rust-clippy/tests/consts.rs

98 lines
3.4 KiB
Rust

#![feature(rustc_private)]
extern crate clippy_lints;
extern crate rustc;
extern crate rustc_const_eval;
extern crate rustc_const_math;
extern crate syntax;
use clippy_lints::consts::{constant_simple, Constant, FloatWidth};
use rustc_const_math::ConstInt;
use rustc::hir::*;
use syntax::ast::{LitIntType, LitKind, NodeId, StrStyle};
use syntax::codemap::{Spanned, COMMAND_LINE_SP};
use syntax::symbol::Symbol;
use syntax::ptr::P;
use syntax::util::ThinVec;
fn spanned<T>(t: T) -> Spanned<T> {
Spanned {
node: t,
span: COMMAND_LINE_SP,
}
}
fn expr(n: Expr_) -> Expr {
Expr {
id: NodeId::new(1),
node: n,
span: COMMAND_LINE_SP,
attrs: ThinVec::new(),
}
}
fn lit(l: LitKind) -> Expr {
expr(ExprLit(P(spanned(l))))
}
fn binop(op: BinOp_, l: Expr, r: Expr) -> Expr {
expr(ExprBinary(spanned(op), P(l), P(r)))
}
fn check(expect: Constant, expr: &Expr) {
assert_eq!(Some(expect), constant_simple(expr))
}
const TRUE: Constant = Constant::Bool(true);
const FALSE: Constant = Constant::Bool(false);
const ZERO: Constant = Constant::Int(ConstInt::Infer(0));
const ONE: Constant = Constant::Int(ConstInt::Infer(1));
const TWO: Constant = Constant::Int(ConstInt::Infer(2));
#[test]
fn test_lit() {
check(TRUE, &lit(LitKind::Bool(true)));
check(FALSE, &lit(LitKind::Bool(false)));
check(ZERO, &lit(LitKind::Int(0, LitIntType::Unsuffixed)));
check(Constant::Str("cool!".into(), StrStyle::Cooked),
&lit(LitKind::Str(Symbol::intern("cool!"), StrStyle::Cooked)));
}
#[test]
fn test_ops() {
check(TRUE, &binop(BiOr, lit(LitKind::Bool(false)), lit(LitKind::Bool(true))));
check(FALSE, &binop(BiAnd, lit(LitKind::Bool(false)), lit(LitKind::Bool(true))));
let litzero = lit(LitKind::Int(0, LitIntType::Unsuffixed));
let litone = lit(LitKind::Int(1, LitIntType::Unsuffixed));
check(TRUE, &binop(BiEq, litzero.clone(), litzero.clone()));
check(TRUE, &binop(BiGe, litzero.clone(), litzero.clone()));
check(TRUE, &binop(BiLe, litzero.clone(), litzero.clone()));
check(FALSE, &binop(BiNe, litzero.clone(), litzero.clone()));
check(FALSE, &binop(BiGt, litzero.clone(), litzero.clone()));
check(FALSE, &binop(BiLt, litzero.clone(), litzero.clone()));
check(ZERO, &binop(BiAdd, litzero.clone(), litzero.clone()));
check(TWO, &binop(BiAdd, litone.clone(), litone.clone()));
check(ONE, &binop(BiSub, litone.clone(), litzero.clone()));
check(ONE, &binop(BiMul, litone.clone(), litone.clone()));
check(ONE, &binop(BiDiv, litone.clone(), litone.clone()));
let half_any = Constant::Float("0.5".into(), FloatWidth::Any);
let half32 = Constant::Float("0.5".into(), FloatWidth::F32);
let half64 = Constant::Float("0.5".into(), FloatWidth::F64);
let pos_zero = Constant::Float("0.0".into(), FloatWidth::F64);
let neg_zero = Constant::Float("-0.0".into(), FloatWidth::F64);
assert_eq!(pos_zero, pos_zero);
assert_eq!(neg_zero, neg_zero);
assert_eq!(None, pos_zero.partial_cmp(&neg_zero));
assert_eq!(half_any, half32);
assert_eq!(half_any, half64);
assert_eq!(half32, half64); // for transitivity
assert_eq!(Constant::Int(ConstInt::Infer(0)), Constant::Int(ConstInt::U8(0)));
assert_eq!(Constant::Int(ConstInt::Infer(0)), Constant::Int(ConstInt::I8(0)));
assert_eq!(Constant::Int(ConstInt::InferSigned(-1)), Constant::Int(ConstInt::I8(-1)));
}