/* This file is part of libeval, a simple math expression evaluator Copyright (C) 2017 Michael Geselbracht, mgeselbracht3@gmail.com This program is free software: you can redistribute it and/or modify it under the terms of the GNU 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /* An evaluator object is used to replace an input string that represents a mathematical expression by its result. Example: Consider the input "3+4". The result of this expression is "7". The NumericEvaluator can be used like this: NumericEvaluator eval; eval.process("3+4"); printf("3+4", eval.result()); The same example with error checking. Please note that even a valid input string may result in an empty output string or "NaN". NumericEvaluator eval; bool ret = eval.process("3+4"); assert(ret == eval.isValid()); // isValid() reflects return value of process(). if (eval.isValid()) printf("3+4=%s\n", eval.result()); Using variables Expressions can refer to variables if they were defined by previous expressions. A variable can be defined by an expression or by the setVar() method. Expressions that define/set variables do not have a result. eval.process("x=1; y=2"); // Result is NaN eval.setVar("z", 3); eval.process("x+y+z"); printf("x+y+z=%s\n", eval.result()); Input string storage An evaluator object can store and retrieve the original input string using a pointer as key. This can be used to restore the input string of a text entry field. eval.process("25.4-0.7", &eval); printf("%s = %s\n", eval.textInput(&eval), eval.result()); Unit conversion The evaluator uses a default unit and constants can be specified with a unit. As long as no units are used the default unit is not relevant. The default unit is taken from the global (Kicad) variable g_UserUnit. Supported units are millimeters (mm), Mil (mil) and inch (") eval.process("1\""); printf("1\" = %s\n", eval.result()); eval.process("12.7 - 0.1\" - 50mil"); printf("12.7 - 0.1\" - 50mil = %s\n", eval.result()); */ #ifndef NUMERIC_EVALUATOR_H_ #define NUMERIC_EVALUATOR_H_ #include "grammar.h" #include #include #include #include // This namespace is used for the lemon parser namespace numEval { struct TokenType { union { double dValue; int iValue; }; bool valid; char text[32]; }; } // namespace numEval class NumericEvaluator { enum class Unit { Invalid, Metric, Inch, Mil }; public: NumericEvaluator(); ~NumericEvaluator(); /* Initialization and destruction. init() is invoked be the constructor and should not be needed * by the user. * clear() should be invoked by the user if a new input string is to be processed. It will reset * the parser and clear the original expression value for a requested object (if pObj != null). */ void init(); void clear(const void* pObj = nullptr); /* Set the decimal separator for the input string. Defaults to '.' */ void setDecimalSeparator(char sep); /* Enable or disable support for input string storage. * If enabled the input string is saved if process(const char*, const void*) is used. */ void enableTextInputStorage(bool w) { bClTextInputStorage = w; } /* Used by the lemon parser */ void parseError(const char* s); void parseOk(); void parseSetResult(double); /* Check if previous invokation of process() was successful */ inline bool isValid() const { return !bClError; } /* Result of string processing. Undefined if !isValid() */ inline const char* result() const { return clToken.token; } /* Evaluate input string. * Result can be retrieved by result(). * Returns true if input string could be evaluated, otherwise false. */ bool process(const char* s); /* Like process(const char*) but also stores input string in a std:map with key pObj. */ bool process(const char* s, const void* pObj); /* Retrieve old input string with key pObj. */ const char* textInput(const void* pObj) const; /* Add/set variable with value */ void setVar(const std::string&, double value); /* Get value of variable. Returns 0.0 if not defined. */ double getVar(const std::string&); /* Remove single variable */ void removeVar(const std::string& s) { clVarMap.erase(s); } /* Remove all variables */ void clearVar() { clVarMap.clear(); } protected: /* Token type used by the tokenizer */ struct Token { int token; numEval::TokenType value; }; /* Begin processing of a new input string */ void newString(const char* s); /* Tokenizer: Next token/value taken from input string. */ Token getToken(); /* Used by processing loop */ void parse(int token, numEval::TokenType value); private: void* pClParser; // the current lemon parser state machine /* Token state for input string. */ struct TokenStat { enum { OutLen=32 }; TokenStat() : input(0), token(0), inputLen(0), pos(0) { /* empty */ } const char* input; // current input string ("var=4") char* token; // output token ("var", type:VAR; "4", type:VALUE) size_t inputLen; // strlen(input) size_t pos; // current index } clToken; char cClDecSep; // decimal separator ('.') /* Parse progress. Set by parser actions. */ bool bClError; bool bClParseFinished; bool bClTextInputStorage; // Enable input string storage used by process(const char*, const void*) Unit eClUnitDefault; // Default unit for values std::map clObjMap; // Map pointer to text entry -> (original) input string std::map clVarMap; }; #endif /* NUMERIC_EVALUATOR_H_ */