1 files changed, 0 insertions, 218 deletions
diff --git a/vendor/digest-0.8.1/src/dev.rs b/vendor/digest-0.8.1/src/dev.rs
deleted file mode 100644
index e9950ee79..000000000
--- a/vendor/digest-0.8.1/src/dev.rs
+++ /dev/null
@@ -1,218 +0,0 @@
-use super::{Input, VariableOutput, ExtendableOutput, Reset, XofReader};
-use core::fmt::Debug;
-
-#[macro_export]
-macro_rules! new_test {
-    ($name:ident, $test_name:expr, $hasher:ty, $test_func:ident) => {
-        #[test]
-        fn $name() {
-            use digest::blobby::Blob2Iterator;
-            let data = include_bytes!(concat!("data/", $test_name, ".blb"));
-
-            for (i, row) in Blob2Iterator::new(data).unwrap().enumerate() {
-                let input = row[0];
-                let output = row[1];
-                if let Some(desc) = $test_func::<$hasher>(input, output) {
-                    panic!("\n\
-                        Failed test №{}: {}\n\
-                        input:\t{:?}\n\
-                        output:\t{:?}\n",
-                        i, desc, input, output,
-                    );
-                }
-            }
-        }
-    }
-}
-
-// module to separate Digest from other traits
-mod foo {
-    use super::super::Digest;
-    use core::fmt::Debug;
-
-    pub fn digest_test<D>(input: &[u8], output: &[u8]) -> Option<&'static str>
-        where D: Digest + Debug + Clone
-    {
-        let mut hasher = D::new();
-        // Test that it works when accepting the message all at once
-        hasher.input(input);
-        let mut hasher2 = hasher.clone();
-        if hasher.result().as_slice() != output {
-            return Some("whole message");
-        }
-
-        // Test if reset works correctly
-        hasher2.reset();
-        hasher2.input(input);
-        if hasher2.result().as_slice() != output {
-            return Some("whole message after reset");
-        }
-
-        // Test that it works when accepting the message in pieces
-        let mut hasher = D::new();
-        let len = input.len();
-        let mut left = len;
-        while left > 0 {
-            let take = (left + 1) / 2;
-            hasher.input(&input[len - left..take + len - left]);
-            left = left - take;
-        }
-        if hasher.result().as_slice() != output {
-            return Some("message in pieces");
-        }
-
-        // Test processing byte-by-byte
-        let mut hasher = D::new();
-        for chunk in input.chunks(1) {
-            hasher.input(chunk)
-        }
-        if hasher.result().as_slice() != output {
-            return Some("message byte-by-byte");
-        }
-        None
-    }
-
-
-    pub fn one_million_a<D>(expected: &[u8])
-        where D: Digest + Debug + Clone
-    {
-        let mut sh = D::new();
-        for _ in 0..50_000 {
-            sh.input(&[b'a'; 10]);
-        }
-        sh.input(&[b'a'; 500_000][..]);
-        let out = sh.result();
-        assert_eq!(out[..], expected[..]);
-    }
-}
-
-pub use self::foo::{digest_test, one_million_a};
-
-pub fn xof_test<D>(input: &[u8], output: &[u8])
-    -> Option<&'static str>
-    where D: Input + ExtendableOutput + Default + Debug + Reset  + Clone
-{
-    let mut hasher = D::default();
-    let mut buf = [0u8; 1024];
-    // Test that it works when accepting the message all at once
-    hasher.input(input);
-
-    let mut hasher2 = hasher.clone();
-    {
-        let out = &mut buf[..output.len()];
-        hasher.xof_result().read(out);
-
-        if out != output { return Some("whole message"); }
-    }
-
-    // Test if hasher resets correctly
-    hasher2.reset();
-    hasher2.input(input);
-
-    {
-        let out = &mut buf[..output.len()];
-        hasher2.xof_result().read(out);
-
-        if out != output { return Some("whole message after reset"); }
-    }
-
-    // Test if hasher accepts message in pieces correctly
-    let mut hasher = D::default();
-    let len = input.len();
-    let mut left = len;
-    while left > 0 {
-        let take = (left + 1) / 2;
-        hasher.input(&input[len - left..take + len - left]);
-        left = left - take;
-    }
-
-    {
-        let out = &mut buf[..output.len()];
-        hasher.xof_result().read(out);
-        if out != output { return Some("message in pieces"); }
-    }
-
-    // Test reading from reader byte by byte
-    let mut hasher = D::default();
-    hasher.input(input);
-
-    let mut reader = hasher.xof_result();
-    let out = &mut buf[..output.len()];
-    for chunk in out.chunks_mut(1) {
-        reader.read(chunk);
-    }
-
-    if out != output { return Some("message in pieces"); }
-    None
-}
-
-pub fn variable_test<D>(input: &[u8], output: &[u8])
-    -> Option<&'static str>
-    where D: Input + VariableOutput  + Reset + Debug + Clone
-{
-    let mut hasher = D::new(output.len()).unwrap();
-    let mut buf = [0u8; 128];
-    let buf = &mut buf[..output.len()];
-    // Test that it works when accepting the message all at once
-    hasher.input(input);
-    let mut hasher2 = hasher.clone();
-    hasher.variable_result(|res| buf.copy_from_slice(res));
-    if buf != output { return Some("whole message"); }
-
-    // Test if reset works correctly
-    hasher2.reset();
-    hasher2.input(input);
-    hasher2.variable_result(|res| buf.copy_from_slice(res));
-    if buf != output { return Some("whole message after reset"); }
-
-    // Test that it works when accepting the message in pieces
-    let mut hasher = D::new(output.len()).unwrap();
-    let len = input.len();
-    let mut left = len;
-    while left > 0 {
-        let take = (left + 1) / 2;
-        hasher.input(&input[len - left..take + len - left]);
-        left = left - take;
-    }
-    hasher.variable_result(|res| buf.copy_from_slice(res));
-    if buf != output { return Some("message in pieces"); }
-
-    // Test processing byte-by-byte
-    let mut hasher = D::new(output.len()).unwrap();
-    for chunk in input.chunks(1) {
-        hasher.input(chunk)
-    }
-    hasher.variable_result(|res| buf.copy_from_slice(res));
-    if buf != output { return Some("message byte-by-byte"); }
-    None
-}
-
-
-#[macro_export]
-macro_rules! bench {
-    ($name:ident, $engine:path, $bs:expr) => {
-        #[bench]
-        fn $name(b: &mut Bencher) {
-            let mut d = <$engine>::default();
-            let data = [0; $bs];
-
-            b.iter(|| {
-                d.input(&data[..]);
-            });
-
-            b.bytes = $bs;
-        }
-    };
-
-    ($engine:path) => {
-        extern crate test;
-
-        use test::Bencher;
-        use digest::Digest;
-
-        bench!(bench1_10,    $engine, 10);
-        bench!(bench2_100,   $engine, 100);
-        bench!(bench3_1000,  $engine, 1000);
-        bench!(bench4_10000, $engine, 10000);
-    }
-}