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// run-pass

// Tests that match expression handles overlapped literal and range
// properly in the presence of guard function.

fn val() -> usize { 1 }

static CONST: usize = 1;

pub fn main() {
    lit_shadow_range();
    range_shadow_lit();
    range_shadow_range();
    multi_pats_shadow_lit();
    multi_pats_shadow_range();
    lit_shadow_multi_pats();
    range_shadow_multi_pats();
    misc();
}

fn lit_shadow_range() {
    assert_eq!(2, match 1 {
        1 if false => 1,
        1..=2 => 2,
        _ => 3
    });

    let x = 0;
    assert_eq!(2, match x+1 {
        0 => 0,
        1 if false => 1,
        1..=2 => 2,
        _ => 3
    });

    assert_eq!(2, match val() {
        1 if false => 1,
        1..=2 => 2,
        _ => 3
    });

    assert_eq!(2, match CONST {
        0 => 0,
        1 if false => 1,
        1..=2 => 2,
        _ => 3
    });

    // value is out of the range of second arm, should match wildcard pattern
    assert_eq!(3, match 3 {
        1 if false => 1,
        1..=2 => 2,
        _ => 3
    });
}

fn range_shadow_lit() {
    assert_eq!(2, match 1 {
        1..=2 if false => 1,
        1 => 2,
        _ => 3
    });

    let x = 0;
    assert_eq!(2, match x+1 {
        0 => 0,
        1..=2 if false => 1,
        1 => 2,
        _ => 3
    });

    assert_eq!(2, match val() {
        1..=2 if false => 1,
        1 => 2,
        _ => 3
    });

    assert_eq!(2, match CONST {
        0 => 0,
        1..=2 if false => 1,
        1 => 2,
        _ => 3
    });

    // ditto
    assert_eq!(3, match 3 {
        1..=2 if false => 1,
        1 => 2,
        _ => 3
    });
}

fn range_shadow_range() {
    assert_eq!(2, match 1 {
        0..=2 if false => 1,
        1..=3 => 2,
        _ => 3,
    });

    let x = 0;
    assert_eq!(2, match x+1 {
        100 => 0,
        0..=2 if false => 1,
        1..=3 => 2,
        _ => 3,
    });

    assert_eq!(2, match val() {
        0..=2 if false => 1,
        1..=3 => 2,
        _ => 3,
    });

    assert_eq!(2, match CONST {
        100 => 0,
        0..=2 if false => 1,
        1..=3 => 2,
        _ => 3,
    });

    // ditto
    assert_eq!(3, match 5 {
        0..=2 if false => 1,
        1..=3 => 2,
        _ => 3,
    });
}

fn multi_pats_shadow_lit() {
    assert_eq!(2, match 1 {
        100 => 0,
        0 | 1..=10 if false => 1,
        1 => 2,
        _ => 3,
    });
}

fn multi_pats_shadow_range() {
    assert_eq!(2, match 1 {
        100 => 0,
        0 | 1..=10 if false => 1,
        1..=3 => 2,
        _ => 3,
    });
}

fn lit_shadow_multi_pats() {
    assert_eq!(2, match 1 {
        100 => 0,
        1 if false => 1,
        0 | 1..=10 => 2,
        _ => 3,
    });
}

fn range_shadow_multi_pats() {
    assert_eq!(2, match 1 {
        100 => 0,
        1..=3 if false => 1,
        0 | 1..=10 => 2,
        _ => 3,
    });
}

fn misc() {
    enum Foo {
        Bar(#[allow(unused_tuple_struct_fields)] usize, bool)
    }
    // This test basically mimics how trace_macros! macro is implemented,
    // which is a rare combination of vector patterns, multiple wild-card
    // patterns and guard functions.
    let r = match [Foo::Bar(0, false)] {
        [Foo::Bar(_, pred)] if pred => 1,
        [Foo::Bar(_, pred)] if !pred => 2,
        _ => 0,
    };
    assert_eq!(2, r);
}