/************* Value C++ Functions Source Code File (.CPP) *************/ /* Name: VALUE.CPP Version 2.8 */ /* */ /* (C) Copyright to the author Olivier BERTRAND 2001-2017 */ /* */ /* This file contains the VALUE and derived classes family functions. */ /* These classes contain values of different types. They are used so */ /* new object types can be defined and added to the processing simply */ /* (hopefully) adding their specific functions in this file. */ /* First family is VALUE that represent single typed objects. It is */ /* used by columns (COLBLK), SELECT and FILTER (derived) objects. */ /* Second family is VALBLK, representing simple suballocated arrays */ /* of values treated sequentially by FIX, BIN and VCT tables and */ /* columns, as well for min/max blocks as for VCT column blocks. */ /* Q&A: why not using only one family ? Simple values are arrays that */ /* have only one element and arrays could have functions for all kind */ /* of processing. The answer is a-because historically it was simpler */ /* to do that way, b-because of performance on single values, and c- */ /* to avoid too complicated classes and unuseful duplication of many */ /* functions used on one family only. The drawback is that for new */ /* types of objects, we shall have more classes to update. */ /* Currently the only implemented types are STRING, INT, SHORT, TINY, */ /* DATE and LONGLONG. Recently we added some UNSIGNED types. */ /***********************************************************************/ /***********************************************************************/ /* Include relevant MariaDB header file. */ /***********************************************************************/ #include "my_global.h" #include "sql_class.h" #include "sql_time.h" #if defined(__WIN__) //#include <windows.h> #else // !__WIN__ #include <string.h> #endif // !__WIN__ #include <math.h> #undef DOMAIN // Was defined in math.h /***********************************************************************/ /* Include required application header files */ /* global.h is header containing all global Plug declarations. */ /* plgdbsem.h is header containing the DB applic. declarations. */ /***********************************************************************/ #include "global.h" #include "plgdbsem.h" #include "preparse.h" // For DATPAR #include "valblk.h" #define NO_FUNC // Already defined in ODBConn #include "plgcnx.h" // For DB types #include "osutil.h" /***********************************************************************/ /* Check macro's. */ /***********************************************************************/ #if defined(_DEBUG) #define CheckType(V) if (Type != V->GetType()) { \ PGLOBAL& g = Global; \ strcpy(g->Message, MSG(VALTYPE_NOMATCH)); \ throw Type; #else #define CheckType(V) #endif #define FOURYEARS 126230400 // Four years in seconds (1 leap) /***********************************************************************/ /* Initialize the DTVAL static member. */ /***********************************************************************/ int DTVAL::Shift = 0; /***********************************************************************/ /* Routines called externally. */ /***********************************************************************/ bool PlugEvalLike(PGLOBAL, LPCSTR, LPCSTR, bool); #if !defined(__WIN__) extern "C" { PSZ strupr(PSZ s); PSZ strlwr(PSZ s); } #endif // !__WIN__ /***********************************************************************/ /* Get a long long number from its character representation. */ /* IN p: Pointer to the numeric string */ /* IN n: The string length */ /* IN maxval: The number max value */ /* IN un: True if the number must be unsigned */ /* OUT rc: Set to TRUE for out of range value */ /* OUT minus: Set to true if the number is negative */ /* Returned val: The resulting number */ /***********************************************************************/ ulonglong CharToNumber(const char *p, int n, ulonglong maxval, bool un, bool *minus, bool *rc) { const char *p2; uchar c; ulonglong val; if (minus) *minus = false; if (rc) *rc = false; if (n <= 0) return 0LL; // Eliminate leading blanks or 0 for (p2 = p + n; p < p2 && (*p == ' ' || *p == '0'); p++) ; // Get an eventual sign character switch (*p) { case '-': if (un) { if (rc) *rc = true; return 0; } else { maxval++; if (minus) *minus = true; } // endif Unsigned case '+': p++; break; } // endswitch *p for (val = 0; p < p2 && (c = (uchar)(*p - '0')) < 10; p++) if (val > (maxval - c) / 10) { val = maxval; if (rc) *rc = true; break; } else val = val * 10 + c; return val; } // end of CharToNumber /***********************************************************************/ /* GetTypeName: returns the PlugDB internal type name. */ /***********************************************************************/ PCSZ GetTypeName(int type) { PCSZ name; switch (type) { case TYPE_STRING: name = "CHAR"; break; case TYPE_SHORT: name = "SMALLINT"; break; case TYPE_INT: name = "INTEGER"; break; case TYPE_BIGINT: name = "BIGINT"; break; case TYPE_DATE: name = "DATE"; break; case TYPE_DOUBLE: name = "DOUBLE"; break; case TYPE_TINY: name = "TINY"; break; case TYPE_DECIM: name = "DECIMAL"; break; case TYPE_BIN: name = "BINARY"; break; case TYPE_PCHAR: name = "PCHAR"; break; default: name = "UNKNOWN"; break; } // endswitch type return name; } // end of GetTypeName /***********************************************************************/ /* GetTypeSize: returns the PlugDB internal type size. */ /***********************************************************************/ int GetTypeSize(int type, int len) { switch (type) { case TYPE_DECIM: case TYPE_BIN: case TYPE_STRING: len = len * sizeof(char); break; case TYPE_SHORT: len = sizeof(short); break; case TYPE_INT: len = sizeof(int); break; case TYPE_BIGINT: len = sizeof(longlong); break; case TYPE_DATE: len = sizeof(int); break; case TYPE_DOUBLE: len = sizeof(double); break; case TYPE_TINY: len = sizeof(char); break; case TYPE_PCHAR: len = sizeof(char*); break; default: len = 0; } // endswitch type return len; } // end of GetTypeSize /***********************************************************************/ /* GetFormatType: returns the FORMAT character(s) according to type. */ /***********************************************************************/ const char *GetFormatType(int type) { const char *c = "X"; switch (type) { case TYPE_STRING: c = "C"; break; case TYPE_SHORT: c = "S"; break; case TYPE_INT: c = "N"; break; case TYPE_BIGINT: c = "L"; break; case TYPE_DOUBLE: c = "F"; break; case TYPE_DATE: c = "D"; break; case TYPE_TINY: c = "T"; break; case TYPE_DECIM: c = "M"; break; case TYPE_BIN: c = "B"; break; case TYPE_PCHAR: c = "P"; break; } // endswitch type return c; } // end of GetFormatType /***********************************************************************/ /* GetFormatType: returns the FORMAT type according to character. */ /***********************************************************************/ int GetFormatType(char c) { int type = TYPE_ERROR; switch (c) { case 'C': type = TYPE_STRING; break; case 'S': type = TYPE_SHORT; break; case 'N': type = TYPE_INT; break; case 'L': type = TYPE_BIGINT; break; case 'F': type = TYPE_DOUBLE; break; case 'D': type = TYPE_DATE; break; case 'T': type = TYPE_TINY; break; case 'M': type = TYPE_DECIM; break; case 'B': type = TYPE_BIN; break; case 'P': type = TYPE_PCHAR; break; } // endswitch type return type; } // end of GetFormatType /***********************************************************************/ /* IsTypeChar: returns true for character type(s). */ /***********************************************************************/ bool IsTypeChar(int type) { switch (type) { case TYPE_STRING: case TYPE_DECIM: return true; } // endswitch type return false; } // end of IsTypeChar /***********************************************************************/ /* IsTypeNum: returns true for numeric types. */ /***********************************************************************/ bool IsTypeNum(int type) { switch (type) { case TYPE_INT: case TYPE_BIGINT: case TYPE_DATE: case TYPE_DOUBLE: case TYPE_SHORT: case TYPE_NUM: case TYPE_TINY: case TYPE_DECIM: return true; } // endswitch type return false; } // end of IsTypeNum /***********************************************************************/ /* GetFmt: returns the format to use with a typed value. */ /***********************************************************************/ const char *GetFmt(int type, bool un) { const char *fmt; switch (type) { case TYPE_DECIM: case TYPE_STRING: fmt = "%s"; break; case TYPE_SHORT: fmt = (un) ? "%hu" : "%hd"; break; case TYPE_BIGINT: fmt = (un) ? "%llu" : "%lld"; break; case TYPE_DOUBLE: fmt = "%.