/* Copyright (C) 2000-2003 MySQL AB This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* This file defines all time functions */ #ifdef USE_PRAGMA_IMPLEMENTATION #pragma implementation // gcc: Class implementation #endif #include "mysql_priv.h" #include #include /* TODO: Move month and days to language files */ /* Day number for Dec 31st, 9999 */ #define MAX_DAY_NUMBER 3652424L /* OPTIMIZATION TODO: - Replace the switch with a function that should be called for each date type. - Remove sprintf and opencode the conversion, like we do in Field_datetime. The reason for this functions existence is that as we don't have a way to know if a datetime/time value has microseconds in them we are now only adding microseconds to the output if the value has microseconds. We can't use a standard make_date_time() for this as we don't know if someone will use %f in the format specifier in which case we would get the microseconds twice. */ static bool make_datetime(date_time_format_types format, TIME *ltime, String *str) { char *buff; CHARSET_INFO *cs= &my_charset_bin; uint length= 30; if (str->alloc(length)) return 1; buff= (char*) str->ptr(); switch (format) { case TIME_ONLY: length= cs->cset->snprintf(cs, buff, length, "%s%02d:%02d:%02d", ltime->neg ? "-" : "", ltime->hour, ltime->minute, ltime->second); break; case TIME_MICROSECOND: length= cs->cset->snprintf(cs, buff, length, "%s%02d:%02d:%02d.%06ld", ltime->neg ? "-" : "", ltime->hour, ltime->minute, ltime->second, ltime->second_part); break; case DATE_ONLY: length= cs->cset->snprintf(cs, buff, length, "%04d-%02d-%02d", ltime->year, ltime->month, ltime->day); break; case DATE_TIME: length= cs->cset->snprintf(cs, buff, length, "%04d-%02d-%02d %02d:%02d:%02d", ltime->year, ltime->month, ltime->day, ltime->hour, ltime->minute, ltime->second); break; case DATE_TIME_MICROSECOND: length= cs->cset->snprintf(cs, buff, length, "%04d-%02d-%02d %02d:%02d:%02d.%06ld", ltime->year, ltime->month, ltime->day, ltime->hour, ltime->minute, ltime->second, ltime->second_part); break; } str->length(length); str->set_charset(cs); return 0; } /* Wrapper over make_datetime() with validation of the input TIME value NOTE see make_datetime() for more information RETURN 1 if there was an error during converion 0 otherwise */ static bool make_datetime_with_warn(date_time_format_types format, TIME *ltime, String *str) { int warning= 0; if (make_datetime(format, ltime, str)) return 1; if (check_time_range(ltime, &warning)) return 1; if (!warning) return 0; make_truncated_value_warning(current_thd, str->ptr(), str->length(), MYSQL_TIMESTAMP_TIME, NullS); return make_datetime(format, ltime, str); } /* Wrapper over make_time() with validation of the input TIME value NOTE see make_time() for more info RETURN 1 if there was an error during conversion 0 otherwise */ static bool make_time_with_warn(const DATE_TIME_FORMAT *format, TIME *l_time, String *str) { int warning= 0; make_time(format, l_time, str); if (check_time_range(l_time, &warning)) return 1; if (warning) { make_truncated_value_warning(current_thd, str->ptr(), str->length(), MYSQL_TIMESTAMP_TIME, NullS); make_time(format, l_time, str); } return 0; } /* Convert seconds to TIME value with overflow checking SYNOPSIS: sec_to_time() seconds number of seconds unsigned_flag 1, if 'seconds' is unsigned, 0, otherwise ltime output TIME value DESCRIPTION If the 'seconds' argument is inside TIME data range, convert it to a corresponding value. Otherwise, truncate the resulting value to the nearest endpoint, and produce a warning message. RETURN 1 if the value was truncated during conversion 0 otherwise */ static bool sec_to_time(longlong seconds, bool unsigned_flag, TIME *ltime) { uint sec; bzero((char *)ltime, sizeof(*ltime)); if (seconds < 0) { if (unsigned_flag) goto overflow; ltime->neg= 1; if (seconds < -3020399) goto overflow; seconds= -seconds; } else if (seconds > 3020399) goto overflow; sec= (uint) ((ulonglong) seconds % 3600); ltime->hour= (uint) (seconds/3600); ltime->minute= sec/60; ltime->second= sec % 60; return 0; overflow: ltime->hour= TIME_MAX_HOUR; ltime->minute= TIME_MAX_MINUTE; ltime->second= TIME_MAX_SECOND; char buf[22]; int len= (int)(longlong10_to_str(seconds, buf, unsigned_flag ? 10 : -10) - buf); make_truncated_value_warning(current_thd, buf, len, MYSQL_TIMESTAMP_TIME, NullS); return 1; } /* Date formats corresponding to compound %r and %T conversion specifiers Note: We should init at least first element of "positions" array (first member) or hpux11 compiler will die horribly. */ static DATE_TIME_FORMAT time_ampm_format= {{0}, '\0', 0, {(char *)"%I:%i:%S %p", 11}}; static DATE_TIME_FORMAT time_24hrs_format= {{0}, '\0', 0, {(char *)"%H:%i:%S", 8}}; /* Extract datetime value to TIME struct from string value according to format string. SYNOPSIS extract_date_time() format date/time format specification val String to decode length Length of string l_time Store result here cached_timestamp_type It uses to get an appropriate warning in the case when the value is truncated. sub_pattern_end if non-zero then we are parsing string which should correspond compound specifier (like %T or %r) and this parameter is pointer to place where pointer to end of string matching this specifier should be stored. NOTE Possibility to parse strings matching to patterns equivalent to compound specifiers is mainly intended for use from inside of this function in order to understand %T and %r conversion specifiers, so number of conversion specifiers that can be used in such sub-patterns is limited. Also most of checks are skipped in this case. If one adds new format specifiers to this function he should also consider adding them to get_date_time_result_type() function. RETURN 0 ok 1 error */ static bool extract_date_time(DATE_TIME_FORMAT *format, const char *val, uint length, TIME *l_time, timestamp_type cached_timestamp_type, const char **sub_pattern_end, const char *date_time_type) { int weekday= 0, yearday= 0, daypart= 0; int week_number= -1; int error= 0; int strict_week_number_year= -1; int frac_part; bool usa_time= 0; bool sunday_first_n_first_week_non_iso; bool strict_week_number; bool strict_week_number_year_type; const char *val_begin= val; const char *val_end= val + length; const char *ptr= format->format.str; const char *end= ptr + format->format.length; CHARSET_INFO *cs= &my_charset_bin; DBUG_ENTER("extract_date_time"); LINT_INIT(strict_week_number); /* Remove valgrind varnings when using gcc 3.3 and -O1 */ PURIFY_OR_LINT_INIT(strict_week_number_year_type); PURIFY_OR_LINT_INIT(sunday_first_n_first_week_non_iso); if (!sub_pattern_end) bzero((char*) l_time, sizeof(*l_time)); for (; ptr != end && val != val_end; ptr++) { /* Skip pre-space between each argument */ while (val != val_end && my_isspace(cs, *val)) val++; if (*ptr == '%' && ptr+1 != end) { int val_len; char *tmp; error= 0; val_len= (uint) (val_end - val); switch (*++ptr) { /* Year */ case 'Y': tmp= (char*) val + min(4, val_len); l_time->year= (int) my_strtoll10(val, &tmp, &error); val= tmp; break; case 'y': tmp= (char*) val + min(2, val_len); l_time->year= (int) my_strtoll10(val, &tmp, &error); val= tmp; l_time->year+= (l_time->year < YY_PART_YEAR ? 2000 : 1900); break; /* Month */ case 'm': case 'c': tmp= (char*) val + min(2, val_len); l_time->month= (int) my_strtoll10(val, &tmp, &error); val= tmp; break; case 'M': if ((l_time->month= check_word(my_locale_en_US.month_names, val, val_end, &val)) <= 0) goto err; break; case 'b': if ((l_time->month= check_word(my_locale_en_US.ab_month_names, val, val_end, &val)) <= 0) goto err; break; /* Day */ case 'd': case 'e': tmp= (char*) val + min(2, val_len); l_time->day= (int) my_strtoll10(val, &tmp, &error); val= tmp; break; case 'D': tmp= (char*) val + min(2, val_len); l_time->day= (int) my_strtoll10(val, &tmp, &error); /* Skip 'st, 'nd, 'th .. */ val= tmp + min((int) (val_end-tmp), 2); break; /* Hour */ case 'h': case 'I': case 'l': usa_time= 1; /* fall through */ case 'k': case 'H': tmp= (char*) val + min(2, val_len); l_time->hour= (int) my_strtoll10(val, &tmp, &error); val= tmp; break; /* Minute */ case 'i': tmp= (char*) val + min(2, val_len); l_time->minute= (int) my_strtoll10(val, &tmp, &error); val= tmp; break; /* Second */ case 's': case 'S': tmp= (char*) val + min(2, val_len); l_time->second= (int) my_strtoll10(val, &tmp, &error); val= tmp; break; /* Second part */ case 'f': tmp= (char*) val_end; if (tmp - val > 6) tmp= (char*) val + 6; l_time->second_part= (int) my_strtoll10(val, &tmp, &error); frac_part= 6 - (tmp - val); if (frac_part > 0) l_time->second_part*= (ulong) log_10_int[frac_part]; val= tmp; break; /* AM / PM */ case 'p': if (val_len < 2 || ! usa_time) goto err; if (!my_strnncoll(&my_charset_latin1, (const uchar *) val, 2, (const uchar *) "PM", 2)) daypart= 12; else if (my_strnncoll(&my_charset_latin1, (const uchar *) val, 2, (const uchar *) "AM", 2)) goto err; val+= 2; break; /* Exotic things */ case 'W': if ((weekday= check_word(my_locale_en_US.day_names, val, val_end, &val)) <= 0) goto err; break; case 'a': if ((weekday= check_word(my_locale_en_US.ab_day_names, val, val_end, &val)) <= 0) goto err; break; case 'w': tmp= (char*) val + 1; if ((weekday= (int) my_strtoll10(val, &tmp, &error)) < 0 || weekday >= 7) goto err; /* We should use the same 1 - 7 scale for %w as for %W */ if (!weekday) weekday= 7; val= tmp; break; case 'j': tmp= (char*) val + min(val_len, 3); yearday= (int) my_strtoll10(val, &tmp, &error); val= tmp; break; /* Week numbers */ case 'V': case 'U': case 'v': case 'u': sunday_first_n_first_week_non_iso= (*ptr=='U' || *ptr== 