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// revisions: noopt opt opt_with_overflow_checks
//[noopt]compile-flags: -C opt-level=0
//[opt]compile-flags: -O
//[opt_with_overflow_checks]compile-flags: -C overflow-checks=on -O

#![crate_type="lib"]

pub trait Foo {
    const NEG: i32;
    const NEG_REV: i32;

    const ADD: i32;
    const ADD_REV: i32;

    const DIV: i32;
    const DIV_REV: i32;

    const OOB: i32;
    const OOB_REV: i32;
}

// These constants cannot be evaluated already (they depend on `T::N`), so they can just be linted
// like normal run-time code. But codegen works a bit different in const context, so this test
// makes sure that we still catch overflow. Also make sure we emit the same lints if we reverse the
// operands (so that the generic operand comes first).
impl<T: Foo> Foo for Vec<T> {
    const NEG: i32 = -i32::MIN + T::NEG;
    //~^ ERROR arithmetic operation will overflow
    const NEG_REV: i32 = T::NEG + (-i32::MIN);
    //~^ ERROR arithmetic operation will overflow

    const ADD: i32 = (i32::MAX+1) + T::ADD;
    //~^ ERROR arithmetic operation will overflow
    const ADD_REV: i32 =  T::ADD + (i32::MAX+1);
    //~^ ERROR arithmetic operation will overflow

    const DIV: i32 = (1/0) + T::DIV;
    //~^ ERROR operation will panic
    const DIV_REV: i32 = T::DIV + (1/0);
    //~^ ERROR operation will panic

    const OOB: i32 = [1][1] + T::OOB;
    //~^ ERROR operation will panic
    const OOB_REV: i32 = T::OOB + [1][1];
    //~^ ERROR operation will panic
}