#pragma once
#ifndef TGRAMMAR_INCLUDED
#define TGRAMMAR_INCLUDED
#include <memory>
// TnzCore includes
#include "tcommon.h"
// TnzBase includes
#include "ttokenizer.h"
#undef DVAPI
#undef DVVAR
#ifdef TNZBASE_EXPORTS
#define DVAPI DV_EXPORT_API
#define DVVAR DV_EXPORT_VAR
#else
#define DVAPI DV_IMPORT_API
#define DVVAR DV_IMPORT_VAR
#endif
//==============================================
// Forward declarations
class TDoubleParam;
class TUnit;
namespace TSyntax {
class Token;
class Calculator;
}
//==============================================
//-------------------------------------------------------------------
// Calculator & calculator nodes
//-------------------------------------------------------------------
namespace TSyntax {
class DVAPI CalculatorNodeVisitor {
public:
CalculatorNodeVisitor() {}
virtual ~CalculatorNodeVisitor() {}
};
//-------------------------------------------------------------------
class DVAPI CalculatorNode {
Calculator *m_calculator;
public:
CalculatorNode(Calculator *calculator) : m_calculator(calculator) {}
virtual ~CalculatorNode() {}
Calculator *getCalculator() const { return m_calculator; }
enum { T, FRAME, RFRAME };
virtual double compute(double vars[3]) const = 0;
virtual void accept(CalculatorNodeVisitor &visitor) = 0;
private:
// Non-copyable
CalculatorNode(const CalculatorNode &);
CalculatorNode &operator=(const CalculatorNode &);
};
//-------------------------------------------------------------------
class DVAPI Calculator {
CalculatorNode *m_rootNode; //!< (owned) Root calculator node
TDoubleParam *m_param; //!< (not owned) Owner of the calculator object
const TUnit *m_unit; //!< (not owned)
public:
Calculator();
virtual ~Calculator();
void setRootNode(CalculatorNode *node);
double compute(double t, double frame, double rframe) {
double vars[3];
vars[0] = t, vars[1] = frame, vars[2] = rframe;
return m_rootNode->compute(vars);
}
void accept(CalculatorNodeVisitor &visitor) { m_rootNode->accept(visitor); }
typedef double Calculator::*Variable;
void setOwnerParameter(TDoubleParam *param) { m_param = param; }
TDoubleParam *getOwnerParameter() const { return m_param; }
const TUnit *getUnit() const { return m_unit; }
void setUnit(const TUnit *unit) { m_unit = unit; }
private:
// not copyable
Calculator(const Calculator &);
Calculator &operator=(const Calculator &);
};
//-------------------------------------------------------------------
class DVAPI NumberNode : public CalculatorNode {
double m_value;
public:
NumberNode(Calculator *calc, double value)
: CalculatorNode(calc), m_value(value) {}
double compute(double vars[3]) const { return m_value; }
void accept(CalculatorNodeVisitor &visitor) {}
};
//-------------------------------------------------------------------
class DVAPI VariableNode : public CalculatorNode {
int m_varIdx;
public:
VariableNode(Calculator *calc, int varIdx)
: CalculatorNode(calc), m_varIdx(varIdx) {}
double compute(double vars[3]) const { return vars[m_varIdx]; }
void accept(CalculatorNodeVisitor &visitor) {}
};
//-------------------------------------------------------------------
// Pattern
//-------------------------------------------------------------------
enum TokenType {
Unknown = 0,
Number,
Constant,
Variable,
Operator,
Parenthesis,
Function,
Comma,
UnexpectedToken = -100,
Eos,
Mismatch,
InternalError = -200
};
//-------------------------------------------------------------------
class DVAPI Pattern {
std::string m_description;
public:
Pattern() {}
virtual ~Pattern() {}
virtual std::string getFirstKeyword() const { return ""; }
virtual void getAcceptableKeywords(std::vector<std::string> &keywords) const {
}
virtual int getPriority() const { return 0; }
virtual bool expressionExpected(
const std::vector<Token> &previousTokens) const {
return false;
}
virtual bool matchToken(const std::vector<Token> &previousTokens,
const Token &token) const = 0;
virtual bool isFinished(const std::vector<Token> &previousTokens,
const Token &token) const = 0;
virtual bool isComplete(const std::vector<Token> &previousTokens,
const Token &token) const {
return isFinished(previousTokens, token);
}
virtual TokenType getTokenType(
const std::vector<Token> &previousTokens,
const Token &token) const = 0; // see also SyntaxToken in tparser.h
virtual void createNode(Calculator *calc,
std::vector<CalculatorNode *> &stack,
const std::vector<Token> &tokens) const = 0;
std::string getDescription() const { return m_description; }
void setDescription(std::string description) { m_description = description; }
// helper methods
CalculatorNode *popNode(std::vector<CalculatorNode *> &stack) const;
};
//-------------------------------------------------------------------
class DVAPI Grammar {
class Imp;
std::unique_ptr<Imp> m_imp;
public:
Grammar();
~Grammar();
void addPattern(Pattern *pattern); // take ownership
enum Position { ExpressionStart, ExpressionEnd };
// note: returns a matching pattern (or 0 if no pattern matches)
const Pattern *getPattern(Position position, const Token &token) const;
// returns matching <keywords, comment>
typedef std::vector<std::pair<std::string, std::string>> Suggestions;
void getSuggestions(Suggestions &suggetsions, Position position) const;
private:
// not implemented
Grammar(const Grammar &);
Grammar &operator=(const Grammar &);
};
} // namespace TSyntax
#endif // TGRAMMAR_INCLUDED