/* * $Id$ */ /* Harbour Project source code http://www.Harbour-Project.org/ The following function is Copyright 1999 David G. Holm: HB_ROUND(). See doc/hdr_tpl.txt, Version 1.2 or later, for licensing terms. */ #include #include "extend.h" #include "set.h" #include "errorapi.h" HARBOUR HB_ABS( void ) { if( hb_pcount() == 1 ) { PHB_ITEM pNumber = hb_param( 1, IT_NUMERIC ); if( pNumber ) switch( pNumber->type ) { case IT_INTEGER: if( pNumber->item.asInteger.value >= 0 ) hb_retni( pNumber->item.asInteger.value ); else hb_retni( -pNumber->item.asInteger.value ); break; case IT_LONG: if( pNumber->item.asLong.value >= 0 ) hb_retnl( pNumber->item.asLong.value ); else hb_retnl( -pNumber->item.asLong.value ); break; case IT_DOUBLE: if( pNumber->item.asDouble.value >= 0.0 ) hb_retnd( pNumber->item.asDouble.value ); else hb_retnd( -pNumber->item.asDouble.value ); stack.Return.item.asDouble.decimal = pNumber->item.asDouble.decimal; } else hb_errRT_BASE( EG_ARG, 1089, NULL, "ABS" ); } else hb_errRT_BASE( EG_ARGCOUNT, 3000, NULL, "ABS" ); /* NOTE: Clipper catches this at compile time! */ } HARBOUR HB_EXP( void ) { if( hb_pcount() == 1 ) { if( ISNUM( 1 ) ) { hb_retnd( exp( hb_parnd( 1 ) ) ); /* Always set default number of decimals after EXP() */ stack.Return.item.asDouble.decimal = hb_set.HB_SET_DECIMALS; } else hb_errRT_BASE( EG_ARG, 1096, NULL, "EXP" ); } else hb_errRT_BASE( EG_ARGCOUNT, 3000, NULL, "EXP" ); /* NOTE: Clipper catches this at compile time! */ } HARBOUR HB_INT( void ) { if( hb_pcount() == 1 ) { if( ISNUM( 1 ) ) hb_retnl( hb_parnd( 1 ) ); else hb_errRT_BASE( EG_ARG, 1090, NULL, "INT" ); } else hb_errRT_BASE( EG_ARGCOUNT, 3000, NULL, "INT" ); /* NOTE: Clipper catches this at compile time! */ } HARBOUR HB_LOG( void ) { if( hb_pcount() == 1 ) { if( ISNUM( 1 ) ) { double dNumber = hb_parnd( 1 ); hb_retnd( log( dNumber ) ); /* Always set default number of decimals after LOG() */ stack.Return.item.asDouble.decimal = hb_set.HB_SET_DECIMALS; if( dNumber <= 0.0 ) /* Indicate overflow if called with an invalid argument */ stack.Return.item.asDouble.length = 99; } else hb_errRT_BASE( EG_ARG, 1095, NULL, "LOG" ); } else hb_errRT_BASE( EG_ARGCOUNT, 3000, NULL, "LOG" ); /* NOTE: Clipper catches this at compile time! */ } /* returns the maximum of two date or numerics */ HARBOUR HB_MAX( void ) { if( hb_pcount() == 2 ) { PHB_ITEM p1 = hb_param( 1, IT_ANY ); PHB_ITEM p2 = hb_param( 2, IT_ANY ); if( IS_NUMERIC( p1 ) && IS_NUMERIC( p2 ) ) { WORD wType1 = p1->type; WORD wType2 = p1->type; /* NOTE: The order of these if() branches is significant, */ /* Don't change it */ if( wType1 == IT_DOUBLE || wType2 == IT_DOUBLE ) { double d1 = hb_parnd( 1 ); double d2 = hb_parnd( 2 ); int iDec1 = ( wType1 == IT_DOUBLE ) ? p1->item.asDouble.decimal : 0; int iDec2 = ( wType2 == IT_DOUBLE ) ? p2->item.asDouble.decimal : 0; hb_retnd( d1 >= d2 ? d1 : d2 ); stack.Return.item.asDouble.decimal = ( d1 >= d2 ? iDec1 : iDec2 ); } else if( wType1 == IT_LONG || wType2 == IT_LONG ) { long l1 = hb_parnl( 1 ); long l2 = hb_parnl( 2 ); hb_retnl( l1 >= l2 ? l1 : l2 ); } else { int i1 = hb_parni( 1 ); int i2 = hb_parni( 2 ); hb_retni( i1 >= i2 ? i1 : i2 ); } } else if( IS_DATE( p1 ) && IS_DATE( p2 ) ) { long l1 = p1->item.asDate.value; long l2 = p2->item.asDate.value; hb_retds( l1 >= l2 ? hb_pards( 1 ) : hb_pards( 2 ) ); } else hb_errRT_BASE( EG_ARG, 1093, NULL, "MAX" ); } else hb_errRT_BASE( EG_ARGCOUNT, 3000, NULL, "MAX" ); /* NOTE: Clipper catches this at compile time! */ } /* returns the minimum of two date or numerics */ HARBOUR HB_MIN( void ) { if( hb_pcount() == 