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postgresql/src/backend/utils/adt/formatting.c

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as attache of this mail is patch (to the main tree) with to_char's family functions. Contain: conversion from a datetype to formatted text: to_char( datetime, text) to_char( timestamp, text) to_char( int4, text) to_char( int8, text) to_char( float4, text) to_char( float8, text) to_char( numeric, text) vice versa: to_date ( text, text) to_datetime ( text, text) to_timestamp ( text, text) to_number ( text, text) (convert to numeric) PostgreSQL to_char is very compatible with Oracle's to_char(), but not total exactly (now). Small differentions are in number formating. It will fix in next to_char() version. ! If will this patch aplly to the main tree, must be delete the current to_char version in contrib (directory "dateformat" and note in contrib's README), this patch not erase it (sorry Bruce). The patch patching files: doc/src/sgml/func.sgml ^^^^^^^^ Hmm, I'm not sure if my English... :( Check it anyone (volunteer)? Thomas, it is right? SGML is not my primary lang and compile the current PG docs tree is very happy job (hard variables setting in docs/sgml/Makefile --> HSTYLE= /home/users/t/thomas/.... :-) What add any definition to global configure.in and set Makefiles in docs tree via ./configure? src/backend/utils/adt/Makefile src/backend/utils/adt/formatting.c src/include/catalog/pg_proc.h src/include/utils/formatting.h Karel Zak <zakkr@zf.jcu.cz> http://home.zf.jcu.cz/~zakkr/
2000-01-26 00:53:56 +01:00
/* -----------------------------------------------------------------------
* formatting.c
*
Add include for float.h.
2000-01-26 07:33:49 +01:00
* $Header: /cvsroot/pgsql/src/backend/utils/adt/formatting.c,v 1.2 2000/01/26 06:33:49 momjian Exp $
as attache of this mail is patch (to the main tree) with to_char's family functions. Contain: conversion from a datetype to formatted text: to_char( datetime, text) to_char( timestamp, text) to_char( int4, text) to_char( int8, text) to_char( float4, text) to_char( float8, text) to_char( numeric, text) vice versa: to_date ( text, text) to_datetime ( text, text) to_timestamp ( text, text) to_number ( text, text) (convert to numeric) PostgreSQL to_char is very compatible with Oracle's to_char(), but not total exactly (now). Small differentions are in number formating. It will fix in next to_char() version. ! If will this patch aplly to the main tree, must be delete the current to_char version in contrib (directory "dateformat" and note in contrib's README), this patch not erase it (sorry Bruce). The patch patching files: doc/src/sgml/func.sgml ^^^^^^^^ Hmm, I'm not sure if my English... :( Check it anyone (volunteer)? Thomas, it is right? SGML is not my primary lang and compile the current PG docs tree is very happy job (hard variables setting in docs/sgml/Makefile --> HSTYLE= /home/users/t/thomas/.... :-) What add any definition to global configure.in and set Makefiles in docs tree via ./configure? src/backend/utils/adt/Makefile src/backend/utils/adt/formatting.c src/include/catalog/pg_proc.h src/include/utils/formatting.h Karel Zak <zakkr@zf.jcu.cz> http://home.zf.jcu.cz/~zakkr/
2000-01-26 00:53:56 +01:00
*
* TO_CHAR(); TO_DATETIME(); TO_DATE(); TO_NUMBER();
*
* The PostgreSQL routines for a DateTime/int/float/numeric formatting,
* inspire with Oracle TO_CHAR() / TO_DATE() / TO_NUMBER() routines.
*
* 1999 Karel Zak "Zakkr"
*
*
* Cache & Memory:
* Routines use (itself) internal cache for format pictures. If
* new format arg is same as a last format string, routines not
* call the format-parser.
*
* The cache use static buffer and is persistent across transactions. If
* format-picture is bigger than cache buffer, parser is called always.
*
* NOTE for Number version:
* All in this version is implemented as keywords ( => not used
* suffixes), because a format picture is for *one* item (number)
* only. It not is as a datetime version, where each keyword (can)
* has suffix.
*
* NOTE for DateTime version:
* In this modul is *not* used POSIX 'struct tm' type, but
* PgSQL type, which has tm_mon based on one (*non* zero) and
* year *not* based on 1900, but is used full year number.
* Modul support AC / BC years.
*
* Supported types for to_char():
*
* DateTime, Numeric, int4, int8, float4, float8
*
* Supported types for reverse conversion:
*
* Datetime - to_datetime()
* Date - to_date()
* Numeric - to_number()
*
* -----------------------------------------------------------------------
*/
/* ----------
* UnComment me for DEBUG
* ----------
*/
/***
#define DEBUG_TO_FROM_CHAR
#define DEBUG_elog_output NOTICE
***/
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <sys/time.h>
#include <unistd.h>
#include <locale.h>
#include <math.h>
Add include for float.h.
2000-01-26 07:33:49 +01:00
#include <float.h>
as attache of this mail is patch (to the main tree) with to_char's family functions. Contain: conversion from a datetype to formatted text: to_char( datetime, text) to_char( timestamp, text) to_char( int4, text) to_char( int8, text) to_char( float4, text) to_char( float8, text) to_char( numeric, text) vice versa: to_date ( text, text) to_datetime ( text, text) to_timestamp ( text, text) to_number ( text, text) (convert to numeric) PostgreSQL to_char is very compatible with Oracle's to_char(), but not total exactly (now). Small differentions are in number formating. It will fix in next to_char() version. ! If will this patch aplly to the main tree, must be delete the current to_char version in contrib (directory "dateformat" and note in contrib's README), this patch not erase it (sorry Bruce). The patch patching files: doc/src/sgml/func.sgml ^^^^^^^^ Hmm, I'm not sure if my English... :( Check it anyone (volunteer)? Thomas, it is right? SGML is not my primary lang and compile the current PG docs tree is very happy job (hard variables setting in docs/sgml/Makefile --> HSTYLE= /home/users/t/thomas/.... :-) What add any definition to global configure.in and set Makefiles in docs tree via ./configure? src/backend/utils/adt/Makefile src/backend/utils/adt/formatting.c src/include/catalog/pg_proc.h src/include/utils/formatting.h Karel Zak <zakkr@zf.jcu.cz> http://home.zf.jcu.cz/~zakkr/
2000-01-26 00:53:56 +01:00
#include "postgres.h"
#include "utils/builtins.h"
#include "utils/pg_locale.h"
#include "utils/formatting.h"
/* ----------
* Routines type
* ----------
*/
#define DCH_TYPE 1 /* DATE-TIME version */
#define NUM_TYPE 2 /* NUMBER version */
/* ----------
* KeyWord Index (ascii from position 32 (' ') to 126 (~))
* ----------
*/
#define KeyWord_INDEX_SIZE ('~' - ' ' + 1)
#define KeyWord_INDEX_FILTER(_c) ((_c) < ' ' || (_c) > '~' ? 0 : 1)
/* ----------
* Maximal length of one node
* ----------
*/
#define DCH_MAX_ITEM_SIZ 9 /* some month name ? */
#define NUM_MAX_ITEM_SIZ 16 /* roman number */
/* ----------
* Format picture cache limits
* ----------
*/
#define NUM_CACHE_SIZE 64
#define DCH_CACHE_SIZE 128
/* ----------
* More in float.c
* ----------
*/
#define MAXFLOATWIDTH 64
#define MAXDOUBLEWIDTH 128
/* ----------
* External (defined in PgSQL dt.c (datetime utils))
* ----------
*/
extern char *months[], /* month abbreviation */
*days[]; /* full days */
/* ----------
* Format parser structs
* ----------
*/
typedef struct {
char *name; /* suffix string */
int len, /* suffix length */
id, /* used in node->suffix */
type; /* prefix / postfix */
} KeySuffix;
typedef struct {
char *name; /* keyword */
/* action for keyword */
int len, /* keyword length */
(*action)(),
id; /* keyword id */
} KeyWord;
typedef struct {
int type; /* node type */
KeyWord *key; /* if node type is KEYWORD */
int character, /* if node type is CHAR */
suffix; /* keyword suffix */
} FormatNode;
#define NODE_TYPE_END 1
#define NODE_TYPE_ACTION 2
#define NODE_TYPE_CHAR 3
#define SUFFTYPE_PREFIX 1
#define SUFFTYPE_POSTFIX 2
/* ----------
* Full months
* ----------
*/
static char *months_full[] = {
"January", "February", "March", "April", "May", "June", "July",
"August", "September", "October", "November", "December", NULL
};
/* ----------
* AC / DC
* ----------
*/
#define YEAR_ABS(_y) (_y < 0 ? -(_y -1) : _y)
#define BC_STR " BC"
/* ----------
* Months in roman-numeral
* (Must be conversely for seq_search (in FROM_CHAR), because
* 'VIII' must be over 'V')
* ----------
*/
static char *rm_months[] = {
"XII", "XI", "X", "IX", "VIII", "VII",
"VI", "V", "IV", "III", "II", "I", NULL
};
/* ----------
* Roman numbers
* ----------
*/
static char *rm1[] = { "I", "II", "III", "IV", "V", "VI", "VII", "VIII", "IX", NULL };
static char *rm10[] = { "X", "XX", "XXX", "XL", "L", "LX", "LXX", "LXXX", "XC", NULL };
static char *rm100[] = { "C", "CC", "CCC", "CD", "D", "DC", "DCC", "DCCC", "CM", NULL };
/* ----------
* Ordinal postfixes
* ----------
*/
static char *numTH[] = { "ST", "ND", "RD", "TH", NULL };
static char *numth[] = { "st", "nd", "rd", "th", NULL };
/* ----------
* Flags & Options:
* ----------
*/
#define TO_CHAR 1
#define FROM_CHAR 2
#define ONE_UPPER 1 /* Name */
#define ALL_UPPER 2 /* NAME */
#define ALL_LOWER 3 /* name */
#define FULL_SIZ 0
#define MAX_MON_LEN 3
#define MAX_DY_LEN 3
#define TH_UPPER 1
#define TH_LOWER 2
#ifdef DEBUG_TO_FROM_CHAR
#define NOTICE_TM {\
elog(DEBUG_elog_output, "TM:\nsec %d\nyear %d\nmin %d\nwday %d\nhour %d\nyday %d\nmday %d\nnisdst %d\nmon %d\n",\
tm->tm_sec, tm->tm_year,\
tm->tm_min, tm->tm_wday, tm->tm_hour, tm->tm_yday,\
tm->tm_mday, tm->tm_isdst,tm->tm_mon);\
}
#endif
/* ----------
* Flags for DCH version
* ----------
*/
static int DCH_global_flag = 0;
#define DCH_F_FX 0x01
#define IS_FX (DCH_global_flag & DCH_F_FX)
/* ----------
* Number description struct
* ----------
*/
typedef struct {
int pre, /* (count) numbers before decimal */
pos, /* (count) numbers after decimal */
lsign, /* want locales sign */
flag, /* number parametrs */
pre_lsign_num, /* tmp value for lsign */
multi, /* multiplier for 'V' */
need_locale; /* needs it locale */
} NUMDesc;
/* ----------
* Flags for NUMBER version
* ----------
*/
#define NUM_F_DECIMAL 0x01
#define NUM_F_LDECIMAL 0x02
#define NUM_F_ZERO 0x04
#define NUM_F_BLANK 0x08
#define NUM_F_FILLMODE 0x10
#define NUM_F_LSIGN 0x20
#define NUM_F_BRACKET 0x40
#define NUM_F_MINUS 0x80
#define NUM_F_PLUS 0x100
#define NUM_F_ROMAN 0x200
#define NUM_F_MULTI 0x400
#define NUM_LSIGN_PRE -1
#define NUM_LSIGN_POST 1
#define NUM_LSIGN_NONE 0
/* ----------
* Tests
* ----------
*/
#define IS_DECIMAL(_f) ((_f)->flag & NUM_F_DECIMAL)
#define IS_LDECIMAL(_f) ((_f)->flag & NUM_F_LDECIMAL)
#define IS_ZERO(_f) ((_f)->flag & NUM_F_ZERO)
#define IS_BLANK(_f) ((_f)->flag & NUM_F_BLANK)
#define IS_FILLMODE(_f) ((_f)->flag & NUM_F_FILLMODE)
#define IS_BRACKET(_f) ((_f)->flag & NUM_F_BRACKET)
#define IS_MINUS(_f) ((_f)->flag & NUM_F_MINUS)
#define IS_PLUS(_f) ((_f)->flag & NUM_F_PLUS)
#define IS_ROMAN(_f) ((_f)->flag & NUM_F_ROMAN)
#define IS_MULTI(_f) ((_f)->flag & NUM_F_MULTI)
/* ----------
* Private global-modul definitions
* ----------
*/
static struct tm _tm, *tm = &_tm;
/* ----------
* Utils
* ----------
*/
#ifndef MIN
#define MIN(a,b) (((a)<(b)) ? (a) : (b))
#endif
#ifndef MAX
#define MAX(a,b) (((a)>(b)) ? (a) : (b))
#endif
/*****************************************************************************
* KeyWords definition & action
*****************************************************************************/
static int dch_global(int arg, char *inout, int suf, int flag, FormatNode *node);
static int dch_time(int arg, char *inout, int suf, int flag, FormatNode *node);
static int dch_date(int arg, char *inout, int suf, int flag, FormatNode *node);
/* ----------
* Suffixes:
* ----------
*/
#define DCH_S_FM 0x01
#define DCH_S_TH 0x02
#define DCH_S_th 0x04
#define DCH_S_SP 0x08
/* ----------
* Suffix tests
* ----------
*/
#define S_THth(_s) (((_s & DCH_S_TH) || (_s & DCH_S_th)) ? 1 : 0)
#define S_TH(_s) ((_s & DCH_S_TH) ? 1 : 0)
#define S_th(_s) ((_s & DCH_S_th) ? 1 : 0)
#define S_TH_TYPE(_s) ((_s & DCH_S_TH) ? TH_UPPER : TH_LOWER)
#define S_FM(_s) ((_s & DCH_S_FM) ? 1 : 0)
#define S_SP(_s) ((_s & DCH_S_SP) ? 1 : 0)
/* ----------
* Suffixes definition for DATE-TIME TO/FROM CHAR
* ----------
*/
static KeySuffix DCH_suff[] = {
{ "FM", 2, DCH_S_FM, SUFFTYPE_PREFIX },
{ "TH", 2, DCH_S_TH, SUFFTYPE_POSTFIX },
{ "th", 2, DCH_S_th, SUFFTYPE_POSTFIX },
{ "SP", 2, DCH_S_SP, SUFFTYPE_POSTFIX },
/* last */
{ NULL, 0, 0, 0 }
};
/* ----------
* Format-pictures (KeyWord).
