Keval

A Kotlin Multiplatform mini library for string evaluation

(You may need to watch out using it: having to evaluate a string into a number is more often than not a code smell)

Import

You can import Keval directly with the jar files, or using your favorite dependency manager with the Maven Central repository:

Maven

<dependencies>
  <dependency>
    <groupId>com.notkamui.libs</groupId>
    <artifactId>keval</artifactId>
    <version>1.1.1</version>
  </dependency>
</dependencies>

Gradle (here with KotlinDSL)

repositories {
  mavenCentral()
}

dependencies {
  implementation("com.notkamui.libs:keval:1.1.1")
}

(In case you're using it with another language than Kotlin -- i.e. Java --, make sure you include kotlin stdlib too)

Usage

Keval can evaluate a mathematical expression as a String into a Double value. It is customizable in the sense that one can add new binary and unary operators, functions and constants.

The base settings of Keval already include sensible defaults for the most common mathematical operations.

Keval has support for all classic binary operators:

• Subtraction -
• Addition +
• Multiplication *
• Division /
• Exponent ^
• Remainder (mod) %

Keval has support for all classic unary operators:

• Negation/Opposition - (prefix)
• Identity + (prefix) (basically does nothing)
• Factorial ! (postfix)

Keval has support for functions of variable arity:

• Negate/Oppose neg(expr) (where 'expr' is an expression)
• Absolute abs(expr) (where 'expr' is an expression)
• Square root sqrt(expr) (where 'expr' is an expression)
• Cube root cbrt(expr) (where 'expr' is an expression)
• Exponential exp(expr) (where 'expr' is an expression)
• Natural logarithm ln(expr) (where 'expr' is an expression)
• Base 10 logarithm log10(expr) (where 'expr' is an expression)
• Base 2 logarithm log2(expr) (where 'expr' is an expression)
• Sine sin(expr) (where 'expr' is an expression)
• Cosine cos(expr) (where 'expr' is an expression)
• Tangent tan(expr) (where 'expr' is an expression)
• Arcsine asin(expr) (where 'expr' is an expression)
• Arccosine acos(expr) (where 'expr' is an expression)
• Arctangent atan(expr) (where 'expr' is an expression)
• Ceiling ceil(expr) (where 'expr' is an expression)
• Floor floor(expr) (where 'expr' is an expression)
• Round round(expr) (where 'expr' is an expression)

Keval has support for constants, it has two built-in constant:

• π PI
• e e (Euler's number)

You can optionally add as many operators, functions or constants to Keval, as long as you define every field properly, with a DSL (Domain Specific Language):

• A binary operator is defined by:
  • its symbol (a Char that is NOT a digit, nor a letter, nor an underscore)
  • its precedence/priority level (a positive Int)
  • its associativity (a Boolean true if left associative, false otherwise)
  • its implementation (a function (Double, Double) -> Double)
• A unary operator is defined by:
  • its symbol (a Char that is NOT a digit, nor a letter, nor an underscore)
  • whether it is prefix (a Boolean)
  • its implementation (a function (Double) -> Double)
• A function is defined by:
  • its name (a non-empty String identifier, that doesn't start with a digit, and only contains letters, digits or underscores)
  • its arity/number of arguments (a positive (or 0) Int or null if the function can take any number of arguments, also called a variadic function)
  • its implementation (a function (DoubleArray) -> Double)
• A constant is defined by:
  • its name (a non-empty String identifier, that doesn't start with a digit, and only contains letters, digits or underscores)
  • its value (a Double)

Keval will use the built-in operators, function and constants if you choose not to define any new resource ; but if you choose to do so, you need to include them manually. You may also choose to use Keval as an extension function.

Please note that adding a new resource with a name that already exists will overwrite the previous one, except in the case of operators, where one symbol can represent both a binary and a unary operator. For example, it is possible to define a binary operator - and a unary operator - at the same time.