'V'); strict_week_number= (*ptr=='V' || *ptr=='v'); tmp= (char*) val + min(val_len, 2); if ((week_number= (int) my_strtoll10(val, &tmp, &error)) < 0 || strict_week_number && !week_number || week_number > 53) goto err; val= tmp; break; /* Year used with 'strict' %V and %v week numbers */ case 'X': case 'x': strict_week_number_year_type= (*ptr=='X'); tmp= (char*) val + min(4, val_len); strict_week_number_year= (int) my_strtoll10(val, &tmp, &error); val= tmp; break; /* Time in AM/PM notation */ case 'r': /* We can't just set error here, as we don't want to generate two warnings in case of errors */ if (extract_date_time(&time_ampm_format, val, (uint)(val_end - val), l_time, cached_timestamp_type, &val, "time")) DBUG_RETURN(1); break; /* Time in 24-hour notation */ case 'T': if (extract_date_time(&time_24hrs_format, val, (uint)(val_end - val), l_time, cached_timestamp_type, &val, "time")) DBUG_RETURN(1); break; /* Conversion specifiers that match classes of characters */ case '.': while (my_ispunct(cs, *val) && val != val_end) val++; break; case '@': while (my_isalpha(cs, *val) && val != val_end) val++; break; case '#': while (my_isdigit(cs, *val) && val != val_end) val++; break; default: goto err; } if (error) // Error from my_strtoll10 goto err; } else if (!my_isspace(cs, *ptr)) { if (*val != *ptr) goto err; val++; } } if (usa_time) { if (l_time->hour > 12 || l_time->hour < 1) goto err; l_time->hour= l_time->hour%12+daypart; } /* If we are recursively called for parsing string matching compound specifiers we are already done. */ if (sub_pattern_end) { *sub_pattern_end= val; DBUG_RETURN(0); } if (yearday > 0) { uint days= calc_daynr(l_time->year,1,1) + yearday - 1; if (days <= 0 || days > MAX_DAY_NUMBER) goto err; get_date_from_daynr(days,&l_time->year,&l_time->month,&l_time->day); } if (week_number >= 0 && weekday) { int days; uint weekday_b; /* %V,%v require %X,%x resprectively, %U,%u should be used with %Y and not %X or %x */ if (strict_week_number && (strict_week_number_year < 0 || strict_week_number_year_type != sunday_first_n_first_week_non_iso) || !strict_week_number && strict_week_number_year >= 0) goto err; /* Number of days since year 0 till 1st Jan of this year */ days= calc_daynr((strict_week_number ? strict_week_number_year : l_time->year), 1, 1); /* Which day of week is 1st Jan of this year */ weekday_b= calc_weekday(days, sunday_first_n_first_week_non_iso); /* Below we are going to sum: 1) number of days since year 0 till 1st day of 1st week of this year 2) number of days between 1st week and our week 3) and position of our day in the week */ if (sunday_first_n_first_week_non_iso) { days+= ((weekday_b == 0) ? 0 : 7) - weekday_b + (week_number - 1) * 7 + weekday % 7; } else { days+= ((weekday_b <= 3) ? 0 : 7) - weekday_b + (week_number - 1) * 7 + (weekday - 1); } if (days <= 0 || days > MAX_DAY_NUMBER) goto err; get_date_from_daynr(days,&l_time->year,&l_time->month,&l_time->day); } if (l_time->month > 12 || l_time->day > 31 || l_time->hour > 23 || l_time->minute > 59 || l_time->second > 59) goto err; if (val != val_end) { do { if (!my_isspace(&my_charset_latin1,*val)) { make_truncated_value_warning(current_thd, val_begin, length, cached_timestamp_type, NullS); break; } } while (++val != val_end); } DBUG_RETURN(0); err: { char buff[128]; strmake(buff, val_begin, min(length, sizeof(buff)-1)); push_warning_printf(current_thd, MYSQL_ERROR::WARN_LEVEL_ERROR, ER_WRONG_VALUE_FOR_TYPE, ER(ER_WRONG_VALUE_FOR_TYPE), date_time_type, buff, "str_to_time"); } DBUG_RETURN(1); } /* Create a formated date/time value in a string */ bool make_date_time(DATE_TIME_FORMAT *format, TIME *l_time, timestamp_type type, String *str) { char intbuff[15]; uint hours_i; uint weekday; ulong length; const char *ptr, *end; MY_LOCALE *locale; THD *thd= current_thd; char buf[STRING_BUFFER_USUAL_SIZE]; String tmp(buf, sizeof(buf), thd->variables.character_set_results); uint errors= 0; tmp.length(0); str->length(0); str->set_charset(&my_charset_bin); locale = thd->variables.lc_time_names; if (l_time->neg) str->append('-'); end= (ptr= format->format.str) + format->format.length; for (; ptr != end ; ptr++) { if (*ptr != '%' || ptr+1 == end) str->append(*ptr); else { switch (*++ptr) { case 'M': if (!l_time->month) return 1; tmp.copy(locale->month_names->type_names[l_time->month-1], strlen(locale->month_names->type_names[l_time->month-1]), system_charset_info, tmp.charset(), &errors); str->append(tmp.ptr(), tmp.length()); break; case 'b': if (!l_time->month) return 1; tmp.copy(locale->ab_month_names->type_names[l_time->month-1], strlen(locale->ab_month_names->type_names[l_time->month-1]), system_charset_info, tmp.charset(), &errors); str->append(tmp.ptr(), tmp.length()); break; case 'W': if (type == MYSQL_TIMESTAMP_TIME) return 1; weekday= calc_weekday(calc_daynr(l_time->year,l_time->month, l_time->day),0); tmp.copy(locale->day_names->type_names[weekday], strlen(locale->day_names->type_names[weekday]), system_charset_info, tmp.charset(), &errors); str->append(tmp.ptr(), tmp.length()); break; case 'a': if (type == MYSQL_TIMESTAMP_TIME) return 1; weekday=calc_weekday(calc_daynr(l_time->year,l_time->month, l_time->day),0); tmp.copy(locale->ab_day_names->type_names[weekday], strlen(locale->ab_day_names->type_names[weekday]), system_charset_info, tmp.charset(), &errors); str->append(tmp.ptr(), tmp.length()); break; case 'D': if (type == MYSQL_TIMESTAMP_TIME) return 1; length= int10_to_str(l_time->day, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 1, '0'); if (l_time->day >= 10 && l_time->day <= 19) str->append(STRING_WITH_LEN("th")); else { switch (l_time->day %10) { case 1: str->append(STRING_WITH_LEN("st")); break; case 2: str->append(STRING_WITH_LEN("nd")); break; case 3: str->append(STRING_WITH_LEN("rd")); break; default: str->append(STRING_WITH_LEN("th")); break; } } break; case 'Y': length= int10_to_str(l_time->year, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 4, '0'); break; case 'y': length= int10_to_str(l_time->year%100, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 2, '0'); break; case 'm': length= int10_to_str(l_time->month, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 2, '0'); break; case 'c': length= int10_to_str(l_time->month, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 1, '0'); break; case 'd': length= int10_to_str(l_time->day, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 2, '0'); break; case 'e': length= int10_to_str(l_time->day, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 1, '0'); break; case 'f': length= int10_to_str(l_time->second_part, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 6, '0'); break; case 'H': length= int10_to_str(l_time->hour, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 2, '0'); break; case 'h': case 'I': hours_i= (l_time->hour%24 + 11)%12+1; length= int10_to_str(hours_i, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 2, '0'); break; case 'i': /* minutes */ length= int10_to_str(l_time->minute, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 2, '0'); break; case 'j': if (type == MYSQL_TIMESTAMP_TIME) return 1; length= int10_to_str(calc_daynr(l_time->year,l_time->month, l_time->day) - calc_daynr(l_time->year,1,1) + 1, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 3, '0'); break; case 'k': length= int10_to_str(l_time->hour, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 1, '0'); break; case 'l': hours_i= (l_time->hour%24 + 11)%12+1; length= int10_to_str(hours_i, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 1, '0'); break; case 'p': hours_i= l_time->hour%24; str->append(hours_i < 12 ? "AM" : "PM",2); break; case 'r': length= my_sprintf(intbuff, (intbuff, ((l_time->hour % 24) < 12) ? "%02d:%02d:%02d AM" : "%02d:%02d:%02d PM", (l_time->hour+11)%12+1, l_time->minute, l_time->second)); str->append(intbuff, length); break; case 'S': case 's': length= int10_to_str(l_time->second, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 2, '0'); break; case 'T': length= my_sprintf(intbuff, (intbuff, "%02d:%02d:%02d", l_time->hour, l_time->minute, l_time->second)); str->append(intbuff, length); break; case 'U': case 'u': { uint year; if (type == MYSQL_TIMESTAMP_TIME) return 1; length= int10_to_str(calc_week(l_time, (*ptr) == 'U' ? WEEK_FIRST_WEEKDAY : WEEK_MONDAY_FIRST, &year), intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 2, '0'); } break; case 'v': case 'V': { uint year; if (type == MYSQL_TIMESTAMP_TIME) return 1; length= int10_to_str(calc_week(l_time, ((*ptr) == 'V' ? (WEEK_YEAR | WEEK_FIRST_WEEKDAY) : (WEEK_YEAR | WEEK_MONDAY_FIRST)), &year), intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 2, '0'); } break; case 'x': case 'X': { uint year; if (type == MYSQL_TIMESTAMP_TIME) return 1; (void) calc_week(l_time, ((*ptr) == 'X' ? WEEK_YEAR | WEEK_FIRST_WEEKDAY : WEEK_YEAR | WEEK_MONDAY_FIRST), &year); length= int10_to_str(year, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 4, '0'); } break; case 'w': if (type == MYSQL_TIMESTAMP_TIME) return 1; weekday=calc_weekday(calc_daynr(l_time->year,l_time->month, l_time->day),1); length= int10_to_str(weekday, intbuff, 10) - intbuff; str->append_with_prefill(intbuff, length, 1, '0'); break; default: str->append(*ptr); break; } } } return 0; } /* Get a array of positive numbers from a string object. Each number is separated by 1 non digit character Return error if there is too many numbers. If there is too few numbers, assume that the numbers are left out from the high end. This allows one to give: DAY_TO_SECOND as "D MM:HH:SS", "MM:HH:SS" "HH:SS" or as seconds. SYNOPSIS