Move built-in functions to expressive
This commit is contained in:
parent
fda852f69a
commit
8363cd20eb
@ -18,6 +18,7 @@ regex = { version = "1.5.5", optional = true}
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serde = { version = "1.0.133", optional = true}
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serde_derive = { version = "1.0.133", optional = true}
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rand = { version = "0.8.5", optional = true}
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chrono = "0.4.26"
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[features]
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serde_support = ["serde", "serde_derive"]
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22
src/container.rs
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22
src/container.rs
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@ -0,0 +1,22 @@
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use crate::{Result, Value};
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pub fn run(argument: &Value) -> Result<Value> {
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todo!()
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}
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pub fn build(argument: &Value) -> Result<Value> {
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todo!()
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}
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pub fn list(argument: &Value) -> Result<Value> {
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todo!()
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}
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pub mod image {
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use super::*;
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pub fn build(argument: &Value) -> Result<Value> {
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todo!()
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}
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pub fn list(argument: &Value) -> Result<Value> {
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todo!()
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}
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}
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@ -4,10 +4,18 @@
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//! This crate implements two basic variants, the `EmptyContext`, that returns `None` for each identifier and cannot be manipulated, and the `HashMapContext`, that stores its mappings in hash maps.
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//! The HashMapContext is type-safe and returns an error if the user tries to assign a value of a different type than before to an identifier.
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use std::{collections::BTreeMap, fmt::Display};
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use std::{
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collections::BTreeMap,
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fmt::Display,
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fs,
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io::{Read, Write},
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process::Command,
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};
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use crate::{
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container,
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function::Function,
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time,
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value::{value_type::ValueType, Value},
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EvalexprError, EvalexprResult,
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};
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@ -99,9 +107,7 @@ impl Context for VariableMap {
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}
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fn call_function(&self, identifier: &str, argument: &Value) -> EvalexprResult<Value> {
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match identifier {
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_ => todo!(),
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}
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call_whale_function(identifier, argument)
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}
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}
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@ -189,3 +195,278 @@ macro_rules! context_map {
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.map(|_| context)
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}};
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}
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fn call_whale_function(identifier: &str, argument: &Value) -> Result<Value, EvalexprError> {
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match identifier {
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"container::image::build" => container::image::build(argument),
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"container::image::list" => container::image::list(argument),
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"container::list" => container::list(argument),
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"container::run" => container::run(argument),
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"convert" => todo!(),
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"dir::create" => {
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let path = argument.as_string()?;
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std::fs::create_dir_all(path).unwrap();
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Ok(Value::Empty)
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},
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"dir::read" => {
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let path = argument.as_string()?;
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let files = std::fs::read_dir(path)
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.unwrap()
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.map(|entry| entry.unwrap().file_name().into_string().unwrap_or_default())
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.collect();
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Ok(Value::String(files))
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},
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"dir::remove" => {
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let path = argument.as_string()?;
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std::fs::remove_file(path).unwrap();
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Ok(Value::Empty)
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},
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"dir::trash" => todo!(),
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"dnf::copr" => {
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let repo_name = if let Ok(string) = argument.as_string() {
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string
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} else if let Ok(tuple) = argument.as_tuple() {
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let mut repos = String::new();
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for repo in tuple {
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let repo = repo.as_string()?;
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repos.push_str(&repo);
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repos.push(' ');
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}
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repos
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} else {
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return Err(EvalexprError::ExpectedString {
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actual: argument.clone(),
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});
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};
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let script = format!("dnf -y copr enable {repo_name}");
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Command::new("fish")
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.arg("-c")
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.arg(script)
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.spawn()
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.unwrap()
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.wait()
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.unwrap();
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Ok(Value::Empty)
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},
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"dnf::packages" => {
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let tuple = argument.as_tuple()?;
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let mut packages = String::new();
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for package in tuple {
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let package = package.as_string()?;
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packages.push_str(&package);
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packages.push(' ');
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}
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let script = format!("dnf -y install {packages}");
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Command::new("fish")
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.arg("-c")
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.arg(script)
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.spawn()
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.unwrap()
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.wait()
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.unwrap();
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Ok(Value::Empty)
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},
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"dnf::repos" => {
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let tuple = argument.as_tuple()?;
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let mut repos = String::new();
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for repo in tuple {
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let repo = repo.as_string()?;
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repos.push_str(&repo);
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repos.push(' ');
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}
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let script = format!("dnf -y config-manager --add-repo {repos}");
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Command::new("fish")
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.arg("-c")
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.arg(script)
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.spawn()
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.unwrap()
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.wait()
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.unwrap();
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Ok(Value::Empty)
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},
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"dnf::upgrade" => {
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Command::new("fish")
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.arg("-c")
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.arg("dnf -y upgrade")
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.spawn()
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.unwrap()
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.wait()
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.unwrap();
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Ok(Value::Empty)
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},
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"file::append" => {
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let strings = argument.as_tuple()?;
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if strings.len() < 2 {
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return Err(EvalexprError::WrongFunctionArgumentAmount {
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expected: 2,
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actual: strings.len(),
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});
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}
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let path = strings.first().unwrap().as_string()?;
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let mut file = std::fs::OpenOptions::new().append(true).open(path).unwrap();
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for content in &strings[1..] {
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let content = content.as_string()?;
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file.write_all(content.as_bytes()).unwrap();
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}
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Ok(Value::Empty)
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},
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"file::metadata" => {
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let path = argument.as_string()?;
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let metadata = std::fs::metadata(path).unwrap();
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Ok(Value::String(format!("{:#?}", metadata)))
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},
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"file::move" => {