*
* The KeyWord field; alphabetic sorted, *BUT* strings alike is sorted
* complicated -to-> easy:
*
* (example: "DDD","DD","Day","D" )
*
* (this specific sort needs the algorithm for sequential search for strings,
* which not has exact end; -> How keyword is in "HH12blabla" ? - "HH"
* or "HH12"? You must first try "HH12", because "HH" is in string, but
* it is not good.
*
* (!)
* Position for the keyword is simular as position in the enum DCH/NUM_poz
* (!)
*
* For fast search is used the 'int index[256-32]' (first 32 ascii chars is
* skiped), in this index is DCH_ enums for each ASCII position or -1 if
* char is not used in the KeyWord. Search example for string "MM":
* 1) see in index to index[77-32] (77 = 'M'),
* 2) take keywords position from index[77-32]
* 3) run sequential search in keywords[] from position
*
* ----------
*/
typedef enum {
DCH_CC,
DCH_DAY,
DCH_DDD,
DCH_DD,
DCH_DY,
DCH_Day,
DCH_Dy,
DCH_D,
DCH_FX, /* global suffix */
DCH_HH24,
DCH_HH12,
DCH_HH,
DCH_J,
DCH_MI,
DCH_MM,
DCH_MONTH,
DCH_MON,
DCH_Month,
DCH_Mon,
DCH_Q,
DCH_RM,
DCH_SSSS,
DCH_SS,
DCH_WW,
DCH_W,
DCH_Y_YYY,
DCH_YYYY,
DCH_YYY,
DCH_YY,
DCH_Y,
DCH_day,
DCH_dy,
DCH_month,
DCH_mon,
/* last */
_DCH_last_
} DCH_poz;
typedef enum {
NUM_COMMA,
NUM_DEC,
NUM_0,
NUM_9,
NUM_B,
NUM_C,
NUM_D,
NUM_E,
NUM_FM,
NUM_G,
NUM_L,
NUM_MI,
NUM_PL,
NUM_PR,
NUM_RN,
NUM_SG,
NUM_SP,
NUM_S,
NUM_TH,
NUM_V,
NUM_rn,
NUM_th,
/* last */
_NUM_last_
} NUM_poz;
/* ----------
* KeyWords for DATE-TIME version
* ----------
*/
static KeyWord DCH_keywords[] = {
/* keyword, len, func. type is in Index */
{ "CC", 2, dch_date, DCH_CC }, /*C*/
{ "DAY", 3, dch_date, DCH_DAY }, /*D*/
{ "DDD", 3, dch_date, DCH_DDD },
{ "DD", 2, dch_date, DCH_DD },
{ "DY", 2, dch_date, DCH_DY },
{ "Day", 3, dch_date, DCH_Day },
{ "Dy", 2, dch_date, DCH_Dy },
{ "D", 1, dch_date, DCH_D },
{ "FX", 2, dch_global, DCH_FX }, /*F*/
{ "HH24", 4, dch_time, DCH_HH24 }, /*H*/
{ "HH12", 4, dch_time, DCH_HH12 },
{ "HH", 2, dch_time, DCH_HH },
{ "J", 1, dch_date, DCH_J }, /*J*/
{ "MI", 2, dch_time, DCH_MI },
{ "MM", 2, dch_date, DCH_MM },
{ "MONTH", 5, dch_date, DCH_MONTH },
{ "MON", 3, dch_date, DCH_MON },
{ "Month", 5, dch_date, DCH_Month },
{ "Mon", 3, dch_date, DCH_Mon },
{ "Q", 1, dch_date, DCH_Q }, /*Q*/
{ "RM", 2, dch_date, DCH_RM }, /*R*/
{ "SSSS", 4, dch_time, DCH_SSSS }, /*S*/
{ "SS", 2, dch_time, DCH_SS },
{ "WW", 2, dch_date, DCH_WW }, /*W*/
{ "W", 1, dch_date, DCH_W },
{ "Y,YYY", 5, dch_date, DCH_Y_YYY }, /*Y*/
{ "YYYY", 4, dch_date, DCH_YYYY },
{ "YYY", 3, dch_date, DCH_YYY },
{ "YY", 2, dch_date, DCH_YY },
{ "Y", 1, dch_date, DCH_Y },
{ "day", 3, dch_date, DCH_day }, /*d*/
{ "dy", 2, dch_date, DCH_dy },
{ "month", 5, dch_date, DCH_month }, /*m*/
{ "mon", 3, dch_date, DCH_mon },
/* last */
{ NULL, 0, NULL, 0 }};
/* ----------
* KeyWords for NUMBER version
* ----------
*/
static KeyWord NUM_keywords[] = {
/* keyword, len, func. type is in Index */
{ ",", 1, NULL, NUM_COMMA }, /*,*/
{ ".", 1, NULL, NUM_DEC }, /*.*/
{ "0", 1, NULL, NUM_0 }, /*0*/
{ "9", 1, NULL, NUM_9 }, /*9*/
{ "B", 1, NULL, NUM_B }, /*B*/
{ "C", 1, NULL, NUM_C }, /*C*/
{ "D", 1, NULL, NUM_D }, /*D*/
{ "E", 1, NULL, NUM_E }, /*E*/
{ "FM", 2, NULL, NUM_FM }, /*F*/
{ "G", 1, NULL, NUM_G }, /*G*/
{ "L", 1, NULL, NUM_L }, /*L*/
{ "MI", 2, NULL, NUM_MI }, /*M*/
{ "PL", 2, NULL, NUM_PL }, /*P*/
{ "PR", 2, NULL, NUM_PR },
{ "RN", 2, NULL, NUM_RN }, /*R*/
{ "SG", 2, NULL, NUM_SG }, /*S*/
{ "SP", 2, NULL, NUM_SP },
{ "S", 1, NULL, NUM_S },
{ "TH", 2, NULL, NUM_TH }, /*T*/
{ "V", 1, NULL, NUM_V }, /*V*/
{ "rn", 2, NULL, NUM_rn }, /*r*/
{ "th", 2, NULL, NUM_th }, /*t*/
/* last */
{ NULL, 0, NULL, 0 }};
/* ----------
* KeyWords index for DATE-TIME version
* ----------
*/
static int DCH_index[256 - 32] = {
/*
0 1 2 3 4 5 6 7 8 9
*/
/*---- first 0..31 chars is skiped ----*/
-1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, -1, -1, -1, DCH_CC, DCH_DAY,-1,
DCH_FX, -1, DCH_HH24,-1, DCH_J, -1, -1, DCH_MI, -1, -1,
-1, DCH_Q, DCH_RM, DCH_SSSS,-1, -1, -1, DCH_WW, -1, DCH_Y_YYY,
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
DCH_day,-1, -1, -1, -1, -1, -1, -1, -1, DCH_month,
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, -1, -1
/*---- chars over 126 are skiped ----*/
};
/* ----------
* KeyWords index for NUMBER version
* ----------
*/
static int NUM_index[256 - 32] = {
/*
0 1 2 3 4 5 6 7 8 9
*/
/*---- first 0..31 chars are skiped ----*/
-1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, NUM_COMMA,-1, NUM_DEC,-1, NUM_0, -1,
-1, -1, -1, -1, -1, -1, -1, NUM_9, -1, -1,
-1, -1, -1, -1, -1, -1, NUM_B, NUM_C, NUM_D, NUM_E,
NUM_FM, NUM_G, -1, -1, -1, -1, NUM_L, NUM_MI, -1, -1,
NUM_PL,-1, NUM_RN, NUM_SG, NUM_TH, -1, NUM_V, -1, -1, -1,
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, NUM_rn, -1, NUM_th, -1, -1, -1,
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, -1, -1
/*---- chars over 126 are skiped ----*/
};
/* ----------
* Number processor struct
* ----------
*/
typedef struct NUMProc
{
int type; /* FROM_CHAR (TO_NUMBER) or TO_CHAR */
NUMDesc *Num; /* number description */
int sign, /* '-' or '+' */
sign_wrote, /* is sign wrote */
count_num, /* number of non-write digits */
in_number, /* is inside number */
pre_number; /* space before number */
char *number, /* string with number */
*number_p, /* pointer to current number pozition */
*inout, /* in / out buffer */
*inout_p, /* pointer to current inout pozition */
*L_negative_sign, /* Locale */
*L_positive_sign,
*decimal,
*L_thousands_sep,
*L_currency_symbol;
} NUMProc;
/* ----------
* Functions
* ----------
*/
static KeyWord *index_seq_search(char *str, KeyWord *kw, int *index);
static KeySuffix *suff_search(char *str, KeySuffix *suf, int type);
static void NUMDesc_prepare(NUMDesc *num, FormatNode *n);
static void parse_format(FormatNode *node, char *str, KeyWord *kw,
KeySuffix *suf, int *index, int ver, NUMDesc *Num);
static char *DCH_action(FormatNode *node, char *inout, int flag);
#ifdef DEBUG_TO_FROM_CHAR
static void dump_index(KeyWord *k, int *index);
static void dump_node(FormatNode *node, int max);
#endif
static char *get_th(char *num, int type);
static char *str_numth(char *dest, char *num, int type);
static int int4len(int4 num);
static char *str_toupper(char *buff);
static char *str_tolower(char *buff);
static int is_acdc(char *str, int *len);
static int seq_search(char *name, char **array, int type, int max, int *len);
static int dch_global(int arg, char *inout, int suf, int flag, FormatNode *node);
static int dch_time(int arg, char *inout, int suf, int flag, FormatNode *node);
static int dch_date(int arg, char *inout, int suf, int flag, FormatNode *node);
static char *fill_str(char *str, int c, int max);
static FormatNode *NUM_cache( int len, char *CacheStr, FormatNode *CacheFormat,
NUMDesc *CacheNum, NUMDesc *Num, char *pars_str, int *flag);
static char *int_to_roman(int number);
static void NUM_prepare_locale(NUMProc *Np);
static int NUM_numpart(NUMProc *Np, int id);
static char *NUM_processor (FormatNode *node, NUMDesc *Num, char *inout, char *number,
int plen, int sign, int type);
/* ----------
* Fast sequential search, use index for data selection which
* go to seq. cycle (it is very fast for non-wanted strings)
* (can't be used binary search in format parsing)
* ----------
*/
static KeyWord *
index_seq_search(char *str, KeyWord *kw, int *index)
{
int poz;
if (! KeyWord_INDEX_FILTER(*str))
return (KeyWord *) NULL;
if ( (poz = *(index + (*str - ' '))) > -1) {
KeyWord *k = kw+poz;
do {
if (! strncmp(str, k->name, k->len))
return k;
k++;
if (!k->name)
return (KeyWord *) NULL;
} while(*str == *k->name);
}
return (KeyWord *) NULL;
}
static KeySuffix *
suff_search(char *str, KeySuffix *suf, int type)
{
KeySuffix *s;
for(s=suf; s->name != NULL; s++) {
if (s->type != type)
continue;
if (!strncmp(str, s->name, s->len))
return s;
}
return (KeySuffix *) NULL;
}
/* ----------
* Prepare NUMDesc (number description struct) via FormatNode struct
* ----------
*/
static void
NUMDesc_prepare(NUMDesc *num, FormatNode *n)
{
if (n->type != NODE_TYPE_ACTION)
return;
switch(n->key->id) {
case NUM_9:
if (IS_MULTI(num)) {
++num->multi;
break;
}
if (IS_DECIMAL(num))
++num->pos;
else
++num->pre;
break;