*lf"; break; case TYPE_BIN: fmt = "%*x"; break; default: fmt = (un) ? "%u" : "%d"; break; } // endswitch Type return fmt; } // end of GetFmt /***********************************************************************/ /* ConvertType: what this function does is to determine the type to */ /* which should be converted a value so no precision would be lost. */ /* This can be a numeric type if num is true or non numeric if false. */ /* Note: this is an ultra simplified version of this function that */ /* should become more and more complex as new types are added. */ /* Not evaluated types (TYPE_VOID or TYPE_UNDEF) return false from */ /* IsType... functions so match does not prevent correct setting. */ /***********************************************************************/ int ConvertType(int target, int type, CONV kind, bool match) { switch (kind) { case CNV_CHAR: if (match && (!IsTypeChar(target) || !IsTypeChar(type))) return TYPE_ERROR; return TYPE_STRING; case CNV_NUM: if (match && (!IsTypeNum(target) || !IsTypeNum(type))) return TYPE_ERROR; return (target == TYPE_DOUBLE || type == TYPE_DOUBLE) ? TYPE_DOUBLE : (target == TYPE_DATE || type == TYPE_DATE) ? TYPE_DATE : (target == TYPE_BIGINT || type == TYPE_BIGINT) ? TYPE_BIGINT : (target == TYPE_INT || type == TYPE_INT) ? TYPE_INT : (target == TYPE_SHORT || type == TYPE_SHORT) ? TYPE_SHORT : TYPE_TINY; default: if (target == TYPE_ERROR || target == type) return type; if (match && ((IsTypeChar(target) && !IsTypeChar(type)) || (IsTypeNum(target) && !IsTypeNum(type)))) return TYPE_ERROR; return (target == TYPE_DOUBLE || type == TYPE_DOUBLE) ? TYPE_DOUBLE : (target == TYPE_DATE || type == TYPE_DATE) ? TYPE_DATE : (target == TYPE_BIGINT || type == TYPE_BIGINT) ? TYPE_BIGINT : (target == TYPE_INT || type == TYPE_INT) ? TYPE_INT : (target == TYPE_SHORT || type == TYPE_SHORT) ? TYPE_SHORT : (target == TYPE_STRING || type == TYPE_STRING) ? TYPE_STRING : (target == TYPE_TINY || type == TYPE_TINY) ? TYPE_TINY : TYPE_ERROR; } // endswitch kind } // end of ConvertType /***********************************************************************/ /* AllocateConstant: allocates a constant Value. */ /***********************************************************************/ PVAL AllocateValue(PGLOBAL g, void *value, short type, short prec) { PVAL valp; if (trace) htrc("AllocateConstant: value=%p type=%hd\n", value, type); switch (type) { case TYPE_STRING: valp = new(g) TYPVAL<PSZ>((PSZ)value, prec); break; case TYPE_SHORT: valp = new(g) TYPVAL<short>(*(short*)value, TYPE_SHORT); break; case TYPE_INT: valp = new(g) TYPVAL<int>(*(int*)value, TYPE_INT); break; case TYPE_BIGINT: valp = new(g) TYPVAL<longlong>(*(longlong*)value, TYPE_BIGINT); break; case TYPE_DOUBLE: valp = new(g) TYPVAL<double>(*(double *)value, TYPE_DOUBLE, prec); break; case TYPE_TINY: valp = new(g) TYPVAL<char>(*(char *)value, TYPE_TINY); break; default: sprintf(g->Message, MSG(BAD_VALUE_TYPE), type); return NULL; } // endswitch Type valp->SetGlobal(g); return valp; } // end of AllocateValue /***********************************************************************/ /* Allocate a variable Value according to type, length and precision. */ /***********************************************************************/ PVAL AllocateValue(PGLOBAL g, int type, int len, int prec, bool uns, PCSZ fmt) { PVAL valp; switch (type) { case TYPE_STRING: valp = new(g) TYPVAL<PSZ>(g, (PSZ)NULL, len, prec); break; case TYPE_DATE: valp = new(g) DTVAL(g, len, prec, fmt); break; case TYPE_INT: if (uns) valp = new(g) TYPVAL<uint>((uint)0, TYPE_INT, 0, true); else valp = new(g) TYPVAL<int>((int)0, TYPE_INT); break; case TYPE_BIGINT: if (uns) valp = new(g) TYPVAL<ulonglong>((ulonglong)0, TYPE_BIGINT, 0, true); else valp = new(g) TYPVAL<longlong>((longlong)0, TYPE_BIGINT); break; case TYPE_SHORT: if (uns) valp = new(g) TYPVAL<ushort>((ushort)0, TYPE_SHORT, 0, true); else valp = new(g) TYPVAL<short>((short)0, TYPE_SHORT); break; case TYPE_DOUBLE: valp = new(g) TYPVAL<double>(0.0, TYPE_DOUBLE, prec); break; case TYPE_TINY: if (uns) valp = new(g) TYPVAL<uchar>((uchar)0, TYPE_TINY, 0, true); else valp = new(g) TYPVAL<char>((char)0, TYPE_TINY); break; case TYPE_DECIM: valp = new(g) DECVAL(g, (PSZ)NULL, len, prec, uns); break; case TYPE_BIN: valp = new(g) BINVAL(g, (void*)NULL, len, prec); break; default: sprintf(g->Message, MSG(BAD_VALUE_TYPE), type); return NULL; } // endswitch type valp->SetGlobal(g); return valp; } // end of AllocateValue /***********************************************************************/ /* Allocate a constant Value converted to newtype. */ /* Can also be used to copy a Value eventually converted. */ /***********************************************************************/ PVAL AllocateValue(PGLOBAL g, PVAL valp, int newtype, int uns) { PSZ p, sp; bool un = (uns < 0) ? false : (uns > 0) ? true : valp->IsUnsigned(); PVAL vp; if (!valp) return NULL; if (newtype == TYPE_VOID) // Means allocate a value of the same type newtype = valp->GetType(); switch (newtype) { case TYPE_STRING: p = (PSZ)PlugSubAlloc(g, NULL, 1 + valp->GetValLen()); if ((sp = valp->GetCharString(p)) != p && sp) strcpy(p, sp); vp = new(g) TYPVAL<PSZ>(g, p, valp->GetValLen(), valp->GetValPrec()); break; case TYPE_SHORT: if (un) vp = new(g) TYPVAL<ushort>(valp->GetUShortValue(), TYPE_SHORT, 0, true); else vp = new(g) TYPVAL<short>(valp->GetShortValue(), TYPE_SHORT); break; case TYPE_INT: if (un) vp = new(g) TYPVAL<uint>(valp->GetUIntValue(), TYPE_INT, 0, true); else vp = new(g) TYPVAL<int>(valp->GetIntValue(), TYPE_INT); break; case TYPE_BIGINT: if (un) vp = new(g) TYPVAL<ulonglong>(valp->GetUBigintValue(), TYPE_BIGINT, 0, true); else vp = new(g) TYPVAL<longlong>(valp->GetBigintValue(), TYPE_BIGINT); break; case TYPE_DATE: vp = new(g) DTVAL(valp->GetIntValue()); break; case TYPE_DOUBLE: vp = new(g) TYPVAL<double>(valp->GetFloatValue(), TYPE_DOUBLE, (uns) ? uns : valp->GetValPrec()); break; case TYPE_TINY: if (un) vp = new(g) TYPVAL<uchar>(valp->GetUTinyValue(), TYPE_TINY, 0, true); else vp = new(g) TYPVAL<char>(valp->GetTinyValue(), TYPE_TINY); break; default: sprintf(g->Message, MSG(BAD_VALUE_TYPE), newtype); return NULL; } // endswitch type vp->SetNullable(valp->GetNullable()); vp->SetNull(valp->IsNull()); vp->SetGlobal(g); return vp; } // end of AllocateValue /* -------------------------- Class VALUE ---------------------------- */ /***********************************************************************/ /* Class VALUE protected constructor. */ /***********************************************************************/ VALUE::VALUE(int type, bool un) : Type(type) { Null = false; Nullable = false; Unsigned = un; Clen = 0; Prec = 0; Fmt = GetFmt(Type, Unsigned); Xfmt = GetXfmt(); } // end of VALUE constructor /***********************************************************************/ /* VALUE GetXfmt: returns the extended format to use with typed value. */ /***********************************************************************/ const char *VALUE::GetXfmt(void) { const char *fmt; switch (Type) { case TYPE_DECIM: case TYPE_STRING: fmt = "%*s"; break; case TYPE_SHORT: fmt = (Unsigned) ? "%*hu" : "%*hd"; break; case TYPE_BIGINT: fmt = (Unsigned) ? "%*llu" : "%*lld"; break; case TYPE_DOUBLE: fmt = "%*.*lf"; break; case TYPE_BIN: fmt = "%*x"; break; default: fmt = (Unsigned) ? "%*u" : "%*d"; break; } // endswitch Type return fmt; } // end of GetFmt /***********************************************************************/ /* Returns a BYTE indicating the comparison between two values. */ /* Bit 1 indicates equality, Bit 2 less than, and Bit3 greater than. */ /* More than 1 bit can be set only in the case of TYPE_LIST. */ /***********************************************************************/ BYTE VALUE::TestValue(PVAL vp) { int n = CompareValue(vp); return (n > 0) ? 0x04 : (n < 0) ? 0x02 : 0x01; } // end of TestValue /***********************************************************************/ /* Compute a function on a string. */ /***********************************************************************/ bool VALUE::Compute(PGLOBAL g, PVAL *, int, OPVAL) { strcpy(g->Message, "Compute not implemented for this value type"); return true; } // end of Compute /***********************************************************************/ /* Make file output of an object value. */ /***********************************************************************/ void VALUE::Printf(PGLOBAL g, FILE *f, uint n) { char m[64], buf[64]; memset(m, ' ', n); /* Make margin string */ m[n] = '\0'; if (Null) fprintf(f, "%s<null>\n", m); else fprintf(f, strcat(strcat(GetCharString(buf), "\n"), m)); } /* end of Printf */ /***********************************************************************/ /* Make string output of an object value. */ /***********************************************************************/ void VALUE::Prints(PGLOBAL g, char *ps, uint z) { char *p, buf[64]; if (Null) p = strcpy(buf, "<null>"); else p = GetCharString(buf); strncpy(ps, p, z); } // end of Prints /* -------------------------- Class TYPVAL ---------------------------- */ /***********************************************************************/ /* TYPVAL public constructor from a constant typed value. */ /***********************************************************************/ template <class TYPE> TYPVAL<TYPE>::TYPVAL(TYPE n, int type, int prec, bool un) : VALUE(type, un) { Tval = n; Clen = sizeof(TYPE); Prec = prec; } // end of TYPVAL constructor /***********************************************************************/ /* Return unsigned max value for the type. */ /***********************************************************************/ template <class TYPE> ulonglong TYPVAL<TYPE>::MaxVal(void) {DBUG_ASSERT(false); return 0;} template <> ulonglong TYPVAL<short>::MaxVal(void) {return INT_MAX16;} template <> ulonglong TYPVAL<ushort>::MaxVal(void) {return UINT_MAX16;} template <> ulonglong TYPVAL<int>::MaxVal(void) {return INT_MAX32;} template <> ulonglong TYPVAL<uint>::MaxVal(void) {return UINT_MAX32;} template <> ulonglong TYPVAL<char>::MaxVal(void) {return INT_MAX8;} template <> ulonglong TYPVAL<uchar>::MaxVal(void) {return UINT_MAX8;} template <> ulonglong TYPVAL<longlong>::MaxVal(void) {return INT_MAX64;} template <> ulonglong TYPVAL<ulonglong>::MaxVal(void) {return ULONGLONG_MAX;} /***********************************************************************/ /* TYPVAL GetValLen: returns the print length of the typed object. */ /***********************************************************************/ template <class TYPE> int TYPVAL<TYPE>::GetValLen(void) { char c[32]; return sprintf(c, Fmt, Tval); } // end of GetValLen template <> int TYPVAL<double>::GetValLen(void) { char c[32]; return sprintf(c, Fmt, Prec, Tval); } // end of GetValLen /***********************************************************************/ /* TYPVAL SetValue: copy the value of another Value object. */ /* This function allows conversion if chktype is false. */ /***********************************************************************/ template <class TYPE> bool TYPVAL<TYPE>::SetValue_pval(PVAL valp, bool chktype) { if (valp != this) { if (chktype && Type != valp->GetType()) return true; if (!