1 files changed, 116 insertions, 0 deletions
diff --git a/tests/run-make/reproducible-build/reproducible-build.rs b/tests/run-make/reproducible-build/reproducible-build.rs
new file mode 100644
index 000000000..a6c04774c
--- /dev/null
+++ b/tests/run-make/reproducible-build/reproducible-build.rs
@@ -0,0 +1,116 @@
+// This test case makes sure that two identical invocations of the compiler
+// (i.e., same code base, same compile-flags, same compiler-versions, etc.)
+// produce the same output. In the past, symbol names of monomorphized functions
+// were not deterministic (which we want to avoid).
+//
+// The test tries to exercise as many different paths into symbol name
+// generation as possible:
+//
+// - regular functions
+// - generic functions
+// - methods
+// - statics
+// - closures
+// - enum variant constructors
+// - tuple struct constructors
+// - drop glue
+// - FnOnce adapters
+// - Trait object shims
+// - Fn Pointer shims
+
+#![allow(dead_code, warnings)]
+
+extern crate reproducible_build_aux;
+
+static STATIC: i32 = 1234;
+
+pub struct Struct<T1, T2> {
+    x: T1,
+    y: T2,
+}
+
+fn regular_fn(_: i32) {}
+
+fn generic_fn<T1, T2>() {}
+
+impl<T1, T2> Drop for Struct<T1, T2> {
+    fn drop(&mut self) {}
+}
+
+pub enum Enum {
+    Variant1,
+    Variant2(u32),
+    Variant3 { x: u32 }
+}
+
+struct TupleStruct(i8, i16, i32, i64);
+
+impl TupleStruct {
+    pub fn bar(&self) {}
+}
+
+trait Trait<T1, T2> {
+    fn foo(&self);
+}
+
+impl Trait<i32, u64> for u64 {
+    fn foo(&self) {}
+}
+
+impl reproducible_build_aux::Trait<char, String> for TupleStruct {
+    fn foo(&self) {}
+}
+
+fn main() {
+    regular_fn(STATIC);
+    generic_fn::<u32, char>();
+    generic_fn::<char, Struct<u32, u64>>();
+    generic_fn::<Struct<u64, u32>, reproducible_build_aux::Struct<u32, u64>>();
+
+    let dropped = Struct {
+        x: "",
+        y: 'a',
+    };
+
+    let _ = Enum::Variant1;
+    let _ = Enum::Variant2(0);
+    let _ = Enum::Variant3 { x: 0 };
+    let _ = TupleStruct(1, 2, 3, 4);
+
+    let closure  = |x| {
+        x + 1i32
+    };
+
+    fn inner<F: Fn(i32) -> i32>(f: F) -> i32 {
+        f(STATIC)
+    }
+
+    println!("{}", inner(closure));
+
+    let object_shim: &Trait<i32, u64> = &0u64;
+    object_shim.foo();
+
+    fn with_fn_once_adapter<F: FnOnce(i32)>(f: F) {
+        f(0);
+    }
+
+    with_fn_once_adapter(|_:i32| { });
+
+    reproducible_build_aux::regular_fn(STATIC);
+    reproducible_build_aux::generic_fn::<u32, char>();
+    reproducible_build_aux::generic_fn::<char, Struct<u32, u64>>();
+    reproducible_build_aux::generic_fn::<Struct<u64, u32>,
+                                         reproducible_build_aux::Struct<u32, u64>>();
+
+    let _ = reproducible_build_aux::Enum::Variant1;
+    let _ = reproducible_build_aux::Enum::Variant2(0);
+    let _ = reproducible_build_aux::Enum::Variant3 { x: 0 };
+    let _ = reproducible_build_aux::TupleStruct(1, 2, 3, 4);
+
+    let object_shim: &reproducible_build_aux::Trait<char, String> = &TupleStruct(0, 1, 2, 3);
+    object_shim.foo();
+
+    let pointer_shim: &Fn(i32) = &regular_fn;
+
+    TupleStruct(1, 2, 3, 4).bar();
+}