You can use it in several ways:

Keval.eval("(3+4)(2/8 * 5) % PI") // uses default resources

"(3+4)(2/8 * 5) % PI".keval() // extension ; uses default resources

Keval.create { // builder instance
    includeDefault() // this function includes the built-in resources
    
    binaryOperator { // this function adds a binary operator ; you can call it several times
        symbol = ';'
        precedence = 3
        isLeftAssociative = true
        implementation = { a, b -> a.pow(2) + b.pow(2) }
    }
    
    unaryOperator { // this function adds a unary operator ; you can call it several times
        symbol = '#'
        isPrefix = false
        implementation = { arg -> (1..arg.toInt()).fold(0.0) { acc, i -> acc + i } }
    }
  
    function { // this function adds a function ; you can call it several times
        name = "max"
        arity = 2
        implementation = { args -> max(args[0], args[1]) }
    }
  
    function { // this function adds a variadic aggregation (no arity) ; you can call it several times
        name = "sum"
        implementation = { args -> args.sum() }
    }
  
    constant { // this function adds a constant ; you can call it several times
        name = "PHI"
        value = 1.618
    }
}.eval("2*max(2, 3) ; 4# + PHI^2")

"2*max(2, 3) ; 4# + PHI^2".keval { // builder instance + extension
    includeDefault()
  
    binaryOperator {
        symbol = ';'
        precedence = 3
        isLeftAssociative = true
        implementation = { a, b -> a.pow(2) + b.pow(2) }
    }
    
    unaryOperator {
        symbol = '#'
        isPrefix = false
        implementation = { arg -> (1..arg.toInt()).fold(0.0) { acc, i -> acc + i } }
    }
  
    function {
        name = "max"
        arity = 2
        implementation = { args -> max(args[0], args[1]) }
    }
  
    function {
        name = "sum"
        implementation = { args -> args.sum() }
    }
  
    constant {
        name = "PHI"
        value = 1.618
    }
}

The advantage of using Keval.create is that you may keep an instance of it in a variable so that you can call as many eval as you need.

In concordance with creating a Keval instance, you can also add resources like this:

val kvl = Keval().create {}
    .withDefault() // includes default resources // it is unnecessary here since Keval() with no DSL already does it
    .withBinaryOperator( // includes a new binary operator
        ';', // symbol
        3, // precedence
        true // isLeftAssociative
    ) { a, b -> a.pow(2) + b.pow(2) } // implementation
    .withUnaryOperator( // includes a new unary operator
        '#', // symbol
        false, // isPrefix
    ) { arg -> (1..arg.toInt()).fold(0.0) { acc, i -> acc + i } } // implementation 
    .withFunction( // includes a new function
        "max", // name
        2 // arity
    ) { max(it[0], it[1]) } // implementation
    .withFunction( // includes a new variadic function
        "sum", // name
    ) { it.sum() } // implementation
    .withConstant( // includes a new constant
        "PHI", // name
        1.618 // value
    )

kvl.eval("2*max(2, 3) ; 4# + PHI^2")

This can be combined with creating an instance with a DSL (i.e. Keval.create). This is an especially useful syntax for Java users, since DSLs generally don't translate well over it.

Creating a resource with a name that already exists will overwrite the previous one.

Keval assumes products/multiplications, and as such, the * symbol/name cannot be overwritten, and is the only operator to always be present in the resource set of a Keval instance:

"(2+3)(6+4)".keval() == "(2+3)*(6+4)".keval()

In addition, the symbols (,),, are reserved and trying to create operator using one of those symbols will result with an exception.

Error Handling

In case of an error, Keval will throw one of several KevalExceptions:

• KevalZeroDivisionException in the case a zero division occurs
• KevalInvalidArgumentException in the case a operator or function is called with an invalid argument (i.e. a negative number for a factorial)
• KevalInvalidExpressionException if the expression is invalid, with the following properties:
  • expression contains the fully sanitized expression
  • position is an estimate of the position of the error
• KevalInvalidSymbolException if the expression contains an invalid operator, with the following properties:
  • invalidSymbol contains the actual invalid operator
  • expression contains the fully sanitized expression
  • position is an estimate of the position of the error
• KevalDSLException if, in the DSL, one of the field is either not set, or doesn't follow its restrictions (defined above)

KevalZeroDivisionException and KevalInvalidArgumentException are instantiable so that you can throw them when implementing a custom operator/function.

Future Plans

• Support for variables (will produce a DoubleArray instead of a single Double)