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let mut paths = argument.as_tuple()?;
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if paths.len() != 2 {
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return Err(EvalexprError::WrongFunctionArgumentAmount {
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expected: 2,
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actual: paths.len(),
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});
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}
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let to = paths.pop().unwrap().as_string()?;
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let from = paths.pop().unwrap().as_string()?;
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std::fs::copy(&from, to)
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.and_then(|_| std::fs::remove_file(from))
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.unwrap();
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Ok(Value::Empty)
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},
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"file::read" => {
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let path = argument.as_string()?;
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let mut contents = String::new();
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fs::OpenOptions::new()
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.read(true)
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.create(false)
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.open(&path)
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.unwrap()
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.read_to_string(&mut contents)
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.unwrap();
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Ok(Value::String(contents))
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},
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"file::remove" => {
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let path = argument.as_string()?;
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std::fs::remove_file(path).unwrap();
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Ok(Value::Empty)
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},
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"file::trash" => todo!(),
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"file::write" => {
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let strings = argument.as_tuple()?;
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if strings.len() < 2 {
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return Err(EvalexprError::WrongFunctionArgumentAmount {
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expected: 2,
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actual: strings.len(),
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});
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}
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let path = strings.first().unwrap().as_string()?;
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let mut file = fs::OpenOptions::new()
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.write(true)
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.create(true)
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.truncate(true)
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.open(path)
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.unwrap();
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for content in &strings[1..] {
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let content = content.as_string()?;
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file.write_all(content.as_bytes()).unwrap();
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}
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Ok(Value::Empty)
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},
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"gui::window" => todo!(),
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"gui" => todo!(),
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"map" => todo!(),
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"network::download" => todo!(),
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"network::hostname" => todo!(),
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"network::scan" => todo!(),
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"os::status" => {
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Command::new("fish")
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.arg("-c")
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.arg("rpm-ostree status")
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.spawn()
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.unwrap()
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.wait()
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.unwrap();
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Ok(Value::Empty)
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},
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"os::upgrade" => {
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Command::new("fish")
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.arg("-c")
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.arg("rpm-ostree upgrade")
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.spawn()
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.unwrap()
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.wait()
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.unwrap();
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Ok(Value::Empty)
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},
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"output" => {
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println!("{}", argument);
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Ok(Value::Empty)
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},
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"random::boolean" => todo!(),
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"random::float" => todo!(),
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"random::int" => todo!(),
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"random::string" => todo!(),
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"run::async" => todo!(),
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"run::sync" => todo!(),
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"run" => todo!(),
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"rust::packages" => todo!(),
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"rust::toolchain" => todo!(),
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"shell::bash" => todo!(),
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"shell::fish" => todo!(),
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"shell::nushell" => todo!(),
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"shell::sh" => todo!(),
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"shell::zsh" => todo!(),
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"system::info" => todo!(),
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"system::monitor" => todo!(),
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"system::processes" => todo!(),
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"system::services" => todo!(),
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"system::users" => todo!(),
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"time::now" => time::now(),
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"time::today" => time::today(),
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"time::tomorrow" => time::tomorrow(),
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"time" => time::now(),
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"toolbox::create" => todo!(),
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"toolbox::enter" => todo!(),
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"toolbox::image::build" => todo!(),
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"toolbox::image::list" => todo!(),
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"toolbox::list" => todo!(),
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"trash" => todo!(),
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"wait" => todo!(),
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"watch" => todo!(),
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_ => Err(EvalexprError::FunctionIdentifierNotFound(
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identifier.to_string(),
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)),
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}
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}
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27
src/dir.rs
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27
src/dir.rs
Normal file
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use crate::{Result, Value};
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use std::fs;
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pub fn create(arg: &Value) -> Result<Value> {
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let path = arg.as_string()?;
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fs::create_dir_all(path)?;
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Ok(Value::Empty)
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}
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pub fn read(arg: &Value) -> Result<Value> {
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let path = arg.as_string()?;
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let file_list = fs::read_dir(path)?
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.map(|entry| {
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let file_name = entry.unwrap().file_name().into_string().unwrap();
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format!("{}\n", file_name)
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})
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.collect::<String>();
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Ok(Value::String(file_list))
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}
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pub fn remove() -> Result<Value> {
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Ok(Value::Empty)
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}
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@ -121,6 +121,7 @@ impl fmt::Display for EvalexprError {
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write!(f, "This context does not allow disabling builtin functions")
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},
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IllegalEscapeSequence(string) => write!(f, "Illegal escape sequence: {}", string),
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FunctionFailure(message) => write!(f, "Function failure: {}", message),
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CustomMessage(message) => write!(f, "Error: {}", message),
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}
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}
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@ -215,10 +215,19 @@ pub enum EvalexprError {
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/// This context does not allow disabling builtin functions.
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BuiltinFunctionsCannotBeDisabled,
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/// The function failed due to an external error.
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FunctionFailure(String),
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/// A custom error explained by its message.
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CustomMessage(String),
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}
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impl From<std::io::Error> for EvalexprError {
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fn from(value: std::io::Error) -> Self {
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EvalexprError::FunctionFailure(value.to_string())
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}
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}
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impl EvalexprError {
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pub(crate) fn wrong_operator_argument_amount(actual: usize, expected: usize) -> Self {
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EvalexprError::WrongOperatorArgumentAmount { actual, expected }
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0
src/file.rs
Normal file
0
src/file.rs
Normal file
0
src/gui.rs
Normal file
0
src/gui.rs
Normal file
0
src/internal.rs
Normal file
0
src/internal.rs
Normal file
561
src/lib.rs
561
src/lib.rs
@ -1,552 +1,6 @@
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//!
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//! ## Quickstart
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//!
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//! Add `evalexpr` as dependency to your `Cargo.toml`:
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//!
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//! ```toml
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//! [dependencies]
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//! evalexpr = "<desired version>"
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//! ```
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//!
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//! Then you can use `evalexpr` to **evaluate expressions** like this:
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//!
