X-Git-Url: https://git.ralfj.de/web.git/blobdiff_plain/9b001308930c3173c577885a651530bfb3de91f8..71d8afae6d136c2f0dc4897994e43793df2be948:/ralf/_posts/2018-07-24-pointers-and-bytes.md diff --git a/ralf/_posts/2018-07-24-pointers-and-bytes.md b/ralf/_posts/2018-07-24-pointers-and-bytes.md index 0496a5d..68a2cb0 100644 --- a/ralf/_posts/2018-07-24-pointers-and-bytes.md +++ b/ralf/_posts/2018-07-24-pointers-and-bytes.md @@ -237,6 +237,8 @@ Finally, `Uninit` is also a better choice for interpreters like miri. Such interpreters have a hard time dealing with operations of the form "just choose any of these values" (i.e., non-deterministic operations), because if they want to fully explore all possible program executions, that means they have to try every possible value. Using `Uninit` instead of an arbitrary bit pattern means miri can, in a single execution, reliably tell you if your programs uses uninitialized values incorrectly. +**Update:** Since writing this section, I have written an entire [post dedicated to uninitialized memory and "real hardware"]({% post_url 2019-07-14-uninit %}) with more details, examples and references. **/Update** + ## Conclusion We have seen that in languages like C++ and Rust (unlike on real hardware), pointers can be different even when they point to the same address, and that a byte is more than just a number in `0..256`.