(Null = valp->IsNull() && Nullable)) Tval = GetTypedValue(valp); else Reset(); } // endif valp return false; } // end of SetValue template <> short TYPVAL<short>::GetTypedValue(PVAL valp) {return valp->GetShortValue();} template <> ushort TYPVAL<ushort>::GetTypedValue(PVAL valp) {return valp->GetUShortValue();} template <> int TYPVAL<int>::GetTypedValue(PVAL valp) {return valp->GetIntValue();} template <> uint TYPVAL<uint>::GetTypedValue(PVAL valp) {return valp->GetUIntValue();} template <> longlong TYPVAL<longlong>::GetTypedValue(PVAL valp) {return valp->GetBigintValue();} template <> ulonglong TYPVAL<ulonglong>::GetTypedValue(PVAL valp) {return valp->GetUBigintValue();} template <> double TYPVAL<double>::GetTypedValue(PVAL valp) {return valp->GetFloatValue();} template <> char TYPVAL<char>::GetTypedValue(PVAL valp) {return valp->GetTinyValue();} template <> uchar TYPVAL<uchar>::GetTypedValue(PVAL valp) {return valp->GetUTinyValue();} /***********************************************************************/ /* TYPVAL SetValue: convert chars extracted from a line to TYPE value.*/ /***********************************************************************/ template <class TYPE> bool TYPVAL<TYPE>::SetValue_char(const char *p, int n) { bool rc, minus; ulonglong maxval = MaxVal(); ulonglong val = CharToNumber(p, n, maxval, Unsigned, &minus, &rc); if (minus && val < maxval) Tval = (TYPE)(-(signed)val); else Tval = (TYPE)val; if (trace > 1) { char buf[64]; htrc(strcat(strcat(strcpy(buf, " setting %s to: "), Fmt), "\n"), GetTypeName(Type), Tval); } // endif trace Null = false; return rc; } // end of SetValue template <> bool TYPVAL<double>::SetValue_char(const char *p, int n) { if (p && n > 0) { char buf[64]; for (; n > 0 && *p == ' '; p++) n--; memcpy(buf, p, MY_MIN(n, 31)); buf[n] = '\0'; Tval = atof(buf); if (trace > 1) htrc(" setting double: '%s' -> %lf\n", buf, Tval); Null = false; } else { Reset(); Null = Nullable; } // endif p return false; } // end of SetValue /***********************************************************************/ /* TYPVAL SetValue: fill a typed value from a string. */ /***********************************************************************/ template <class TYPE> void TYPVAL<TYPE>::SetValue_psz(PCSZ s) { if (s) { SetValue_char(s, (int)strlen(s)); Null = false; } else { Reset(); Null = Nullable; } // endif p } // end of SetValue /***********************************************************************/ /* TYPVAL SetValue: set value with a TYPE extracted from a block. */ /***********************************************************************/ template <class TYPE> void TYPVAL<TYPE>::SetValue_pvblk(PVBLK blk, int n) { Tval = GetTypedValue(blk, n); Null = false; } // end of SetValue template <> int TYPVAL<int>::GetTypedValue(PVBLK blk, int n) {return blk->GetIntValue(n);} template <> uint TYPVAL<uint>::GetTypedValue(PVBLK blk, int n) {return blk->GetUIntValue(n);} template <> short TYPVAL<short>::GetTypedValue(PVBLK blk, int n) {return blk->GetShortValue(n);} template <> ushort TYPVAL<ushort>::GetTypedValue(PVBLK blk, int n) {return blk->GetUShortValue(n);} template <> longlong TYPVAL<longlong>::GetTypedValue(PVBLK blk, int n) {return blk->GetBigintValue(n);} template <> ulonglong TYPVAL<ulonglong>::GetTypedValue(PVBLK blk, int n) {return blk->GetUBigintValue(n);} template <> double TYPVAL<double>::GetTypedValue(PVBLK blk, int n) {return blk->GetFloatValue(n);} template <> char TYPVAL<char>::GetTypedValue(PVBLK blk, int n) {return blk->GetTinyValue(n);} template <> uchar TYPVAL<uchar>::GetTypedValue(PVBLK blk, int n) {return blk->GetUTinyValue(n);} /***********************************************************************/ /* TYPVAL SetBinValue: with bytes extracted from a line. */ /* Currently only used reading column of binary files. */ /***********************************************************************/ template <class TYPE> void TYPVAL<TYPE>::SetBinValue(void *p) { #if defined(UNALIGNED_OK) // x86 can cast non-aligned memory directly Tval = *(TYPE *)p; #else // Prevent unaligned memory access on MIPS and ArmHF platforms. // Make use of memcpy instead of straight pointer dereferencing. // Currently only used by WriteColumn of binary files. // From original author: Vicentiu Ciorbaru <vicentiu@mariadb.org> memcpy(&Tval, p, sizeof(TYPE)); #endif Null = false; } // end of SetBinValue /***********************************************************************/ /* GetBinValue: fill a buffer with the internal binary value. */ /* This function checks whether the buffer length is enough and */ /* returns true if not. Actual filling occurs only if go is true. */ /* Currently only used writing column of binary files. */ /***********************************************************************/ template <class TYPE> bool TYPVAL<TYPE>::GetBinValue(void *buf, int buflen, bool go) { // Test on length was removed here until a variable in column give the // real field length. For BIN files the field length logically cannot // be different from the variable length because no conversion is done. // Therefore this test is useless anyway. //#if defined(_DEBUG) // if (sizeof(TYPE) > buflen) // return true; //#endif if (go) #if defined(UNALIGNED_OK) // x86 can cast non-aligned memory directly *(TYPE *)buf = Tval; #else // Prevent unaligned memory access on MIPS and ArmHF platforms. // Make use of memcpy instead of straight pointer dereferencing. // Currently only used by WriteColumn of binary files. // From original author: Vicentiu Ciorbaru <vicentiu@mariadb.org> memcpy(buf, &Tval, sizeof(TYPE)); #endif Null = false; return false; } // end of GetBinValue /***********************************************************************/ /* TYPVAL ShowValue: get string representation of a typed value. */ /***********************************************************************/ template <class TYPE> char *TYPVAL<TYPE>::ShowValue(char *buf, int len) { sprintf(buf, Xfmt, len, Tval); return buf; } // end of ShowValue template <> char *TYPVAL<double>::ShowValue(char *buf, int len) { // TODO: use snprintf to avoid possible overflow sprintf(buf, Xfmt, len, Prec, Tval); return buf; } // end of ShowValue /***********************************************************************/ /* TYPVAL GetCharString: get string representation of a typed value. */ /***********************************************************************/ template <class TYPE> char *TYPVAL<TYPE>::GetCharString(char *p) { sprintf(p, Fmt, Tval); return p; } // end of GetCharString template <> char *TYPVAL<double>::GetCharString(char *p) { sprintf(p, Fmt, Prec, Tval); return p; } // end of GetCharString #if 0 /***********************************************************************/ /* TYPVAL GetShortString: get short representation of a typed value. */ /***********************************************************************/ template <class TYPE> char *TYPVAL<TYPE>::GetShortString(char *p, int n) { sprintf(p, "%*hd", n, (short)Tval); return p; } // end of GetShortString /***********************************************************************/ /* TYPVAL GetIntString: get int representation of a typed value. */ /***********************************************************************/ template <class TYPE> char *TYPVAL<TYPE>::GetIntString(char *p, int n) { sprintf(p, "%*d", n, (int)Tval); return p; } // end of GetIntString /***********************************************************************/ /* TYPVAL GetBigintString: get big int representation of a TYPE value.*/ /***********************************************************************/ template <class TYPE> char *TYPVAL<TYPE>::GetBigintString(char *p, int n) { sprintf(p, "%*lld", n, (longlong)Tval); return p; } // end of GetBigintString /***********************************************************************/ /* TYPVAL GetFloatString: get double representation of a typed value. */ /***********************************************************************/ template <class TYPE> char *TYPVAL<TYPE>::GetFloatString(char *p, int n, int prec) { sprintf(p, "%*.*lf", n, (prec < 0) ? 2 : prec, (double)Tval); return p; } // end of GetFloatString /***********************************************************************/ /* TYPVAL GetTinyString: get char representation of a typed value. */ /***********************************************************************/ template <class TYPE> char *TYPVAL<TYPE>::GetTinyString(char *p, int n) { sprintf(p, "%*d", n, (int)(char)Tval); return p; } // end of GetIntString #endif // 0 /***********************************************************************/ /* TYPVAL compare value with another Value. */ /***********************************************************************/ template <class TYPE> bool TYPVAL<TYPE>::IsEqual(PVAL vp, bool chktype) { if (this == vp) return true; else if (chktype && Type != vp->GetType()) return false; else if (chktype && Unsigned != vp->IsUnsigned()) return false; else if (Null || vp->IsNull()) return false; else return (Tval == GetTypedValue(vp)); } // end of IsEqual /***********************************************************************/ /* Compare values and returns 1, 0 or -1 according to comparison. */ /* This function is used for evaluation of numeric filters. */ /***********************************************************************/ template <class TYPE> int TYPVAL<TYPE>::CompareValue(PVAL vp) { //assert(vp->GetType() == Type); // Process filtering on numeric values. TYPE n = GetTypedValue(vp); //if (trace) // htrc(" Comparing: val=%d,%d\n", Tval, n); return (Tval > n) ? 