str: string value length: length of str cs: charset of str values: array of results count: count of elements in result array transform_msec: if value is true we suppose that the last part of string value is microseconds and we should transform value to six digit value. For example, '1.1' -> '1.100000' */ static bool get_interval_info(const char *str,uint length,CHARSET_INFO *cs, uint count, ulonglong *values, bool transform_msec) { const char *end=str+length; uint i; while (str != end && !my_isdigit(cs,*str)) str++; for (i=0 ; i < count ; i++) { longlong value; const char *start= str; for (value=0; str != end && my_isdigit(cs,*str) ; str++) value= value*LL(10) + (longlong) (*str - '0'); if (transform_msec && i == count - 1) // microseconds always last { long msec_length= 6 - (str - start); if (msec_length > 0) value*= (long) log_10_int[msec_length]; } values[i]= value; while (str != end && !my_isdigit(cs,*str)) str++; if (str == end && i != count-1) { i++; /* Change values[0...i-1] -> values[0...count-1] */ bmove_upp((char*) (values+count), (char*) (values+i), sizeof(*values)*i); bzero((char*) values, sizeof(*values)*(count-i)); break; } } return (str != end); } /* Calculate difference between two datetime values as seconds + microseconds. SYNOPSIS calc_time_diff() l_time1 - TIME/DATE/DATETIME value l_time2 - TIME/DATE/DATETIME value l_sign - 1 absolute values are substracted, -1 absolute values are added. seconds_out - Out parameter where difference between l_time1 and l_time2 in seconds is stored. microseconds_out- Out parameter where microsecond part of difference between l_time1 and l_time2 is stored. NOTE This function calculates difference between l_time1 and l_time2 absolute values. So one should set l_sign and correct result if he want to take signs into account (i.e. for TIME values). RETURN VALUES Returns sign of difference. 1 means negative result 0 means positive result */ static bool calc_time_diff(TIME *l_time1, TIME *l_time2, int l_sign, longlong *seconds_out, long *microseconds_out) { long days; bool neg; longlong microseconds; /* We suppose that if first argument is MYSQL_TIMESTAMP_TIME the second argument should be TIMESTAMP_TIME also. We should check it before calc_time_diff call. */ if (l_time1->time_type == MYSQL_TIMESTAMP_TIME) // Time value days= (long)l_time1->day - l_sign * (long)l_time2->day; else { days= calc_daynr((uint) l_time1->year, (uint) l_time1->month, (uint) l_time1->day); if (l_time2->time_type == MYSQL_TIMESTAMP_TIME) days-= l_sign * (long)l_time2->day; else days-= l_sign*calc_daynr((uint) l_time2->year, (uint) l_time2->month, (uint) l_time2->day); } microseconds= ((longlong)days*LL(86400) + (longlong)(l_time1->hour*3600L + l_time1->minute*60L + l_time1->second) - l_sign*(longlong)(l_time2->hour*3600L + l_time2->minute*60L + l_time2->second)) * LL(1000000) + (longlong)l_time1->second_part - l_sign*(longlong)l_time2->second_part; neg= 0; if (microseconds < 0) { microseconds= -microseconds; neg= 1; } *seconds_out= microseconds/1000000L; *microseconds_out= (long) (microseconds%1000000L); return neg; } longlong Item_func_period_add::val_int() { DBUG_ASSERT(fixed == 1); ulong period=(ulong) args[0]->val_int(); int months=(int) args[1]->val_int(); if ((null_value=args[0]->null_value || args[1]->null_value) || period == 0L) return 0; /* purecov: inspected */ return (longlong) convert_month_to_period((uint) ((int) convert_period_to_month(period)+ months)); } longlong Item_func_period_diff::val_int() { DBUG_ASSERT(fixed == 1); ulong period1=(ulong) args[0]->val_int(); ulong period2=(ulong) args[1]->val_int(); if ((null_value=args[0]->null_value || args[1]->null_value)) return 0; /* purecov: inspected */ return (longlong) ((long) convert_period_to_month(period1)- (long) convert_period_to_month(period2)); } longlong Item_func_to_days::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; if (get_arg0_date(<ime, TIME_NO_ZERO_DATE)) return 0; return (longlong) calc_daynr(ltime.year,ltime.month,ltime.day); } longlong Item_func_dayofyear::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; if (get_arg0_date(<ime,TIME_NO_ZERO_DATE)) return 0; return (longlong) calc_daynr(ltime.year,ltime.month,ltime.day) - calc_daynr(ltime.year,1,1) + 1; } longlong Item_func_dayofmonth::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; (void) get_arg0_date(<ime, TIME_FUZZY_DATE); return (longlong) ltime.day; } longlong Item_func_month::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; (void) get_arg0_date(<ime, TIME_FUZZY_DATE); return (longlong) ltime.month; } String* Item_func_monthname::val_str(String* str) { DBUG_ASSERT(fixed == 1); const char *month_name; uint month= (uint) val_int(); THD *thd= current_thd; if (null_value || !month) { null_value=1; return (String*) 0; } null_value=0; month_name= thd->variables.lc_time_names->month_names->type_names[month-1]; str->set(month_name, strlen(month_name), system_charset_info); return str; } // Returns the quarter of the year longlong Item_func_quarter::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; (void) get_arg0_date(<ime, TIME_FUZZY_DATE); return (longlong) ((ltime.month+2)/3); } longlong Item_func_hour::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; (void) get_arg0_time(<ime); return ltime.hour; } longlong Item_func_minute::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; (void) get_arg0_time(<ime); return ltime.minute; } // Returns the second in time_exp in the range of 0 - 59 longlong Item_func_second::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; (void) get_arg0_time(<ime); return ltime.second; } uint week_mode(uint mode) { uint week_format= (mode & 7); if (!(week_format & WEEK_MONDAY_FIRST)) week_format^= WEEK_FIRST_WEEKDAY; return week_format; } /* The bits in week_format(for calc_week() function) has the following meaning: WEEK_MONDAY_FIRST (0) If not set Sunday is first day of week If set Monday is first day of week WEEK_YEAR (1) If not set Week is in range 0-53 Week 0 is returned for the the last week of the previous year (for a date at start of january) In this case one can get 53 for the first week of next year. This flag ensures that the week is relevant for the given year. Note that this flag is only releveant if WEEK_JANUARY is not set. If set Week is in range 1-53. In this case one may get week 53 for a date in January (when the week is that last week of previous year) and week 1 for a date in December. WEEK_FIRST_WEEKDAY (2) If not set Weeks are numbered according to ISO 8601:1988 If set The week that contains the first 'first-day-of-week' is week 1. ISO 8601:1988 means that if the week containing January 1 has four or more days in the new year, then it is week 1; Otherwise it is the last week of the previous year, and the next week is week 1. */ longlong Item_func_week::val_int() { DBUG_ASSERT(fixed == 1); uint year; TIME ltime; if (get_arg0_date(<ime, TIME_NO_ZERO_DATE)) return 0; return (longlong) calc_week(<ime, week_mode((uint) args[1]->val_int()), &year); } longlong Item_func_yearweek::val_int() { DBUG_ASSERT(fixed == 1); uint year,week; TIME ltime; if (get_arg0_date(<ime, TIME_NO_ZERO_DATE)) return 0; week= calc_week(<ime, (week_mode((uint) args[1]->val_int()) | WEEK_YEAR), &year); return week+year*100; } longlong Item_func_weekday::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; if (get_arg0_date(<ime, TIME_NO_ZERO_DATE)) return 0; return (longlong) calc_weekday(calc_daynr(ltime.year, ltime.month, ltime.day), odbc_type) + test(odbc_type); } String* Item_func_dayname::val_str(String* str) { DBUG_ASSERT(fixed == 1); uint weekday=(uint) val_int(); // Always Item_func_daynr() const char *name; THD *thd= current_thd; if (null_value) return (String*) 0; name= thd->variables.lc_time_names->day_names->type_names[weekday]; str->set(name, strlen(name), system_charset_info); return str; } longlong Item_func_year::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; (void) get_arg0_date(<ime, TIME_FUZZY_DATE); return (longlong) ltime.year; } longlong Item_func_unix_timestamp::val_int() { TIME ltime; my_bool not_used; DBUG_ASSERT(fixed == 1); if (arg_count == 0) return (longlong) current_thd->query_start(); if (args[0]->type() == FIELD_ITEM) { // Optimize timestamp field Field *field=((Item_field*) args[0])->field; if (field->type() == FIELD_TYPE_TIMESTAMP) return ((Field_timestamp*) field)->get_timestamp(&null_value); } if (get_arg0_date(<ime, 0)) { /* We have to set null_value again because get_arg0_date will also set it to true if we have wrong datetime parameter (and we should return 0 in this case). */ null_value= args[0]->null_value; return 0; } return (longlong) TIME_to_timestamp(current_thd, <ime, ¬_used); } longlong Item_func_time_to_sec::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; longlong seconds; (void) get_arg0_time(<ime); seconds=ltime.hour*3600L+ltime.minute*60+ltime.second; return ltime.neg ? -seconds : seconds; } /* Convert a string to a interval value To make code easy, allow interval objects without separators. */ static bool get_interval_value(Item *args,interval_type int_type, String *str_value, INTERVAL *interval) { ulonglong array[5]; longlong value; const char *str; uint32 length; CHARSET_INFO *cs=str_value->charset(); LINT_INIT(value); LINT_INIT(str); LINT_INIT(length); bzero((char*) interval,sizeof(*interval)); if ((int) int_type <= INTERVAL_MICROSECOND) { value= args->val_int(); if (args->null_value) return 1; if (value < 0) { interval->neg=1; value= -value; } } else { String *res; if (!