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//! ```rust
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//! use evalexpr::*;
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//!
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//! assert_eq!(eval("1 + 2 + 3"), Ok(Value::from(6)));
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//! // `eval` returns a variant of the `Value` enum,
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//! // while `eval_[type]` returns the respective type directly.
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//! // Both can be used interchangeably.
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//! assert_eq!(eval_int("1 + 2 + 3"), Ok(6));
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//! assert_eq!(eval("1 - 2 * 3"), Ok(Value::from(-5)));
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//! assert_eq!(eval("1.0 + 2 * 3"), Ok(Value::from(7.0)));
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//! assert_eq!(eval("true && 4 > 2"), Ok(Value::from(true)));
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//! ```
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//!
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//! You can **chain** expressions and **assign** to variables like this:
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//!
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//! ```rust
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//! use evalexpr::*;
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//!
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//! let mut context = HashMapContext::new();
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//! // Assign 5 to a like this
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//! assert_eq!(eval_empty_with_context_mut("a = 5", &mut context), Ok(EMPTY_VALUE));
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//! // The HashMapContext is type safe, so this will fail now
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//! assert_eq!(eval_empty_with_context_mut("a = 5.0", &mut context),
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//! Err(EvalexprError::expected_int(Value::from(5.0))));
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//! // We can check which value the context stores for a like this
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//! assert_eq!(context.get_value("a"), Some(&Value::from(5)));
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//! // And use the value in another expression like this
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//! assert_eq!(eval_int_with_context_mut("a = a + 2; a", &mut context), Ok(7));
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//! // It is also possible to save a bit of typing by using an operator-assignment operator
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//! assert_eq!(eval_int_with_context_mut("a += 2; a", &mut context), Ok(9));
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//! ```
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//!
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//! And you can use **variables** and **functions** in expressions like this:
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//!
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//! ```rust
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//! use evalexpr::*;
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//!
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//! let context = context_map! {
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//! "five" => 5,
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//! "twelve" => 12,
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//! "f" => Function::new(|argument| {
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//! if let Ok(int) = argument.as_int() {
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//! Ok(Value::Int(int / 2))
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//! } else if let Ok(float) = argument.as_float() {
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//! Ok(Value::Float(float / 2.0))
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//! } else {
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//! Err(EvalexprError::expected_number(argument.clone()))
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//! }
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//! }),
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//! "avg" => Function::new(|argument| {
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//! let arguments = argument.as_tuple()?;
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//!
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//! if let (Value::Int(a), Value::Int(b)) = (&arguments[0], &arguments[1]) {
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//! Ok(Value::Int((a + b) / 2))
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//! } else {
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//! Ok(Value::Float((arguments[0].as_number()? + arguments[1].as_number()?) / 2.0))
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//! }
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//! })
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//! }.unwrap(); // Do proper error handling here
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//!
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//! assert_eq!(eval_with_context("five + 8 > f(twelve)", &context), Ok(Value::from(true)));
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//! // `eval_with_context` returns a variant of the `Value` enum,
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//! // while `eval_[type]_with_context` returns the respective type directly.
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//! // Both can be used interchangeably.
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//! assert_eq!(eval_boolean_with_context("five + 8 > f(twelve)", &context), Ok(true));
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//! assert_eq!(eval_with_context("avg(2, 4) == 3", &context), Ok(Value::from(true)));
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//! ```
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//!
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//! You can also **precompile** expressions like this:
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//!
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//! ```rust
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//! use evalexpr::*;
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//!
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//! let precompiled = build_operator_tree("a * b - c > 5").unwrap(); // Do proper error handling here
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//!
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//! let mut context = context_map! {
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//! "a" => 6,
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//! "b" => 2,
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//! "c" => 3
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//! }.unwrap(); // Do proper error handling here
|
||||
//! assert_eq!(precompiled.eval_with_context(&context), Ok(Value::from(true)));
|
||||
//!
|
||||
//! context.set_value("c".into(), 8.into()).unwrap(); // Do proper error handling here
|
||||
//! assert_eq!(precompiled.eval_with_context(&context), Ok(Value::from(false)));
|
||||
//! // `Node::eval_with_context` returns a variant of the `Value` enum,
|
||||
//! // while `Node::eval_[type]_with_context` returns the respective type directly.
|
||||
//! // Both can be used interchangeably.
|
||||
//! assert_eq!(precompiled.eval_boolean_with_context(&context), Ok(false));
|
||||
//! ```
|
||||
//!
|
||||
//! ## CLI
|
||||
//!
|
||||
//! While primarily meant to be used as a library, `evalexpr` is also available as a command line tool.
|
||||
//! It can be installed and used as follows:
|
||||
//!
|
||||
//! ```bash
|
||||
//! cargo install evalexpr
|
||||
//! evalexpr 2 + 3 # outputs `5` to stdout.
|
||||
//! ```
|
||||
//!
|
||||
//! ## Features
|
||||
//!
|
||||
//! ### Operators
|
||||
//!
|
||||
//! This crate offers a set of binary and unary operators for building expressions.
|
||||
//! Operators have a precedence to determine their order of evaluation, where operators of higher precedence are evaluated first.
|
||||
//! The precedence should resemble that of most common programming languages, especially Rust.
|
||||
//! Variables and values have a precedence of 200, and function literals have 190.
|
||||
//!
|
||||
//! Supported binary operators:
|
||||
//!
