use super::*;
use std::convert::Infallible;
use full_moon::{
ast::{self, Ast},
node::Node,
visitors::Visitor,
};
pub struct DivideByZeroLint;
impl Lint for DivideByZeroLint {
type Config = ();
type Error = Infallible;
const SEVERITY: Severity = Severity::Warning;
const LINT_TYPE: LintType = LintType::Complexity;
fn new(_: Self::Config) -> Result<Self, Self::Error> {
Ok(DivideByZeroLint)
}
fn pass(&self, ast: &Ast, _: &Context, _: &AstContext) -> Vec<Diagnostic> {
let mut visitor = DivideByZeroVisitor {
positions: Vec::new(),
};
visitor.visit_ast(ast);
visitor
.positions
.iter()
.map(|position| {
Diagnostic::new(
"divide_by_zero",
"dividing by zero is not allowed, use math.huge instead".to_owned(),
Label::new(*position),
)
})
.collect()
}
}
struct DivideByZeroVisitor {
positions: Vec<(usize, usize)>,
}
fn value_is_zero(value: &ast::Expression) -> bool {
if let ast::Expression::Number(token) = value {
token.token().to_string() == "0"
} else {
false
}
}
impl Visitor for DivideByZeroVisitor {
fn visit_expression(&mut self, node: &ast::Expression) {
if_chain::if_chain! {
if let ast::Expression::BinaryOperator { lhs, binop, rhs, .. } = node;
if let ast::BinOp::Slash(_) = binop;
if value_is_zero(rhs) && !value_is_zero(lhs);
then {
let range = node.range().unwrap();
self.positions.push((range.0.bytes(), range.1.bytes()));
}
}
}
}
#[cfg(test)]
mod tests {
use super::{super::test_util::test_lint, *};
#[test]
fn test_divide_by_zero() {
test_lint(
DivideByZeroLint::new(()).unwrap(),
"divide_by_zero",
"divide_by_zero",
);
}
}