(res=args->val_str(str_value))) return (1); /* record negative intervalls in interval->neg */ str=res->ptr(); const char *end=str+res->length(); while (str != end && my_isspace(cs,*str)) str++; if (str != end && *str == '-') { interval->neg=1; str++; } length=(uint32) (end-str); // Set up pointers to new str } switch (int_type) { case INTERVAL_YEAR: interval->year= (ulong) value; break; case INTERVAL_QUARTER: interval->month= (ulong)(value*3); break; case INTERVAL_MONTH: interval->month= (ulong) value; break; case INTERVAL_WEEK: interval->day= (ulong)(value*7); break; case INTERVAL_DAY: interval->day= (ulong) value; break; case INTERVAL_HOUR: interval->hour= (ulong) value; break; case INTERVAL_MICROSECOND: interval->second_part=value; break; case INTERVAL_MINUTE: interval->minute=value; break; case INTERVAL_SECOND: interval->second=value; break; case INTERVAL_YEAR_MONTH: // Allow YEAR-MONTH YYYYYMM if (get_interval_info(str,length,cs,2,array,0)) return (1); interval->year= (ulong) array[0]; interval->month= (ulong) array[1]; break; case INTERVAL_DAY_HOUR: if (get_interval_info(str,length,cs,2,array,0)) return (1); interval->day= (ulong) array[0]; interval->hour= (ulong) array[1]; break; case INTERVAL_DAY_MICROSECOND: if (get_interval_info(str,length,cs,5,array,1)) return (1); interval->day= (ulong) array[0]; interval->hour= (ulong) array[1]; interval->minute= array[2]; interval->second= array[3]; interval->second_part= array[4]; break; case INTERVAL_DAY_MINUTE: if (get_interval_info(str,length,cs,3,array,0)) return (1); interval->day= (ulong) array[0]; interval->hour= (ulong) array[1]; interval->minute= array[2]; break; case INTERVAL_DAY_SECOND: if (get_interval_info(str,length,cs,4,array,0)) return (1); interval->day= (ulong) array[0]; interval->hour= (ulong) array[1]; interval->minute= array[2]; interval->second= array[3]; break; case INTERVAL_HOUR_MICROSECOND: if (get_interval_info(str,length,cs,4,array,1)) return (1); interval->hour= (ulong) array[0]; interval->minute= array[1]; interval->second= array[2]; interval->second_part= array[3]; break; case INTERVAL_HOUR_MINUTE: if (get_interval_info(str,length,cs,2,array,0)) return (1); interval->hour= (ulong) array[0]; interval->minute= array[1]; break; case INTERVAL_HOUR_SECOND: if (get_interval_info(str,length,cs,3,array,0)) return (1); interval->hour= (ulong) array[0]; interval->minute= array[1]; interval->second= array[2]; break; case INTERVAL_MINUTE_MICROSECOND: if (get_interval_info(str,length,cs,3,array,1)) return (1); interval->minute= array[0]; interval->second= array[1]; interval->second_part= array[2]; break; case INTERVAL_MINUTE_SECOND: if (get_interval_info(str,length,cs,2,array,0)) return (1); interval->minute= array[0]; interval->second= array[1]; break; case INTERVAL_SECOND_MICROSECOND: if (get_interval_info(str,length,cs,2,array,1)) return (1); interval->second= array[0]; interval->second_part= array[1]; break; } return 0; } String *Item_date::val_str(String *str) { DBUG_ASSERT(fixed == 1); TIME ltime; if (get_date(<ime, TIME_FUZZY_DATE)) return (String *) 0; if (str->alloc(11)) { null_value= 1; return (String *) 0; } make_date((DATE_TIME_FORMAT *) 0, <ime, str); return str; } longlong Item_date::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; if (get_date(<ime, TIME_FUZZY_DATE)) return 0; return (longlong) (ltime.year*10000L+ltime.month*100+ltime.day); } bool Item_func_from_days::get_date(TIME *ltime, uint fuzzy_date) { longlong value=args[0]->val_int(); if ((null_value=args[0]->null_value)) return 1; bzero(ltime, sizeof(TIME)); get_date_from_daynr((long) value, <ime->year, <ime->month, <ime->day); ltime->time_type= MYSQL_TIMESTAMP_DATE; return 0; } void Item_func_curdate::fix_length_and_dec() { collation.set(&my_charset_bin); decimals=0; max_length=MAX_DATE_WIDTH*MY_CHARSET_BIN_MB_MAXLEN; store_now_in_TIME(<ime); /* We don't need to set second_part and neg because they already 0 */ ltime.hour= ltime.minute= ltime.second= 0; ltime.time_type= MYSQL_TIMESTAMP_DATE; value= (longlong) TIME_to_ulonglong_date(<ime); } String *Item_func_curdate::val_str(String *str) { DBUG_ASSERT(fixed == 1); if (str->alloc(11)) { null_value= 1; return (String *) 0; } make_date((DATE_TIME_FORMAT *) 0, <ime, str); return str; } /* Converts current time in my_time_t to TIME represenatation for local time zone. Defines time zone (local) used for whole CURDATE function. */ void Item_func_curdate_local::store_now_in_TIME(TIME *now_time) { THD *thd= current_thd; thd->variables.time_zone->gmt_sec_to_TIME(now_time, (my_time_t)thd->query_start()); thd->time_zone_used= 1; } /* Converts current time in my_time_t to TIME represenatation for UTC time zone. Defines time zone (UTC) used for whole UTC_DATE function. */ void Item_func_curdate_utc::store_now_in_TIME(TIME *now_time) { my_tz_UTC->gmt_sec_to_TIME(now_time, (my_time_t)(current_thd->query_start())); /* We are not flagging this query as using time zone, since it uses fixed UTC-SYSTEM time-zone. */ } bool Item_func_curdate::get_date(TIME *res, uint fuzzy_date __attribute__((unused))) { *res=ltime; return 0; } String *Item_func_curtime::val_str(String *str) { DBUG_ASSERT(fixed == 1); str_value.set(buff, buff_length, &my_charset_bin); return &str_value; } void Item_func_curtime::fix_length_and_dec() { TIME ltime; decimals= DATETIME_DEC; collation.set(&my_charset_bin); store_now_in_TIME(<ime); value= TIME_to_ulonglong_time(<ime); buff_length= (uint) my_time_to_str(<ime, buff); max_length= buff_length; } /* Converts current time in my_time_t to TIME represenatation for local time zone. Defines time zone (local) used for whole CURTIME function. */ void Item_func_curtime_local::store_now_in_TIME(TIME *now_time) { THD *thd= current_thd; thd->variables.time_zone->gmt_sec_to_TIME(now_time, (my_time_t)thd->query_start()); thd->time_zone_used= 1; } /* Converts current time in my_time_t to TIME represenatation for UTC time zone. Defines time zone (UTC) used for whole UTC_TIME function. */ void Item_func_curtime_utc::store_now_in_TIME(TIME *now_time) { my_tz_UTC->gmt_sec_to_TIME(now_time, (my_time_t)(current_thd->query_start())); /* We are not flagging this query as using time zone, since it uses fixed UTC-SYSTEM time-zone. */ } String *Item_func_now::val_str(String *str) { DBUG_ASSERT(fixed == 1); str_value.set(buff,buff_length, &my_charset_bin); return &str_value; } void Item_func_now::fix_length_and_dec() { decimals= DATETIME_DEC; collation.set(&my_charset_bin); store_now_in_TIME(<ime); value= (longlong) TIME_to_ulonglong_datetime(<ime); buff_length= (uint) my_datetime_to_str(<ime, buff); max_length= buff_length; } /* Converts current time in my_time_t to TIME represenatation for local time zone. Defines time zone (local) used for whole NOW function. */ void Item_func_now_local::store_now_in_TIME(TIME *now_time) { THD *thd= current_thd; thd->variables.time_zone->gmt_sec_to_TIME(now_time, (my_time_t)thd->query_start()); thd->time_zone_used= 1; } /* Converts current time in my_time_t to TIME represenatation for UTC time zone. Defines time zone (UTC) used for whole UTC_TIMESTAMP function. */ void Item_func_now_utc::store_now_in_TIME(TIME *now_time) { my_tz_UTC->gmt_sec_to_TIME(now_time, (my_time_t)(current_thd->query_start())); /* We are not flagging this query as using time zone, since it uses fixed UTC-SYSTEM time-zone. */ } bool Item_func_now::get_date(TIME *res, uint fuzzy_date __attribute__((unused))) { *res= ltime; return 0; } int Item_func_now::save_in_field(Field *to, bool no_conversions) { to->set_notnull(); to->store_time(<ime, MYSQL_TIMESTAMP_DATETIME); return 0; } /* Converts current time in my_time_t to TIME represenatation for local time zone. Defines time zone (local) used for whole SYSDATE function. */ void Item_func_sysdate_local::store_now_in_TIME(TIME *now_time) { THD *thd= current_thd; thd->variables.time_zone->gmt_sec_to_TIME(now_time, time(NULL)); thd->time_zone_used= 1; } String *Item_func_sysdate_local::val_str(String *str) { DBUG_ASSERT(fixed == 1); store_now_in_TIME(<ime); buff_length= (uint) my_datetime_to_str(<ime, buff); str_value.set(buff, buff_length, &my_charset_bin); return &str_value; } longlong Item_func_sysdate_local::val_int() { DBUG_ASSERT(fixed == 1); store_now_in_TIME(<ime); return (longlong) TIME_to_ulonglong_datetime(<ime); } double Item_func_sysdate_local::val_real() { DBUG_ASSERT(fixed == 1); store_now_in_TIME(<ime); return (double) TIME_to_ulonglong_datetime(<ime); } void Item_func_sysdate_local::fix_length_and_dec() { decimals= 0; collation.set(&my_charset_bin); max_length= MAX_DATETIME_WIDTH*MY_CHARSET_BIN_MB_MAXLEN; } bool Item_func_sysdate_local::get_date(TIME *res, uint fuzzy_date __attribute__((unused))) { store_now_in_TIME(<ime); *res= ltime; return 0; } int Item_func_sysdate_local::save_in_field(Field *to, bool no_conversions) { store_now_in_TIME(<ime); to->set_notnull(); to->store_time(<ime, MYSQL_TIMESTAMP_DATETIME); return 0; } String *Item_func_sec_to_time::val_str(String *str) { DBUG_ASSERT(fixed == 1); TIME ltime; if ((null_value=args[0]->null_value) || str->alloc(19)) { null_value= 1; return (String*) 0; } sec_to_time(args[0]->val_int(), args[0]->unsigned_flag, <ime); make_time((DATE_TIME_FORMAT *) 0, <ime, str); return str; } longlong Item_func_sec_to_time::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; if ((null_value=args[0]->null_value)) return 0; sec_to_time(args[0]->val_int(), args[0]->unsigned_flag, <ime); return (ltime.neg ? -1 : 1) * ((ltime.hour)*10000 + ltime.minute*100 + ltime.second); } void Item_func_date_format::fix_length_and_dec() { /* Must use this_item() in case it's a local SP variable (for ->max_length and ->str_value) */ Item *arg1= args[1]->this_item(); decimals=0; collation.set(&my_charset_bin); if (arg1->type() == STRING_ITEM) { // Optimize the normal case fixed_length=1; /* The result is a binary string (no reason to use collation->mbmaxlen This is becasue make_date_time() only returns binary strings */ max_length= format_length(&arg1->str_value); } else { fixed_length=0; /* The result is a binary string (no reason to use collation->mbmaxlen */ max_length=min(arg1->max_length, MAX_BLOB_WIDTH) * 10; set_if_smaller(max_length,MAX_BLOB_WIDTH); } maybe_null=1; // If wrong date } bool Item_func_date_format::eq(const Item *item, bool binary_cmp) const { Item_func_date_format *item_func; if (item->type() != FUNC_ITEM) return 0; if (func_name() != ((Item_func*) item)->func_name()) return 0; if (this == item) return 1; item_func= (Item_func_date_format*) item; if (!args[0]->eq(item_func->args[0], binary_cmp)) return 0; /* We must compare format string case sensitive. This needed because format modifiers with different case, for example %m and %M, have different meaning. */ if (!args[1]->eq(item_func->args[1], 1)) return 0; return 1; } uint Item_func_date_format::format_length(const String *format) { uint size=0; const char *ptr=format->ptr(); const char *end=ptr+format->length(); for (; ptr != end ; ptr++) { if (*ptr != '%' || ptr == end-1) size++; else { switch(*++ptr) { case 'M': /* month, textual */ case 'W': /* day (of the week), textual */ size += 64; /* large for UTF8 locale data */ break; case 'D': /* day (of the month), numeric plus english suffix */ case 'Y': /* year, numeric, 4 digits */ case 'x': /* Year, used with 'v' */ case 'X': /* Year, used with 'v, where week starts with Monday' */ size += 4; break; case 'a': /* locale's abbreviated weekday name (Sun..Sat) */ case 'b': /* locale's abbreviated month name (Jan.Dec) */ size += 32; /* large for UTF8 locale data */ break; case 'j': /* day of year (001..366) */ size += 3; break; case 'U': /* week (00..52) */ case 'u': /* week (00..52), where week starts with Monday */ case 'V': /* week 1..53 used with 'x' */ case 'v': /* week 1..53 used with 'x', where week starts with Monday */ case 'y': /* year, numeric, 2 digits */ case 'm': /* month, numeric */ case 'd': /* day (of the month), numeric */ case 'h': /* hour (01..12) */ case 'I': /* --||-- */ case 'i': /* minutes, numeric */ case 'l': /* hour ( 1..12) */ case 'p': /* locale's AM or PM */ case 'S': /* second (00..61) */ case 's': /* seconds, numeric */ case 'c': /* month (0..12) */ case 'e': /* day (0..31) */ size += 2; break; case 'k': /* hour ( 0..23) */ case 'H': /* hour (00..23; value > 23 OK, padding always 2-digit) */ size += 7; /* docs allow > 23, range depends on sizeof(unsigned int) */ break; case 'r': /* time, 12-hour (hh:mm:ss [AP]M) */ size += 11; break; case 'T': /* time, 24-hour (hh:mm:ss) */ size += 8; break; case 'f': /* microseconds */ size += 6; break; case 'w': /* day (of the week), numeric */ case '%': default: size++; break; } } } return size; } String *Item_func_date_format::val_str(String *str) { String *format; TIME l_time; uint size; DBUG_ASSERT(fixed == 1); if (!is_time_format) { if (get_arg0_date(&l_time, TIME_FUZZY_DATE)) return 0; } else { String *res; if (!(res=args[0]->val_str(str)) || (str_to_time_with_warn(res->ptr(), res->length(), &l_time))) goto null_date; l_time.year=l_time.month=l_time.day=0; null_value=0; } if (!(format = args[1]->val_str(str)) || !format->length()) goto null_date; if (fixed_length) size=max_length; else size=format_length(format); if (format == str) str= &value; // Save result here if (str->alloc(size)) goto null_date; DATE_TIME_FORMAT date_time_format; date_time_format.format.str= (char*) format->ptr(); date_time_format.format.length= format->length(); /* Create the result string */ if (!make_date_time(&date_time_format, &l_time, is_time_format ? MYSQL_TIMESTAMP_TIME : MYSQL_TIMESTAMP_DATE, str)) return str; null_date: null_value=1; return 0; } void Item_func_from_unixtime::fix_length_and_dec() { thd= current_thd; collation.set(&my_charset_bin); decimals= DATETIME_DEC; max_length=MAX_DATETIME_WIDTH*MY_CHARSET_BIN_MB_MAXLEN; maybe_null= 1; thd->time_zone_used= 1; } String *Item_func_from_unixtime::val_str(String *str) { TIME time_tmp; DBUG_ASSERT(fixed == 1); if (get_date(&time_tmp, 0)) return 0; if (str->alloc(20*MY_CHARSET_BIN_MB_MAXLEN)) { null_value= 1; return 0; } make_datetime((DATE_TIME_FORMAT *) 0, &time_tmp, str); return str; } longlong Item_func_from_unixtime::val_int() { TIME time_tmp; DBUG_ASSERT(fixed == 1); if (get_date(&time_tmp, 0)) return 0; return (longlong) TIME_to_ulonglong_datetime(&time_tmp); } bool Item_func_from_unixtime::get_date(TIME *ltime, uint fuzzy_date __attribute__((unused))) { ulonglong tmp= (ulonglong)(args[0]->val_int()); /* "tmp > TIMESTAMP_MAX_VALUE" check also covers case of negative from_unixtime() argument since tmp is unsigned. */ if ((null_value= (args[0]->null_value || tmp > TIMESTAMP_MAX_VALUE))) return 1; thd->variables.time_zone->gmt_sec_to_TIME(ltime, (my_time_t)tmp); return 0; } void Item_func_convert_tz::fix_length_and_dec() { collation.set(&my_charset_bin); decimals= 0; max_length= MAX_DATETIME_WIDTH*MY_CHARSET_BIN_MB_MAXLEN; maybe_null= 1; } bool Item_func_convert_tz::fix_fields(THD *thd_arg, Item **ref) { String str; if (Item_date_func::fix_fields(thd_arg, ref)) return TRUE; tz_tables= thd_arg->lex->time_zone_tables_used; return FALSE; } String *Item_func_convert_tz::val_str(String *str) { TIME time_tmp; if (get_date(&time_tmp, 0)) return 0; if (str->alloc(20*MY_CHARSET_BIN_MB_MAXLEN)) { null_value= 1; return 0; } make_datetime((DATE_TIME_FORMAT *) 0, &time_tmp, str); return str; } longlong Item_func_convert_tz::val_int() { TIME time_tmp; if (get_date(&time_tmp, 0)) return 0; return (longlong)TIME_to_ulonglong_datetime(&time_tmp); } bool Item_func_convert_tz::get_date(TIME *ltime, uint fuzzy_date __attribute__((unused))) { my_time_t my_time_tmp; String str; if (!from_tz_cached) { from_tz= my_tz_find(args[1]->val_str(&str), tz_tables); from_tz_cached= args[1]->const_item(); } if (!to_tz_cached) { to_tz= my_tz_find(args[2]->val_str(&str), tz_tables); to_tz_cached= args[2]->const_item(); } if (from_tz==0 || to_tz==0 || get_arg0_date(ltime, TIME_NO_ZERO_DATE)) { null_value= 1; return 1; } { my_bool not_used; my_time_tmp= from_tz->TIME_to_gmt_sec(ltime, ¬_used); /* my_time_tmp is guranteed to be in the allowed range */ if (my_time_tmp) to_tz->gmt_sec_to_TIME(ltime, my_time_tmp); } null_value= 0; return 0; } void Item_func_convert_tz::cleanup() { from_tz_cached= to_tz_cached= 0; Item_date_func::cleanup(); } void Item_date_add_interval::fix_length_and_dec() { enum_field_types arg0_field_type; collation.set(&my_charset_bin); maybe_null=1; max_length=MAX_DATETIME_FULL_WIDTH*MY_CHARSET_BIN_MB_MAXLEN; value.alloc(max_length); /* The field type for the result of an Item_date function is defined as follows: - If first arg is a MYSQL_TYPE_DATETIME result is MYSQL_TYPE_DATETIME - If first arg is a MYSQL_TYPE_DATE and the interval type uses hours, minutes or seconds then type is MYSQL_TYPE_DATETIME. - Otherwise the result is MYSQL_TYPE_STRING (This is because you can't know if the string contains a DATE, TIME or DATETIME argument) */ cached_field_type= MYSQL_TYPE_STRING; arg0_field_type= args[0]->field_type(); if (arg0_field_type == MYSQL_TYPE_DATETIME || arg0_field_type == MYSQL_TYPE_TIMESTAMP) cached_field_type= MYSQL_TYPE_DATETIME; else if (arg0_field_type == MYSQL_TYPE_DATE) { if (int_type <= INTERVAL_DAY || int_type == INTERVAL_YEAR_MONTH) cached_field_type= arg0_field_type; else cached_field_type= MYSQL_TYPE_DATETIME; } } /* Here arg[1] is a Item_interval object */ bool Item_date_add_interval::get_date(TIME *ltime, uint fuzzy_date) { long period,sign; INTERVAL interval; ltime->neg= 0; if (args[0]->get_date(ltime, TIME_NO_ZERO_DATE) || get_interval_value(args[1],int_type,&value,&interval)) goto null_date; sign= (interval.neg ? -1 : 1); if (date_sub_interval) sign = -sign; null_value=0; switch (int_type) { case INTERVAL_SECOND: case INTERVAL_SECOND_MICROSECOND: case INTERVAL_MICROSECOND: case INTERVAL_MINUTE: case INTERVAL_HOUR: case INTERVAL_MINUTE_MICROSECOND: case INTERVAL_MINUTE_SECOND: case INTERVAL_HOUR_MICROSECOND: case INTERVAL_HOUR_SECOND: case INTERVAL_HOUR_MINUTE: case INTERVAL_DAY_MICROSECOND: case INTERVAL_DAY_SECOND: case INTERVAL_DAY_MINUTE: case INTERVAL_DAY_HOUR: { longlong sec, days, daynr, microseconds, extra_sec; ltime->time_type= MYSQL_TIMESTAMP_DATETIME; // Return full date microseconds= ltime->second_part + sign*interval.second_part; extra_sec= microseconds/1000000L; microseconds= microseconds%1000000L; sec=((ltime->day-1)*3600*24L+ltime->hour*3600+ltime->minute*60+ ltime->second + sign* (longlong) (interval.day*3600*24L + interval.hour*LL(3600)+interval.minute*LL(60)+ interval.second))+ extra_sec; if (microseconds < 0) { microseconds+= LL(1000000); sec--; } days= sec/(3600*LL(24)); sec-= days*3600*LL(24); if (sec < 0) { days--; sec+= 3600*LL(24); } ltime->second_part= (uint) microseconds; ltime->second= (uint) (sec % 60); ltime->minute= (uint) (sec/60 % 60); ltime->hour= (uint) (sec/3600); daynr= calc_daynr(ltime->year,ltime->month,1) + days; /* Day number from year 0 to 9999-12-31 */ if ((ulonglong) daynr > MAX_DAY_NUMBER) goto invalid_date; get_date_from_daynr((long) daynr, <ime->year, <ime->month, <ime->day); break; } case INTERVAL_DAY: case INTERVAL_WEEK: period= (calc_daynr(ltime->year,ltime->month,ltime->day) + sign * (long) interval.day); /* Daynumber from year 0 to 9999-12-31 */ if ((ulong) period > MAX_DAY_NUMBER) goto