2 ) { PHB_ITEM p1 = hb_param( 1, IT_ANY ); PHB_ITEM p2 = hb_param( 2, IT_ANY ); if( IS_NUMERIC( p1 ) && IS_NUMERIC( p2 ) ) { WORD wType1 = p1->type; WORD wType2 = p1->type; /* NOTE: The order of these if() branches is significant, */ /* Don't change it */ if( wType1 == IT_DOUBLE || wType2 == IT_DOUBLE ) { double d1 = hb_parnd( 1 ); double d2 = hb_parnd( 2 ); int iDec1 = ( wType1 == IT_DOUBLE ) ? p1->item.asDouble.decimal : 0; int iDec2 = ( wType2 == IT_DOUBLE ) ? p2->item.asDouble.decimal : 0; hb_retnd( d1 <= d2 ? d1 : d2 ); stack.Return.item.asDouble.decimal = ( d1 <= d2 ? iDec1 : iDec2 ); } else if( wType1 == IT_LONG || wType2 == IT_LONG ) { long l1 = hb_parnl( 1 ); long l2 = hb_parnl( 2 ); hb_retnl( l1 <= l2 ? l1 : l2 ); } else { int i1 = hb_parni( 1 ); int i2 = hb_parni( 2 ); hb_retni( i1 <= i2 ? i1 : i2 ); } } else if( IS_DATE( p1 ) && IS_DATE( p2 ) ) { long l1 = p1->item.asDate.value; long l2 = p2->item.asDate.value; hb_retds( l1 <= l2 ? hb_pards( 1 ) : hb_pards( 2 ) ); } else hb_errRT_BASE( EG_ARG, 1092, NULL, "MIN" ); } else hb_errRT_BASE( EG_ARGCOUNT, 3000, NULL, "MIN" ); /* NOTE: Clipper catches this at compile time! */ } /* TOFIX: In Clipper this is written in Clipper, see the source below, */ /* and the error handling is NOT made here, but in the % operator */ HARBOUR HB_MOD( void ) { /* FUNCTION MOD(cl_num, cl_base) LOCAL cl_result cl_result = cl_num % cl_base RETURN IF( cl_base = 0, ; cl_num,; IF(cl_result * cl_base < 0, cl_result + cl_base, cl_result) ) */ PHB_ITEM pNumber = hb_param( 1, IT_NUMERIC ); if( pNumber && ISNUM( 2 ) ) { double dNumber = hb_parnd( 1 ); double dBase = hb_parnd( 2 ); /* dBase! Cool! */ if( dBase ) { double dResult = dNumber - ( ( long )( dNumber / dBase ) * dBase ); if( dResult * dBase < 0 ) hb_retnd( dResult + dBase ); else hb_retnd( dResult ); /* Always set default number of decimals after computing mod */ stack.Return.item.asDouble.decimal = hb_set.HB_SET_DECIMALS; } else { hb_retnd( dNumber ); /* Set the correct number of decimals */ stack.Return.item.asDouble.decimal = pNumber->item.asDouble.decimal; } } else hb_errRT_BASE( EG_ARG, 1085, NULL, "%" ); } double hb_numRound( double dResult, int iDec ) { int iSize = 64; char * szResult; if( dResult != 0.0 ) { double dAdjust; if( iDec == 0 ) { dResult = floor( dResult + 0.5 ); } else if( iDec < 0 ) { dAdjust = pow( 10, -iDec ); dResult = floor( dResult / dAdjust + 0.5 ); dResult = dResult * dAdjust; } else { dAdjust = pow( 10, iDec ); dResult = floor( dResult * dAdjust + 0.5 ); dResult = dResult / dAdjust; } } szResult = ( char * ) hb_xgrab( iSize + iDec + 1 ); if( szResult ) { sprintf( szResult, "%*.*f", iSize, iDec, dResult ); dResult = atof( szResult ); hb_xfree( szResult ); } return dResult; } HARBOUR HB_ROUND( void ) { if( hb_pcount() == 2 ) { if( ISNUM( 1 ) && ISNUM( 2 ) ) { int iDec = hb_parni( 2 ); hb_retnd( hb_numRound( hb_parnd( 1 ), iDec ) ); stack.Return.item.asDouble.decimal = iDec; } else hb_errRT_BASE( EG_ARG, 1094, NULL, "ROUND" ); } else hb_errRT_BASE( EG_ARGCOUNT, 3000, NULL, "ROUND" ); /* NOTE: Clipper catches this at compile time! */ } HARBOUR HB_SQRT( void ) { if( hb_pcount() == 1 ) { if( ISNUM( 1 ) ) { double dNumber = hb_parnd( 1 ); if( dNumber > 0 ) { hb_retnd( sqrt( dNumber ) ); } else /* Clipper doesn't error! */ hb_retnd( 0 ); /* Always set default number of decimals after SQRT() */ stack.Return.item.asDouble.decimal = hb_set.HB_SET_DECIMALS; } else hb_errRT_BASE( EG_ARG, 1097, NULL, "SQRT" ); } else hb_errRT_BASE( EG_ARGCOUNT, 3000, NULL, "SQRT" ); /* NOTE: Clipper catches this at compile time! */ }