1 : (Tval < n) ? (-1) : 0; } // end of CompareValue /***********************************************************************/ /* Return max type value if b is true, else min type value. */ /***********************************************************************/ template <> short TYPVAL<short>::MinMaxVal(bool b) {return (b) ? INT_MAX16 : INT_MIN16;} template <> ushort TYPVAL<ushort>::MinMaxVal(bool b) {return (b) ? UINT_MAX16 : 0;} template <> int TYPVAL<int>::MinMaxVal(bool b) {return (b) ? INT_MAX32 : INT_MIN32;} template <> uint TYPVAL<uint>::MinMaxVal(bool b) {return (b) ? UINT_MAX32 : 0;} template <> longlong TYPVAL<longlong>::MinMaxVal(bool b) {return (b) ? INT_MAX64 : INT_MIN64;} template <> ulonglong TYPVAL<ulonglong>::MinMaxVal(bool b) {return (b) ? 0xFFFFFFFFFFFFFFFFLL : 0;} template <> double TYPVAL<double>::MinMaxVal(bool) {assert(false); return 0.0;} template <> char TYPVAL<char>::MinMaxVal(bool b) {return (b) ? INT_MAX8 : INT_MIN8;} template <> uchar TYPVAL<uchar>::MinMaxVal(bool b) {return (b) ? UINT_MAX8 : 0;} /***********************************************************************/ /* SafeAdd: adds a value and test whether overflow/underflow occurred. */ /***********************************************************************/ template <class TYPE> TYPE TYPVAL<TYPE>::SafeAdd(TYPE n1, TYPE n2) { PGLOBAL& g = Global; TYPE n = n1 + n2; if ((n2 > 0) && (n < n1)) { // Overflow strcpy(g->Message, MSG(FIX_OVFLW_ADD)); throw 138; } else if ((n2 < 0) && (n > n1)) { // Underflow strcpy(g->Message, MSG(FIX_UNFLW_ADD)); throw 138; } // endif's n2 return n; } // end of SafeAdd template <> inline double TYPVAL<double>::SafeAdd(double n1, double n2) { return n1 + n2; } // end of SafeAdd /***********************************************************************/ /* SafeMult: multiply values and test whether overflow occurred. */ /***********************************************************************/ template <class TYPE> TYPE TYPVAL<TYPE>::SafeMult(TYPE n1, TYPE n2) { PGLOBAL& g = Global; double n = (double)n1 * (double)n2; if (n > MinMaxVal(true)) { // Overflow strcpy(g->Message, MSG(FIX_OVFLW_TIMES)); throw 138; } else if (n < MinMaxVal(false)) { // Underflow strcpy(g->Message, MSG(FIX_UNFLW_TIMES)); throw 138; } // endif's n2 return (TYPE)n; } // end of SafeMult template <> inline double TYPVAL<double>::SafeMult(double n1, double n2) { return n1 * n2; } // end of SafeMult /***********************************************************************/ /* Compute defined functions for the type. */ /***********************************************************************/ template <class TYPE> bool TYPVAL<TYPE>::Compute(PGLOBAL g, PVAL *vp, int np, OPVAL op) { bool rc = false; TYPE val[2]; assert(np == 2); for (int i = 0; i < np; i++) val[i] = GetTypedValue(vp[i]); switch (op) { case OP_ADD: Tval = SafeAdd(val[0], val[1]); break; case OP_MULT: Tval = SafeMult(val[0], val[1]); break; case OP_DIV: if (!val[1]) { strcpy(g->Message, MSG(ZERO_DIVIDE)); return true; } // endif Tval = val[0] / val[1]; break; default: rc = Compall(g, vp, np, op); break; } // endswitch op return rc; } // end of Compute template <> bool TYPVAL<double>::Compute(PGLOBAL g, PVAL *vp, int np, OPVAL op) { bool rc = false; double val[2]; assert(np == 2); for (int i = 0; i < np; i++) val[i] = vp[i]->GetFloatValue(); switch (op) { case OP_ADD: Tval = val[0] + val[1]; break; case OP_MULT: Tval = val[0] * val[1]; break; default: rc = Compall(g, vp, np, op); } // endswitch op return rc; } // end of Compute /***********************************************************************/ /* Compute a function for all types. */ /***********************************************************************/ template <class TYPE> bool TYPVAL<TYPE>::Compall(PGLOBAL g, PVAL *vp, int np, OPVAL op) { TYPE val[2]; for (int i = 0; i < np; i++) val[i] = GetTypedValue(vp[i]); switch (op) { case OP_DIV: if (val[0]) { if (!val[1]) { strcpy(g->Message, MSG(ZERO_DIVIDE)); return true; } // endif Tval = val[0] / val[1]; } else Tval = 0; break; case OP_MIN: Tval = MY_MIN(val[0], val[1]); break; case OP_MAX: Tval = MY_MAX(val[0], val[1]); break; default: // sprintf(g->Message, MSG(BAD_EXP_OPER), op); strcpy(g->Message, "Function not supported"); return true; } // endswitch op return false; } // end of Compall /***********************************************************************/ /* FormatValue: This function set vp (a STRING value) to the string */ /* constructed from its own value formated using the fmt format. */ /* This function assumes that the format matches the value type. */ /***********************************************************************/ template <class TYPE> bool TYPVAL<TYPE>::FormatValue(PVAL vp, PCSZ fmt) { char *buf = (char*)vp->GetTo_Val(); // Should be big enough int n = sprintf(buf, fmt, Tval); return (n > vp->GetValLen()); } // end of FormatValue /***********************************************************************/ /* TYPVAL SetFormat function (used to set SELECT output format). */ /***********************************************************************/ template <class TYPE> bool TYPVAL<TYPE>::SetConstFormat(PGLOBAL g, FORMAT& fmt) { char c[32]; fmt.Type[0] = *GetFormatType(Type); fmt.Length = sprintf(c, Fmt, Tval); fmt.Prec = Prec; return false; } // end of SetConstFormat /* -------------------------- Class STRING --------------------------- */ /***********************************************************************/ /* STRING public constructor from a constant string. */ /***********************************************************************/ TYPVAL<PSZ>::TYPVAL(PSZ s, short c) : VALUE(TYPE_STRING) { Strp = s; Len = strlen(s); Clen = Len; Ci = (c == 1); } // end of STRING constructor /***********************************************************************/ /* STRING public constructor from char. */ /***********************************************************************/ TYPVAL<PSZ>::TYPVAL(PGLOBAL g, PSZ s, int n, int c) : VALUE(TYPE_STRING) { Len = (g) ? n : (s) ? strlen(s) : 0; if (!s) { if (g) { if ((Strp = (char *)PlgDBSubAlloc(g, NULL, Len + 1))) memset(Strp, 0, Len + 1); else Len = 0; } else assert(false); } else Strp = s; Clen = Len; Ci = (c != 0); } // end of STRING constructor /***********************************************************************/ /* Get the tiny value represented by the Strp string. */ /***********************************************************************/ char TYPVAL<PSZ>::GetTinyValue(void) { bool m; ulonglong val = CharToNumber(Strp, strlen(Strp), INT_MAX8, false, &m); return (m && val < INT_MAX8) ? (char)(-(signed)val) : (char)val; } // end of GetTinyValue /***********************************************************************/ /* Get the unsigned tiny value represented by the Strp string. */ /***********************************************************************/ uchar TYPVAL<PSZ>::GetUTinyValue(void) { return (uchar)CharToNumber(Strp, strlen(Strp), UINT_MAX8, true); } // end of GetUTinyValue /***********************************************************************/ /* Get the short value represented by the Strp string. */ /***********************************************************************/ short TYPVAL<PSZ>::GetShortValue(void) { bool m; ulonglong val = CharToNumber(Strp, strlen(Strp), INT_MAX16, false, &m); return (m && val < INT_MAX16) ? (short)(-(signed)val) : (short)val; } // end of GetShortValue /***********************************************************************/ /* Get the unsigned short value represented by the Strp string. */ /***********************************************************************/ ushort TYPVAL<PSZ>::GetUShortValue(void) { return (ushort)CharToNumber(Strp, strlen(Strp), UINT_MAX16, true); } // end of GetUshortValue /***********************************************************************/ /* Get the integer value represented by the Strp string. */ /***********************************************************************/ int TYPVAL<PSZ>::GetIntValue(void) { bool m; ulonglong val = CharToNumber(Strp, strlen(Strp), INT_MAX32, false, &m); return (m && val < INT_MAX32) ? (int)(-(signed)val) : (int)val; } // end of GetIntValue /***********************************************************************/ /* Get the unsigned integer value represented by the Strp string. */ /***********************************************************************/ uint TYPVAL<PSZ>::GetUIntValue(void) { return (uint)CharToNumber(Strp, strlen(Strp), UINT_MAX32, true); } // end of GetUintValue /***********************************************************************/ /* Get the big integer value represented by the Strp string. */ /***********************************************************************/ longlong TYPVAL<PSZ>::GetBigintValue(void) { bool m; ulonglong val = CharToNumber(Strp, strlen(Strp), INT_MAX64, false, &m); return (m && val < INT_MAX64) ? (-(signed)val) : (longlong)val; } // end of GetBigintValue /***********************************************************************/ /* Get the unsigned big integer value represented by the Strp string. */ /***********************************************************************/ ulonglong TYPVAL<PSZ>::GetUBigintValue(void) { return CharToNumber(Strp, strlen(Strp), ULONGLONG_MAX, true); } // end of GetUBigintValue /***********************************************************************/ /* STRING SetValue: copy the value of another Value object. */ /***********************************************************************/ bool TYPVAL<PSZ>::SetValue_pval(PVAL valp, bool chktype) { if (valp != this) { if (chktype && (valp->GetType() != Type || valp->GetSize() > Len)) return true; char buf[64]; if (!