|
||||
//! | Operator | Precedence | Description |
|
||||
//! |----------|------------|-------------|
|
||||
//! | ^ | 120 | Exponentiation |
|
||||
//! | * | 100 | Product |
|
||||
//! | / | 100 | Division (integer if both arguments are integers, otherwise float) |
|
||||
//! | % | 100 | Modulo (integer if both arguments are integers, otherwise float) |
|
||||
//! | + | 95 | Sum or String Concatenation |
|
||||
//! | - | 95 | Difference |
|
||||
//! | < | 80 | Lower than |
|
||||
//! | \> | 80 | Greater than |
|
||||
//! | <= | 80 | Lower than or equal |
|
||||
//! | \>= | 80 | Greater than or equal |
|
||||
//! | == | 80 | Equal |
|
||||
//! | != | 80 | Not equal |
|
||||
//! | && | 75 | Logical and |
|
||||
//! | || | 70 | Logical or |
|
||||
//! | = | 50 | Assignment |
|
||||
//! | += | 50 | Sum-Assignment or String-Concatenation-Assignment |
|
||||
//! | -= | 50 | Difference-Assignment |
|
||||
//! | *= | 50 | Product-Assignment |
|
||||
//! | /= | 50 | Division-Assignment |
|
||||
//! | %= | 50 | Modulo-Assignment |
|
||||
//! | ^= | 50 | Exponentiation-Assignment |
|
||||
//! | &&= | 50 | Logical-And-Assignment |
|
||||
//! | ||= | 50 | Logical-Or-Assignment |
|
||||
//! | , | 40 | Aggregation |
|
||||
//! | ; | 0 | Expression Chaining |
|
||||
//!
|
||||
//! Supported unary operators:
|
||||
//!
|
||||
//! | Operator | Precedence | Description |
|
||||
//! |----------|------------|-------------|
|
||||
//! | - | 110 | Negation |
|
||||
//! | ! | 110 | Logical not |
|
||||
//!
|
||||
//! 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.
|
||||
//! An exception to this is the exponentiation operator that always returns a floating point number.
|
||||
//! Example:
|
||||
//!
|
||||
//! ```rust
|
||||
//! use evalexpr::*;
|
||||
//!
|
||||
//! assert_eq!(eval("1 / 2"), Ok(Value::from(0)));
|
||||
//! assert_eq!(eval("1.0 / 2"), Ok(Value::from(0.5)));
|
||||
//! assert_eq!(eval("2^2"), Ok(Value::from(4.0)));
|
||||
//! ```
|
||||
//!
|
||||
//! #### The Aggregation Operator
|
||||
//!
|
||||
//! The aggregation operator aggregates a set of values into a tuple.
|
||||
//! A tuple can contain arbitrary values, it is not restricted to a single type.
|
||||
//! The operator is n-ary, so it supports creating tuples longer than length two.
|
||||
//! Example:
|
||||
//!
|
||||
//! ```rust
|
||||
//! use evalexpr::*;
|
||||
//!
|
||||
//! assert_eq!(eval("1, \"b\", 3"),
|
||||
//! Ok(Value::from(vec![Value::from(1), Value::from("b"), Value::from(3)])));
|
||||
//! ```
|
||||
//!
|
||||
//! To create nested tuples, use parentheses:
|
||||
//!
|
||||
//! ```rust
|
||||
//! use evalexpr::*;
|
||||
//!
|
||||
//! assert_eq!(eval("1, 2, (true, \"b\")"), Ok(Value::from(vec![
|
||||
//! Value::from(1),
|
||||
//! Value::from(2),
|
||||
//! Value::from(vec![
|
||||
//! Value::from(true),
|
||||
//! Value::from("b")
|
||||
//! ])
|
||||
//! ])));
|
||||
//! ```
|
||||
//!
|
||||
//! #### The Assignment Operator
|
||||
//!
|
||||
//! This crate features the assignment operator, that allows expressions to store their result in a variable in the expression context.
|
||||
//! If an expression uses the assignment operator, it must be evaluated with a mutable context.
|
||||
//!
|
||||
//! Note that assignments are type safe when using the `HashMapContext`.
|
||||
//! That means that if an identifier is assigned a value of a type once, it cannot be assigned a value of another type.
|
||||
//!
|
||||
//! ```rust
|
||||
//! use evalexpr::*;
|
||||
//!
|
||||
//! let mut context = HashMapContext::new();
|
||||
//! assert_eq!(eval_with_context("a = 5", &context), Err(EvalexprError::ContextNotMutable));
|
||||
//! assert_eq!(eval_empty_with_context_mut("a = 5", &mut context), Ok(EMPTY_VALUE));
|
||||
//! assert_eq!(eval_empty_with_context_mut("a = 5.0", &mut context),
|
||||
//! Err(EvalexprError::expected_int(5.0.into())));
|
||||
//! assert_eq!(eval_int_with_context("a", &context), Ok(5));
|
||||
//! assert_eq!(context.get_value("a"), Some(5.into()).as_ref());
|
||||
//! ```
|
||||
//!
|
||||
//! For each binary operator, there exists an equivalent operator-assignment operator.
|
||||
//! Here are some examples:
|
||||
//!
|
||||
//! ```rust
|
||||
//! use evalexpr::*;
|
||||
//!
|
||||
//! assert_eq!(eval_int("a = 2; a *= 2; a += 2; a"), Ok(6));
|
||||
//! assert_eq!(eval_float("a = 2.2; a /= 2.0 / 4 + 1; a"), Ok(2.2 / (2.0 / 4.0 + 1.0)));
|
||||
//! assert_eq!(eval_string("a = \"abc\"; a += \"def\"; a"), Ok("abcdef".to_string()));
|
||||
//! assert_eq!(eval_boolean("a = true; a &&= false; a"), Ok(false));
|
||||
//! ```
|
||||
//!
|
||||
//! #### The Expression Chaining Operator
|
||||
//!
|
||||
//! The expression chaining operator works as one would expect from programming languages that use the semicolon to end statements, like `Rust`, `C` or `Java`.
|
||||
//! It has the special feature that it returns the value of the last expression in the expression chain.
|
||||
//! If the last expression is terminated by a semicolon as well, then `Value::Empty` is returned.