case NUM_0:
if (num->pre == 0)
num->flag |= NUM_F_ZERO;
if (! IS_DECIMAL(num))
++num->pre;
else
++num->pos;
break;
case NUM_B:
if (num->pre == 0 && num->pos == 0 && (! IS_ZERO(num)))
num->flag |= NUM_F_BLANK;
break;
case NUM_D:
num->flag |= NUM_F_LDECIMAL;
num->need_locale = TRUE;
case NUM_DEC:
if (IS_DECIMAL(num))
elog(ERROR, "to_char/number(): not unique decimal poit.");
if (IS_MULTI(num))
elog(ERROR, "to_char/number(): can't use 'V' and decimal poin together.");
num->flag |= NUM_F_DECIMAL;
break;
case NUM_FM:
num->flag |= NUM_F_FILLMODE;
break;
case NUM_S:
if (! IS_DECIMAL(num)) {
num->lsign = NUM_LSIGN_PRE;
num->pre_lsign_num = num->pre;
num->need_locale = TRUE;
} else if (num->lsign == NUM_LSIGN_NONE) {
num->lsign = NUM_LSIGN_POST;
num->need_locale = TRUE;
}
break;
case NUM_MI:
num->flag |= NUM_F_MINUS;
break;
case NUM_PL:
num->flag |= NUM_F_PLUS;
break;
case NUM_SG:
num->flag |= NUM_F_MINUS;
num->flag |= NUM_F_PLUS;
break;
case NUM_PR:
num->flag |= NUM_F_BRACKET;
break;
case NUM_rn:
case NUM_RN:
num->flag |= NUM_F_ROMAN;
break;
case NUM_L:
case NUM_G:
num->need_locale = TRUE;
break;
case NUM_V:
if (IS_DECIMAL(num))
elog(ERROR, "to_char/number(): can't use 'V' and decimal poin together.");
num->flag |= NUM_F_MULTI;
break;
}
return;
}
/* ----------
* Format parser, search small keywords and keyword's suffixes, and make
* format-node tree.
*
* for DATE-TIME & NUMBER version
* ----------
*/
static void
parse_format(FormatNode *node, char *str, KeyWord *kw,
KeySuffix *suf, int *index, int ver, NUMDesc *Num)
{
KeySuffix *s;
FormatNode *n;
int node_set=0,
suffix,
last=0;
#ifdef DEBUG_TO_FROM_CHAR
elog(DEBUG_elog_output, "to-from_char(): run parser.");
#endif
n = node;
while(*str) {
suffix=0;
/* ----------
* Prefix
* ----------
*/
if (ver==DCH_TYPE && (s = suff_search(str, suf, SUFFTYPE_PREFIX)) != NULL) {
suffix |= s->id;
if (s->len)
str += s->len;
}
/* ----------
* Keyword
* ----------
*/
if (*str && (n->key = index_seq_search(str, kw, index)) != NULL) {
n->type = NODE_TYPE_ACTION;
n->suffix = 0;
node_set= 1;
if (n->key->len)
str += n->key->len;
/* ----------
* NUM version: Prepare global NUMDesc struct
* ----------
*/
if (ver==NUM_TYPE)
NUMDesc_prepare(Num, n);
/* ----------
* Postfix
* ----------
*/
if (ver==DCH_TYPE && *str && (s = suff_search(str, suf, SUFFTYPE_POSTFIX)) != NULL) {
suffix |= s->id;
if (s->len)
str += s->len;
}
} else if (*str) {
/* ----------
* Special characters '\' and '"'
* ----------
*/
if (*str == '"' && last != '\\') {
int x = 0;
while(*(++str)) {
if (*str == '"' && x != '\\') {
str++;
break;
} else if (*str == '\\' && x != '\\') {
x = '\\';
continue;
}
n->type = NODE_TYPE_CHAR;
n->character = *str;
n->key = (KeyWord *) NULL;
n->suffix = 0;
++n;
x = *str;
}
node_set = 0;
suffix = 0;
last = 0;
} else if (*str && *str == '\\' && last!='\\' && *(str+1) =='"') {
last = *str;
str++;
} else if (*str) {
n->type = NODE_TYPE_CHAR;
n->character = *str;
n->key = (KeyWord *) NULL;
node_set = 1;
last = 0;
str++;
}
}
/* end */
if (node_set) {
if (n->type == NODE_TYPE_ACTION)
n->suffix = suffix;
++n;
n->suffix = 0;
node_set = 0;
}
}
n->type = NODE_TYPE_END;
n->suffix = 0;
return;
}
/* ----------
* Call keyword's function for each of (action) node in format-node tree
* ----------
*/
static char *
DCH_action(FormatNode *node, char *inout, int flag)
{
FormatNode *n;
char *s;
/* ----------
* Zeroing global flags
* ----------
*/
DCH_global_flag = 0;
for(n=node, s=inout; n->type != NODE_TYPE_END; n++) {
if (n->type == NODE_TYPE_ACTION) {
int len;
/* ----------
* Call node action function
* ----------
*/
len = n->key->action(n->key->id, s, n->suffix, flag, n);
if (len > 0)
s += len;
else
continue;
} else {
/* ----------
* Remove to output char from input in TO_CHAR
* ----------
*/
if (flag == TO_CHAR)
*s = n->character;
else {
/* ----------
* Skip blank space in FROM_CHAR's input
* ----------
*/
if (isspace(n->character) && IS_FX == 0) {
while(*s != '\0' && isspace(*(s+1)))
++s;
}
}
}
++s; /* ! */
}
if (flag == TO_CHAR)
*s = '\0';
return inout;
}
/* ----------
* DEBUG: Dump the FormatNode Tree (debug)
* ----------
*/
#ifdef DEBUG_TO_FROM_CHAR
#define DUMP_THth(_suf) (S_TH(_suf) ? "TH" : (S_th(_suf) ? "th" : " "))
#define DUMP_FM(_suf) (S_FM(_suf) ? "FM" : " ")
static void
dump_node(FormatNode *node, int max)
{
FormatNode *n;
int a;
elog(DEBUG_elog_output, "to_from-char(): DUMP FORMAT");
for(a=0, n=node; a<=max; n++, a++) {
if (n->type == NODE_TYPE_ACTION)
elog(DEBUG_elog_output, "%d:\t NODE_TYPE_ACTION\t(%s,%s)",
a, DUMP_THth(n->suffix), DUMP_FM(n->suffix));
else if (n->type == NODE_TYPE_CHAR)
elog(DEBUG_elog_output, "%d:\t NODE_TYPE_CHAR '%c'", a, n->character);
else if (n->type == NODE_TYPE_END) {
elog(DEBUG_elog_output, "%d:\t NODE_TYPE_END", a);
return;
} else
elog(DEBUG_elog_output, "%d:\t UnKnown NODE !!!", a);
}
}
#endif
/*****************************************************************************
* Private utils
*****************************************************************************/
/* ----------
* Return ST/ND/RD/TH for simple (1..9) numbers
* type --> 0 upper, 1 lower
* ----------
*/
static char *
get_th(char *num, int type)
{
int len = strlen(num),
last;
last = *(num + (len-1));
if (!isdigit((unsigned char) last))
elog(ERROR, "get_th: '%s' is not number.", num);
/* 11 || 12 */
if (len == 2 && (last=='1' || last=='2') && *num == '1')
last=0;
switch(last) {
case '1':
if (type==TH_UPPER) return numTH[0];
return numth[0];
case '2':
if (type==TH_UPPER) return numTH[1];
return numth[1];
case '3':
if (type==TH_UPPER) return numTH[2];
return numth[2];
default:
if (type==TH_UPPER) return numTH[3];
return numth[3];
}
return NULL;
}
/* ----------
* Convert string-number to ordinal string-number
* type --> 0 upper, 1 lower
* ----------
*/
static char *
str_numth(char *dest, char *num, int type)
{
sprintf(dest, "%s%s", num, get_th(num, type));
return dest;
}
/* ----------
* Return length of integer writed in string
* ----------
*/
static int
int4len(int4 num)
{
char b[16];
return sprintf(b, "%d", num);
}
/* ----------
* Convert string to upper-string
* ----------
*/
static char *
str_toupper(char *buff)
{
char *p_buff=buff;
while (*p_buff) {
*p_buff = toupper((unsigned char) *p_buff);
++p_buff;
}
return buff;
}
/* ----------
* Convert string to lower-string
* ----------
*/
static char *
str_tolower(char *buff)
{
char *p_buff=buff;
while (*p_buff) {
*p_buff = tolower((unsigned char) *p_buff);
++p_buff;
}
return buff;
}
/* ----------
* Check if in string is AC or BC (return: 0==none; -1==BC; 1==AC)
* ----------
*/
static int
is_acdc(char *str, int *len)
{
char *p;
for(p=str; *p != '\0'; p++) {
if (isspace(*p))
continue;
if (*(p+1)) {
if (toupper(*p)=='B' && toupper(*(++p))=='C') {
*len += (p - str) +1;
return -1;
} else if (toupper(*p)=='A' && toupper(*(++p))=='C') {
*len += (p - str) +1;
return 1;
}
}
return 0;
}
return 0;
}
/* ----------
* Sequential search with to upper/lower conversion
* ----------
*/
static int
seq_search(char *name, char **array, int type, int max, int *len)
{
char *p, *n, **a;
int last, i;
*len = 0;
if (!*name)
return -1;
/* set first char */
if (type == ONE_UPPER || ALL_UPPER)
*name = toupper((unsigned char) *name);
else if (type == ALL_LOWER)
*name = tolower((unsigned char) *name);
for(last=0, a=array; *a != NULL; a++) {
/* comperate first chars */
if (*name != **a)
continue;
for(i=1, p=*a+1, n=name+1; ; n++, p++, i++) {
/* search fragment (max) only */
if (max && i == max) {
*len = i;
return a - array;
}
/* full size */
if (*p=='\0') {
*len = i;
return a - array;
}
/* Not found in array 'a' */
if (*n=='\0')
break;
/*
* Convert (but convert new chars only)
*/
if (i > last) {
if (type == ONE_UPPER || type == ALL_LOWER)
*n = tolower((unsigned char) *n);
else if (type == ALL_UPPER)
*n = toupper((unsigned char) *n);
last=i;
}
#ifdef DEBUG_TO_FROM_CHAR
/* elog(DEBUG_elog_output, "N: %c, P: %c, A: %s (%s)", *n, *p, *a, name);*/
#endif
if (*n != *p)
break;
}
}
return -1;
}
#ifdef DEBUG_TO_FROM_CHAR
/* -----------
* DEBUG: Call for debug and for index checking; (Show ASCII char
* and defined keyword for each used position
* ----------
*/
static void
dump_index(KeyWord *k, int *index)
{