invalid_date; get_date_from_daynr((long) period,<ime->year,<ime->month,<ime->day); break; case INTERVAL_YEAR: ltime->year+= sign * (long) interval.year; if ((ulong) ltime->year >= 10000L) goto invalid_date; if (ltime->month == 2 && ltime->day == 29 && calc_days_in_year(ltime->year) != 366) ltime->day=28; // Was leap-year break; case INTERVAL_YEAR_MONTH: case INTERVAL_QUARTER: case INTERVAL_MONTH: period= (ltime->year*12 + sign * (long) interval.year*12 + ltime->month-1 + sign * (long) interval.month); if ((ulong) period >= 120000L) goto invalid_date; ltime->year= (uint) (period / 12); ltime->month= (uint) (period % 12L)+1; /* Adjust day if the new month doesn't have enough days */ if (ltime->day > days_in_month[ltime->month-1]) { ltime->day = days_in_month[ltime->month-1]; if (ltime->month == 2 && calc_days_in_year(ltime->year) == 366) ltime->day++; // Leap-year } break; default: goto null_date; } return 0; // Ok invalid_date: push_warning_printf(current_thd, MYSQL_ERROR::WARN_LEVEL_WARN, ER_DATETIME_FUNCTION_OVERFLOW, ER(ER_DATETIME_FUNCTION_OVERFLOW), "datetime"); null_date: return (null_value=1); } String *Item_date_add_interval::val_str(String *str) { DBUG_ASSERT(fixed == 1); TIME ltime; enum date_time_format_types format; if (Item_date_add_interval::get_date(<ime, TIME_NO_ZERO_DATE)) return 0; if (ltime.time_type == MYSQL_TIMESTAMP_DATE) format= DATE_ONLY; else if (ltime.second_part) format= DATE_TIME_MICROSECOND; else format= DATE_TIME; if (!make_datetime(format, <ime, str)) return str; null_value=1; return 0; } longlong Item_date_add_interval::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; longlong date; if (Item_date_add_interval::get_date(<ime, TIME_NO_ZERO_DATE)) return (longlong) 0; date = (ltime.year*100L + ltime.month)*100L + ltime.day; return ltime.time_type == MYSQL_TIMESTAMP_DATE ? date : ((date*100L + ltime.hour)*100L+ ltime.minute)*100L + ltime.second; } bool Item_date_add_interval::eq(const Item *item, bool binary_cmp) const { Item_date_add_interval *other= (Item_date_add_interval*) item; if (!Item_func::eq(item, binary_cmp)) return 0; return ((int_type == other->int_type) && (date_sub_interval == other->date_sub_interval)); } /* 'interval_names' reflects the order of the enumeration interval_type. See item_timefunc.h */ static const char *interval_names[]= { "year", "quarter", "month", "week", "day", "hour", "minute", "second", "microsecond", "year_month", "day_hour", "day_minute", "day_second", "hour_minute", "hour_second", "minute_second", "day_microsecond", "hour_microsecond", "minute_microsecond", "second_microsecond" }; void Item_date_add_interval::print(String *str) { str->append('('); args[0]->print(str); str->append(date_sub_interval?" - interval ":" + interval "); args[1]->print(str); str->append(' '); str->append(interval_names[int_type]); str->append(')'); } void Item_extract::print(String *str) { str->append(STRING_WITH_LEN("extract(")); str->append(interval_names[int_type]); str->append(STRING_WITH_LEN(" from ")); args[0]->print(str); str->append(')'); } void Item_extract::fix_length_and_dec() { value.alloc(32); // alloc buffer maybe_null=1; // If wrong date switch (int_type) { case INTERVAL_YEAR: max_length=4; date_value=1; break; case INTERVAL_YEAR_MONTH: max_length=6; date_value=1; break; case INTERVAL_QUARTER: max_length=2; date_value=1; break; case INTERVAL_MONTH: max_length=2; date_value=1; break; case INTERVAL_WEEK: max_length=2; date_value=1; break; case INTERVAL_DAY: max_length=2; date_value=1; break; case INTERVAL_DAY_HOUR: max_length=9; date_value=0; break; case INTERVAL_DAY_MINUTE: max_length=11; date_value=0; break; case INTERVAL_DAY_SECOND: max_length=13; date_value=0; break; case INTERVAL_HOUR: max_length=2; date_value=0; break; case INTERVAL_HOUR_MINUTE: max_length=4; date_value=0; break; case INTERVAL_HOUR_SECOND: max_length=6; date_value=0; break; case INTERVAL_MINUTE: max_length=2; date_value=0; break; case INTERVAL_MINUTE_SECOND: max_length=4; date_value=0; break; case INTERVAL_SECOND: max_length=2; date_value=0; break; case INTERVAL_MICROSECOND: max_length=2; date_value=0; break; case INTERVAL_DAY_MICROSECOND: max_length=20; date_value=0; break; case INTERVAL_HOUR_MICROSECOND: max_length=13; date_value=0; break; case INTERVAL_MINUTE_MICROSECOND: max_length=11; date_value=0; break; case INTERVAL_SECOND_MICROSECOND: max_length=9; date_value=0; break; } } longlong Item_extract::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; uint year; ulong week_format; long neg; if (date_value) { if (get_arg0_date(<ime, TIME_FUZZY_DATE)) return 0; neg=1; } else { String *res= args[0]->val_str(&value); if (!res || str_to_time_with_warn(res->ptr(), res->length(), <ime)) { null_value=1; return 0; } neg= ltime.neg ? -1 : 1; null_value=0; } switch (int_type) { case INTERVAL_YEAR: return ltime.year; case INTERVAL_YEAR_MONTH: return ltime.year*100L+ltime.month; case INTERVAL_QUARTER: return (ltime.month+2)/3; case INTERVAL_MONTH: return ltime.month; case INTERVAL_WEEK: { week_format= current_thd->variables.default_week_format; return calc_week(<ime, week_mode(week_format), &year); } case INTERVAL_DAY: return ltime.day; case INTERVAL_DAY_HOUR: return (long) (ltime.day*100L+ltime.hour)*neg; case INTERVAL_DAY_MINUTE: return (long) (ltime.day*10000L+ ltime.hour*100L+ ltime.minute)*neg; case INTERVAL_DAY_SECOND: return ((longlong) ltime.day*1000000L+ (longlong) (ltime.hour*10000L+ ltime.minute*100+ ltime.second))*neg; case INTERVAL_HOUR: return (long) ltime.hour*neg; case INTERVAL_HOUR_MINUTE: return (long) (ltime.hour*100+ltime.minute)*neg; case INTERVAL_HOUR_SECOND: return (long) (ltime.hour*10000+ltime.minute*100+ ltime.second)*neg; case INTERVAL_MINUTE: return (long) ltime.minute*neg; case INTERVAL_MINUTE_SECOND: return (long) (ltime.minute*100+ltime.second)*neg; case INTERVAL_SECOND: return (long) ltime.second*neg; case INTERVAL_MICROSECOND: return (long) ltime.second_part*neg; case INTERVAL_DAY_MICROSECOND: return (((longlong)ltime.day*1000000L + (longlong)ltime.hour*10000L + ltime.minute*100 + ltime.second)*1000000L + ltime.second_part)*neg; case INTERVAL_HOUR_MICROSECOND: return (((longlong)ltime.hour*10000L + ltime.minute*100 + ltime.second)*1000000L + ltime.second_part)*neg; case INTERVAL_MINUTE_MICROSECOND: return (((longlong)(ltime.minute*100+ ltime.second))*1000000L+ ltime.second_part)*neg; case INTERVAL_SECOND_MICROSECOND: return ((longlong)ltime.second*1000000L+ ltime.second_part)*neg; } return 0; // Impossible } bool Item_extract::eq(const Item *item, bool binary_cmp) const { if (this == item) return 1; if (item->type() != FUNC_ITEM || functype() != ((Item_func*)item)->functype()) return 0; Item_extract* ie= (Item_extract*)item; if (ie->int_type != int_type) return 0; if (!args[0]->eq(ie->args[0], binary_cmp)) return 0; return 1; } bool Item_char_typecast::eq(const Item *item, bool binary_cmp) const { if (this == item) return 1; if (item->type() != FUNC_ITEM || functype() != ((Item_func*)item)->functype()) return 0; Item_char_typecast *cast= (Item_char_typecast*)item; if (cast_length != cast->cast_length || cast_cs != cast->cast_cs) return 0; if (!args[0]->eq(cast->args[0], binary_cmp)) return 0; return 1; } void Item_typecast::print(String *str) { str->append(STRING_WITH_LEN("cast(")); args[0]->print(str); str->append(STRING_WITH_LEN(" as ")); str->append(cast_type()); str->append(')'); } void Item_char_typecast::print(String *str) { str->append(STRING_WITH_LEN("cast(")); args[0]->print(str); str->append(STRING_WITH_LEN(" as char")); if (cast_length >= 0) { str->append('('); char buffer[20]; // my_charset_bin is good enough for numbers String st(buffer, sizeof(buffer), &my_charset_bin); st.set((ulonglong)cast_length, &my_charset_bin); str->append(st); str->append(')'); } if (cast_cs) { str->append(STRING_WITH_LEN(" charset ")); str->append(cast_cs->csname); } str->append(')'); } String *Item_char_typecast::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res; uint32 length; if (!charset_conversion) { if (!(res= args[0]->val_str(str))) { null_value= 1; return 0; } } else { // Convert character set if differ uint dummy_errors; if (!(res= args[0]->val_str(&tmp_value)) || str->copy(res->ptr(), res->length(), from_cs, cast_cs, &dummy_errors)) { null_value= 1; return 0; } res= str; } res->set_charset(cast_cs); /* Cut the tail if cast with length and the result is longer than cast length, e.g. CAST('string' AS CHAR(1)) */ if (cast_length >= 0) { if (res->length() > (length= (uint32) res->charpos(cast_length))) { // Safe even if const arg char char_type[40]; my_snprintf(char_type, sizeof(char_type), "%s(%lu)", cast_cs == &my_charset_bin ? "BINARY" : "CHAR", (ulong) length); if (!res->alloced_length()) { // Don't change const str str_value= *res; // Not malloced string res= &str_value; } push_warning_printf(current_thd, MYSQL_ERROR::WARN_LEVEL_WARN, ER_TRUNCATED_WRONG_VALUE, ER(ER_TRUNCATED_WRONG_VALUE), char_type, res->c_ptr_safe()); res->length((uint) length); } else if (cast_cs == &my_charset_bin && res->length() < (uint) cast_length) { if (res->alloced_length() < (uint) cast_length) { str->alloc(cast_length); str->copy(*res); res= str; } bzero((char*) res->ptr() + res->length(), (uint) cast_length - res->length()); res->length(cast_length); } } null_value= 0; return res; } void Item_char_typecast::fix_length_and_dec() { uint32 char_length; /* We always force character set conversion if cast_cs is a multi-byte character set. It garantees that the result of CAST is a well-formed string. For single-byte character sets we allow just to copy from the argument. A single-byte