(Null = valp->IsNull() && Nullable)) strncpy(Strp, valp->GetCharString(buf), Len); else Reset(); } // endif valp return false; } // end of SetValue_pval /***********************************************************************/ /* STRING SetValue: fill string with chars extracted from a line. */ /***********************************************************************/ bool TYPVAL<PSZ>::SetValue_char(const char *cp, int n) { bool rc = false; if (!cp || n == 0) { Reset(); Null = Nullable; } else if (cp != Strp) { const char *p = cp + n - 1; for (p; p >= cp; p--, n--) if (*p && *p != ' ') break; rc = n > Len; if ((n = MY_MIN(n, Len))) { strncpy(Strp, cp, n); Strp[n] = '\0'; if (trace > 1) htrc(" Setting string to: '%s'\n", Strp); } else Reset(); Null = false; } // endif p return rc; } // end of SetValue_char /***********************************************************************/ /* STRING SetValue: fill string with another string. */ /***********************************************************************/ void TYPVAL<PSZ>::SetValue_psz(PCSZ s) { if (!s) { Reset(); Null = Nullable; } else if (s != Strp) { strncpy(Strp, s, Len); Null = false; } // endif s } // end of SetValue_psz /***********************************************************************/ /* STRING SetValue: fill string with a string extracted from a block. */ /***********************************************************************/ void TYPVAL<PSZ>::SetValue_pvblk(PVBLK blk, int n) { // STRBLK's can return a NULL pointer PSZ vp = blk->GetCharString(Strp, n); if (vp != Strp) SetValue_psz(vp); } // end of SetValue_pvblk /***********************************************************************/ /* STRING SetValue: get the character representation of an integer. */ /***********************************************************************/ void TYPVAL<PSZ>::SetValue(int n) { char buf[16]; PGLOBAL& g = Global; int k = sprintf(buf, "%d", n); if (k > Len) { sprintf(g->Message, MSG(VALSTR_TOO_LONG), buf, Len); throw 138; } else SetValue_psz(buf); Null = false; } // end of SetValue /***********************************************************************/ /* STRING SetValue: get the character representation of an uint. */ /***********************************************************************/ void TYPVAL<PSZ>::SetValue(uint n) { char buf[16]; PGLOBAL& g = Global; int k = sprintf(buf, "%u", n); if (k > Len) { sprintf(g->Message, MSG(VALSTR_TOO_LONG), buf, Len); throw 138; } else SetValue_psz(buf); Null = false; } // end of SetValue /***********************************************************************/ /* STRING SetValue: get the character representation of a short int. */ /***********************************************************************/ void TYPVAL<PSZ>::SetValue(short i) { SetValue((int)i); Null = false; } // end of SetValue /***********************************************************************/ /* STRING SetValue: get the character representation of a ushort int. */ /***********************************************************************/ void TYPVAL<PSZ>::SetValue(ushort i) { SetValue((uint)i); Null = false; } // end of SetValue /***********************************************************************/ /* STRING SetValue: get the character representation of a big integer.*/ /***********************************************************************/ void TYPVAL<PSZ>::SetValue(longlong n) { char buf[24]; PGLOBAL& g = Global; int k = sprintf(buf, "%lld", n); if (k > Len) { sprintf(g->Message, MSG(VALSTR_TOO_LONG), buf, Len); throw 138; } else SetValue_psz(buf); Null = false; } // end of SetValue /***********************************************************************/ /* STRING SetValue: get the character representation of a big integer.*/ /***********************************************************************/ void TYPVAL<PSZ>::SetValue(ulonglong n) { char buf[24]; PGLOBAL& g = Global; int k = sprintf(buf, "%llu", n); if (k > Len) { sprintf(g->Message, MSG(VALSTR_TOO_LONG), buf, Len); throw 138; } else SetValue_psz(buf); Null = false; } // end of SetValue /***********************************************************************/ /* STRING SetValue: get the character representation of a double. */ /***********************************************************************/ void TYPVAL<PSZ>::SetValue(double f) { char *p, buf[64]; PGLOBAL& g = Global; int k = sprintf(buf, "%lf", f); for (p = buf + k - 1; p >= buf; p--) if (*p == '0') { *p = 0; k--; } else break; if (k > Len) { sprintf(g->Message, MSG(VALSTR_TOO_LONG), buf, Len); throw 138; } else SetValue_psz(buf); Null = false; } // end of SetValue /***********************************************************************/ /* STRING SetValue: get the character representation of a tiny int. */ /***********************************************************************/ void TYPVAL<PSZ>::SetValue(char c) { SetValue((int)c); Null = false; } // end of SetValue /***********************************************************************/ /* STRING SetValue: get the character representation of a tiny int. */ /***********************************************************************/ void TYPVAL<PSZ>::SetValue(uchar c) { SetValue((uint)c); Null = false; } // end of SetValue /***********************************************************************/ /* STRING SetBinValue: fill string with chars extracted from a line. */ /***********************************************************************/ void TYPVAL<PSZ>::SetBinValue(void *p) { SetValue_char((const char *)p, Len); } // end of SetBinValue /***********************************************************************/ /* GetBinValue: fill a buffer with the internal binary value. */ /* This function checks whether the buffer length is enough and */ /* returns true if not. Actual filling occurs only if go is true. */ /* Currently used by WriteColumn of binary files. */ /***********************************************************************/ bool TYPVAL<PSZ>::GetBinValue(void *buf, int buflen, bool go) { int len = (Null) ? 0 : strlen(Strp); if (len > buflen) return true; else if (go) { memset(buf, ' ', buflen); memcpy(buf, Strp, len); } // endif go return false; } // end of GetBinValue /***********************************************************************/ /* STRING ShowValue: get string representation of a char value. */ /***********************************************************************/ char *TYPVAL<PSZ>::ShowValue(char *, int) { return Strp; } // end of ShowValue /***********************************************************************/ /* STRING GetCharString: get string representation of a char value. */ /***********************************************************************/ char *TYPVAL<PSZ>::GetCharString(char *) { return Strp; } // end of GetCharString /***********************************************************************/ /* STRING compare value with another Value. */ /***********************************************************************/ bool TYPVAL<PSZ>::IsEqual(PVAL vp, bool chktype) { if (this == vp) return true; else if (chktype && Type != vp->GetType()) return false; else if (Null || vp->IsNull()) return false; char buf[64]; if (Ci || vp->IsCi()) return !stricmp(Strp, vp->GetCharString(buf)); else // (!Ci) return !strcmp(Strp, vp->GetCharString(buf)); } // end of IsEqual /***********************************************************************/ /* Compare values and returns 1, 0 or -1 according to comparison. */ /* This function is used for evaluation of numeric filters. */ /***********************************************************************/ int TYPVAL<PSZ>::CompareValue(PVAL vp) { int n; //assert(vp->GetType() == Type); if (trace) htrc(" Comparing: val='%s','%s'\n", Strp, vp->GetCharValue()); // Process filtering on character strings. if (Ci || vp->IsCi()) n = stricmp(Strp, vp->GetCharValue()); else n = strcmp(Strp, vp->GetCharValue()); #if defined(__WIN__) if (n == _NLSCMPERROR) return n; // Here we should raise an error #endif // __WIN__ return (n > 0) ? 1 : (n < 0) ? -1 : 0; } // end of CompareValue /***********************************************************************/ /* Compute a function on a string. */ /***********************************************************************/ bool TYPVAL<PSZ>::Compute(PGLOBAL g, PVAL *vp, int np, OPVAL op) { char *p[2], val[2][32]; int i; for (i = 0; i < np; i++) p[i] = vp[i]->IsNull() ? NULL : vp[i]->GetCharString(val[i]); if (p[i]) { switch (op) { case OP_CNC: assert(np == 1 || np == 2); if (np == 2) SetValue_psz(p[0]); if ((i = Len - (signed)strlen(Strp)) > 0) strncat(Strp, p[np - 1], i); break; case OP_MIN: assert(np == 2); SetValue_psz((strcmp(p[0], p[1]) < 0) ? p[0] : p[1]); break; case OP_MAX: assert(np == 2); SetValue_psz((strcmp(p[0], p[1]) > 0) ? p[0] : p[1]); break; default: // sprintf(g->Message, MSG(BAD_EXP_OPER), op); strcpy(g->Message, "Function not supported"); return true; } // endswitch op Null = false; } // endif p[i] return false; } // end of Compute /***********************************************************************/ /* FormatValue: This function set vp (a STRING value) to the string */ /* constructed from its own value formated using the fmt format. */ /* This function assumes that the format matches the value type. */ /***********************************************************************/ bool TYPVAL<PSZ>::FormatValue(PVAL vp, PCSZ fmt) { char *buf = (char*)vp->GetTo_Val(); // Should be big enough int n = sprintf(buf, fmt, Strp); return (n > vp->GetValLen()); } // end of FormatValue /***********************************************************************/ /* STRING SetFormat function (used to set SELECT output format). */ /***********************************************************************/ bool TYPVAL<PSZ>::SetConstFormat(PGLOBAL, FORMAT& fmt) { fmt.Type[0] = 'C'; fmt.Length = Len; fmt.Prec = 0; return false; } // end of SetConstFormat /***********************************************************************/ /* Make string output of an object value. */ /***********************************************************************/ void TYPVAL<PSZ>::Prints(PGLOBAL g, char *ps, uint z) { if (Null) strncpy(ps, "null", z); else strcat(strncat(strncpy(ps, "\"", z), Strp, z-2), "\""); } // end of Prints /* -------------------------- Class DECIMAL -------------------------- */ /***********************************************************************/ /* DECIMAL public constructor from a constant string. */ /***********************************************************************/ DECVAL::DECVAL(PSZ s) : TYPVAL<PSZ>(s) { if (s) { char *p = strchr(Strp, '.'); Prec = (p) ? Len - (p - Strp) : 0; } // endif s Type = TYPE_DECIM; } // end of DECVAL constructor /***********************************************************************/ /* DECIMAL public constructor from char. */ /***********************************************************************/ DECVAL::DECVAL(PGLOBAL g, PSZ s, int n, int prec, bool uns) : TYPVAL<PSZ>(g, s, n + (prec ? 