int i, count=0, free_i=0;
elog(DEBUG_elog_output, "TO-FROM_CHAR: Dump KeyWord Index:");
for(i=0; i < KeyWord_INDEX_SIZE; i++) {
if (index[i] != -1) {
elog(DEBUG_elog_output, "\t%c: %s, ", i+32, k[ index[i] ].name);
count++;
} else {
free_i++;
elog(DEBUG_elog_output, "\t(%d) %c %d", i, i+32, index[i]);
}
}
elog(DEBUG_elog_output, "\n\t\tUsed positions: %d,\n\t\tFree positions: %d",
count, free_i);
}
#endif
/* ----------
* Skip TM / th in FROM_CHAR
* ----------
*/
#define SKIP_THth(_suf) (S_THth(_suf) ? 2 : 0)
/* ----------
* Global format opton for DCH version
* ----------
*/
static int
dch_global(int arg, char *inout, int suf, int flag, FormatNode *node)
{
switch(arg) {
case DCH_FX:
DCH_global_flag |= DCH_F_FX;
break;
}
return 0;
}
/* ----------
* Master function of TIME for:
* TO_CHAR - write (inout) formated string
* FROM_CHAR - scan (inout) string by course of FormatNode
* ----------
*/
static int
dch_time(int arg, char *inout, int suf, int flag, FormatNode *node)
{
char *p_inout = inout;
switch(arg) {
case DCH_HH:
case DCH_HH12:
if (flag == TO_CHAR) {
sprintf(inout, "%0*d", S_FM(suf) ? 0 : 2,
tm->tm_hour==0 ? 12 :
tm->tm_hour <13 ? tm->tm_hour : tm->tm_hour-12);
if (S_THth(suf))
str_numth(p_inout, inout, 0);
if (S_FM(suf) || S_THth(suf)) return strlen(p_inout)-1;
else return 1;
} else if (flag == FROM_CHAR) {
if (S_FM(suf)) {
sscanf(inout, "%d", &tm->tm_hour);
return int4len((int4) tm->tm_hour)-1 + SKIP_THth(suf);
} else {
sscanf(inout, "%02d", &tm->tm_hour);
return 1 + SKIP_THth(suf);
}
}
case DCH_HH24:
if (flag == TO_CHAR) {
sprintf(inout, "%0*d", S_FM(suf) ? 0 : 2, tm->tm_hour);
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_FM(suf) || S_THth(suf)) return strlen(p_inout)-1;
else return 1;
} else if (flag == FROM_CHAR) {
if (S_FM(suf)) {
sscanf(inout, "%d", &tm->tm_hour);
return int4len((int4) tm->tm_hour)-1 + SKIP_THth(suf);
} else {
sscanf(inout, "%02d", &tm->tm_hour);
return 1 + SKIP_THth(suf);
}
}
case DCH_MI:
if (flag == TO_CHAR) {
sprintf(inout, "%0*d", S_FM(suf) ? 0 : 2, tm->tm_min);
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_FM(suf) || S_THth(suf)) return strlen(p_inout)-1;
else return 1;
} else if (flag == FROM_CHAR) {
if (S_FM(suf)) {
sscanf(inout, "%d", &tm->tm_min);
return int4len((int4) tm->tm_min)-1 + SKIP_THth(suf);
} else {
sscanf(inout, "%02d", &tm->tm_min);
return 1 + SKIP_THth(suf);
}
}
case DCH_SS:
if (flag == TO_CHAR) {
sprintf(inout, "%0*d", S_FM(suf) ? 0 : 2, tm->tm_sec);
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_FM(suf) || S_THth(suf)) return strlen(p_inout)-1;
else return 1;
} else if (flag == FROM_CHAR) {
if (S_FM(suf)) {
sscanf(inout, "%d", &tm->tm_sec);
return int4len((int4) tm->tm_sec)-1 + SKIP_THth(suf);
} else {
sscanf(inout, "%02d", &tm->tm_sec);
return 1 + SKIP_THth(suf);
}
}
case DCH_SSSS:
if (flag == TO_CHAR) {
sprintf(inout, "%d", tm->tm_hour * 3600 +
tm->tm_min * 60 +
tm->tm_sec);
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
return strlen(p_inout)-1;
} else if (flag == FROM_CHAR)
elog(ERROR, "to_datatime: SSSS is not supported");
}
return 0;
}
#define CHECK_SEQ_SEARCH(_l, _s) { \
if (_l <= 0) { \
elog(ERROR, "to_datatime: bad value for %s", _s); \
} \
}
/* ----------
* Master of DATE for:
* TO_CHAR - write (inout) formated string
* FROM_CHAR - scan (inout) string by course of FormatNode
* ----------
*/
static int
dch_date(int arg, char *inout, int suf, int flag, FormatNode *node)
{
char buff[ DCH_CACHE_SIZE ],
*p_inout;
int i, len;
p_inout = inout;
/* ----------
* In the FROM-char is not difference between "January" or "JANUARY"
* or "january", all is before search convert to "first-upper".
* This convention is used for MONTH, MON, DAY, DY
* ----------
*/
if (flag == FROM_CHAR) {
if (arg == DCH_MONTH || arg == DCH_Month || arg == DCH_month) {
tm->tm_mon = seq_search(inout, months_full, ONE_UPPER, FULL_SIZ, &len);
CHECK_SEQ_SEARCH(len, "MONTH/Month/month");
++tm->tm_mon;
if (S_FM(suf)) return len-1;
else return 8;
} else if (arg == DCH_MON || arg == DCH_Mon || arg == DCH_mon) {
tm->tm_mon = seq_search(inout, months, ONE_UPPER, MAX_MON_LEN, &len);
CHECK_SEQ_SEARCH(len, "MON/Mon/mon");
++tm->tm_mon;
return 2;
} else if (arg == DCH_DAY || arg == DCH_Day || arg == DCH_day) {
tm->tm_wday = seq_search(inout, days, ONE_UPPER, FULL_SIZ, &len);
CHECK_SEQ_SEARCH(len, "DAY/Day/day");
if (S_FM(suf)) return len-1;
else return 8;
} else if (arg == DCH_DY || arg == DCH_Dy || arg == DCH_dy) {
tm->tm_wday = seq_search(inout, days, ONE_UPPER, MAX_DY_LEN, &len);
CHECK_SEQ_SEARCH(len, "DY/Dy/dy");
return 2;
}
}
switch(arg) {
case DCH_MONTH:
strcpy(inout, months_full[ tm->tm_mon - 1]);
sprintf(inout, "%*s", S_FM(suf) ? 0 : -9, str_toupper(inout));
if (S_FM(suf)) return strlen(p_inout)-1;
else return 8;
case DCH_Month:
sprintf(inout, "%*s", S_FM(suf) ? 0 : -9, months_full[ tm->tm_mon -1 ]);
if (S_FM(suf)) return strlen(p_inout)-1;
else return 8;
case DCH_month:
sprintf(inout, "%*s", S_FM(suf) ? 0 : -9, months_full[ tm->tm_mon -1 ]);
*inout = tolower(*inout);
if (S_FM(suf)) return strlen(p_inout)-1;
else return 8;
case DCH_MON:
strcpy(inout, months[ tm->tm_mon -1 ]);
inout = str_toupper(inout);
return 2;
case DCH_Mon:
strcpy(inout, months[ tm->tm_mon -1 ]);
return 2;
case DCH_mon:
strcpy(inout, months[ tm->tm_mon -1 ]);
*inout = tolower(*inout);
return 2;
case DCH_MM:
if (flag == TO_CHAR) {
sprintf(inout, "%0*d", S_FM(suf) ? 0 : 2, tm->tm_mon );
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_FM(suf) || S_THth(suf))
return strlen(p_inout)-1;
else return 1;
} else if (flag == FROM_CHAR) {
if (S_FM(suf)) {
sscanf(inout, "%d", &tm->tm_mon);
return int4len((int4) tm->tm_mon)-1 + SKIP_THth(suf);
} else {
sscanf(inout, "%02d", &tm->tm_mon);
return 1 + SKIP_THth(suf);
}
}
case DCH_DAY:
strcpy(inout, days[ tm->tm_wday ]);
sprintf(inout, "%*s", S_FM(suf) ? 0 : -9, str_toupper(inout));
if (S_FM(suf)) return strlen(p_inout)-1;
else return 8;
case DCH_Day:
sprintf(inout, "%*s", S_FM(suf) ? 0 : -9, days[ tm->tm_wday]);
if (S_FM(suf)) return strlen(p_inout)-1;
else return 8;
case DCH_day:
sprintf(inout, "%*s", S_FM(suf) ? 0 : -9, days[ tm->tm_wday]);
*inout = tolower(*inout);
if (S_FM(suf)) return strlen(p_inout)-1;
else return 8;
case DCH_DY:
strcpy(inout, days[ tm->tm_wday]);
inout = str_toupper(inout);
return 2;
case DCH_Dy:
strcpy(inout, days[ tm->tm_wday]);
return 2;
case DCH_dy:
strcpy(inout, days[ tm->tm_wday]);
*inout = tolower(*inout);
return 2;
case DCH_DDD:
if (flag == TO_CHAR) {
sprintf(inout, "%0*d", S_FM(suf) ? 0 : 3, tm->tm_yday);
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_FM(suf) || S_THth(suf))
return strlen(p_inout)-1;
else return 2;
} else if (flag == FROM_CHAR) {
if (S_FM(suf)) {
sscanf(inout, "%d", &tm->tm_yday);
return int4len((int4) tm->tm_yday)-1 + SKIP_THth(suf);
} else {
sscanf(inout, "%03d", &tm->tm_yday);
return 2 + SKIP_THth(suf);
}
}
case DCH_DD:
if (flag == TO_CHAR) {
sprintf(inout, "%0*d", S_FM(suf) ? 0 : 2, tm->tm_mday);
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_FM(suf) || S_THth(suf))
return strlen(p_inout)-1;
else return 1;
} else if (flag == FROM_CHAR) {
if (S_FM(suf)) {
sscanf(inout, "%d", &tm->tm_mday);
return int4len((int4) tm->tm_mday)-1 + SKIP_THth(suf);
} else {
sscanf(inout, "%02d", &tm->tm_mday);
return 1 + SKIP_THth(suf);
}
}
case DCH_D:
if (flag == TO_CHAR) {
sprintf(inout, "%d", tm->tm_wday+1);
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_THth(suf))
return 2;
return 0;
} else if (flag == FROM_CHAR) {
sscanf(inout, "%1d", &tm->tm_wday);
if(tm->tm_wday) --tm->tm_wday;
return 0 + SKIP_THth(suf);
}
case DCH_WW:
if (flag == TO_CHAR) {
sprintf(inout, "%0*d", S_FM(suf) ? 0 : 2,
(tm->tm_yday - tm->tm_wday + 7) / 7);
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_FM(suf) || S_THth(suf))
return strlen(p_inout)-1;
else return 1;
} else if (flag == FROM_CHAR)
elog(ERROR, "to_datatime: WW is not supported");
case DCH_Q:
if (flag == TO_CHAR) {
sprintf(inout, "%d", (tm->tm_mon-1)/3+1);
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_THth(suf))
return 2;
return 0;
} else if (flag == FROM_CHAR)
elog(ERROR, "to_datatime: Q is not supported");
case DCH_CC:
if (flag == TO_CHAR) {
i = tm->tm_year/100 +1;
if (i <= 99 && i >= -99)
