khanat-opennel-code/code/nel/src/misc/eval_num_expr.cpp
2010-06-13 16:58:11 +02:00

1318 lines
31 KiB
C++

// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
#include "stdmisc.h"
#include "nel/misc/eval_num_expr.h"
namespace NLMISC
{
using namespace std;
// ***************************************************************************
CEvalNumExpr::TReturnState CEvalNumExpr::readDecimal (double &value)
{
// Read first integer value
readIntegerNumberDecimal (value);
// Dot ?
char currentChar = *_ExprPtr;
if (currentChar == '.')
{
// Next char
_ExprPtr++;
currentChar = *_ExprPtr;
if (currentChar < '0' || currentChar > '9')
return NumberSyntaxError;
// Read the decimal part
const char *start = _ExprPtr;
double fract;
readIntegerNumberDecimal (fract);
fract /= (double)pow (10.0,(sint)(_ExprPtr-start));
value += fract;
}
return NoError;
}
// ***************************************************************************
void CEvalNumExpr::readIntegerNumberDecimal (double &value)
{
// Registered values
register double regValue = 0;
// Read the first value
char currentChar = *_ExprPtr;
if ((currentChar >= '0') && (currentChar <= '9'))
{
regValue += (currentChar - '0');
_ExprPtr++;
currentChar = *_ExprPtr;
// For each values
while ((currentChar >= '0') && (currentChar <= '9'))
{
regValue *= 10;
regValue += (currentChar - '0');
// Next char
_ExprPtr++;
currentChar = *_ExprPtr;
}
}
// Store value
value = regValue;
}
// ***************************************************************************
CEvalNumExpr::TReturnState CEvalNumExpr::getNextToken (TToken &token)
{
// Get the current char
uint8 currentChar = *_ExprPtr;
// Skip space
while ((currentChar!=0) && (currentChar<=0x20))
{
_ExprPtr++;
currentChar = *_ExprPtr;
}
// Can be an operator ?
if (currentChar <= 128)
{
// Get the operator
_Op = _OperatorArray[currentChar];
// Is an operator ?
if (_Op != NotOperator)
{
// It is an operator
token = Operator;
// Is a 2 characters operator ?
if (_Op != ExtOperator)
{
// Return next character
_ExprPtr++;
return NoError;
}
else
{
// Have a second character ?
char secondChar = *(_ExprPtr+1);
// What kind of 1st character
switch (currentChar)
{
case '!':
if (secondChar == '=')
{
_Op = NotEqual;
_ExprPtr+=2;
return NoError;
}
else
{
_Op = Not;
_ExprPtr++;
return NoError;
}
case '&':
if (secondChar == '&')
{
_Op = LogicalAnd;
_ExprPtr+=2;
return NoError;
}
else
{
_Op = And;
_ExprPtr+=1;
return NoError;
}
case '-':
if (secondChar == '>')
{
_Op = SRightShift;
_ExprPtr+=2;
return NoError;
}
else
{
_Op = Minus;
_ExprPtr++;
return NoError;
}
case '<':
if (secondChar == '<')
{
_Op = ULeftShift;
_ExprPtr+=2;
return NoError;
}
else if (secondChar == '=')
{
_Op = InferiorEqual;
_ExprPtr+=2;
return NoError;
}
else if (secondChar == '-')
{
_Op = SLeftShift;
_ExprPtr+=2;
return NoError;
}
else
{
_Op = Inferior;
_ExprPtr+=1;
return NoError;
}
case '=':
if (secondChar == '=')
{
_Op = Equal;
_ExprPtr+=2;
return NoError;
}
case '>':
if (secondChar == '>')
{
_Op = URightShift;
_ExprPtr+=2;
return NoError;
}
else if (secondChar == '=')
{
_Op = SuperiorEqual;
_ExprPtr+=2;
return NoError;
}
else
{
_Op = Superior;
_ExprPtr+=1;
return NoError;
}
case '^':
if (secondChar == '^')
{
_Op = LogicalXor;
_ExprPtr+=2;
return NoError;
}
else
{
_Op = Xor;
_ExprPtr+=1;
return NoError;
}
case '|':
if (secondChar == '|')
{
_Op = LogicalOr;
_ExprPtr+=2;
return NoError;
}
else
{
_Op = Or;
_ExprPtr+=1;
return NoError;
}
}
// Can't found the operator
return UnknownOperator;
}
}
// Is End, '(', ')', '.' ?
