src | ||
.gitignore | ||
Cargo.toml | ||
LICENSE | ||
README.md | ||
rustfmt.toml |
evalexpr
Evalexpr is a powerful arithmetic and boolean expression evaluator.
Documentation
Quickstart
Add evalexpr
as dependency to your Cargo.toml
:
[dependencies]
evalexpr = "0.5"
Add the extern crate
definition to your main.rs
or lib.rs
:
extern crate evalexpr;
Then you can use evalexpr
to evaluate expressions like this:
use evalexpr::*;
assert_eq!(eval("1 + 2 + 3"), Ok(Value::from(6)));
assert_eq!(eval("1 - 2 * 3"), Ok(Value::from(-5)));
assert_eq!(eval("1.0 + 2 * 3"), Ok(Value::from(7.0)));
assert_eq!(eval("true && 4 > 2"), Ok(Value::from(true)));
And you can use variables and functions in expressions like this:
use evalexpr::*;
let mut configuration = HashMapConfiguration::new();
configuration.insert_variable("five", 5);
configuration.insert_variable("twelve", 12);
configuration.insert_function("f", Function::new(1 /* argument amount */, Box::new(|arguments| {
if let Value::Int(int) = arguments[0] {
Ok(Value::Int(int / 2))
} else if let Value::Float(float) = arguments[0] {
Ok(Value::Float(float / 2.0))
} else {
Err(Error::expected_number(arguments[0].clone()))
}
})));
assert_eq!(eval_with_configuration("five + 8 > f(twelve)", &configuration), Ok(Value::from(true)));
You can also precompile expressions like this:
use evalexpr::*;
let precompiled = build_operator_tree("a * b - c > 5").unwrap();
let mut configuration = HashMapConfiguration::new();
configuration.insert_variable("a", 6);
configuration.insert_variable("b", 2);
configuration.insert_variable("c", 3);
assert_eq!(precompiled.eval(&configuration), Ok(Value::from(true)));
configuration.insert_variable("c", 8);
assert_eq!(precompiled.eval(&configuration), Ok(Value::from(false)));
Features
Operators
Supported binary operators:
Operator | Precedence | Description | Operator | Precedence | Description | |
---|---|---|---|---|---|---|
+ | 95 | Sum | < | 80 | Lower than | |
- | 95 | Difference | > | 80 | Greater than | |
* | 100 | Product | <= | 80 | Lower than or equal | |
/ | 100 | Division | >= | 80 | Greater than or equal | |
% | 100 | Modulo | == | 80 | Equal | |
&& | 75 | Logical and | != | 80 | Not equal | |
|| | 70 | Logical or |
Supported unary operators:
Operator | Precedence | Description |
---|---|---|
- | 110 | Negation |
! | 110 | Logical not |
Operators with higher precedence have a higher priority when determining the order of evaluation. The precedence of variables and values is 200, and the precedence of function literals is 190.
Values
Operators take values as arguments and produce values as results. Values can be boolean, integer or floating point numbers. Strings are supported as well, but there are no operations defined for them yet. Values are denoted as displayed in the following table.
Value type | Example |
---|---|
Value::Boolean |
true , false |
Value::Int |
3 , -9 , 0 , 135412 |
Value::Float |
3. , .35 , 1.00 , 0.5 , 123.554 |
Integers are internally represented as i64
, and floating point numbers are represented as f64
.
Operators that take numbers as arguments can either take integers or floating point numbers.
If one of the arguments is a floating point number, all others are converted to floating point numbers as well, and the resulting value is a floating point number as well.
Otherwise, the result is an integer.
Values have a precedence of 200.
Variables
This crate allows to compile parameterizable formulas by using variables.
A variable is a literal in the formula, that does not contain whitespace or can be parsed as value.
The user needs to provide bindings to the variables for evaluation.
This is done with the Configuration
trait.
Two structs implementing this trait are predefined.
There is EmptyConfiguration
, that returns None
for each request, and HashMapConfiguration
, that stores mappings from literals to variables in a hash map.
Variables do not have fixed types in the expression itself, but aer typed by the configuration.
The Configuration
trait contains a function that takes a string literal and returns a Value
enum.
The variant of this enum decides the type on evaluation.
Variables have a precedence of 200.
Functions
This crate also allows to define arbitrary functions to be used in parsed expressions.
A function is defined as a Function
instance.
It contains two properties, the argument_amount
and the function
.
The function
is a boxed Fn(&[Value]) -> Result<Value, Error>
.
The argument_amount
determines the length of the slice that is passed to function
.
It is verified on execution by the crate and does not need to be verified by the function
.
Be aware that functions need to verify the types of values that are passed to them.
The error
module contains some shortcuts for verification, and error types for passing a wrong value type.
Also, most numeric functions need to differentiate between being called with integers or floating point numbers, and act accordingly.
Functions are identified by literals, like variables as well.
A literal identifies a function, if it is followed by an opening brace (
, another literal, or a value.
Same as variables, function bindings are provided by the user via a Configuration
.
Functions have a precedence of 190.
Examplary variables and functions in expressions:
Expression | Valid? | Explanation |
---|---|---|
a |
yes | |
abc |
yes | |
a<b |
no | Expression is interpreted as variable a , operator < and variable b |
a b |
no | Expression is interpreted as function a applied to argument b |
123 |
no | Expression is interpreted as Value::Int |
true |
no | Expression is interpreted as Value::Bool |
.34 |
no | Expression is interpreted as Value::Float |
License
This crate is primarily distributed under the terms of the MIT license. See LICENSE for details.