character sets string is always well-formed. There is a special trick to convert form a number to ucs2. As numbers have my_charset_bin as their character set, it wouldn't do conversion to ucs2 without an additional action. To force conversion, we should pretend to be non-binary. Let's choose from_cs this way: - If the argument in a number and cast_cs is ucs2 (i.e. mbminlen > 1), then from_cs is set to latin1, to perform latin1 -> ucs2 conversion. - If the argument is a number and cast_cs is ASCII-compatible (i.e. mbminlen == 1), then from_cs is set to cast_cs, which allows just to take over the args[0]->val_str() result and thus avoid unnecessary character set conversion. - If the argument is not a number, then from_cs is set to the argument's charset. */ from_cs= (args[0]->result_type() == INT_RESULT || args[0]->result_type() == DECIMAL_RESULT || args[0]->result_type() == REAL_RESULT) ? (cast_cs->mbminlen == 1 ? cast_cs : &my_charset_latin1) : args[0]->collation.collation; charset_conversion= (cast_cs->mbmaxlen > 1) || !my_charset_same(from_cs, cast_cs) && from_cs != &my_charset_bin && cast_cs != &my_charset_bin; collation.set(cast_cs, DERIVATION_IMPLICIT); char_length= (cast_length >= 0) ? cast_length : args[0]->max_length/from_cs->mbmaxlen; max_length= char_length * cast_cs->mbmaxlen; } String *Item_datetime_typecast::val_str(String *str) { DBUG_ASSERT(fixed == 1); TIME ltime; if (!get_arg0_date(<ime, TIME_FUZZY_DATE) && !make_datetime(ltime.second_part ? DATE_TIME_MICROSECOND : DATE_TIME, <ime, str)) return str; null_value=1; return 0; } longlong Item_datetime_typecast::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; if (get_arg0_date(<ime,1)) { null_value= 1; return 0; } return TIME_to_ulonglong_datetime(<ime); } bool Item_time_typecast::get_time(TIME *ltime) { bool res= get_arg0_time(ltime); /* For MYSQL_TIMESTAMP_TIME value we can have non-zero day part, which we should not lose. */ if (ltime->time_type == MYSQL_TIMESTAMP_DATETIME) ltime->year= ltime->month= ltime->day= 0; ltime->time_type= MYSQL_TIMESTAMP_TIME; return res; } longlong Item_time_typecast::val_int() { TIME ltime; if (get_time(<ime)) { null_value= 1; return 0; } return ltime.hour * 10000L + ltime.minute * 100 + ltime.second; } String *Item_time_typecast::val_str(String *str) { DBUG_ASSERT(fixed == 1); TIME ltime; if (!get_arg0_time(<ime) && !make_datetime(ltime.second_part ? TIME_MICROSECOND : TIME_ONLY, <ime, str)) return str; null_value=1; return 0; } bool Item_date_typecast::get_date(TIME *ltime, uint fuzzy_date) { bool res= get_arg0_date(ltime, TIME_FUZZY_DATE); ltime->hour= ltime->minute= ltime->second= ltime->second_part= 0; ltime->time_type= MYSQL_TIMESTAMP_DATE; return res; } String *Item_date_typecast::val_str(String *str) { DBUG_ASSERT(fixed == 1); TIME ltime; if (!get_arg0_date(<ime, TIME_FUZZY_DATE) && !str->alloc(11)) { make_date((DATE_TIME_FORMAT *) 0, <ime, str); return str; } null_value=1; return 0; } longlong Item_date_typecast::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; if (args[0]->get_date(<ime, TIME_FUZZY_DATE)) return 0; return (longlong) (ltime.year * 10000L + ltime.month * 100 + ltime.day); } /* MAKEDATE(a,b) is a date function that creates a date value from a year and day value. */ String *Item_func_makedate::val_str(String *str) { DBUG_ASSERT(fixed == 1); TIME l_time; long daynr= (long) args[1]->val_int(); long yearnr= (long) args[0]->val_int(); long days; if (args[0]->null_value || args[1]->null_value || yearnr < 0 || daynr <= 0) goto err; days= calc_daynr(yearnr,1,1) + daynr - 1; /* Day number from year 0 to 9999-12-31 */ if (days >= 0 && days <= MAX_DAY_NUMBER) { null_value=0; get_date_from_daynr(days,&l_time.year,&l_time.month,&l_time.day); if (str->alloc(11)) goto err; make_date((DATE_TIME_FORMAT *) 0, &l_time, str); return str; } err: null_value=1; return 0; } longlong Item_func_makedate::val_int() { DBUG_ASSERT(fixed == 1); TIME l_time; long daynr= (long) args[1]->val_int(); long yearnr= (long) args[0]->val_int(); long days; if (args[0]->null_value || args[1]->null_value || yearnr < 0 || daynr <= 0) goto err; days= calc_daynr(yearnr,1,1) + daynr - 1; /* Day number from year 0 to 9999-12-31 */ if (days >= 0 && days < MAX_DAY_NUMBER) { null_value=0; get_date_from_daynr(days,&l_time.year,&l_time.month,&l_time.day); return (longlong) (l_time.year * 10000L + l_time.month * 100 + l_time.day); } err: null_value= 1; return 0; } void Item_func_add_time::fix_length_and_dec() { enum_field_types arg0_field_type; decimals=0; max_length=MAX_DATETIME_FULL_WIDTH*MY_CHARSET_BIN_MB_MAXLEN; maybe_null= 1; /* The field type for the result of an Item_func_add_time function is defined as follows: - If first arg is a MYSQL_TYPE_DATETIME or MYSQL_TYPE_TIMESTAMP result is MYSQL_TYPE_DATETIME - If first arg is a MYSQL_TYPE_TIME result is MYSQL_TYPE_TIME - Otherwise the result is MYSQL_TYPE_STRING */ cached_field_type= MYSQL_TYPE_STRING; arg0_field_type= args[0]->field_type(); if (arg0_field_type == MYSQL_TYPE_DATE || arg0_field_type == MYSQL_TYPE_DATETIME || arg0_field_type == MYSQL_TYPE_TIMESTAMP) cached_field_type= MYSQL_TYPE_DATETIME; else if (arg0_field_type == MYSQL_TYPE_TIME) cached_field_type= MYSQL_TYPE_TIME; } /* ADDTIME(t,a) and SUBTIME(t,a) are time functions that calculate a time/datetime value t: time_or_datetime_expression a: time_expression Result: Time value or datetime value */ String *Item_func_add_time::val_str(String *str) { DBUG_ASSERT(fixed == 1); TIME l_time1, l_time2, l_time3; bool is_time= 0; long days, microseconds; longlong seconds; int l_sign= sign; null_value=0; if (is_date) // TIMESTAMP function { if (get_arg0_date(&l_time1, TIME_FUZZY_DATE) || args[1]->get_time(&l_time2) || l_time1.time_type == MYSQL_TIMESTAMP_TIME || l_time2.time_type != MYSQL_TIMESTAMP_TIME) goto null_date; } else // ADDTIME function { if (args[0]->get_time(&l_time1) || args[1]->get_time(&l_time2) || l_time2.time_type == MYSQL_TIMESTAMP_DATETIME) goto null_date; is_time= (l_time1.time_type == MYSQL_TIMESTAMP_TIME); } if (l_time1.neg != l_time2.neg) l_sign= -l_sign; bzero((char *)&l_time3, sizeof(l_time3)); l_time3.neg= calc_time_diff(&l_time1, &l_time2, -l_sign, &seconds, µseconds); /* If first argument was negative and diff between arguments is non-zero we need to swap sign to get proper result. */ if (l_time1.neg && (seconds || microseconds)) l_time3.neg= 1-l_time3.neg; // Swap sign of result if (!is_time && l_time3.neg) goto null_date; days= (long)(seconds/86400L); calc_time_from_sec(&l_time3, (long)(seconds%86400L), microseconds); if (!is_time) { get_date_from_daynr(days,&l_time3.year,&l_time3.month,&l_time3.day); if (l_time3.day && !make_datetime(l_time1.second_part || l_time2.second_part ? DATE_TIME_MICROSECOND : DATE_TIME, &l_time3, str)) return str; goto null_date; } l_time3.hour+= days*24; if (!make_datetime_with_warn(l_time1.second_part || l_time2.second_part ? TIME_MICROSECOND : TIME_ONLY, &l_time3, str)) return str; null_date: null_value=1; return 0; } void Item_func_add_time::print(String *str) { if (is_date) { DBUG_ASSERT(sign > 0); str->append(STRING_WITH_LEN("timestamp(")); } else { if (sign > 0) str->append(STRING_WITH_LEN("addtime(")); else str->append(STRING_WITH_LEN("subtime(")); } args[0]->print(str); str->append(','); args[1]->print(str); str->append(')'); } /* TIMEDIFF(t,s) is a time function that calculates the time value between a start and end time. t and s: time_or_datetime_expression Result: Time value */ String *Item_func_timediff::val_str(String *str) { DBUG_ASSERT(fixed == 1); longlong seconds; long microseconds; int l_sign= 1; TIME l_time1 ,l_time2, l_time3; null_value= 0; if (args[0]->get_time(&l_time1) || args[1]->get_time(&l_time2) || l_time1.time_type != l_time2.time_type) goto null_date; if (l_time1.neg != l_time2.neg) l_sign= -l_sign; bzero((char *)&l_time3, sizeof(l_time3)); l_time3.neg= calc_time_diff(&l_time1, &l_time2, l_sign, &seconds, µseconds); /* For MYSQL_TIMESTAMP_TIME only: If first argument was negative and diff between arguments is non-zero we need to swap sign to get proper result. */ if (l_time1.neg && (seconds || microseconds)) l_time3.neg= 1-l_time3.neg; // Swap sign of result calc_time_from_sec(&l_time3, (long) seconds, microseconds); if (!make_datetime_with_warn(l_time1.second_part || l_time2.second_part ? TIME_MICROSECOND : TIME_ONLY, &l_time3, str)) return str; null_date: null_value=1; return 0; } /* MAKETIME(h,m,s) is a time function that calculates a time value from the total number of hours, minutes, and seconds. Result: Time value */ String *Item_func_maketime::val_str(String *str) { DBUG_ASSERT(fixed == 1); TIME ltime; bool overflow= 0; longlong hour= args[0]->val_int(); longlong minute= args[1]->val_int(); longlong second= args[2]->val_int(); if ((null_value=(args[0]->null_value || args[1]->null_value || args[2]->null_value || minute < 0 || minute > 59 || second < 0 || second > 59 || str->alloc(19)))) return 0; bzero((char *)<ime, sizeof(ltime)); ltime.neg= 0; /* Check for integer overflows */ if (hour < 0) { if (args[0]->unsigned_flag) overflow= 1; else ltime.neg= 1; } if (-hour > UINT_MAX || hour > UINT_MAX) overflow= 1; if (!overflow) { ltime.hour= (uint) ((hour < 0 ? -hour : hour)); ltime.minute= (uint) minute; ltime.second= (uint) second; } else { ltime.hour= TIME_MAX_HOUR; ltime.minute= TIME_MAX_MINUTE; ltime.second= TIME_MAX_SECOND; char buf[28]; char *ptr= longlong10_to_str(hour, buf, args[0]->unsigned_flag ? 