else if (currentChar == 0)
{
token = End;
return NoError;
}
else if (currentChar == '(')
{
_ExprPtr++;
token = Open;
return NoError;
}
else if (currentChar == ')')
{
_ExprPtr++;
token = Close;
return NoError;
}
else if (currentChar == ',')
{
_ExprPtr++;
token = Coma;
return NoError;
}
// Is a number ?
else if (((currentChar >= '0') && (currentChar <= '9')) || (currentChar == '.'))
{
// This is a number
token = Number;
// Have a second character ?
char secondChar = *(_ExprPtr+1);
// Is an hexadecimal value ?
if ((currentChar == '0') && (secondChar == 'x'))
{
// Go to the number
_ExprPtr +=2;
currentChar = *_ExprPtr;
// Registered values
register double regValue = 0;
if ((currentChar >= '0') && (currentChar <= '9'))
{
regValue += (currentChar - '0');
}
else if ((currentChar >= 'a') && (currentChar <= 'f'))
{
regValue += (currentChar - 'a' + 10);
}
else if ((currentChar >= 'A') && (currentChar <= 'F'))
{
regValue += (currentChar - 'A' + 10);
}
else
{
// Number syntax error
return NumberSyntaxError;
}
_ExprPtr++;
currentChar = *_ExprPtr;
// For each values
for(;;)
{
if ((currentChar >= '0') && (currentChar <= '9'))
{
regValue *= 16;
regValue += (currentChar - '0');
}
else if ((currentChar >= 'a') && (currentChar <= 'f'))
{
regValue *= 16;
regValue += (currentChar - 'a' + 10);
}
else if ((currentChar >= 'A') && (currentChar <= 'F'))
{
regValue *= 16;
regValue += (currentChar - 'A' + 10);
}
else
{
// Stop
break;
}
// Next char
_ExprPtr++;
currentChar = *_ExprPtr;
}
// Store value
_Value = regValue;
// Number ok
return NoError;
}
// Is an octal value ?
else if ((currentChar == '0') && (secondChar >= '0') && (secondChar <= '9'))
{
// Go to the number
_ExprPtr ++;
currentChar = *_ExprPtr;
// Registered values
register double regValue = 0;
// Check octal number
if (currentChar > '7')
return NumberSyntaxError;
// Read the first value
regValue += (currentChar - '0');
_ExprPtr++;
currentChar = *_ExprPtr;
// For each values
while ((currentChar >= '0') && (currentChar <= '9'))
{
// Check octal number
if (currentChar > '7')
return NumberSyntaxError;
regValue *= 8;
regValue += (currentChar - '0');
// Next char
_ExprPtr++;
currentChar = *_ExprPtr;
}
// Store value
_Value = regValue;
// Number ok
return NoError;
}
// It is a decimal value
else
{
// Read value
TReturnState state = readDecimal (_Value);
if (state == NoError)
{
// Exponent ?
currentChar = *_ExprPtr;
if ( (currentChar == 'e') || (currentChar == 'E') )
{
// Next char
_ExprPtr++;
// Minus ?
bool negative = false;
if (*_ExprPtr == '-')
{
negative = true;
_ExprPtr++;
}
// Read value
double exponent;
state = readDecimal (exponent);
if (state == NoError)
{
// Negative value ?
if (negative)
exponent = -exponent;
// Raise 10 at the power of
_Value *= pow (10.0, exponent);
}
else
{
return state;
}
}
// Number ok
return NoError;
}
else
{
return state;
}
}
}
// Is a string ?
