haiku/src/apps/deskcalc/ExpressionParser.cpp
Stephan Aßmus 5a27d5c8a9 cosmetic
git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23762 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-01-27 13:05:19 +00:00

475 lines
9.0 KiB
C++

/*
* Copyright 2006 Haiku, Inc. All Rights Reserved.
* Distributed under the terms of the MIT License.
*
* Authors:
* Ingo Weinhold <bonefish@cs.tu-berlin.de>
* Stephan Aßmus <superstippi@gmx.de>
*/
#include <ctype.h>
#include <math.h>
#include <stdio.h>
#include <string.h>
#include "ExpressionParser.h"
enum {
TOKEN_IDENTIFIER = 'a',
TOKEN_CONSTANT = '0',
TOKEN_PLUS = '+',
TOKEN_MINUS = '-',
TOKEN_STAR = '*',
TOKEN_SLASH = '/',
TOKEN_MODULO = '%',
TOKEN_POWER = '^',
TOKEN_OPENING_BRACKET = '(',
TOKEN_CLOSING_BRACKET = ')',
TOKEN_AND = '&',
TOKEN_OR = '|',
TOKEN_NOT = '~',
TOKEN_NONE = ' ',
TOKEN_END_OF_LINE = '\n',
};
struct Token {
Token()
: string(""),
type(TOKEN_NONE),
value(0.0),
position(0)
{
}
Token(const Token& other)
: string(other.string),
type(other.type),
value(other.value),
position(other.position)
{
}
Token(const char* string, int32 length, int32 position, int32 type)
: string(string, length),
type(type),
value(0.0),
position(position)
{
}
Token& operator=(const Token& other)
{
string = other.string;
type = other.type;
value = other.value;
position = other.position;
return *this;
}
BString string;
int32 type;
double value;
int32 position;
};
class Tokenizer {
public:
Tokenizer()
: fString(""),
fCurrentChar(NULL),
fCurrentToken(),
fReuseToken(false)
{
}
void SetTo(const char* string)
{
fString = string;
fCurrentChar = fString.String();
fCurrentToken = Token();
fReuseToken = false;
}
const Token& NextToken()
{
if (fCurrentToken.type == TOKEN_END_OF_LINE)
return fCurrentToken;
if (fReuseToken) {
fReuseToken = false;
//printf("next token (recycled): '%s'\n", fCurrentToken.string.String());
return fCurrentToken;
}
while (*fCurrentChar != 0 && isspace(*fCurrentChar))
fCurrentChar++;
if (*fCurrentChar == 0)
return fCurrentToken = Token("", 0, _CurrentPos(), TOKEN_END_OF_LINE);
bool decimal = *fCurrentChar == '.' || *fCurrentChar == ',';
if (decimal || isdigit(*fCurrentChar)) {
BString temp;
const char* begin = fCurrentChar;
while (*fCurrentChar != 0) {
if (!isdigit(*fCurrentChar)) {
if (!(*fCurrentChar == '.' || *fCurrentChar == ','
|| *fCurrentChar == 'e' || *fCurrentChar == 'E'))
break;
}
if (*fCurrentChar == ',')
temp << '.';
else
temp << *fCurrentChar;
fCurrentChar++;
}
int32 length = fCurrentChar - begin;
temp << "&_";
double value;
char t[2];
int32 matches = sscanf(temp.String(), "%lf&%s", &value, t);
if (matches != 2)
throw ParseException("error in constant", _CurrentPos() - length);
fCurrentToken = Token(begin, length, _CurrentPos() - length, TOKEN_CONSTANT);
fCurrentToken.value = value;;
} else if (isalpha(*fCurrentChar)) {
const char* begin = fCurrentChar;
while (*fCurrentChar != 0 && (isalpha(*fCurrentChar) || isdigit(*fCurrentChar)))
fCurrentChar++;
int32 length = fCurrentChar - begin;
fCurrentToken = Token(begin, length, _CurrentPos() - length, TOKEN_IDENTIFIER);
} else {
switch (*fCurrentChar) {
case '+':
case '-':
case '*':
case '/':
case '^':
case '%':
case '(':
case ')':
case '&':
case '|':
case '~':
fCurrentToken = Token(fCurrentChar, 1, _CurrentPos(), *fCurrentChar);
fCurrentChar++;
break;
default:
throw ParseException("unexpected character", _CurrentPos());
}
}
//printf("next token: '%s'\n", fCurrentToken.string.String());
return fCurrentToken;
}
void RewindToken()
{
fReuseToken = true;
}
private:
int32 _CurrentPos() const
{
return fCurrentChar - fString.String();
}
BString fString;
const char* fCurrentChar;
Token fCurrentToken;
bool fReuseToken;
};
ExpressionParser::ExpressionParser()
: fTokenizer(new Tokenizer())
{
}
ExpressionParser::~ExpressionParser()
{
delete fTokenizer;
}
double
ExpressionParser::Evaluate(const char* expressionString)
{
fTokenizer->SetTo(expressionString);
double value = _ParseBinary();
Token token = fTokenizer->NextToken();
if (token.type != TOKEN_END_OF_LINE)
throw ParseException("parse error", token.position);
return value;
}
double
ExpressionParser::_ParseBinary()
{
double value = _ParseSum();
while (true) {
Token token = fTokenizer->NextToken();
switch (token.type) {
case TOKEN_AND:
value = (uint64)value & (uint64)_ParseSum();
break;
case TOKEN_OR:
value = (uint64)value | (uint64)_ParseSum();
break;
default:
fTokenizer->RewindToken();
return value;
}
}
}
double
ExpressionParser::_ParseSum()
{
// TODO: check isnan()...