sprintf(inout, "%0*d", S_FM(suf) ? 0 : 2, i);
else
sprintf(inout, "%d", i);
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
return strlen(p_inout)-1;
} else if (flag == FROM_CHAR)
elog(ERROR, "to_datatime: CC is not supported");
case DCH_Y_YYY:
if (flag == TO_CHAR) {
i= YEAR_ABS(tm->tm_year) / 1000;
sprintf(inout, "%d,%03d", i, YEAR_ABS(tm->tm_year) -(i*1000));
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (tm->tm_year < 0)
strcat(inout, BC_STR);
return strlen(p_inout)-1;
} else if (flag == FROM_CHAR) {
int cc, yy;
sscanf(inout, "%d,%03d", &cc, &yy);
tm->tm_year = (cc * 1000) + yy;
if (!S_FM(suf) && tm->tm_year <= 9999 && tm->tm_year >= -9999)
len = 5;
else
len = int4len((int4) tm->tm_year)+1;
len += SKIP_THth(suf);
/* AC/BC */
if (is_acdc(inout+len, &len) < 0 && tm->tm_year > 0)
tm->tm_year = -(tm->tm_year);
if (tm->tm_year < 0)
tm->tm_year = tm->tm_year+1;
return len-1;
}
case DCH_YYYY:
if (flag == TO_CHAR) {
if (tm->tm_year <= 9999 && tm->tm_year >= -9998)
sprintf(inout, "%0*d", S_FM(suf) ? 0 : 4, YEAR_ABS(tm->tm_year));
else
sprintf(inout, "%d", YEAR_ABS(tm->tm_year));
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (tm->tm_year < 0)
strcat(inout, BC_STR);
return strlen(p_inout)-1;
} else if (flag == FROM_CHAR) {
sscanf(inout, "%d", &tm->tm_year);
if (!S_FM(suf) && tm->tm_year <= 9999 && tm->tm_year >= -9999)
len = 4;
else
len = int4len((int4) tm->tm_year);
len += SKIP_THth(suf);
/* AC/BC */
if (is_acdc(inout+len, &len) < 0 && tm->tm_year > 0)
tm->tm_year = -(tm->tm_year);
if (tm->tm_year < 0)
tm->tm_year = tm->tm_year+1;
return len-1;
}
case DCH_YYY:
if (flag == TO_CHAR) {
sprintf(buff, "%03d", YEAR_ABS(tm->tm_year));
i=strlen(buff);
strcpy(inout, buff+(i-3));
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_THth(suf)) return 4;
return 2;
} else if (flag == FROM_CHAR) {
int yy;
sscanf(inout, "%03d", &yy);
tm->tm_year = (tm->tm_year/1000)*1000 +yy;
return 2 + SKIP_THth(suf);
}
case DCH_YY:
if (flag == TO_CHAR) {
sprintf(buff, "%02d", YEAR_ABS(tm->tm_year));
i=strlen(buff);
strcpy(inout, buff+(i-2));
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_THth(suf)) return 3;
return 1;
} else if (flag == FROM_CHAR) {
int yy;
sscanf(inout, "%02d", &yy);
tm->tm_year = (tm->tm_year/100)*100 +yy;
return 1 + SKIP_THth(suf);
}
case DCH_Y:
if (flag == TO_CHAR) {
sprintf(buff, "%1d", YEAR_ABS(tm->tm_year));
i=strlen(buff);
strcpy(inout, buff+(i-1));
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_THth(suf)) return 2;
return 0;
} else if (flag == FROM_CHAR) {
int yy;
sscanf(inout, "%1d", &yy);
tm->tm_year = (tm->tm_year/10)*10 +yy;
return 0 + SKIP_THth(suf);
}
case DCH_RM:
if (flag == TO_CHAR) {
sprintf(inout, "%*s", S_FM(suf) ? 0 : -4,
rm_months[ 12 - tm->tm_mon ]);
if (S_FM(suf)) return strlen(p_inout)-1;
else return 3;
} else if (flag == FROM_CHAR) {
tm->tm_mon = 11-seq_search(inout, rm_months, ALL_UPPER, FULL_SIZ, &len);
CHECK_SEQ_SEARCH(len, "RM");
++tm->tm_mon;
if (S_FM(suf)) return len-1;
else return 3;
}
case DCH_W:
if (flag == TO_CHAR) {
sprintf(inout, "%d", (tm->tm_mday - tm->tm_wday +7) / 7 );
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
if (S_THth(suf)) return 2;
return 0;
} else if (flag == FROM_CHAR)
elog(ERROR, "to_datatime: W is not supported");
case DCH_J:
if (flag == TO_CHAR) {
sprintf(inout, "%d", date2j(tm->tm_year, tm->tm_mon, tm->tm_mday));
if (S_THth(suf))
str_numth(p_inout, inout, S_TH_TYPE(suf));
return strlen(p_inout)-1;
} else if (flag == FROM_CHAR)
elog(ERROR, "to_datatime: J is not supported");
}
return 0;
}
/****************************************************************************
* Public routines
***************************************************************************/
/* -------------------
* DATETIME to_char()
* -------------------
*/
text *
datetime_to_char(DateTime *dt, text *fmt)
{
static FormatNode CacheFormat[ DCH_CACHE_SIZE +1];
static char CacheStr[ DCH_CACHE_SIZE +1];
text *result;
FormatNode *format;
int flag=0;
char *str;
double fsec;
char *tzn;
int len=0, tz;
if ((!PointerIsValid(dt)) || (!PointerIsValid(fmt)))
return NULL;
len = VARSIZE(fmt) - VARHDRSZ;
if (!len)
return textin("");
tm->tm_sec =0; tm->tm_year =0;
tm->tm_min =0; tm->tm_wday =0;
tm->tm_hour =0; tm->tm_yday =0;
tm->tm_mday =1; tm->tm_isdst =0;
tm->tm_mon =1;
if (DATETIME_IS_EPOCH(*dt))
{
datetime2tm(SetDateTime(*dt), NULL, tm, &fsec, NULL);
} else if (DATETIME_IS_CURRENT(*dt)) {
datetime2tm(SetDateTime(*dt), &tz, tm, &fsec, &tzn);
} else {
if (datetime2tm(*dt, &tz, tm, &fsec, &tzn) != 0)
elog(ERROR, "to_char: Unable to convert datetime to tm");
}
tm->tm_wday = (date2j(tm->tm_year, tm->tm_mon, tm->tm_mday) + 1) % 7;
tm->tm_yday = date2j(tm->tm_year, tm->tm_mon, tm->tm_mday) - date2j(tm->tm_year, 1,1) +1;
/* ----------
* Convert VARDATA() to string
* ----------
*/
str = (char *) palloc(len + 1);
memcpy(str, VARDATA(fmt), len);
*(str + len) = '\0';
/* ----------
* Allocate result
* ----------
*/
result = (text *) palloc( (len * DCH_MAX_ITEM_SIZ) + 1 + VARHDRSZ);
/* ----------
* Allocate new memory if format picture is bigger than static cache
* and not use cache (call parser always) - flag=1 show this variant
* ----------
*/
if ( len > DCH_CACHE_SIZE ) {
format = (FormatNode *) palloc((len + 1) * sizeof(FormatNode));
flag = 1;
parse_format(format, str, DCH_keywords,
DCH_suff, DCH_index, DCH_TYPE, NULL);
(format + len)->type = NODE_TYPE_END; /* Paranoa? */
} else {
/* ----------
* Use cache buffers
* ----------
*/
#ifdef DEBUG_TO_FROM_CHAR
elog(DEBUG_elog_output, "DCH_TO_CHAR() Len: %d", len);
elog(DEBUG_elog_output, "DCH_TO_CHAR() Cache - str: >%s<", CacheStr);
elog(DEBUG_elog_output, "DCH_TO_CHAR() Arg.str: >%s<", str);
#endif
flag = 0;
if (strcmp(CacheStr, str) != 0) {
/* ----------
* Can't use the cache, must run parser and save a original
* format-picture string to the cache.
* ----------
*/
strncpy(CacheStr, str, DCH_CACHE_SIZE);
#ifdef DEBUG_TO_FROM_CHAR
/* dump_node(CacheFormat, len); */
/* dump_index(DCH_keywords, DCH_index); */
#endif
parse_format(CacheFormat, str, DCH_keywords,
DCH_suff, DCH_index, DCH_TYPE, NULL);
(CacheFormat + len)->type = NODE_TYPE_END; /* Paranoa? */
}
format = CacheFormat;
}
DCH_action(format, VARDATA(result), TO_CHAR);
if (flag)
pfree(format);
pfree(str);
VARSIZE(result) = strlen(VARDATA(result)) + VARHDRSZ;
return result;
}
/* -------------------
* TIMESTAMP to_char()
* -------------------
*/
text *
timestamp_to_char(time_t dt, text *fmt)
{
return datetime_to_char( timestamp_datetime(dt), fmt);
}
/* ---------------------
* TO_DATETIME()
*
* Make DateTime from date_str which is formated at argument 'fmt'
* ( to_datetime is reverse to_char() )
* ---------------------
*/
DateTime *
to_datetime(text *date_str, text *fmt)
{
static FormatNode CacheFormat[ DCH_CACHE_SIZE +1];
static char CacheStr[ DCH_CACHE_SIZE +1];
FormatNode *format;
int flag=0;
DateTime *result;
char *str;
int len=0,
fsec=0,
tz=0;
if ((!PointerIsValid(date_str)) || (!PointerIsValid(fmt)))
return NULL;
tm->tm_sec =0; tm->tm_year =0;
tm->tm_min =0; tm->tm_wday =0;
tm->tm_hour =0; tm->tm_yday =0;
tm->tm_mday =1; tm->tm_isdst =0;
tm->tm_mon =1;
result = palloc(sizeof(DateTime));
len = VARSIZE(fmt) - VARHDRSZ;
if (len) {
/* ----------
* Convert VARDATA() to string
* ----------
*/
str = (char *) palloc(len + 1);
memcpy(str, VARDATA(fmt), len);
*(str + len) = '\0';
/* ----------
* Allocate new memory if format picture is bigger than static cache
* and not use cache (call parser always) - flag=1 show this variant
* ----------
*/
if ( len > DCH_CACHE_SIZE ) {
format = (FormatNode *) palloc((len + 1) * sizeof(FormatNode));
flag = 1;
parse_format(format, str, DCH_keywords,
DCH_suff, DCH_index, DCH_TYPE, NULL);
(format + len)->type = NODE_TYPE_END; /* Paranoa? */
} else {
/* ----------
* Use cache buffers
* ----------
*/
#ifdef DEBUG_TO_FROM_CHAR
elog(DEBUG_elog_output, "DCH_TO_CHAR() Len: %d", len);
elog(DEBUG_elog_output, "DCH_TO_CHAR() Cache - str: >%s<", CacheStr);
elog(DEBUG_elog_output, "DCH_TO_CHAR() Arg.str: >%s<", str);
#endif
flag = 0;
if (strcmp(CacheStr, str) != 0) {
/* ----------
* Can't use the cache, must run parser and save a original
* format-picture string to the cache.