else if (currentChar == '"')
{
// Look for the end of the string
_ExprPtr++;
currentChar = *_ExprPtr;
const char *start = _ExprPtr;
while ( (currentChar != 0) && (currentChar != '"') )
{
_ExprPtr++;
currentChar = *_ExprPtr;
}
// End reached ?
if (currentChar == 0)
return MustBeDoubleQuote;
// This is a user string, copy the string
uint size = (uint)(_ExprPtr - start);
if (size >= (InternalStringLen-1))
{
_InternalStlString.resize (size);
uint i;
for (i=0; i<size; i++)
_InternalStlString[i] = start[i];
_InternalStringPtr = _InternalStlString.c_str ();
}
else
{
memcpy (_InternalString, start, size);
_InternalString[size] = 0;
_InternalStringPtr = _InternalString;
}
// Token
_ExprPtr++;
token = String;
return NoError;
}
}
// Read a string
const char *start = _ExprPtr;
while ( (currentChar >= 128) || _StringChar[currentChar] )
{
_ExprPtr++;
currentChar = *_ExprPtr;
}
// Is pi ?
if (((_ExprPtr - start) == 2) && (start[0] == 'p') && (start[1] == 'i'))
{
token = Number;
_Value = 3.1415926535897932384626433832795;
return NoError;
}
// Is e ?
else if (((_ExprPtr - start) == 1) && (start[0] == 'e'))
{
token = Number;
_Value = 2.7182818284590452353602874713527;
return NoError;
}
// This is a user string, copy the string
uint size = (uint)(_ExprPtr - start);
if (size >= (InternalStringLen-1))
{
_InternalStlString.resize (size);
uint i;
for (i=0; i<size; i++)
_InternalStlString[i] = start[i];
_InternalStringPtr = _InternalStlString.c_str ();
}
else
{
memcpy (_InternalString, start, size);
_InternalString[size] = 0;
_InternalStringPtr = _InternalString;
}
// Search for a reserved word ?
uint begin = 0;
uint end = ReservedWordCount-1;
sint result = strcmp (_InternalStringPtr, _ReservedWord[begin]);
if ( result >= 0 )
{
// The first is the good ?
if ( result == 0 )
{
end = begin;
}
result = strcmp (_InternalStringPtr, _ReservedWord[end]);
if (result <= 0)
{
// The last is the good ?
if ( result == 0 )
{
begin = end;
}
// While there is a middle..
while ((end - begin) > 1)
{
uint middle = begin + (end - begin) / 2;
result = strcmp (_InternalStringPtr, _ReservedWord[middle]);
if (result == 0)
{
begin = middle;
end = middle;
break;
}
else if (result < 0)
{
end = middle;
}
else
{
begin = middle;
}
}
}
// Found ?
if (end == begin)
{
// Return the token
_ReservedWordFound = (TReservedWord)begin;
token = _ReservedWordToken[begin];
// Ok
return NoError;
}
}
// Token
token = String;
return NoError;
}
// ***************************************************************************
CEvalNumExpr::TReturnState CEvalNumExpr::evalExpression (const char *expression, double &result,
int *errorIndex, uint32 userData)
{
// Init the ptr
_ExprPtr = expression;
TToken nextToken;
TReturnState error = evalExpression (result, nextToken, userData);
if (error == NoError)
{
// The end ?
if (nextToken == End)
return NoError;
else
{
if (errorIndex)
*errorIndex = (int)(_ExprPtr - expression);
return MustBeEnd;
}
}
else
{
if (errorIndex)
*errorIndex = (int)(_ExprPtr - expression);
return error;
}
}
// ***************************************************************************
CEvalNumExpr::TReturnState CEvalNumExpr::evalExpression (double &finalResult, TToken &nextToken, uint32 userData)
{
// Array of result
uint exprCount = 0;
double result[InternalOperator];
vector<double> resultSup;
uint opCount = 0;
TOperator resultOp[InternalOperator];
vector<TOperator> resultOpSup;
// Read a token
TReturnState error = getNextToken (nextToken);
if (error != NoError)
return error;
for(;;)
{
// Unary opertor
uint unaryOpCount = 0;
TOperator resultUnaryOp[InternalOperator];
vector<TOperator> resultUnaryOpSup;
// Current value
double value;
// Unary operator ?