double value = _ParseProduct();
while (true) {
Token token = fTokenizer->NextToken();
switch (token.type) {
case TOKEN_PLUS:
value = value + _ParseProduct();
break;
case TOKEN_MINUS:
value = value - _ParseProduct();
break;
default:
fTokenizer->RewindToken();
return value;
}
}
}
double
ExpressionParser::_ParseProduct()
{
// TODO: check isnan()...
double value = _ParsePower();
while (true) {
Token token = fTokenizer->NextToken();
switch (token.type) {
case TOKEN_STAR:
value = value * _ParsePower();
break;
case TOKEN_SLASH: {
double rhs = _ParsePower();
if (rhs == 0.0)
throw ParseException("division by zero", token.position);
value = value / rhs;
break;
}
case TOKEN_MODULO: {
double rhs = _ParsePower();
if (rhs == 0.0)
throw ParseException("modulo by zero", token.position);
value = fmod(value, rhs);
break;
}
default:
fTokenizer->RewindToken();
return value;
}
}
}
double
ExpressionParser::_ParsePower()
{
double value = _ParseUnary();
while (true) {
Token token = fTokenizer->NextToken();
if (token.type != TOKEN_POWER) {
fTokenizer->RewindToken();
return value;
}
value = pow(value, _ParseUnary());
}
}
double
ExpressionParser::_ParseUnary()
{
Token token = fTokenizer->NextToken();
if (token.type == TOKEN_END_OF_LINE)
throw ParseException("unexpected end of expression", token.position);
switch (token.type) {
case TOKEN_PLUS:
return _ParseUnary();
case TOKEN_MINUS:
return -_ParseUnary();
case TOKEN_NOT:
return ~(uint64)_ParseUnary();
case TOKEN_IDENTIFIER:
return _ParseFunction(token);
default:
fTokenizer->RewindToken();
return _ParseAtom();
}
return 0.0;
}
struct Function {
const char* name;
int argumentCount;
void* function;
double value;
};
static const Function kFunctions[] = {
{ "e", 0, NULL, M_E },
{ "pi", 0, NULL, M_PI },
{ "abs", 1, (void*)&fabs },
{ "acos", 1, (void*)&acos },
{ "asin", 1, (void*)&asin },
{ "atan", 1, (void*)&atan },
{ "atan2", 2, (void*)&atan2 },
{ "ceil", 1, (void*)&ceil },
{ "cos", 1, (void*)&cos },
{ "cosh", 1, (void*)&cosh },
{ "exp", 1, (void*)&exp },
{ "fabs", 1, (void*)&fabs },
{ "floor", 1, (void*)&floor },
{ "fmod", 2, (void*)&fmod },
{ "log", 1, (void*)&log },
{ "log10", 1, (void*)&log10 },
{ "pow", 2, (void*)&pow },
{ "sin", 1, (void*)&sin },
{ "sinh", 1, (void*)&sinh },
{ "sqrt", 1, (void*)&sqrt },
{ "tan", 1, (void*)&tan },
{ "tanh", 1, (void*)&tanh },
{ "hypot", 2, (void*)&hypot },
{ NULL },
};
double
ExpressionParser::_ParseFunction(const Token& token)
{
const Function* function = _FindFunction(token.string.String());
if (!function)
throw ParseException("unknown identifier", token.position);
if (function->argumentCount == 0)
return function->value;
_EatToken(TOKEN_OPENING_BRACKET);
double values[function->argumentCount];
for (int32 i = 0; i < function->argumentCount; i++) {
values[i] = _ParseBinary();
}
_EatToken(TOKEN_CLOSING_BRACKET);
// hard coded cases for different count of arguments
switch (function->argumentCount) {
case 1:
return ((double (*)(double))function->function)(values[0]);
case 2:
return ((double (*)(double, double))function->function)(values[0],
values[1]);
case 3:
return ((double (*)(double, double, double))function->function)(
values[0], values[1], values[2]);
default:
throw ParseException("unsupported function argument count",
token.position);
}
}
double
ExpressionParser::_ParseAtom()
{
Token token = fTokenizer->NextToken();
if (token.type == TOKEN_END_OF_LINE)
throw ParseException("unexpected end of expression", token.position);
if (token.type == TOKEN_CONSTANT)
return token.value;
fTokenizer->RewindToken();
_EatToken(TOKEN_OPENING_BRACKET);
double value = _ParseBinary();
_EatToken(TOKEN_CLOSING_BRACKET);
return value;
}
void
ExpressionParser::_EatToken(int32 type)
{
Token token = fTokenizer->NextToken();
if (token.type != type) {
BString temp("expected '");
temp << (char)type << "' got '" << token.string << "'";
throw ParseException(temp.String(), token.position);
}
}
const Function*
ExpressionParser::_FindFunction(const char* name) const
{
for (int32 i = 0; kFunctions[i].name; i++) {
if (strcasecmp(kFunctions[i].name, name) == 0)
return &kFunctions[i];
}
return NULL;
}