|
||||
//! Expression chaining is useful together with assignment to create small scripts.
|
||||
//!
|
||||
//! ```rust
|
||||
//! use evalexpr::*;
|
||||
//!
|
||||
//! let mut context = HashMapContext::new();
|
||||
//! assert_eq!(eval("1;2;3;4;"), Ok(Value::Empty));
|
||||
//! assert_eq!(eval("1;2;3;4"), Ok(4.into()));
|
||||
//!
|
||||
//! // Initialization of variables via script
|
||||
//! assert_eq!(eval_empty_with_context_mut("hp = 1; max_hp = 5; heal_amount = 3;", &mut context),
|
||||
//! Ok(EMPTY_VALUE));
|
||||
//! // Precompile healing script
|
||||
//! let healing_script = build_operator_tree("hp = min(hp + heal_amount, max_hp); hp").unwrap(); // Do proper error handling here
|
||||
//! // Execute precompiled healing script
|
||||
//! assert_eq!(healing_script.eval_int_with_context_mut(&mut context), Ok(4));
|
||||
//! assert_eq!(healing_script.eval_int_with_context_mut(&mut context), Ok(5));
|
||||
//! ```
|
||||
//!
|
||||
//! ### Contexts
|
||||
//!
|
||||
//! An expression evaluator that just evaluates expressions would be useful already, but this crate can do more.
|
||||
//! It allows using [*variables*](#variables), [*assignments*](#the-assignment-operator), [*statement chaining*](#the-expression-chaining-operator) and [*user-defined functions*](#user-defined-functions) within an expression.
|
||||
//! When assigning to variables, the assignment is stored in a context.
|
||||
//! When the variable is read later on, it is read from the context.
|
||||
//! Contexts can be preserved between multiple calls to eval by creating them yourself.
|
||||
//! Here is a simple example to show the difference between preserving and not preserving context between evaluations:
|
||||
//!
|
||||
//! ```rust
|
||||
//! use evalexpr::*;
|
||||
//!
|
||||
//! assert_eq!(eval("a = 5;"), Ok(Value::from(())));
|
||||
//! // The context is not preserved between eval calls
|
||||
//! assert_eq!(eval("a"), Err(EvalexprError::VariableIdentifierNotFound("a".to_string())));
|
||||
//!
|
||||
//! let mut context = HashMapContext::new();
|
||||
//! assert_eq!(eval_with_context_mut("a = 5;", &mut context), Ok(Value::from(())));
|
||||
//! // Assignments require mutable contexts
|
||||
//! assert_eq!(eval_with_context("a = 6", &context), Err(EvalexprError::ContextNotMutable));
|
||||
//! // The HashMapContext is type safe
|
||||
//! assert_eq!(eval_with_context_mut("a = 5.5", &mut context),
|
||||
//! Err(EvalexprError::ExpectedInt { actual: Value::from(5.5) }));
|
||||
//! // Reading a variable does not require a mutable context
|
||||
//! assert_eq!(eval_with_context("a", &context), Ok(Value::from(5)));
|
||||
//!
|
||||
//! ```
|
||||
//!
|
||||
//! Note that the assignment is forgotten between the two calls to eval in the first example.
|
||||
//! In the second part, the assignment is correctly preserved.
|
||||
//! Note as well that to assign to a variable, the context needs to be passed as a mutable reference.
|
||||
//! When passed as an immutable reference, an error is returned.
|
||||
//!
|
||||
//! Also, the `HashMapContext` is type safe.
|
||||
//! This means that assigning to `a` again with a different type yields an error.
|
||||
//! Type unsafe contexts may be implemented if requested.
|
||||
//! For reading `a`, it is enough to pass an immutable reference.
|
||||
//!
|
||||
//! Contexts can also be manipulated in code.
|
||||
//! Take a look at the following example:
|
||||
//!
|
||||
//! ```rust
|
||||
//! use evalexpr::*;
|
||||
//!
|
||||
//! let mut context = HashMapContext::new();
|
||||
//! // We can set variables in code like this...
|
||||
//! context.set_value("a".into(), 5.into());
|
||||
//! // ...and read from them in expressions
|
||||
//! assert_eq!(eval_int_with_context("a", &context), Ok(5));
|
||||
//! // We can write or overwrite variables in expressions...
|
||||
//! assert_eq!(eval_with_context_mut("a = 10; b = 1.0;", &mut context), Ok(().into()));
|
||||
//! // ...and read the value in code like this
|
||||
//! assert_eq!(context.get_value("a"), Some(&Value::from(10)));
|
||||
//! assert_eq!(context.get_value("b"), Some(&Value::from(1.0)));
|
||||
//! ```
|
||||
//!
|
||||
//! Contexts are also required for user-defined functions.
|
||||
//! Those can be passed one by one with the `set_function` method, but it might be more convenient to use the `context_map!` macro instead:
|
||||
//!
|
||||
//! ```rust
|
||||
//! use evalexpr::*;
|
||||
//!
|
||||
//! let context = context_map!{
|
||||
//! "f" => Function::new(|args| Ok(Value::from(args.as_int()? + 5))),
|
||||
//! }.unwrap_or_else(|error| panic!("Error creating context: {}", error));
|
||||
//! assert_eq!(eval_int_with_context("f 5", &context), Ok(10));
|
||||
//! ```
|
||||
//!
|
||||
//! For more information about user-defined functions, refer to the respective [section](#user-defined-functions).
|
||||
//!
|
||||
//! ### Builtin Functions
|
||||
//!
|
||||
//! This crate offers a set of builtin functions (see below for a full list).
|
||||
//! They can be disabled if needed as follows:
|
||||
//!