if ( (nextToken == Operator) && ( (_Op == Minus) || (_Op == Not) || (_Op == Tilde) ) )
{
// Push the unary operator
if (unaryOpCount<InternalOperator)
resultUnaryOp[unaryOpCount] = _Op;
else
resultUnaryOpSup.push_back (_Op);
unaryOpCount++;
// Read next token
error = getNextToken (nextToken);
if (error != NoError)
return error;
}
// Parenthesis ?
if (nextToken == Open)
{
// Eval sub expression
error = evalExpression (value, nextToken, userData);
if (error == NoError)
{
if (nextToken != Close)
return MustBeClose;
}
else
return error;
// Get next token
error = getNextToken (nextToken);
if (error != NoError)
return error;
}
// This is a function ?
else if ( (nextToken == Function1) || (nextToken == Function2) )
{
TToken backupedToken = nextToken;
// Get the function
TReservedWord reservedWord = _ReservedWordFound;
// Read a token
error = getNextToken (nextToken);
if (error == NoError)
{
// Open ?
if (nextToken != Open)
{
return MustBeOpen;
}
// Eval an expression
double arg0;
error = evalExpression (arg0, nextToken, userData);
if (error == NoError)
{
// 2 arg ?
if (backupedToken == Function2)
{
if (nextToken == Coma)
{
// Second argument
double arg1;
error = evalExpression (arg1, nextToken, userData);
if (error == NoError)
{
// Final with close ?
if (nextToken == Close)
{
switch (reservedWord)
{
case Atan2:
value = atan2 (arg0, arg1);
break;
case Max:
value = (arg0>arg1) ? arg0 : arg1;
break;
case Min:
value = (arg0<arg1) ? arg0 : arg1;
break;
case Pow:
value = pow (arg0, arg1);
break;
case Rand:
value = arg0 + (arg1-arg0) * (double)rand () / ((double)RAND_MAX+1.0);
break;
default:
// Can't be here after getToken
nlstop;
}
}
else
return MustBeClose;
}
else
return error;
}
else
return MustBeComa;
}
else
{
if (nextToken == Close)
{
// Eval the function
switch (reservedWord)
{
case Abs:
value = fabs (arg0);
break;
case Acos:
value = acos (arg0);
break;
case Asin:
value = asin (arg0);
break;
case Atan:
value = atan (arg0);
break;
case Ceil:
value = ceil (arg0);
break;
case Cosh:
value = cosh (arg0);
break;
case Cos:
value = cos (arg0);
break;
case Exponent:
{
int exponent;
frexp( arg0, &exponent);
value = (double)exponent;
}
break;
case Exp:
value = exp (arg0);
break;
case Floor:
value = floor (arg0);
break;
case Int:
value = (double)(int)(arg0);
break;
case Log10:
value = log10 (arg0);
break;
case Log:
value = log (arg0);
break;
case Mantissa:
{
int exponent;
value = frexp( arg0, &exponent);
}
break;
case Round:
value = floor (arg0 + 0.5);
break;
case Sinh:
value = sinh (arg0);
break;
case Sin:
value = sin (arg0);
break;
case Sqrt:
value = sqrt (arg0);
break;
case Sq:
value = arg0 * arg0;
break;
case Tanh:
value = tanh (arg0);
break;
case Tan:
value = tan (arg0);
break;
default:
// Can't be hear after getToken
nlstop;
}
}
else
return MustBeClose;
}
}
else
return error;
}
else
return error;
// Get next token
error = getNextToken (nextToken);
if (error != NoError)
return error;
}
else if (nextToken == Number)
{
// Save the internal value
value = _Value;
// Get next token
error = getNextToken (nextToken);
if (error != NoError)
return error;
}
else if (nextToken == String)
{
// Copy the string
char internalString[InternalStringLen];
std::string internalStlString;
const char *internalStringPtr;
if (strlen (_InternalStringPtr) >= InternalStringLen-1)
{
internalStlString = _InternalStringPtr;
internalStringPtr = internalStlString.c_str ();
}
else
{
strcpy (internalString ,_InternalStringPtr);
internalStringPtr = internalString;
}
// Read a token
error = getNextToken (nextToken);
if (error == NoError)
{
// Open ?