* ----------
*/
strncpy(CacheStr, str, DCH_CACHE_SIZE);
parse_format(CacheFormat, str, DCH_keywords,
DCH_suff, DCH_index, DCH_TYPE, NULL);
(CacheFormat + len)->type = NODE_TYPE_END; /* Paranoa? */
}
format = CacheFormat;
}
/* ----------
* Call action for each node in FormatNode tree
* ----------
*/
#ifdef DEBUG_TO_FROM_CHAR
/* dump_node(format, len); */
#endif
VARDATA(date_str)[ VARSIZE(date_str) - VARHDRSZ ] = '\0';
DCH_action(format, VARDATA(date_str), FROM_CHAR);
pfree(str);
if (flag)
pfree(format);
}
#ifdef DEBUG_TO_FROM_CHAR
NOTICE_TM;
#endif
if (IS_VALID_UTIME(tm->tm_year, tm->tm_mon, tm->tm_mday)) {
#ifdef USE_POSIX_TIME
tm->tm_isdst = -1;
tm->tm_year -= 1900;
tm->tm_mon -= 1;
#ifdef DEBUG_TO_FROM_CHAR
elog(DEBUG_elog_output, "TO-FROM_CHAR: Call mktime()");
NOTICE_TM;
#endif
mktime(tm);
tm->tm_year += 1900;
tm->tm_mon += 1;
#if defined(HAVE_TM_ZONE)
tz = -(tm->tm_gmtoff); /* tm_gmtoff is Sun/DEC-ism */
#elif defined(HAVE_INT_TIMEZONE)
#ifdef __CYGWIN__
tz = (tm->tm_isdst ? (_timezone - 3600) : _timezone);
#else
tz = (tm->tm_isdst ? (timezone - 3600) : timezone);
#endif
#else
#error USE_POSIX_TIME is defined but neither HAVE_TM_ZONE or HAVE_INT_TIMEZONE are defined
#endif
#else /* !USE_POSIX_TIME */
tz = CTimeZone;
#endif
} else {
tm->tm_isdst = 0;
tz = 0;
}
#ifdef DEBUG_TO_FROM_CHAR
NOTICE_TM;
#endif
if (tm2datetime(tm, fsec, &tz, result) != 0)
elog(ERROR, "to_datatime: can't convert 'tm' to datetime.");
return result;
}
/* ----------
* TO_DATE
* Make Date from date_str which is formated at argument 'fmt'
* ----------
*/
DateADT
to_date(text *date_str, text *fmt)
{
return datetime_date( to_datetime(date_str, fmt) );
}
/* ----------
* TO_TIMESTAMP
* Make timestamp from date_str which is formated at argument 'fmt'
* ----------
*/
time_t
to_timestamp(text *date_str, text *fmt)
{
return datetime_timestamp( to_datetime(date_str, fmt) );
}
/**********************************************************************
* the NUMBER version part
*********************************************************************/
static char *
fill_str(char *str, int c, int max)
{
memset(str, c, max);
*(str+max+1) = '\0';
return str;
}
/* ----------
* Cache routine for NUM to_char version
* ----------
*/
static FormatNode *
NUM_cache( int len, char *CacheStr, FormatNode *CacheFormat,
NUMDesc *CacheNum, NUMDesc *Num, char *pars_str, int *flag)
{
FormatNode *format;
char *str;
/* ----------
* Convert VARDATA() to string
* ----------
*/
str = (char *) palloc(len + 1);
memcpy(str, pars_str, len);
*(str + len) = '\0';
/* ----------
* Allocate new memory if format picture is bigger than static cache
* and not use cache (call parser always) - flag=1 show this variant
* ----------
*/
if ( len > NUM_CACHE_SIZE ) {
format = (FormatNode *) palloc((len + 1) * sizeof(FormatNode));
*flag = 1;
Num->flag = 0;
Num->lsign = 0;
Num->pre = 0;
Num->pos = 0;
Num->pre_lsign_num = 0;
parse_format(format, str, NUM_keywords,
NULL, NUM_index, NUM_TYPE, Num);
(format + len)->type = NODE_TYPE_END; /* Paranoa? */
pfree(str);
return format;
} else {
/* ----------
* Use cache buffer
* ----------
*/
#ifdef DEBUG_TO_FROM_CHAR
elog(DEBUG_elog_output, "NUM_TO_CHAR() Len: %d", len);
elog(DEBUG_elog_output, "NUM_TO_CHAR() Cache - str: >%s<", CacheStr);
elog(DEBUG_elog_output, "NUM_TO_CHAR() Arg.str: >%s<", str);
#endif
*flag = 0;
if (strcmp(CacheStr, str) != 0) {
/* ----------
* Can't use the cache, must run parser and save a original
* format-picture string to the cache.
* ----------
*/
strncpy(CacheStr, str, NUM_CACHE_SIZE);
/* ----------
* Set zeros to CacheNum struct
* ----------
*/
CacheNum->flag = 0;
CacheNum->lsign = 0;
CacheNum->pre = 0;
CacheNum->pos = 0;
CacheNum->pre_lsign_num = 0;
CacheNum->need_locale = 0;
CacheNum->multi = 0;
#ifdef DEBUG_TO_FROM_CHAR
/* dump_node(CacheFormat, len); */
/* dump_index(NUM_keywords, NUM_index); */
#endif
parse_format(CacheFormat, str, NUM_keywords,
NULL, NUM_index, NUM_TYPE, CacheNum);
(CacheFormat + len)->type = NODE_TYPE_END; /* Paranoa? */
}
/* ----------
* Copy cache to used struct
* ----------
*/
Num->flag = CacheNum->flag;
Num->lsign = CacheNum->lsign;
Num->pre = CacheNum->pre;
Num->pos = CacheNum->pos;
Num->pre_lsign_num = CacheNum->pre_lsign_num;
Num->need_locale = CacheNum->need_locale;
Num->multi = CacheNum->multi;
pfree(str);
return CacheFormat;
}
}
static char *
int_to_roman(int number)
{
int len = 0,
num = 0,
set = 0;
char *p = NULL,
*result,
numstr[5];
result = (char *) palloc( 16 );
*result = '\0';
if (number > 3999 || number < 1) {
fill_str(result, '#', 15);
return result;
}
len = sprintf(numstr, "%d", number);
for(p=numstr; *p!='\0'; p++, --len) {
num = *p - 49; /* 48 ascii + 1 */
if (num < 0)
continue;
if (num == -1 && set==0)
continue;
set = 1;
if (len > 3) {
while(num-- != -1)
strcat(result, "M");
} else {
if (len==3)
strcat(result, rm100[num]);
else if (len==2)
strcat(result, rm10[num]);
else if (len==1)
strcat(result, rm1[num]);
}
}
return result;
}
/* ----------
* Locale
* ----------
*/
static void
NUM_prepare_locale(NUMProc *Np)
{
#ifdef USE_LOCALE
if (Np->Num->need_locale) {
struct lconv *lconv;
/* ----------
* Get locales
* ----------
*/
lconv = PGLC_localeconv();
/* ----------
* Positive / Negative number sign
* ----------
*/
if (lconv->negative_sign && *lconv->negative_sign)
Np->L_negative_sign = lconv->negative_sign;
else
Np->L_negative_sign = "-";
if (lconv->positive_sign && *lconv->positive_sign)
Np->L_positive_sign = lconv->positive_sign;
else
Np->L_positive_sign = "+";
/* ----------
* Number thousands separator
* ----------
*/
if (lconv->thousands_sep && *lconv->thousands_sep)
Np->L_thousands_sep = lconv->thousands_sep;
else
Np->L_thousands_sep = ",";
/* ----------
* Number decimal point
* ----------
*/
if (lconv->decimal_point && *lconv->decimal_point)
Np->decimal = lconv->decimal_point;
else
Np->decimal = ".";
/* ----------
* Currency symbol
* ----------
*/
if (lconv->currency_symbol && *lconv->currency_symbol)
Np->L_currency_symbol = lconv->currency_symbol;
else
Np->L_currency_symbol = " ";
if (!IS_LDECIMAL(Np->Num))
Np->decimal = ".";
} else {
#endif
/* ----------
* Default values
* ----------
*/
Np->L_negative_sign = "-";
Np->L_positive_sign = "+";
Np->decimal = ".";
Np->L_thousands_sep = ",";
Np->L_currency_symbol = " ";
#ifdef USE_LOCALE
}
#endif
}
/* ----------
* SET SIGN macro - set 'S' or 'PR' befor number
* ----------
*/
#define SET_SIGN(_np) { \
if ((_np)->sign_wrote==0) { \
if (IS_BRACKET((_np)->Num)) { \
\
*(_np)->inout_p = '<'; \
++(_np)->inout_p; \
(_np)->sign_wrote = 1; \
\
} else if ((_np)->Num->lsign==NUM_LSIGN_PRE && (! IS_BRACKET((_np)->Num)) && \
(! IS_MINUS((_np)->Num)) && (! IS_PLUS((_np)->Num))) { \
\
if ((_np)->sign=='-') \
strcpy((_np)->inout_p, (_np)->L_negative_sign); \
else \
strcpy((_np)->inout_p, (_np)->L_positive_sign); \
(_np)->inout_p += strlen((_np)->inout_p); \
(_np)->sign_wrote = 1; \
\
} else { \
if ((_np)->sign=='-' && (_np)->Num->lsign==NUM_LSIGN_NONE \
&& (! IS_BRACKET((_np)->Num)) && \
(! IS_MINUS((_np)->Num)) && (! IS_PLUS((_np)->Num))) { \
\
*(_np)->inout_p = '-'; \
++(_np)->inout_p; \
(_np)->sign_wrote=1; \
\
} else if ((! IS_FILLMODE((_np)->Num)) && (_np)->Num->lsign==NUM_LSIGN_NONE && \
(! IS_BRACKET((_np)->Num)) && (! IS_MINUS((_np)->Num)) && (! IS_PLUS((_np)->Num))) { \
\
*(_np)->inout_p = ' '; \
++(_np)->inout_p; \
(_np)->sign_wrote=1; \
} \
} \
} \
}
/* ----------
* Create number
* return FALSE if any work over current NUM_[0|9|D|DEC] must be skip
* in NUM_processor()
* ----------
*/
static int
NUM_numpart(NUMProc *Np, int id)
{
if (IS_ROMAN(Np->Num))
return FALSE;
/* Note: in this elog() output not set '\0' in inout
elog(DEBUG_elog_output, "sign_w: %d, count: %d, plen %d, sn: %s, inout: '%s'",
Np->sign_wrote, Np->count_num, Np->pre_number, Np->number_p, Np->inout);
*/
/* ----------
* Number extraction for TO_NUMBER()
* ----------
*/
if (Np->type == FROM_CHAR) {
if (id == NUM_9 || id == NUM_0) {
if (!*(Np->number+1)) {
if (*Np->inout_p == '-' ||
(IS_BRACKET(Np->Num) &&
*Np->inout_p == '<' )) {
*Np->number = '-';
Np->inout_p++;
} else if (*Np->inout_p == '+') {
*Np->number = '+';
Np->inout_p++;
} else if (*Np->inout_p == ' ' && (! IS_FILLMODE(Np->Num))) {
Np->inout_p++;
}
}
if (isdigit((unsigned char) *Np->inout_p)) {
*Np->number_p = *Np->inout_p;
Np->number_p++;
}
} else {
if (id == NUM_DEC) {
*Np->number_p = '.';
Np->number_p++;
} else if (id == NUM_D) {
int x = strlen(Np->decimal);
if (!strncmp(Np->inout_p, Np->decimal, x)) {
Np->inout_p += x-1;
*Np->number_p = '.';
Np->number_p++;
}
}
}
return TRUE;
}
/* ----------
* Add blank space (pre number)
* ----------
*/
if ((! IS_ZERO(Np->Num)) && (! IS_FILLMODE(Np->Num)) && Np->pre_number > 0) {
*Np->inout_p = ' ';
--Np->pre_number;
--Np->count_num;
return TRUE;
}
/* ----------
* Add zero (pre number)
* ----------
*/
if (IS_ZERO(Np->Num) && Np->pre_number > 0) {
SET_SIGN(Np);
*Np->inout_p='0';
--Np->pre_number;
--Np->count_num;
return TRUE;
}
if (IS_FILLMODE(Np->Num) && Np->pre_number > 0) {
--Np->pre_number;
return FALSE;
}
/* ----------
* Add sign or '<' or ' '
* ----------
*/
if (Np->number_p==Np->number && Np->sign_wrote==0) {
SET_SIGN(Np);
}
/* ----------
* Add decimal point
* ----------
*/
if (*Np->number_p=='.') {
strcpy(Np->inout_p, Np->decimal);
Np->inout_p += strlen(Np->inout_p);
if (*Np->number_p)
++Np->number_p;
return FALSE;
}
if (*Np->number_p) {
/* ----------
* Copy number string to inout string
* ----------
*/
*Np->inout_p = *Np->number_p;
++Np->number_p;
Np->in_number = 1;
/* ----------
* Number end (set post 'S' or '>'
* ----------
*/
if ((--Np->count_num)==0) {
if (IS_BRACKET(Np->Num)) {
++Np->inout_p;
*Np->inout_p = '>';
Np->sign_wrote =1;
}
if (Np->Num->lsign==NUM_LSIGN_POST && Np->sign_wrote==0) {
++Np->inout_p;
if (Np->sign=='-')
strcpy(Np->inout_p, Np->L_negative_sign);
else
strcpy(Np->inout_p, Np->L_positive_sign);
Np->inout_p += strlen(Np->inout_p)-1;
Np->sign_wrote = 1;
}
}
} else
return FALSE;
return TRUE;
}
/* ----------
* Master function for NUMBER version.