|
||||
//! ```rust
|
||||
//! use evalexpr::*;
|
||||
//! let mut context = HashMapContext::new();
|
||||
//! assert_eq!(eval_with_context("max(1,3)",&context),Ok(Value::from(3)));
|
||||
//! context.set_builtin_functions_disabled(true).unwrap(); // Do proper error handling here
|
||||
//! assert_eq!(eval_with_context("max(1,3)",&context),Err(EvalexprError::FunctionIdentifierNotFound(String::from("max"))));
|
||||
//! ```
|
||||
//!
|
||||
//! Not all contexts support enabling or disabling builtin functions.
|
||||
//! Specifically the `EmptyContext` has builtin functions disabled by default, and they cannot be enabled.
|
||||
//! Symmetrically, the `EmptyContextWithBuiltinFunctions` has builtin functions enabled by default, and they cannot be disabled.
|
||||
//!
|
||||
//! | Identifier | Argument Amount | Argument Types | Description |
|
||||
//! |----------------------|-----------------|-------------------------------|-------------|
|
||||
//! | `min` | >= 1 | Numeric | Returns the minimum of the arguments |
|
||||
//! | `max` | >= 1 | Numeric | Returns the maximum of the arguments |
|
||||
//! | `len` | 1 | String/Tuple | Returns the character length of a string, or the amount of elements in a tuple (not recursively) |
|
||||
//! | `floor` | 1 | Numeric | Returns the largest integer less than or equal to a number |
|
||||
//! | `round` | 1 | Numeric | Returns the nearest integer to a number. Rounds half-way cases away from 0.0 |
|
||||
//! | `ceil` | 1 | Numeric | Returns the smallest integer greater than or equal to a number |
|
||||
//! | `if` | 3 | Boolean, Any, Any | If the first argument is true, returns the second argument, otherwise, returns the third |
|
||||
//! | `contains` | 2 | Tuple, any non-tuple | Returns true if second argument exists in first tuple argument. |
|
||||
//! | `contains_any` | 2 | Tuple, Tuple of any non-tuple | Returns true if one of the values in the second tuple argument exists in first tuple argument. |
|
||||
//! | `typeof` | 1 | Any | returns "string", "float", "int", "boolean", "tuple", or "empty" depending on the type of the argument |
|
||||
//! | `math::is_nan` | 1 | Numeric | Returns true if the argument is the floating-point value NaN, false if it is another floating-point value, and throws an error if it is not a number |
|
||||
//! | `math::is_finite` | 1 | Numeric | Returns true if the argument is a finite floating-point number, false otherwise |
|
||||
//! | `math::is_infinite` | 1 | Numeric | Returns true if the argument is an infinite floating-point number, false otherwise |
|
||||
//! | `math::is_normal` | 1 | Numeric | Returns true if the argument is a floating-point number that is neither zero, infinite, [subnormal](https://en.wikipedia.org/wiki/Subnormal_number), or NaN, false otherwise |
|
||||
//! | `math::ln` | 1 | Numeric | Returns the natural logarithm of the number |
|
||||
//! | `math::log` | 2 | Numeric, Numeric | Returns the logarithm of the number with respect to an arbitrary base |
|
||||
//! | `math::log2` | 1 | Numeric | Returns the base 2 logarithm of the number |
|
||||
//! | `math::log10` | 1 | Numeric | Returns the base 10 logarithm of the number |
|
||||
//! | `math::exp` | 1 | Numeric | Returns `e^(number)`, (the exponential function) |
|
||||
//! | `math::exp2` | 1 | Numeric | Returns `2^(number)` |
|
||||
//! | `math::pow` | 2 | Numeric, Numeric | Raises a number to the power of the other number |
|
||||
//! | `math::cos` | 1 | Numeric | Computes the cosine of a number (in radians) |
|
||||
//! | `math::acos` | 1 | Numeric | Computes the arccosine of a number. The return value is in radians in the range [0, pi] or NaN if the number is outside the range [-1, 1] |
|
||||
//! | `math::cosh` | 1 | Numeric | Hyperbolic cosine function |
|
||||
//! | `math::acosh` | 1 | Numeric | Inverse hyperbolic cosine function |
|
||||
//! | `math::sin` | 1 | Numeric | Computes the sine of a number (in radians) |
|
||||
//! | `math::asin` | 1 | Numeric | Computes the arcsine of a number. The return value is in radians in the range [-pi/2, pi/2] or NaN if the number is outside the range [-1, 1] |
|
||||
//! | `math::sinh` | 1 | Numeric | Hyperbolic sine function |
|
||||
//! | `math::asinh` | 1 | Numeric | Inverse hyperbolic sine function |
|
||||
//! | `math::tan` | 1 | Numeric | Computes the tangent of a number (in radians) |
|
||||
//! | `math::atan` | 1 | Numeric | Computes the arctangent of a number. The return value is in radians in the range [-pi/2, pi/2] |
|
||||
//! | `math::atan2` | 2 | Numeric, Numeric | Computes the four quadrant arctangent in radians |
|
||||
//! | `math::tanh` | 1 | Numeric | Hyperbolic tangent function |
|
||||
//! | `math::atanh` | 1 | Numeric | Inverse hyperbolic tangent function. |
|
||||
//! | `math::sqrt` | 1 | Numeric | Returns the square root of a number. Returns NaN for a negative number |
|
||||
//! | `math::cbrt` | 1 | Numeric | Returns the cube root of a number |
|
||||
//! | `math::hypot` | 2 | Numeric | Calculates the length of the hypotenuse of a right-angle triangle given legs of length given by the two arguments |
|
||||
//! | `math::abs` | 1 | Numeric | Returns the absolute value of a number, returning an integer if the argument was an integer, and a float otherwise |
|
||||
//! | `str::regex_matches` | 2 | String, String | Returns true if the first argument matches the regex in the second argument (Requires `regex_support` feature flag) |
|
||||
//! | `str::regex_replace` | 3 | String, String, String | Returns the first argument with all matches of the regex in the second argument replaced by the third argument (Requires `regex_support` feature flag) |
|
||||
//! | `str::to_lowercase` | 1 | String | Returns the lower-case version of the string |
|
||||
//! | `str::to_uppercase` | 1 | String | Returns the upper-case version of the string |
|
||||
//! | `str::trim` | 1 | String | Strips whitespace from the start and the end of the string |
|
||||
//! | `str::from` | >= 0 | Any | Returns passed value as string |
|
||||
//! | `bitand` | 2 | Int | Computes the bitwise and of the given integers |
|
||||
//! | `bitor` | 2 | Int | Computes the bitwise or of the given integers |
|
||||
//! | `bitxor` | 2 | Int | Computes the bitwise xor of the given integers |
|
||||
//! | `bitnot` | 1 | Int | Computes the bitwise not of the given integer |
|
||||
//! | `shl` | 2 | Int | Computes the given integer bitwise shifted left by the other given integer |
|
||||
//! | `shr` | 2 | Int | Computes the given integer bitwise shifted right by the other given integer |
|
||||
//! | `random` | 0 | Empty | Return a random float between 0 and 1. Requires the `rand` feature flag. |
|
||||
//!