10 : -10); int len = (int)(ptr - buf) + my_sprintf(ptr, (ptr, ":%02u:%02u", (uint)minute, (uint)second)); make_truncated_value_warning(current_thd, buf, len, MYSQL_TIMESTAMP_TIME, NullS); } if (make_time_with_warn((DATE_TIME_FORMAT *) 0, <ime, str)) { null_value= 1; return 0; } return str; } /* MICROSECOND(a) is a function ( extraction) that extracts the microseconds from a. a: Datetime or time value Result: int value */ longlong Item_func_microsecond::val_int() { DBUG_ASSERT(fixed == 1); TIME ltime; if (!get_arg0_time(<ime)) return ltime.second_part; return 0; } longlong Item_func_timestamp_diff::val_int() { TIME ltime1, ltime2; longlong seconds; long microseconds; long months= 0; int neg= 1; null_value= 0; if (args[0]->get_date(<ime1, TIME_NO_ZERO_DATE) || args[1]->get_date(<ime2, TIME_NO_ZERO_DATE)) goto null_date; if (calc_time_diff(<ime2,<ime1, 1, &seconds, µseconds)) neg= -1; if (int_type == INTERVAL_YEAR || int_type == INTERVAL_QUARTER || int_type == INTERVAL_MONTH) { uint year_beg, year_end, month_beg, month_end, day_beg, day_end; uint years= 0; uint second_beg, second_end, microsecond_beg, microsecond_end; if (neg == -1) { year_beg= ltime2.year; year_end= ltime1.year; month_beg= ltime2.month; month_end= ltime1.month; day_beg= ltime2.day; day_end= ltime1.day; second_beg= ltime2.hour * 3600 + ltime2.minute * 60 + ltime2.second; second_end= ltime1.hour * 3600 + ltime1.minute * 60 + ltime1.second; microsecond_beg= ltime2.second_part; microsecond_end= ltime1.second_part; } else { year_beg= ltime1.year; year_end= ltime2.year; month_beg= ltime1.month; month_end= ltime2.month; day_beg= ltime1.day; day_end= ltime2.day; second_beg= ltime1.hour * 3600 + ltime1.minute * 60 + ltime1.second; second_end= ltime2.hour * 3600 + ltime2.minute * 60 + ltime2.second; microsecond_beg= ltime1.second_part; microsecond_end= ltime2.second_part; } /* calc years */ years= year_end - year_beg; if (month_end < month_beg || (month_end == month_beg && day_end < day_beg)) years-= 1; /* calc months */ months= 12*years; if (month_end < month_beg || (month_end == month_beg && day_end < day_beg)) months+= 12 - (month_beg - month_end); else months+= (month_end - month_beg); if (day_end < day_beg) months-= 1; else if ((day_end == day_beg) && ((second_end < second_beg) || (second_end == second_beg && microsecond_end < microsecond_beg))) months-= 1; } switch (int_type) { case INTERVAL_YEAR: return months/12*neg; case INTERVAL_QUARTER: return months/3*neg; case INTERVAL_MONTH: return months*neg; case INTERVAL_WEEK: return seconds/86400L/7L*neg; case INTERVAL_DAY: return seconds/86400L*neg; case INTERVAL_HOUR: return seconds/3600L*neg; case INTERVAL_MINUTE: return seconds/60L*neg; case INTERVAL_SECOND: return seconds*neg; case INTERVAL_MICROSECOND: /* In MySQL difference between any two valid datetime values in microseconds fits into longlong. */ return (seconds*1000000L+microseconds)*neg; default: break; } null_date: null_value=1; return 0; } void Item_func_timestamp_diff::print(String *str) { str->append(func_name()); str->append('('); switch (int_type) { case INTERVAL_YEAR: str->append(STRING_WITH_LEN("YEAR")); break; case INTERVAL_QUARTER: str->append(STRING_WITH_LEN("QUARTER")); break; case INTERVAL_MONTH: str->append(STRING_WITH_LEN("MONTH")); break; case INTERVAL_WEEK: str->append(STRING_WITH_LEN("WEEK")); break; case INTERVAL_DAY: str->append(STRING_WITH_LEN("DAY")); break; case INTERVAL_HOUR: str->append(STRING_WITH_LEN("HOUR")); break; case INTERVAL_MINUTE: str->append(STRING_WITH_LEN("MINUTE")); break; case INTERVAL_SECOND: str->append(STRING_WITH_LEN("SECOND")); break; case INTERVAL_MICROSECOND: str->append(STRING_WITH_LEN("SECOND_FRAC")); break; default: break; } for (uint i=0 ; i < 2 ; i++) { str->append(','); args[i]->print(str); } str->append(')'); } String *Item_func_get_format::val_str(String *str) { DBUG_ASSERT(fixed == 1); const char *format_name; KNOWN_DATE_TIME_FORMAT *format; String *val= args[0]->val_str(str); ulong val_len; if ((null_value= args[0]->null_value)) return 0; val_len= val->length(); for (format= &known_date_time_formats[0]; (format_name= format->format_name); format++) { uint format_name_len; format_name_len= strlen(format_name); if (val_len == format_name_len && !my_strnncoll(&my_charset_latin1, (const uchar *) val->ptr(), val_len, (const uchar *) format_name, val_len)) { const char *format_str= get_date_time_format_str(format, type); str->set(format_str, strlen(format_str), &my_charset_bin); return str; } } null_value= 1; return 0; } void Item_func_get_format::print(String *str) { str->append(func_name()); str->append('('); switch (type) { case MYSQL_TIMESTAMP_DATE: str->append(STRING_WITH_LEN("DATE, ")); break; case MYSQL_TIMESTAMP_DATETIME: str->append(STRING_WITH_LEN("DATETIME, ")); break; case MYSQL_TIMESTAMP_TIME: str->append(STRING_WITH_LEN("TIME, ")); break; default: DBUG_ASSERT(0); } args[0]->print(str); str->append(')'); } /* Get type of datetime value (DATE/TIME/...) which will be produced according to format string. SYNOPSIS get_date_time_result_type() format - format string length - length of format string NOTE We don't process day format's characters('D', 'd', 'e') because day may be a member of all date/time types. Format specifiers supported by this function should be in sync with specifiers supported by extract_date_time() function. RETURN VALUE One of date_time_format_types values: DATE_TIME_MICROSECOND, DATE_TIME, DATE_ONLY, TIME_MICROSECOND, TIME_ONLY */ static date_time_format_types get_date_time_result_type(const char *format, uint length) { const char *time_part_frms= "HISThiklrs"; const char *date_part_frms= "MVUXYWabcjmvuxyw"; bool date_part_used= 0, time_part_used= 0, frac_second_used= 0; const char *val= format; const char *end= format + length; for (; val != end && val != end; val++) { if (*val == '%' && val+1 != end) { val++; if (*val == 'f') frac_second_used= time_part_used= 1; else if (!time_part_used && strchr(time_part_frms, *val)) time_part_used= 1; else if (!date_part_used && strchr(date_part_frms, *val)) date_part_used= 1; if (date_part_used && frac_second_used) { /* frac_second_used implies time_part_used, and thus we already have all types of date-time components and can end our search. */ return DATE_TIME_MICROSECOND; } } } /* We don't have all three types of date-time components */ if (frac_second_used) return TIME_MICROSECOND; if (time_part_used) { if (date_part_used) return DATE_TIME; return TIME_ONLY; } return DATE_ONLY; } Field *Item_func_str_to_date::tmp_table_field(TABLE *t_arg) { if (cached_field_type == MYSQL_TYPE_TIME) return (new Field_time(maybe_null, name, t_arg, &my_charset_bin)); if (cached_field_type == MYSQL_TYPE_DATE) return (new Field_date(maybe_null, name, t_arg, &my_charset_bin)); if (cached_field_type == MYSQL_TYPE_DATETIME) return (new Field_datetime(maybe_null, name, t_arg, &my_charset_bin)); return (new Field_string(max_length, maybe_null, name, t_arg, &my_charset_bin)); } void Item_func_str_to_date::fix_length_and_dec() { char format_buff[64]; String format_str(format_buff, sizeof(format_buff), &my_charset_bin), *format; maybe_null= 1; decimals=0; cached_field_type= MYSQL_TYPE_STRING; max_length= MAX_DATETIME_FULL_WIDTH*MY_CHARSET_BIN_MB_MAXLEN; cached_timestamp_type= MYSQL_TIMESTAMP_NONE; format= args[1]->val_str(&format_str); if (!args[1]->null_value && (const_item= args[1]->const_item())) { cached_format_type= get_date_time_result_type(format->ptr(), format->length()); switch (cached_format_type) { case DATE_ONLY: cached_timestamp_type= MYSQL_TIMESTAMP_DATE; cached_field_type= MYSQL_TYPE_DATE; max_length= MAX_DATE_WIDTH*MY_CHARSET_BIN_MB_MAXLEN; break; case TIME_ONLY: case TIME_MICROSECOND: cached_timestamp_type= MYSQL_TIMESTAMP_TIME; cached_field_type= MYSQL_TYPE_TIME; max_length= MAX_TIME_WIDTH*MY_CHARSET_BIN_MB_MAXLEN; break; default: cached_timestamp_type= MYSQL_TIMESTAMP_DATETIME; cached_field_type= MYSQL_TYPE_DATETIME; break; } } } bool Item_func_str_to_date::get_date(TIME *ltime, uint fuzzy_date) { DATE_TIME_FORMAT date_time_format; char val_buff[64], format_buff[64]; String val_str(val_buff, sizeof(val_buff), &my_charset_bin), *val; String format_str(format_buff, sizeof(format_buff), &my_charset_bin), *format; val= args[0]->val_str(&val_str); format= args[1]->val_str(&format_str); if (args[0]->null_value || args[1]->null_value) goto null_date; null_value= 0; bzero((char*) ltime, sizeof(*ltime)); date_time_format.format.str= (char*) format->ptr(); date_time_format.format.length= format->length(); if (extract_date_time(&date_time_format, val->ptr(), val->length(), ltime, cached_timestamp_type, 0, "datetime") || ((fuzzy_date & TIME_NO_ZERO_DATE) && (ltime->year == 0 || ltime->month == 0 || ltime->day == 0))) goto null_date; if (cached_timestamp_type == MYSQL_TIMESTAMP_TIME && ltime->day) { /* Day part for time type can be nonzero value and so we should add hours from day part to hour part to keep valid time value. */ ltime->hour+= ltime->day*24; ltime->day= 0; } return 0; null_date: return (null_value=1); } String *Item_func_str_to_date::val_str(String *str) { DBUG_ASSERT(fixed == 1); TIME ltime; if (Item_func_str_to_date::get_date(<ime, TIME_FUZZY_DATE)) return 0; if (!make_datetime((const_item ? cached_format_type : (ltime.second_part ? DATE_TIME_MICROSECOND : DATE_TIME)), <ime, str)) return str; return 0; } bool Item_func_last_day::get_date(TIME *ltime, uint fuzzy_date) { if (get_arg0_date(ltime, fuzzy_date & ~TIME_FUZZY_DATE) || (ltime->month == 0)) { null_value= 1; return 1; } null_value= 0; uint month_idx= ltime->month-1; ltime->day= days_in_month[month_idx]; if ( month_idx == 1 && calc_days_in_year(ltime->year) == 366) ltime->day= 29; ltime->time_type= MYSQL_TIMESTAMP_DATE; return 0; }