if (nextToken == Open)
{
// Eval an expression
double arg0;
error = evalExpression (arg0, nextToken, userData);
if (error == NoError)
{
if (nextToken == Coma)
{
// Second argument
double arg1;
error = evalExpression (arg1, nextToken, userData);
if (error == NoError)
{
// Final with close ?
if (nextToken == Close)
{
// Eval the function
error = evalFunction (internalStringPtr, arg0, arg1, value);
if (error != NoError)
return error;
// Get next token
error = getNextToken (nextToken);
if (error != NoError)
return error;
}
else
return MustBeClose;
}
else
return error;
}
else
{
if (nextToken == Close)
{
// Eval the function
error = evalFunction (internalStringPtr, arg0, value);
if (error != NoError)
return error;
// Get next token
error = getNextToken (nextToken);
if (error != NoError)
return error;
}
else
return MustBeClose;
}
}
else
return error;
}
else
{
// This is a user value
error = evalValue (internalStringPtr, value, userData);
if (error != NoError)
return error;
}
}
else
return error;
}
else
{
return MustBeExpression;
}
// Eval unary operator
sint i;
for (i=unaryOpCount-1; i>=0; i--)
{
switch ((i<InternalOperator)?resultUnaryOp[i]:resultUnaryOpSup[i-InternalOperator])
{
case Not:
value = (double)(uint)((floor (value+0.5)==0.0));
break;
case Tilde:
value = (double)~((uint)floor (value+0.5));
break;
case Minus:
value = -value;
break;
default:
// Can't be hear after getToken
nlstop;
}
}
// Push the value
if (exprCount < InternalOperator)
result[exprCount] = value;
else
resultSup.push_back (value);
exprCount++;
// Look for an operator
// Operator ?
if (nextToken == Operator)
{
// Yes, push it
if (opCount < InternalOperator)
resultOp[opCount] = _Op;
else
resultOpSup.push_back (_Op);
opCount++;
}
else
{
// Exit the evaluate loop
break;
}
// Next token
error = getNextToken (nextToken);
}
// Reduce the expression
uint index = 1;
while (exprCount != 1)
{
// Reduct ?
TOperator before = (((index-1)<InternalOperator)?resultOp[index-1]:resultOpSup[index-1-InternalOperator]);
TOperator after = (index < opCount)?(((index)<InternalOperator)?resultOp[index]:resultOpSup[index-InternalOperator]):NotOperator;
if ((index == opCount) || (_OperatorPrecedence[before] <= _OperatorPrecedence[after]))
{
// Eval the value
double &v0 = ((index-1)<InternalOperator)?result[index-1]:resultSup[index-1-InternalOperator];
double &v1 = ((index)<InternalOperator)?result[index]:resultSup[index-InternalOperator];
// Choose the operator
switch (before)
{
case Not:
case Tilde:
return NotUnaryOperator;
case Mul:
v0 *= v1;
break;
case Div:
if (v1 == 0)
{
return DividByZero;
}
else
{
v0 /= v1;
}