|
||||
//! The `min` and `max` functions can deal with a mixture of integer and floating point arguments.
|
||||
//! If the maximum or minimum is an integer, then an integer is returned.
|
||||
//! Otherwise, a float is returned.
|
||||
//!
|
||||
//! The regex functions require the feature flag `regex_support`.
|
||||
//!
|
||||
//! ### Values
|
||||
//!
|
||||
//! Operators take values as arguments and produce values as results.
|
||||
//! Values can be booleans, integer or floating point numbers, strings, tuples or the empty type.
|
||||
//! Values are denoted as displayed in the following table.
|
||||
//!
|
||||
//! | Value type | Example |
|
||||
//! |------------|---------|
|
||||
//! | `Value::String` | `"abc"`, `""`, `"a\"b\\c"` |
|
||||
//! | `Value::Boolean` | `true`, `false` |
|
||||
//! | `Value::Int` | `3`, `-9`, `0`, `135412`, `0xfe02`, `-0x1e` |
|
||||
//! | `Value::Float` | `3.`, `.35`, `1.00`, `0.5`, `123.554`, `23e4`, `-2e-3`, `3.54e+2` |
|
||||
//! | `Value::Tuple` | `(3, 55.0, false, ())`, `(1, 2)` |
|
||||
//! | `Value::Empty` | `()` |
|
||||
//!
|
||||
//! Integers are internally represented as `i64`, and floating point numbers are represented as `f64`.
|
||||
//! Tuples are represented as `Vec<Value>` and empty values are not stored, but represented by Rust's unit type `()` where necessary.
|
||||
//!
|
||||
//! There exist type aliases for some of the types.
|
||||
//! They include `IntType`, `FloatType`, `TupleType` and `EmptyType`.
|
||||
//!
|
||||
//! Values can be constructed either directly or using the `From` trait.
|
||||
//! They can be decomposed using the `Value::as_[type]` methods.
|
||||
//! The type of a value can be checked using the `Value::is_[type]` methods.
|
||||
//!
|
||||
//! **Examples for constructing a value:**
|
||||
//!
|
||||
//! | Code | Result |
|
||||
//! |------|--------|
|
||||
//! | `Value::from(4)` | `Value::Int(4)` |
|
||||
//! | `Value::from(4.4)` | `Value::Float(4.4)` |
|
||||
//! | `Value::from(true)` | `Value::Boolean(true)` |
|
||||
//! | `Value::from(vec![Value::from(3)])` | `Value::Tuple(vec![Value::Int(3)])` |
|
||||
//!
|
||||
//! **Examples for deconstructing a value:**
|
||||
//!
|
||||
//! | Code | Result |
|
||||
//! |------|--------|
|
||||
//! | `Value::from(4).as_int()` | `Ok(4)` |
|
||||
//! | `Value::from(4.4).as_float()` | `Ok(4.4)` |
|
||||
//! | `Value::from(true).as_int()` | `Err(Error::ExpectedInt {actual: Value::Boolean(true)})` |
|
||||
//!
|
||||
//! 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.
|
||||
//! For working with variables, a [context](#contexts) is required.
|
||||
//! It stores the mappings from variables to their values.
|
||||
//!
|
||||
//! Variables do not have fixed types in the expression itself, but are typed by the context.
|
||||
//! Once a variable is assigned a value of a specific type, it cannot be assigned a value of another type.
|
||||
//! This might change in the future and can be changed by using a type-unsafe context (not provided by this crate as of now).
|
||||
//!
|
||||
//! Here are some examples and counter-examples on expressions that are interpreted as variables:
|
||||
//!
|
||||
//! | Expression | Variable? | 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` |
|
||||
//!
|
||||
//! Variables have a precedence of 200.
|
||||
//!
|
||||
//! ### User-Defined Functions
|
||||
//!
|
||||
//! This crate allows to define arbitrary functions to be used in parsed expressions.
|
||||
//! A function is defined as a `Function` instance, wrapping an `fn(&Value) -> EvalexprResult<Value>`.
|
||||
//! The definition needs to be included in the [`Context`](#contexts) that is used for evaluation.
|
||||
//! As of now, functions cannot be defined within the expression, but that might change in the future.
|
||||
//!
|
||||
//! The function gets passed what ever value is directly behind it, be it a tuple or a single values.
|
||||
//! If there is no value behind a function, it is interpreted as a variable instead.
|
||||
//! More specifically, a function needs to be followed by either an opening brace `(`, another literal, or a value.