* type (variant):
* TO_CHAR
* -> create formatted string by course of FormatNode
*
* FROM_CHAR (TO_NUMBER)
* -> extract number string from formatted string (reverse TO_CHAR)
*
* - ! this version use non-string 'inout' VARDATA(),
* and 'plen' is used for VARSIZE()
* - value 'sign' is not used
* - number is creating in Np->number and first position (*Np->number)
* in this buffer is reserved for +/- sign
* ----------
*/
static char *
NUM_processor (FormatNode *node, NUMDesc *Num, char *inout, char *number,
int plen, int sign, int type)
{
FormatNode *n;
NUMProc _Np, *Np = &_Np;
Np->Num = Num;
Np->type = type;
Np->number = number;
if (type == TO_CHAR) {
Np->pre_number = plen;
Np->sign = sign;
} else if (type == FROM_CHAR) {
Np->pre_number = 0;
*Np->number = ' '; /* sign space */
*(Np->number+1) = '\0';
Np->sign = 0;
}
Np->inout = inout;
Np->sign_wrote = Np->count_num = Np->in_number = 0;
/* ----------
* Roman corection
* ----------
*/
if (IS_ROMAN(Np->Num)) {
if (Np->type==FROM_CHAR)
elog(ERROR, "to_number: RN is not supported");
Np->Num->lsign = Np->Num->pre_lsign_num = Np->Num->pos =
Np->Num->pre = Np->pre_number = Np->sign = 0;
if (IS_FILLMODE(Np->Num)){
Np->Num->flag = 0;
Np->Num->flag |= NUM_F_FILLMODE;
} else {
Np->Num->flag = 0;
}
Np->Num->flag |= NUM_F_ROMAN;
}
/* ----------
* Check Num struct
* ----------
*/
if (Np->sign=='+')
Np->Num->flag &= ~NUM_F_BRACKET;
if (Np->Num->lsign == NUM_LSIGN_PRE && Np->Num->pre == Np->Num->pre_lsign_num)
Np->Num->lsign = NUM_LSIGN_POST;
/* set counter (number of all digits) */
Np->count_num = Np->Num->pos + Np->Num->pre;
if (Np->type==TO_CHAR && IS_FILLMODE(Np->Num) && (! IS_ZERO(Np->Num)))
Np->count_num -= Np->pre_number;
#ifdef DEBUG_TO_FROM_CHAR
elog(DEBUG_elog_output, "NUM: '%s', PRE: %d, POS: %d, PLEN: %d, LSIGN: %d, DECIMAL: %d, MULTI: %d",
Np->number, Np->Num->pre, Np->Num->pos,
Np->pre_number, Np->Num->lsign,IS_DECIMAL(Np->Num),
Np->Num->multi);
#endif
/* ----------
* Locale
* ----------
*/
NUM_prepare_locale(Np);
/* need for DEBUG: memset(Np->inout, '\0', Np->count_num );*/
/* ----------
* Processor direct cycle
* ----------
*/
if (Np->type == FROM_CHAR)
Np->number_p=Np->number+1; /* first char is space for sign */
else if (Np->type == TO_CHAR)
Np->number_p=Np->number;
for(n=node, Np->inout_p=Np->inout; n->type != NODE_TYPE_END; n++) {
if (Np->type == FROM_CHAR) {
/* ----------
* Check non-string inout end
* ----------
*/
if (Np->inout_p == Np->inout + plen)
break;
}
/* ----------
* Format pictures actions
* ----------
*/
if (n->type == NODE_TYPE_ACTION) {
/* ----------
* Create/reading digit/zero/blank/sing
* ----------
*/
switch( n->key->id ) {
case NUM_9:
case NUM_0:
case NUM_DEC:
case NUM_D:
if (NUM_numpart(Np, n->key->id))
break;
else
continue;
case NUM_COMMA:
if (Np->type == TO_CHAR) {
if (!Np->in_number) {
if (IS_FILLMODE(Np->Num))
continue;
else
*Np->inout_p= ' ';
} else
*Np->inout_p = ',';
} else if (Np->type == FROM_CHAR) {
if (!Np->in_number) {
if (IS_FILLMODE(Np->Num))
continue;
}
}
break;
case NUM_G:
if (Np->type == TO_CHAR) {
if (!Np->in_number) {
if (IS_FILLMODE(Np->Num))
continue;
else {
int x = strlen(Np->L_thousands_sep);
memset(Np->inout_p, ' ', x);
Np->inout_p += x-1;
}
} else {
strcpy(Np->inout_p, Np->L_thousands_sep);
Np->inout_p += strlen(Np->inout_p)-1;
}
} else if (Np->type == FROM_CHAR) {
if (!Np->in_number) {
if (IS_FILLMODE(Np->Num))
continue;
}
Np->inout_p += strlen(Np->L_thousands_sep)-1;
}
break;
case NUM_L:
if (Np->type == TO_CHAR) {
strcpy(Np->inout_p, Np->L_currency_symbol);
Np->inout_p += strlen(Np->inout_p)-1;
} else if (Np->type == FROM_CHAR) {
Np->inout_p += strlen(Np->L_currency_symbol)-1;
}
break;
case NUM_MI:
if (Np->sign_wrote==1 || IS_BRACKET(Np->Num)) {
if (Np->type == TO_CHAR)
continue;
else
break;
}
if (Np->type == TO_CHAR) {
if (Np->sign=='-')
*Np->inout_p = '-';
else
*Np->inout_p = ' ';
} else if (Np->type == FROM_CHAR) {
if (*Np->inout_p == '-')
*Np->number = '-';
}
Np->sign_wrote=1;
break;
case NUM_PL:
if (Np->sign_wrote==1 || IS_BRACKET(Np->Num)) {
if (Np->type == TO_CHAR)
continue;
else
break;
}
if (Np->type == TO_CHAR) {
if (Np->sign=='+')
*Np->inout_p = '+';
else
*Np->inout_p = ' ';
} else if (Np->type == FROM_CHAR) {
if (*Np->inout_p == '+')
*Np->number = '+';
}
Np->sign_wrote=1;
break;
case NUM_SG:
if (Np->sign_wrote==1 || IS_BRACKET(Np->Num)) {
if (Np->type == TO_CHAR)
continue;
else
break;
}
if (Np->type == TO_CHAR)
*Np->inout_p = Np->sign;
else if (Np->type == FROM_CHAR) {
if (*Np->inout_p == '-')
*Np->number = '-';
else if (*Np->inout_p == '+')
*Np->number = '+';
}
Np->sign_wrote=1;
break;
case NUM_RN:
if (Np->type == FROM_CHAR)
elog(ERROR, "TO_NUMBER: internal error #1");
if (IS_FILLMODE(Np->Num)) {
strcpy(Np->inout_p, Np->number_p);
Np->inout_p += strlen(Np->inout_p) - 1;
} else
Np->inout_p += sprintf(Np->inout_p, "%15s", Np->number_p) -1;
break;
case NUM_rn:
if (Np->type == FROM_CHAR)
elog(ERROR, "TO_NUMBER: internal error #2");
if (IS_FILLMODE(Np->Num)) {
strcpy(Np->inout_p, str_tolower(Np->number_p));
Np->inout_p += strlen(Np->inout_p) - 1;
} else
Np->inout_p += sprintf(Np->inout_p, "%15s", str_tolower(Np->number_p)) -1;
break;
case NUM_th:
if (IS_ROMAN(Np->Num) || *Np->number=='#' ||
Np->sign=='-' || IS_DECIMAL(Np->Num))
continue;
if (Np->type == TO_CHAR)
strcpy(Np->inout_p, get_th(Np->number, TH_LOWER));
Np->inout_p += 1;
break;
case NUM_TH:
if (IS_ROMAN(Np->Num) || *Np->number=='#' ||
Np->sign=='-' || IS_DECIMAL(Np->Num))
continue;
if (Np->type == TO_CHAR)
strcpy(Np->inout_p, get_th(Np->number, TH_UPPER));
Np->inout_p += 1;
break;
case NUM_S:
/* ----------
* 'S' for TO_CHAR is in NUM_numpart()
* ----------
*/
if (Np->type == FROM_CHAR && Np->sign_wrote==FALSE) {
int x = strlen(Np->L_negative_sign);
if (!strncmp(Np->inout_p, Np->L_negative_sign, x)) {
Np->inout_p += x-1;
*Np->number = '-';
break;
}
x = strlen(Np->L_positive_sign);
if (!strncmp(Np->inout_p, Np->L_positive_sign, x)) {
Np->inout_p += x-1;
*Np->number = '+';
break;
}
} else
continue;
break;
default:
continue;
break;
}
} else {
/* ----------
* Remove to output char from input in TO_CHAR
* ----------
*/
if (Np->type == TO_CHAR)
*Np->inout_p = n->character;
}
Np->inout_p++;
}
if (Np->type == TO_CHAR) {
*Np->inout_p = '\0';
return Np->inout;
} else if (Np->type == FROM_CHAR) {
*Np->number_p = '\0';
#ifdef DEBUG_TO_FROM_CHAR
elog(DEBUG_elog_output, "TO_NUMBER (number): '%s'", Np->number);
#endif
return Np->number;
} else
return NULL;
}
/* ----------
* MACRO: Start part of NUM - for all NUM's to_char variants
* (sorry, but I hate copy same code - macro is better..)