break;
case Remainder:
v0 = fmod (v0, v1);
break;
case Plus:
v0 += v1;
break;
case Minus:
v0 -= v1;
break;
case ULeftShift:
v0 = (double)(((uint)floor (v0 + 0.5))<<((uint)floor (v1 + 0.5)));
break;
case URightShift:
v0 = (double)(((uint)floor (v0 + 0.5))>>((uint)floor (v1 + 0.5)));
break;
case SLeftShift:
v0 = (double)(((sint)floor (v0 + 0.5))<<((sint)floor (v1 + 0.5)));
break;
case SRightShift:
v0 = (double)(((sint)floor (v0 + 0.5))>>((sint)floor (v1 + 0.5)));
break;
case Inferior:
v0 = (v0<v1)?1.0:0.0;
break;
case InferiorEqual:
v0 = (v0<=v1)?1.0:0.0;
break;
case Superior:
v0 = (v0>v1)?1.0:0.0;
break;
case SuperiorEqual:
v0 = (v0>=v1)?1.0:0.0;
break;
case Equal:
v0 = (v0==v1)?1.0:0.0;
break;
case NotEqual:
v0 = (v0!=v1)?1.0:0.0;
break;
case And:
v0 = (double)(((uint)floor (v0 + 0.5)) & ((uint)floor (v1 + 0.5)));
break;
case Or:
v0 = (double)(((uint)floor (v0 + 0.5)) | ((uint)floor (v1 + 0.5)));
break;
case Xor:
v0 = (double)(((uint)floor (v0 + 0.5)) ^ ((uint)floor (v1 + 0.5)));
break;
case LogicalAnd:
v0 = (double)(uint)((floor (v0 + 0.5) != 0.0) && (floor (v1 + 0.5) != 0.0));
break;
case LogicalOr:
v0 = (double)(uint)((floor (v0 + 0.5) != 0.0) || (floor (v1 + 0.5) != 0.0));
break;
case LogicalXor:
{
bool b0 = floor (v0 + 0.5) != 0.0;
bool b1 = floor (v1 + 0.5) != 0.0;
v0 = (double)(uint)((b0&&!b1) || ((!b0)&&b1));
}
break;
default:
nlstop;
}
// Decal others values
uint i = index;
for (; i<exprCount-1; i++)
{
// Copy
if (i<InternalOperator)
result[i] = (i+1<InternalOperator)?result[i+1]:resultSup[i+1-InternalOperator];
else
resultSup[i-InternalOperator] = (i+1<InternalOperator)?result[i+1]:resultSup[i+1-InternalOperator];
}
exprCount--;
// Decal operators
i = index-1;
for (; i<opCount-1; i++)
{
// Copy
if (i<InternalOperator)
resultOp[i] = (i+1<InternalOperator)?resultOp[i+1]:resultOpSup[i+1-InternalOperator];
else
resultOpSup[i-InternalOperator] = (i+1<InternalOperator)?resultOp[i+1]:resultOpSup[i+1-InternalOperator];
}
opCount--;
// Last one ?
if (index > 1)
index--;
}
else
index++;
}
finalResult = result[0];
return NoError;
}
// ***************************************************************************
bool CEvalNumExpr::internalCheck ()
{
for (uint i=0; i<ReservedWordCount-1; i++)
if (strcmp (_ReservedWord[i], _ReservedWord[i+1]) >= 0)
{
nlstop;
return false;
}
return true;
}
// ***************************************************************************
// ASCII TABLE
/*
0 NUL SOH STX ETX EOT ENQ ACK BEL BS TAB LF VT FF CR SO SI
1 DLE DC1 DC2 DC3 DC4 NAK SYN ETB CAN EM SUB ESC FS GS RS US
2 ! " # $ % & ' ( ) * + , - . /
3 0 1 2 3 4 5 6 7 8 9 : ; < = > ?