|
||||
//! While not including special support for multi-valued functions, they can be realized by requiring a single tuple argument.
|
||||
//!
|
||||
//! 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 distinguish between being called with integers or floating point numbers, and act accordingly.
|
||||
//!
|
||||
//! Here are some examples and counter-examples on expressions that are interpreted as function calls:
|
||||
//!
|
||||
//! | Expression | Function? | Explanation |
|
||||
//! |------------|--------|-------------|
|
||||
//! | `a v` | yes | |
|
||||
//! | `x 5.5` | yes | |
|
||||
//! | `a (3, true)` | yes | |
|
||||
//! | `a b 4` | yes | Call `a` with the result of calling `b` with `4` |
|
||||
//! | `5 b` | no | Error, value cannot be followed by a literal |
|
||||
//! | `12 3` | no | Error, value cannot be followed by a value |
|
||||
//! | `a 5 6` | no | Error, function call cannot be followed by a value |
|
||||
//!
|
||||
//! Functions have a precedence of 190.
|
||||
//!
|
||||
//! ### [Serde](https://serde.rs)
|
||||
//!
|
||||
//! To use this crate with serde, the `serde_support` feature flag has to be set.
|
||||
//! This can be done like this in the `Cargo.toml`:
|
||||
//!
|
||||
//! ```toml
|
||||
//! [dependencies]
|
||||
//! evalexpr = {version = "7", features = ["serde_support"]}
|
||||
//! ```
|
||||
//!
|
||||
//! This crate implements `serde::de::Deserialize` for its type `Node` that represents a parsed expression tree.
|
||||
//! The implementation expects a [serde `string`](https://serde.rs/data-model.html) as input.
|
||||
//! Example parsing with [ron format](docs.rs/ron):
|
||||
//!
|
||||
//! ```rust
|
||||
//! # #[cfg(feature = "serde_support")] {
|
||||
//! extern crate ron;
|
||||
//! use evalexpr::*;
|
||||
//!
|
||||
//! let mut context = context_map!{
|
||||
//! "five" => 5
|
||||
//! }.unwrap(); // Do proper error handling here
|
||||
//!
|
||||
//! // In ron format, strings are surrounded by "
|
||||
//! let serialized_free = "\"five * five\"";
|
||||
//! match ron::de::from_str::<Node>(serialized_free) {
|
||||
//! Ok(free) => assert_eq!(free.eval_with_context(&context), Ok(Value::from(25))),
|
||||
//! Err(error) => {
|
||||
//! () // Handle error
|
||||
//! }
|
||||
//! }
|
||||
//! # }
|
||||
//! ```
|
||||
//!
|
||||
//! With `serde`, expressions can be integrated into arbitrarily complex data.
|
||||
//!
|
||||
//! The crate also implements `Serialize` and `Deserialize` for the `HashMapContext`,
|
||||
//! but note that only the variables get (de)serialized, not the functions.
|
||||
//!
|
||||
//! ## License
|
||||
//!
|
||||
//! This crate is primarily distributed under the terms of the MIT license.
|
||||
//! See [LICENSE](LICENSE) for details.
|
||||
//!
|
||||
|
||||
#![deny(missing_docs)]
|
||||
/*!
|
||||
Expressive, the whale language.
|
||||
*/
|
||||
#![forbid(unsafe_code)]
|
||||
|
||||
#[cfg(feature = "regex_support")]
|
||||
@ -570,13 +24,22 @@ pub use crate::{
|
||||
value::{value_type::ValueType, EmptyType, FloatType, IntType, TupleType, Value, EMPTY_VALUE},
|
||||
};
|
||||
|
||||
pub type Result<T> = std::result::Result<T, EvalexprError>;
|
||||
|
||||
mod container;
|
||||
mod context;
|
||||
mod dir;
|
||||
pub mod error;
|
||||
#[cfg(feature = "serde_support")]
|
||||
mod feature_serde;
|
||||
mod file;
|
||||
mod function;
|
||||
mod gui;
|
||||
mod interface;
|
||||
mod internal;
|
||||
mod operator;
|
||||
mod shell;
|
||||
mod time;
|
||||
mod token;
|
||||
mod tree;
|
||||
mod value;
|
||||
|
17
src/shell.rs
Normal file
17
src/shell.rs
Normal file
@ -0,0 +1,17 @@
|
||||
use crate::{Result, Value};
|
||||
|
||||
use std::process::Command;
|
||||
|
||||
pub fn fish(arg: &Value) -> Result<Value> {
|
||||
let fish_command = arg.as_string()?;
|
||||
|
||||
Command::new("fish")
|
||||
.arg("-c")
|
||||
.arg(fish_command)
|
||||
.spawn()
|
||||
.unwrap()
|
||||
.wait()
|
||||
.unwrap();
|
||||
|
||||
Ok(Value::Empty)
|
||||
}
|
25
src/time.rs
Normal file
25
src/time.rs
Normal file
@ -0,0 +1,25 @@
|
||||
use crate::{Result, Value};
|
||||
|
||||
use chrono::{Days, Utc};
|
||||
|
||||
pub fn now() -> Result<Value> {
|
||||
let now = Utc::now().time().to_string();
|
||||
|
||||
Ok(Value::String(now))
|
||||
}
|
||||
|
||||
pub fn today() -> Result<Value> {
|
||||
let today = Utc::now().date_naive().to_string();
|
||||
|
||||
Ok(Value::String(today))
|
||||
}
|
||||
|
||||
pub fn tomorrow() -> Result<Value> {
|
||||
let tomorrow = Utc::now()
|
||||
.checked_add_days(Days::new(1))
|
||||
.unwrap()
|
||||
.date_naive()
|
||||
.to_string();
|
||||
|
||||
Ok(Value::String(tomorrow))
|
||||
}
|
Loading…
Reference in New Issue
Block a user