* ----------
*/
#define NUM_TOCHAR_prepare { \
if (!PointerIsValid(fmt)) \
return NULL; \
\
len = VARSIZE(fmt) - VARHDRSZ; \
\
if (!len) \
return textin(""); \
\
result = (text *) palloc( (len * NUM_MAX_ITEM_SIZ) + 1 + VARHDRSZ); \
format = NUM_cache(len, CacheStr, CacheFormat, &CacheNum, &Num, \
VARDATA(fmt), &flag); \
}
/* ----------
* MACRO: Finish part of NUM
* ----------
*/
#define NUM_TOCHAR_finish { \
\
NUM_processor(format, &Num, VARDATA(result), \
numstr, plen, sign, TO_CHAR); \
pfree(orgnum); \
\
if (flag) \
pfree(format); \
\
VARSIZE(result) = strlen(VARDATA(result)) + VARHDRSZ; \
}
/* -------------------
* NUMERIC to_number()
* -------------------
*/
Numeric
numeric_to_number(text *value, text *fmt)
{
static FormatNode CacheFormat[ NUM_CACHE_SIZE +1];
static char CacheStr[ NUM_CACHE_SIZE +1];
static NUMDesc CacheNum;
NUMDesc Num;
FormatNode *format;
char *numstr;
int flag=0;
int len=0;
int scale, precision;
if ((!PointerIsValid(value)) || (!PointerIsValid(fmt)))
return NULL;
len = VARSIZE(fmt) - VARHDRSZ;
if (!len)
return numeric_in(NULL, 0, 0);
format = NUM_cache(len, CacheStr, CacheFormat, &CacheNum, &Num,
VARDATA(fmt), &flag);
numstr = (char *) palloc( (len * NUM_MAX_ITEM_SIZ) + 1);
NUM_processor(format, &Num, VARDATA(value), numstr,
VARSIZE(value) - VARHDRSZ, 0, FROM_CHAR);
scale = Num.pos;
precision = MAX(0, Num.pre) + scale;
return numeric_in(numstr, 0, ((precision << 16) | scale) + VARHDRSZ);
}
/* ------------------
* NUMERIC to_char()
* ------------------
*/
text *
numeric_to_char(Numeric value, text *fmt)
{
static FormatNode CacheFormat[ NUM_CACHE_SIZE +1];
static char CacheStr[ NUM_CACHE_SIZE +1];
static NUMDesc CacheNum;
NUMDesc Num;
FormatNode *format;
text *result;
int flag=0;
int len=0, plen=0, sign=0;
char *numstr, *orgnum, *p;
NUM_TOCHAR_prepare;
/* ----------
* On DateType depend part (numeric)
* ----------
*/
if (IS_ROMAN(&Num)) {
numstr = orgnum = int_to_roman( numeric_int4( numeric_round(value, 0)));
} else {
Numeric val = value;
if (IS_MULTI(&Num)) {
val = numeric_mul(value,
numeric_power(int4_numeric(10), int4_numeric(Num.multi)));
Num.pre += Num.multi;
}
orgnum = numeric_out( numeric_round(val, Num.pos) );
if (*orgnum == '-') { /* < 0 */
sign = '-';
numstr = orgnum+1;
} else {
sign = '+';
numstr = orgnum;
}
if ((p = strchr(numstr, '.')))
len = p - numstr;
else
len = strlen(numstr);
if (Num.pre > len)
plen = Num.pre - len;
else if (len > Num.pre) {
fill_str(numstr, '#', Num.pre);
*(numstr + Num.pre) = '.';
fill_str(numstr + 1 + Num.pre, '#', Num.pos);
}
}
/*dump_node(format, VARSIZE(fmt) - VARHDRSZ);*/
NUM_TOCHAR_finish;
return result;
}
/* ---------------
* INT4 to_char()
* ---------------
*/
text *
int4_to_char(int32 value, text *fmt)
{
static FormatNode CacheFormat[ NUM_CACHE_SIZE +1];
static char CacheStr[ NUM_CACHE_SIZE +1];
static NUMDesc CacheNum;
NUMDesc Num;
FormatNode *format;
text *result;
int flag=0;
int len=0, plen=0, sign=0;
char *numstr, *orgnum;
NUM_TOCHAR_prepare;
/* ----------
* On DateType depend part (int32)
* ----------
*/
if (IS_ROMAN(&Num)) {
numstr = orgnum = int_to_roman( value );
} else {
if (IS_MULTI(&Num)) {
orgnum = int4out(int4mul(value, (int32) pow( (double)10, (double) Num.multi)));
Num.pre += Num.multi;
} else
orgnum = int4out(value);
len = strlen(orgnum);
if (*orgnum == '-') { /* < 0 */
sign = '-';
--len;
} else
sign = '+';
if (Num.pos) {
int i;
numstr = palloc( len + 1 + Num.pos );
strcpy(numstr, orgnum + (*orgnum == '-' ? 1 : 0));
*(numstr + len) = '.';
for(i=len+1; i<=Num.pos+len+1; i++)
*(numstr+i) = '0';
*(numstr + Num.pos + len + 1) = '\0';
pfree(orgnum);
orgnum = numstr;
} else
numstr = orgnum + (*orgnum == '-' ? 1 : 0);
if (Num.pre > len)
plen = Num.pre - len;
else if (len > Num.pre) {
fill_str(numstr, '#', Num.pre);
*(numstr + Num.pre) = '.';
fill_str(numstr + 1 + Num.pre, '#', Num.pos);
}
}
/*dump_node(format, len);*/
NUM_TOCHAR_finish;
return result;
}
/* ---------------
* INT8 to_char()
* ---------------
*/
text *
int8_to_char(int64 *value, text *fmt)
{
static FormatNode CacheFormat[ NUM_CACHE_SIZE +1];
static char CacheStr[ NUM_CACHE_SIZE +1];
static NUMDesc CacheNum;
NUMDesc Num;
FormatNode *format;
text *result;
int flag=0;
int len=0, plen=0, sign=0;
char *numstr, *orgnum;
NUM_TOCHAR_prepare;
/* ----------
* On DateType depend part (int32)
* ----------
*/
if (IS_ROMAN(&Num)) {
numstr = orgnum = int_to_roman( int84( value ));
} else {
if (IS_MULTI(&Num)) {
double multi = pow( (double)10, (double) Num.multi);
orgnum = int8out( int8mul(value, dtoi8( (float64) &multi )));
Num.pre += Num.multi;
} else
orgnum = int8out(value);
len = strlen(orgnum);
if (*orgnum == '-') { /* < 0 */
sign = '-';
--len;
} else
sign = '+';
if (Num.pos) {
int i;
numstr = palloc( len + 1 + Num.pos );
strcpy(numstr, orgnum + (*orgnum == '-' ? 1 : 0));
*(numstr + len) = '.';
for(i=len+1; i<=Num.pos+len+1; i++)
*(numstr+i) = '0';
*(numstr + Num.pos + len + 1) = '\0';
pfree(orgnum);
orgnum = numstr;
} else
numstr = orgnum + (*orgnum == '-' ? 1 : 0);
if (Num.pre > len)
plen = Num.pre - len;
else if (len > Num.pre) {
fill_str(numstr, '#', Num.pre);
*(numstr + Num.pre) = '.';
fill_str(numstr + 1 + Num.pre, '#', Num.pos);
}
}
NUM_TOCHAR_finish;
return result;
}
/* -----------------
* FLOAT4 to_char()
* -----------------
*/
text *
float4_to_char(float32 value, text *fmt)
{
static FormatNode CacheFormat[ NUM_CACHE_SIZE +1];
static char CacheStr[ NUM_CACHE_SIZE +1];
static NUMDesc CacheNum;
NUMDesc Num;
FormatNode *format;
text *result;
int flag=0;
int len=0, plen=0, sign=0;
char *numstr, *orgnum, *p;
NUM_TOCHAR_prepare;
if (IS_ROMAN(&Num)) {
numstr = orgnum = int_to_roman( (int) rint( *value ));
} else {
float32 val = value;
if (IS_MULTI(&Num)) {
float multi = pow( (double) 10, (double) Num.multi);
val = float4mul(value, (float32) &multi);
Num.pre += Num.multi;
}
orgnum = (char *) palloc(MAXFLOATWIDTH + 1);
len = sprintf(orgnum, "%.0f", fabs(*val));
if (Num.pre > len)
plen = Num.pre - len;
if (len >= FLT_DIG)
Num.pos = 0;
else if (Num.pos + len > FLT_DIG)
Num.pos = FLT_DIG - len;
sprintf(orgnum, "%.*f", Num.pos, *val);
if (*orgnum == '-') { /* < 0 */
sign = '-';
numstr = orgnum+1;
} else {
sign = '+';
numstr = orgnum;
}
if ((p = strchr(numstr, '.')))
len = p - numstr;
else
len = strlen(numstr);
if (Num.pre > len)
plen = Num.pre - len;
else if (len > Num.pre) {
fill_str(numstr, '#', Num.pre);
*(numstr + Num.pre) = '.';
fill_str(numstr + 1 + Num.pre, '#', Num.pos);
}
}
NUM_TOCHAR_finish;
return result;
}
/* -----------------
* FLOAT8 to_char()
* -----------------
*/
text *
float8_to_char(float64 value, text *fmt)
{
static FormatNode CacheFormat[ NUM_CACHE_SIZE +1];
static char CacheStr[ NUM_CACHE_SIZE +1];
static NUMDesc CacheNum;
NUMDesc Num;
FormatNode *format;
text *result;
int flag=0;
int len=0, plen=0, sign=0;
char *numstr, *orgnum, *p;
NUM_TOCHAR_prepare;
if (IS_ROMAN(&Num)) {
numstr = orgnum = int_to_roman( (int) rint( *value ));
} else {
float64 val = value;
if (IS_MULTI(&Num)) {
double multi = pow( (double) 10, (double) Num.multi);
val = float8mul(value, (float64) &multi);
Num.pre += Num.multi;
}
orgnum = (char *) palloc(MAXDOUBLEWIDTH + 1);
len = sprintf(orgnum, "%.0f", fabs(*val));
if (Num.pre > len)
plen = Num.pre - len;
if (len >= DBL_DIG)
Num.pos = 0;
else if (Num.pos + len > DBL_DIG)
Num.pos = DBL_DIG - len;
sprintf(orgnum, "%.*f", Num.pos, *val);
if (*orgnum == '-') { /* < 0 */
sign = '-';
numstr = orgnum+1;
} else {
sign = '+';
numstr = orgnum;
}
if ((p = strchr(numstr, '.')))
len = p - numstr;
else
len = strlen(numstr);
if (Num.pre > len)
plen = Num.pre - len;
else if (len > Num.pre) {
fill_str(numstr, '#', Num.pre);
*(numstr + Num.pre) = '.';
fill_str(numstr + 1 + Num.pre, '#', Num.pos);
}
}
NUM_TOCHAR_finish;
return result;
}