; } // minutes // d1 = s[3]; d2 = s[4]; if (d1 < '0' || d1 > '9' || d2 < '0' || d2 > '9') { _schema_error (schema_error::invalid_time_value); return; } minutes_ = 10 * (d1 - '0') + (d2 - '0'); if (minutes_ > 59) { _schema_error (schema_error::invalid_time_value); return; } // Find the end of the seconds fragment. // ro_string::size_type pos = 8; for (; pos < n; ++pos) { char c = s[pos]; if (c == 'Z' || c == '+' || c == '-') break; } // At least one digit should follow the fraction point. // if ((pos - 6) == 3) { _schema_error (schema_error::invalid_time_value); return; } // Parse the time zone first so that we can truncate and // reuse the string. // if (pos < n) { if (!bits::parse_time_zone (s + pos, n - pos, zh_, zm_)) { _schema_error (schema_error::invalid_time_value); return; } z_ = true; } else z_ = false; // seconds // str_.truncate (pos); char* p; set_errno (0); seconds_ = strtod (s + 6, &p); if (*p != '\0' || get_errno () != 0 || seconds_ >= 60.0) { _schema_error (schema_error::invalid_time_value); return; } if (hours_ == 24 && (minutes_ != 0 || seconds_ != 0.0)) { _schema_error (schema_error::invalid_time_value); return; } } time time_pimpl:: post_time () { return z_ ? time (hours_, minutes_, seconds_, zh_, zm_) : time (hours_, minutes_, seconds_); } } } } }