add notes about generating llvm ir

src/compiler-debugging.md

@@ -261,29 +261,65 @@ $ firefox maybe_init_suffix.pdf # Or your favorite pdf viewer
 ## Debugging LLVM
 [debugging-llvm]: #debugging-llvm
 
-LLVM is a big project on its own that probably needs to have its own debugging
-document (not that I could find one). But here are some tips that are important
-in a rustc context:
+> NOTE: If you are looking for info about code generation, please see [this
+> chapter][codegen] instead.
+
+[codegen]: codegen.html
+
+This section is about debugging compiler bugs in code generation (e.g. why the
+compiler generated some piece of code or crashed in LLVM).  LLVM is a big
+project on its own that probably needs to have its own debugging document (not
+that I could find one). But here are some tips that are important in a rustc
+context:
+
+As a general rule, compilers generate lots of information from analyzing code.
+Thus, a useful first step is usually to find a minimal example. One way to do
+this is to
+
+1. create a new crate that reproduces the issue (e.g. adding whatever crate is
+at fault as a dependency, and using it from there)
+
+2. minimize the crate by removing external dependencies; that is, moving
+everything relevant to the new crate
+
+3. further minimize the issue by making the code shorter (there are tools that
+help with this like `creduce`)
 
 The official compilers (including nightlies) have LLVM assertions disabled,
 which means that LLVM assertion failures can show up as compiler crashes (not
 ICEs but "real" crashes) and other sorts of weird behavior. If you are
 encountering these, it is a good idea to try using a compiler with LLVM
 assertions enabled - either an "alt" nightly or a compiler you build yourself
-by setting `[llvm] assertions=true` in your config.toml - and
-see whether anything turns up.
+by setting `[llvm] assertions=true` in your config.toml - and see whether
+anything turns up.
 
 The rustc build process builds the LLVM tools into
 `./build/<host-triple>/llvm/bin`. They can be called directly.
 
-The default rustc compilation pipeline has multiple codegen units, which is hard
-to replicate manually and means that LLVM is called multiple times in parallel.
-If you can get away with it (i.e. if it doesn't make your bug disappear),
-passing `-C codegen-units=1` to rustc will make debugging easier.
+The default rustc compilation pipeline has multiple codegen units, which is
+hard to replicate manually and means that LLVM is called multiple times in
+parallel.  If you can get away with it (i.e. if it doesn't make your bug
+disappear), passing `-C codegen-units=1` to rustc will make debugging easier.
 
-If you want to play with the optimization pipeline, you can use the opt tool 
-from `./build/<host-triple>/llvm/bin/` with the the LLVM IR emitted by rustc. 
-Note that rustc emits different IR depending on whether `-O` is enabled, even 
+To rustc to generate LLVM IR, you need to pass the `--emit=llvm-ir` flag. If
+you are building via cargo, use the `RUSTFLAGS` environment variable (e.g.
+`RUSTFLAGS='--emit=llvm-ir'`). This causes rustc to spit out LLVM IR into the
+target directory.
+
+`cargo llvm-ir [options] path` spits out the LLVM IR for a particular function
+at `path`. (`cargo install cargo-asm` installs `cargo asm` and `cargo
+llvm-ir`). `--build-type=debug` emits code for debug builds. There are also
+other useful options. Also, debug info in LLVM IR can clutter the output a lot:
+`RUSTFLAGS="-C debuginfo=0"` is really useful.
+
+`RUSTFLAGS="-C save-temps"` outputs LLVM bitcode (not the same as IR) at
+different stages during compilation, which is sometimes useful. One just needs
+to convert the bitcode files to `.ll` files using `llvm-dis` which should be in
+the target local compilation of rustc.
+
+If you want to play with the optimization pipeline, you can use the `opt` tool
+from `./build/<host-triple>/llvm/bin/` with the LLVM IR emitted by rustc.  Note
+that rustc emits different IR depending on whether `-O` is enabled, even
 without LLVM's optimizations, so if you want to play with the IR rustc emits,
 you should:
 
@@ -295,21 +331,21 @@ $ $OPT -S -O2 < my-file.ll > my
 ```
 
 If you just want to get the LLVM IR during the LLVM pipeline, to e.g. see which
-IR causes an optimization-time assertion to fail, or to see when
-LLVM performs a particular optimization, you can pass the rustc flag
-`-C llvm-args=-print-after-all`, and possibly add
-`-C llvm-args='-filter-print-funcs=EXACT_FUNCTION_NAME` (e.g.
-`-C llvm-args='-filter-print-funcs=_ZN11collections3str21_$LT$impl$u20$str$GT$\
-    7replace17hbe10ea2e7c809b0bE'`).
+IR causes an optimization-time assertion to fail, or to see when LLVM performs
+a particular optimization, you can pass the rustc flag `-C
+llvm-args=-print-after-all`, and possibly add `-C
+llvm-args='-filter-print-funcs=EXACT_FUNCTION_NAME` (e.g.  `-C
+llvm-args='-filter-print-funcs=_ZN11collections3str21_$LT$impl$u20$str$GT$\
+7replace17hbe10ea2e7c809b0bE'`).
 
-That produces a lot of output into standard error, so you'll want to pipe
-that to some file. Also, if you are using neither `-filter-print-funcs` nor
-`-C codegen-units=1`, then, because the multiple codegen units run in parallel,
-the printouts will mix together and you won't be able to read anything.
+That produces a lot of output into standard error, so you'll want to pipe that
+to some file. Also, if you are using neither `-filter-print-funcs` nor `-C
+codegen-units=1`, then, because the multiple codegen units run in parallel, the
+printouts will mix together and you won't be able to read anything.
 
-If you want just the IR for a specific function (say, you want to see
-why it causes an assertion or doesn't optimize correctly), you can use
-`llvm-extract`, e.g.
+If you want just the IR for a specific function (say, you want to see why it
+causes an assertion or doesn't optimize correctly), you can use `llvm-extract`,
+e.g.
 
 ```bash
 $ ./build/$TRIPLE/llvm/bin/llvm-extract \
@@ -319,4 +355,32 @@ $ ./build/$TRIPLE/llvm/bin/llvm-extract \
     > extracted.ll
 ```
 
+### Filing LLVM bug reports
+
+When filing an LLVM bug report, you will probably want some sort of minimal
+working example that demonstrates the problem. The Godbolt compiler explorer is
+really helpful for this.
+
+1. Once you have some LLVM IR for the problematic code (see above), you can
+create a minimal working example with Godbolt. Go to
+[gcc.godbolt.org](https://gcc.godbolt.org).
+
+2. Choose `LLVM-IR` as programming language.
+
+3. Use `llc` to compile the IR to a particular target as is:
+    - There are some useful flags: `-mattr` enables target features, `-march=`
+      selects the target, `-mcpu=` selects the CPU, etc.
+    - Commands like `llc -march=help` output all architectures available, which
+      is useful because sometimes the Rust arch names and the LLVM names do not
+      match.
+    - If you have compiled rustc yourself somewhere, in the target directory
+      you have binaries for `llc`, `opt`, etc.
+
+4. If you want to optimize the LLVM-IR, you can use `opt` to see how the LLVM
+   optimizations transform it.
+
+5. Once you have a godbolt link demonstrating the issue, it is pretty easy to
+   fill in an LLVM bug.
+
+
 [env-logger]: https://docs.rs/env_logger/0.4.3/env_logger/