4 @ A B C D E F G H I J K L M N O
5 P Q R S T U V W X Y Z [ \ ] ^ _
6 ` a b c d e f g h i j k l m n o
7 p q r s t u v w x y z { | } ~
*/
// ***************************************************************************
const CEvalNumExpr::TOperator CEvalNumExpr::_OperatorArray[128] =
{
NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator,
NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator,
NotOperator, ExtOperator, NotOperator, NotOperator, NotOperator, Remainder, ExtOperator, NotOperator, NotOperator, NotOperator, Mul, Plus, NotOperator, ExtOperator, NotOperator, Div,
NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, ExtOperator, ExtOperator, ExtOperator, NotOperator,
NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator,
NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, ExtOperator, NotOperator,
NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator,
NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, NotOperator, ExtOperator, NotOperator, Tilde, NotOperator,
};
// ***************************************************************************
const bool CEvalNumExpr::_StringChar[128] =
{
false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false,
false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false,
false, false, true, true, true, false, false, true, false, false, false, false, false, false, false, false,
true, true, true, true, true, true, true, true, true, true, true, true, false, false, false, true,
true, true, true, true, true, true, true, true, true, true, true, true, true, true, true, true,
true, true, true, true, true, true, true, true, true, true, true, true, true, true, false, true,
true, true, true, true, true, true, true, true, true, true, true, true, true, true, true, true,
true, true, true, true, true, true, true, true, true, true, true, true, false, true, false, true,
};
// ***************************************************************************
CEvalNumExpr::TReturnState CEvalNumExpr::evalValue (const char *value, double &result, uint32 userData)
{
return UnknownValue;
}
// ***************************************************************************
CEvalNumExpr::TReturnState CEvalNumExpr::evalFunction (const char *funcName, double arg0, double &result)
{
return UnknownFunction;
}
// ***************************************************************************
CEvalNumExpr::TReturnState CEvalNumExpr::evalFunction (const char *funcName, double arg0, double arg1, double &result)
{
return UnknownFunction;
}
// ***************************************************************************
const char *CEvalNumExpr::_ReservedWord[ReservedWordCount] =
{
"abs", // Abs
"acos", // Acos
"asin", // Asin
"atan", // Atan
"atan2", // Atan2
"ceil", // Ceil
"cos", // Cos
"cosh", // Cosh
"exp", // Exp
"exponent", // Exponent
"floor", // Floor
"int", // Int
"log", // Log
"log10", // Log10
"mantissa", // Mantissa
"max", // Max
"min", // Min
"pow", // Pow
"rand", // Rand
"round", // Round
"sin", // Sin
"sinh", // Sinh
"sq", // Sq
"sqrt", // Sqrt
"tan", // Tan
"tanh", // Tanh
};
// ***************************************************************************
const CEvalNumExpr::TToken CEvalNumExpr::_ReservedWordToken[ReservedWordCount] =
{
Function1, // Abs
Function1, // Acos
Function1, // Asin
Function1, // Atan
Function2, // Atan2
Function1, // Ceil
Function1, // Cos
Function1, // Cosh
Function1, // Exp
Function1, // Exponent
Function1, // Floor
Function1, // Int
Function1, // Log
Function1, // Log10
Function1, // Mantissa
Function2, // Max
Function2, // Min
Function2, // Pow
Function2, // Rand
Function1, // Round
Function1, // Sin
Function1, // Sinh
Function1, // Sq
Function1, // Sqrt
Function1, // Tan
Function1, // Tanh
};
// ***************************************************************************
const char *CEvalNumExpr::_ErrorString[ReturnValueCount]=
{
"No error",
"Unknown value",
"Error during user defined value evaluation",
"Unknown function",
"Error during user defined function evaluation",
"Syntax error in a number expression",
"Unknown operator",
"Should be a open parentesis",
"Should be a close parentesis",
"Should be a coma character",
"Should be an expression",
"Should not be an unary operator",
"Should be the end of the expression",
"Should be a double quote",
"Divid by zero",
};
// ***************************************************************************
const char* CEvalNumExpr::getErrorString (TReturnState state) const
{
return _ErrorString[state];
}
// ***************************************************************************
const int CEvalNumExpr::_OperatorPrecedence[]=
{
0, // Not
0, // Tilde
1, // Mul
1, // Div
1, // Remainder
2, // Plus
2, // Minus
3, // ULeftShift
3, // URightShift
3, // SLeftShift
3, // SRightShift
4, // Inferior
4, // InferiorEqual
4, // Superior
4, // SuperiorEqual
5, // Equal
5, // NotEqual
6, // And
7, // Or
8, // Xor
9, // LogicalAnd
10, // LogicalOr
11, // LogicalXor
0xffffffff, // OperatorCount
20, // NotOperator
};
// ***************************************************************************
}