1 : 0) + (uns ? 0 : 1), 0) { Prec = prec; Unsigned = uns; Type = TYPE_DECIM; } // end of DECVAL constructor /***********************************************************************/ /* DECIMAL: Check whether the numerica value is equal to 0. */ /***********************************************************************/ bool DECVAL::IsZero(void) { for (int i = 0; Strp[i]; i++) if (!strchr("0 +-.", Strp[i])) return false; return true; } // end of IsZero /***********************************************************************/ /* DECIMAL: Reset value to zero. */ /***********************************************************************/ void DECVAL::Reset(void) { int i = 0; Strp[i++] = '0'; if (Prec) { Strp[i++] = '.'; do { Strp[i++] = '0'; } while (i < Prec + 2); } // endif Prec Strp[i] = 0; } // end of Reset /***********************************************************************/ /* DECIMAL ShowValue: get string representation right justified. */ /***********************************************************************/ char *DECVAL::ShowValue(char *buf, int len) { sprintf(buf, Xfmt, len, Strp); return buf; } // end of ShowValue /***********************************************************************/ /* GetBinValue: fill a buffer with the internal binary value. */ /* This function checks whether the buffer length is enough and */ /* returns true if not. Actual filling occurs only if go is true. */ /* Currently used by WriteColumn of binary files. */ /***********************************************************************/ bool DECVAL::GetBinValue(void *buf, int buflen, bool go) { int len = (Null) ? 0 : strlen(Strp); if (len > buflen) return true; else if (go) { memset(buf, ' ', buflen - len); memcpy((char*)buf + buflen - len, Strp, len); } // endif go return false; } // end of GetBinValue /***********************************************************************/ /* DECIMAL compare value with another Value. */ /***********************************************************************/ bool DECVAL::IsEqual(PVAL vp, bool chktype) { if (this == vp) return true; else if (chktype && Type != vp->GetType()) return false; else if (Null || vp->IsNull()) return false; char buf[64]; return !strcmp(Strp, vp->GetCharString(buf)); } // end of IsEqual /***********************************************************************/ /* Compare values and returns 1, 0 or -1 according to comparison. */ /* This function is used for evaluation of numeric filters. */ /***********************************************************************/ int DECVAL::CompareValue(PVAL vp) { //assert(vp->GetType() == Type); // Process filtering on numeric values. double f = atof(Strp), n = vp->GetFloatValue(); //if (trace) // htrc(" Comparing: val=%d,%d\n", f, n); return (f > n) ? 1 : (f < n) ? (-1) : 0; } // end of CompareValue /* -------------------------- Class BINVAL --------------------------- */ /***********************************************************************/ /* BINVAL public constructor from bytes. */ /***********************************************************************/ BINVAL::BINVAL(PGLOBAL g, void *p, int cl, int n) : VALUE(TYPE_BIN) { assert(g); Len = n; Clen = cl; Binp = PlugSubAlloc(g, NULL, Clen + 1); memset(Binp, 0, Clen + 1); if (p) memcpy(Binp, p, Len); Chrp = NULL; } // end of BINVAL constructor /***********************************************************************/ /* BINVAL: Check whether the hexadecimal value is equal to 0. */ /***********************************************************************/ bool BINVAL::IsZero(void) { for (int i = 0; i < Len; i++) if (((char*)Binp)[i] != 0) return false; return true; } // end of IsZero /***********************************************************************/ /* BINVAL: Reset value to zero. */ /***********************************************************************/ void BINVAL::Reset(void) { memset(Binp, 0, Clen); Len = 0; } // end of Reset /***********************************************************************/ /* Get the tiny value pointed by Binp. */ /***********************************************************************/ char BINVAL::GetTinyValue(void) { return *(char*)Binp; } // end of GetTinyValue /***********************************************************************/ /* Get the unsigned tiny value pointed by Binp. */ /***********************************************************************/ uchar BINVAL::GetUTinyValue(void) { return *(uchar*)Binp; } // end of GetUTinyValue /***********************************************************************/ /* Get the short value pointed by Binp. */ /***********************************************************************/ short BINVAL::GetShortValue(void) { if (Len >= 2) return *(short*)Binp; else return (short)GetTinyValue(); } // end of GetShortValue /***********************************************************************/ /* Get the unsigned short value pointed by Binp. */ /***********************************************************************/ ushort BINVAL::GetUShortValue(void) { return (ushort)GetShortValue(); } // end of GetUshortValue /***********************************************************************/ /* Get the integer value pointed by Binp. */ /***********************************************************************/ int BINVAL::GetIntValue(void) { if (Len >= 4) return *(int*)Binp; else return (int)GetShortValue(); } // end of GetIntValue /***********************************************************************/ /* Get the unsigned integer value pointed by Binp. */ /***********************************************************************/ uint BINVAL::GetUIntValue(void) { return (uint)GetIntValue(); } // end of GetUintValue /***********************************************************************/ /* Get the big integer value pointed by Binp. */ /***********************************************************************/ longlong BINVAL::GetBigintValue(void) { if (Len >= 8) return *(longlong*)Binp; else return (longlong)GetIntValue(); } // end of GetBigintValue /***********************************************************************/ /* Get the unsigned big integer value pointed by Binp. */ /***********************************************************************/ ulonglong BINVAL::GetUBigintValue(void) { return (ulonglong)GetBigintValue(); } // end of GetUBigintValue /***********************************************************************/ /* Get the double value pointed by Binp. */ /***********************************************************************/ double BINVAL::GetFloatValue(void) { if (Len >= 8) return *(double*)Binp; else if (Len >= 4) return (double)(*(float*)Binp); else return 0.0; } // end of GetFloatValue /***********************************************************************/ /* BINVAL SetValue: copy the value of another Value object. */ /***********************************************************************/ bool BINVAL::SetValue_pval(PVAL valp, bool chktype) { bool rc = false; if (valp != this) { if (chktype && (valp->GetType() != Type || valp->GetSize() > Clen)) return true; if (!(Null = valp->IsNull() && Nullable)) { if ((rc = (Len = valp->GetSize()) > Clen)) Len = Clen; memcpy(Binp, valp->GetTo_Val(), Len); } else Reset(); } // endif valp return rc; } // end of SetValue_pval /***********************************************************************/ /* BINVAL SetValue: fill value with chars extracted from a line. */ /***********************************************************************/ bool BINVAL::SetValue_char(const char *p, int n) { bool rc; if (p && n > 0) { rc = n > Clen; Len = MY_MIN(n, Clen); memcpy(Binp, p, Len); Null = false; } else { rc = false; Reset(); Null = Nullable; } // endif p return rc; } // end of SetValue_char /***********************************************************************/ /* BINVAL SetValue: fill value with another string. */ /***********************************************************************/ void BINVAL::SetValue_psz(PCSZ s) { if (s) { Len = MY_MIN(Clen, (signed)strlen(s)); memcpy(Binp, s, Len); Null = false; } else { Reset(); Null = Nullable; } // endif s } // end of SetValue_psz /***********************************************************************/ /* BINVAL SetValue: fill value with bytes extracted from a block. */ /***********************************************************************/ void BINVAL::SetValue_pvblk(PVBLK blk, int n) { // STRBLK's can return a NULL pointer void *vp = blk->GetValPtrEx(n); if (!vp || blk->IsNull(n)) { Reset(); Null = Nullable; } else if (vp != Binp) { if (blk->GetType() == TYPE_STRING) Len = strlen((char*)vp); else Len = blk->GetVlen(); Len = MY_MIN(Clen, Len); memcpy(Binp, vp, Len); Null = false; } // endif vp } // end of SetValue_pvblk /***********************************************************************/ /* BINVAL SetValue: get the binary representation of an integer. */ /***********************************************************************/ void BINVAL::SetValue(int n) { if (Clen >= 4) { *((int*)Binp) = n; Len = 4; } else SetValue((short)n); } // end of SetValue /***********************************************************************/ /* BINVAL SetValue: get the binary representation of an uint. */ /***********************************************************************/ void BINVAL::SetValue(uint n) { if (Clen >= 4) { *((uint*)Binp) = n; Len = 4; } else SetValue((ushort)n); } // end of SetValue /***********************************************************************/ /* BINVAL SetValue: get the binary representation of a short int. */ /***********************************************************************/ void BINVAL::SetValue(short i) { if (Clen >= 2) { *((int*)Binp) = i; Len = 2; } else SetValue((char)i); } // end of SetValue /***********************************************************************/ /* BINVAL SetValue: get the binary representation of a ushort int. */ /***********************************************************************/ void BINVAL::SetValue(ushort i) { if (Clen >= 2) { *((uint*)Binp) = i; Len = 2; } else SetValue((uchar)i); } // end of SetValue /***********************************************************************/ /* BINVAL SetValue: get the binary representation of a big integer. */ /***********************************************************************/ void BINVAL::SetValue(longlong n) { if (Clen >= 8) { *((longlong*)Binp) = n; Len = 8; } else SetValue((int)n); } // end of SetValue /***********************************************************************/ /* BINVAL SetValue: get the binary representation of a big integer. */ /***********************************************************************/ void BINVAL::SetValue(ulonglong n) { if (Clen >= 8) { *((ulonglong*)Binp) = n; Len = 8; } else SetValue((uint)n); } // end of SetValue /***********************************************************************/ /* BINVAL SetValue: get the binary representation of a double. */ /***********************************************************************/ void BINVAL::SetValue(double n) { if (Clen >= 8) { *((double*)Binp) = n; Len = 8; } else if (Clen >= 4) { *((float*)Binp) = (float)n; Len = 4; } else Len = 0; } // end of SetValue /***********************************************************************/ /* BINVAL SetValue: get the character binary of a tiny int. */ /***********************************************************************/ void BINVAL::SetValue(char c) { *((char*)Binp) = c; Len = 1; } // end of SetValue /***********************************************************************/ /* BINVAL SetValue: get the binary representation of a tiny int. */ /***********************************************************************/ void BINVAL::SetValue(uchar c) { *((uchar*)Binp) = c; Len = 1; } // end of SetValue /***********************************************************************/ /* BINVAL SetBinValue: fill string with bytes extracted from a line. */ /***********************************************************************/ void BINVAL::SetBinValue(void *p) { memcpy(Binp, p, Clen); } // end of SetBinValue /***********************************************************************/ /* GetBinValue: fill a buffer with the internal binary value. */ /* This function checks whether the buffer length is enough and */ /* returns true if not. Actual filling occurs only if go is true. */ /* Currently used by WriteColumn of binary files. */ /***********************************************************************/ bool BINVAL::GetBinValue(void *buf, int buflen, bool go) { if (Len > buflen) return true; else if (go) { memset(buf, 0, buflen); memcpy(buf, Binp, Len); } // endif go return false; } // end of GetBinValue /***********************************************************************/ /* BINVAL ShowValue: get string representation of a binary value. */ /***********************************************************************/ char *BINVAL::ShowValue(char *buf, int len) { int n = MY_MIN(Len, len / 2); sprintf(buf, GetXfmt(), n, Binp); return buf; } // end of ShowValue /***********************************************************************/ /* BINVAL GetCharString: get string representation of a binary value. */ /***********************************************************************/ char *BINVAL::GetCharString(char *) { if (!Chrp) Chrp = (char*)PlugSubAlloc(Global, NULL, Clen * 2 + 1); sprintf(Chrp, GetXfmt(), Len, Binp); return Chrp; } // end of GetCharString /***********************************************************************/ /* BINVAL compare value with another Value. */ /***********************************************************************/ bool BINVAL::IsEqual(PVAL vp, bool chktype) { if (this == vp) return true; else if (chktype && Type != vp->GetType()) return false; else if (Null || vp->IsNull()) return false; else if (Len != vp->GetSize()) return false; char *v1 = (char*)Binp; char *v2 = (char*)vp->GetTo_Val(); for (int i = 0; i < Len; i++) if (v1[i] != v2[i]) return false; return true; } // end of IsEqual /***********************************************************************/ /* FormatValue: This function set vp (a STRING value) to the string */ /* constructed from its own value formated using the fmt format. */ /* This function assumes that the format matches the value type. */ /***********************************************************************/ bool BINVAL::FormatValue(PVAL vp, PCSZ fmt) { char *buf = (char*)vp->GetTo_Val(); // Should be big enough int n = sprintf(buf, fmt, Len, Binp); return (n > vp->GetValLen()); } // end of FormatValue /***********************************************************************/ /* BINVAL SetFormat function (used to set SELECT output format). */ /***********************************************************************/ bool BINVAL::SetConstFormat(PGLOBAL, FORMAT& fmt) { fmt.Type[0] = 'B'; fmt.Length = Clen; fmt.Prec = 0; return false; } // end of SetConstFormat /* -------------------------- Class DTVAL ---------------------------- */ /***********************************************************************/ /* DTVAL public constructor for new void values. */ /***********************************************************************/ DTVAL::DTVAL(PGLOBAL g, int n, int prec, PCSZ fmt) : TYPVAL<int>((int)0, TYPE_DATE) { if (!fmt) { Pdtp = NULL; Sdate = NULL; DefYear = 0; Len = n; } else SetFormat(g, fmt, n, prec); //Type = TYPE_DATE; } // end of DTVAL constructor /***********************************************************************/ /* DTVAL public constructor from int. */ /***********************************************************************/ DTVAL::DTVAL(int n) : TYPVAL<int>(n, TYPE_DATE) { Pdtp = NULL; Len = 19; //Type = TYPE_DATE; Sdate = NULL; DefYear = 0; } // end of DTVAL constructor /***********************************************************************/ /* Set format so formatted dates can be converted on input/output. */ /***********************************************************************/ bool DTVAL::SetFormat(PGLOBAL g, PCSZ fmt, int len, int year) { Pdtp = MakeDateFormat(g, fmt, true, true, (year > 9999) ? 1 : 0); Sdate = (char*)PlugSubAlloc(g, NULL, len + 1); DefYear = (int)((year > 9999) ? (year - 10000) : year); Len = len; return false; } // end of SetFormat /***********************************************************************/ /* Set format from the format of another date value. */ /***********************************************************************/ bool DTVAL::SetFormat(PGLOBAL g, PVAL valp) { DTVAL *vp; if (valp->GetType() != TYPE_DATE) { sprintf(g->Message, MSG(NO_FORMAT_TYPE), valp->GetType()); return true; } else vp = (DTVAL*)valp; Len = vp->Len; Pdtp = vp->Pdtp; Sdate = (char*)PlugSubAlloc(g, NULL, Len + 1); DefYear = vp->DefYear; return false; } // end of SetFormat /***********************************************************************/ /* We need TimeShift because the mktime C function does a correction */ /* for local time zone that we want to override for DB operations. */ /***********************************************************************/ void DTVAL::SetTimeShift(void) { struct tm dtm; memset(&dtm, 0, sizeof(dtm)); dtm.tm_mday=2; dtm.tm_mon=0; dtm.tm_year=70; Shift = (int)mktime(&dtm) - 86400; if (trace) htrc("DTVAL Shift=%d\n", Shift); } // end of SetTimeShift // Added by Alexander Barkov static void TIME_to_localtime(struct tm *tm, const MYSQL_TIME *ltime) { bzero(tm, sizeof(*tm)); tm->tm_year= ltime->year - 1900; tm->tm_mon= ltime->month - 1; tm->tm_mday= ltime->day; mktime(tm); // set tm->tm_wday tm->yday fields to get proper day name (OB) tm->tm_hour= ltime->hour; tm->tm_min= ltime->minute; tm->tm_sec= ltime->second; } // end of TIME_to_localtime // Added by Alexander Barkov static struct tm *gmtime_mysql(const time_t *timep, struct tm *tm) { MYSQL_TIME ltime; thd_gmt_sec_to_TIME(current_thd, <ime, (my_time_t) *timep); TIME_to_localtime(tm, <ime); return tm; } // end of gmtime_mysql /***********************************************************************/ /* GetGmTime: returns a pointer to a static tm structure obtained */ /* though the gmtime C function. The purpose of this function is to */ /* extend the range of valid dates by accepting negative time values. */ /***********************************************************************/ struct tm *DTVAL::GetGmTime(struct tm *tm_buffer) { struct tm *datm; time_t t = (time_t)Tval; if (Tval < 0) { int n; for (n = 0; t < 0; n += 4) t += FOURYEARS; datm = gmtime_mysql(&t, tm_buffer); if (datm) datm->tm_year -= n; } else datm = gmtime_mysql(&t, tm_buffer); return datm; } // end of GetGmTime // Added by Alexander Barkov static time_t mktime_mysql(struct tm *ptm) { MYSQL_TIME ltime; localtime_to_TIME(<ime, ptm); ltime.time_type= MYSQL_TIMESTAMP_DATETIME; uint error_code; time_t t= TIME_to_timestamp(current_thd, <ime, &error_code); return error_code ? (time_t) -1 : t; } /***********************************************************************/ /* MakeTime: calculates a date value from a tm structures using the */ /* mktime C function. The purpose of this function is to extend the */ /* range of valid dates by accepting to set negative time values. */ /***********************************************************************/ bool DTVAL::MakeTime(struct tm *ptm) { int n, y = ptm->tm_year; time_t t = mktime_mysql(ptm); if (trace > 1) htrc("MakeTime from (%d,%d,%d,%d,%d,%d)\n", ptm->tm_year, ptm->tm_mon, ptm->tm_mday, ptm->tm_hour, ptm->tm_min, ptm->tm_sec); if (t == -1) { if (y < 1 || y > 71) return true; for (n = 0; t == -1 && n < 20; n++) { ptm->tm_year += 4; t = mktime_mysql(ptm); } // endfor t if (t == -1) return true; if ((t -= (n * FOURYEARS)) > 2000000000) return true; } Tval= (int) t; if (trace > 1) htrc("MakeTime Ival=%d\n", Tval); return false; } // end of MakeTime /***********************************************************************/ /* Make a time_t datetime from its components (YY, MM, DD, hh, mm, ss) */ /***********************************************************************/ bool DTVAL::MakeDate(PGLOBAL g, int *val, int nval) { int i, m; int n; bool rc = false; struct tm datm; bzero(&datm, sizeof(datm)); datm.tm_mday=1; datm.tm_mon=0; datm.tm_year=70; if (trace > 1) htrc("MakeDate from(%d,%d,%d,%d,%d,%d) nval=%d\n", val[0], val[1], val[2], val[3], val[4], val[5], nval); for (i = 0; i < nval; i++) { n = val[i]; // if (trace > 1) // htrc("i=%d n=%d\n", i, n); switch (i) { case 0: if (n >= 1900) n -= 1900; datm.tm_year = n; // if (trace > 1) // htrc("n=%d tm_year=%d\n", n, datm.tm_year); break; case 1: // If mktime handles apparently correctly large or negative // day values, it is not the same for months. Therefore we // do the ajustment here, thus mktime has not to do it. if (n > 0) { m = (n - 1) % 12; n = (n - 1) / 12; } else { m = 11 + n % 12; n = n / 12 - 1; } // endfi n datm.tm_mon = m; datm.tm_year += n; // if (trace > 1) // htrc("n=%d m=%d tm_year=%d tm_mon=%d\n", n, m, datm.tm_year, datm.tm_mon); break; case 2: // For days, big or negative values may also cause problems m = n % 1461; n = 4 * (n / 1461); if (m < 0) { m += 1461; n -= 4; } // endif m datm.tm_mday = m; datm.tm_year += n; // if (trace > 1) // htrc("n=%d m=%d tm_year=%d tm_mon=%d\n", n, m, datm.tm_year, datm.tm_mon); break; case 3: datm.tm_hour = n; break; case 4: datm.tm_min = n; break; case 5: datm.tm_sec = n; break; } // endswitch i } // endfor i if (trace > 1) htrc("MakeDate datm=(%d,%d,%d,%d,%d,%d)\n", datm.tm_year, datm.tm_mon, datm.tm_mday, datm.tm_hour, datm.tm_min, datm.tm_sec); // Pass g to have an error return or NULL to set invalid dates to 0 if (MakeTime(&datm)) if (g) { strcpy(g->Message, MSG(BAD_DATETIME)); rc = true; } else Tval = 0; return rc; } // end of MakeDate /***********************************************************************/ /* DTVAL SetValue: copy the value of another Value object. */ /* This function allows conversion if chktype is false. */ /***********************************************************************/ bool DTVAL::SetValue_pval(PVAL valp, bool chktype) { if (valp != this) { if (chktype && Type != valp->GetType()) return true; if (!(Null = valp->IsNull() && Nullable)) { if (Pdtp && !valp->IsTypeNum()) { int ndv; int dval[6]; ndv = ExtractDate(valp->GetCharValue(), Pdtp, DefYear, dval); MakeDate(NULL, dval, ndv); } else if (valp->GetType() == TYPE_BIGINT && !(valp->GetBigintValue() % 1000)) { // Assuming that this timestamp is in milliseconds Tval = valp->GetBigintValue() / 1000; } else Tval = valp->GetIntValue(); } else Reset(); } // endif valp return false; } // end of SetValue /***********************************************************************/ /* SetValue: convert chars extracted from a line to date value. */ /***********************************************************************/ bool DTVAL::SetValue_char(const char *p, int n) { bool rc= 0; if (Pdtp) { const char *p2; int ndv; int dval[6]; if (n > 0) { // Trim trailing blanks for (p2 = p + n -1; p < p2 && *p2 == ' '; p2--); if ((rc = (n = p2 - p + 1) > Len)) n = Len; memcpy(Sdate, p, n); } // endif n Sdate[n] = '\0'; ndv = ExtractDate(Sdate, Pdtp, DefYear, dval); MakeDate(NULL, dval, ndv); if (trace > 1) htrc(" setting date: '%s' -> %d\n", Sdate, Tval); Null = (Nullable && ndv == 0); } else { rc = TYPVAL<int>::SetValue_char(p, n); Null = (Nullable && Tval == 0); } // endif Pdtp return rc; } // end of SetValue /***********************************************************************/ /* SetValue: convert a char string to date value. */ /***********************************************************************/ void DTVAL::SetValue_psz(PCSZ p) { if (Pdtp) { int ndv; int dval[6]; strncpy(Sdate, p, Len); Sdate[Len] = '\0'; ndv = ExtractDate(Sdate, Pdtp, DefYear, dval); MakeDate(NULL, dval, ndv); if (trace > 1) htrc(" setting date: '%s' -> %d\n", Sdate, Tval); Null = (Nullable && ndv == 0); } else { TYPVAL<int>::SetValue_psz(p); Null = (Nullable && Tval == 0); } // endif Pdtp } // end of SetValue /***********************************************************************/ /* DTVAL SetValue: set value with a value extracted from a block. */ /***********************************************************************/ void DTVAL::SetValue_pvblk(PVBLK blk, int n) { if (Pdtp && !::IsTypeNum(blk->GetType())) { int ndv; int dval[6]; ndv = ExtractDate(blk->GetCharValue(n), Pdtp, DefYear, dval); MakeDate(NULL, dval, ndv); } else Tval = blk->GetIntValue(n); } // end of SetValue /***********************************************************************/ /* DTVAL GetCharString: get string representation of a date value. */ /***********************************************************************/ char *DTVAL::GetCharString(char *p) { if (Pdtp) { size_t n = 0; struct tm tm, *ptm= GetGmTime(&tm); if (ptm) n = strftime(Sdate, Len + 1, Pdtp->OutFmt, ptm); if (!n) { *Sdate = '\0'; strncat(Sdate, "Error", Len + 1); } // endif n return Sdate; } else sprintf(p, "%d", Tval); //Null = false; ?????????????? return p; } // end of GetCharString /***********************************************************************/ /* DTVAL ShowValue: get string representation of a date value. */ /***********************************************************************/ char *DTVAL::ShowValue(char *buf, int len) { if (Pdtp) { char *p; if (!Null) { size_t m, n = 0; struct tm tm, *ptm = GetGmTime(&tm); if (Len < len) { p = buf; m = len; } else { p = Sdate; m = Len + 1; } // endif Len if (ptm) n = strftime(p, m, Pdtp->OutFmt, ptm); if (!n) { *p = '\0'; strncat(p, "Error", m); } // endif n } else { p = buf; *p = '\0'; // DEFAULT VALUE ??? } // endif Null return p; } else return TYPVAL<int>::ShowValue(buf, len); } // end of ShowValue #if 0 // Not used by CONNECT /***********************************************************************/ /* Returns a member of the struct tm representation of the date. */ /***********************************************************************/ bool DTVAL::GetTmMember(OPVAL op, int& mval) { bool rc = false; struct tm tm, *ptm = GetGmTime(&tm); switch (op) { case OP_MDAY: mval = ptm->tm_mday; break; case OP_MONTH: mval = ptm->tm_mon + 1; break; case OP_YEAR: mval = ptm->tm_year + 1900; break; case OP_WDAY: mval = ptm->tm_wday + 1; break; case OP_YDAY: mval = ptm->tm_yday + 1; break; case OP_QUART: mval = ptm->tm_mon / 3 + 1; break; default: rc = true; } // endswitch op return rc; } // end of GetTmMember /***********************************************************************/ /* Calculates the week number of the year for the internal date value.*/ /* The International Standard ISO 8601 has decreed that Monday shall */ /* be the first day of the week. A week that lies partly in one year */ /* and partly in another is assigned a number in the year in which */ /* most of its days lie. That means that week number 1 of any year is */ /* the week that contains the January 4th. */ /***********************************************************************/ bool DTVAL::WeekNum(PGLOBAL g, int& nval) { // w is the start of the week SUN=0, MON=1, etc. int m, n, w = nval % 7; struct tm tm, *ptm = GetGmTime(&tm); // Which day is January 4th of this year? m = (367 + ptm->tm_wday - ptm->tm_yday) % 7; // When does the first week begins? n = 3 - (7 + m - w) % 7; // Now calculate the week number if (!(nval = (7 + ptm->tm_yday - n) / 7)) nval = 52; // Everything should be Ok return false; } // end of WeekNum #endif // 0 /***********************************************************************/ /* FormatValue: This function set vp (a STRING value) to the string */ /* constructed from its own value formated using the fmt format. */ /* This function assumes that the format matches the value type. */ /***********************************************************************/ bool DTVAL::FormatValue(PVAL vp, PCSZ fmt) { char *buf = (char*)vp->GetTo_Val(); // Should be big enough struct tm tm, *ptm = GetGmTime(&tm); if (trace > 1) htrc("FormatValue: ptm=%p len=%d\n", ptm, vp->GetValLen()); if (ptm) { size_t n = strftime(buf, vp->GetValLen(), fmt, ptm); if (trace > 1) htrc("strftime: n=%d buf=%s\n", n, (n) ? buf : "???"); return (n == 0); } else return true; } // end of FormatValue /* -------------------------- End of Value --------------------------- */