Merge pull request #191 from nikomatsakis/keep-stage
document keep-stage1 and also try to clarify
This commit is contained in:
Niko Matsakis
GitHub
commit
b53fd08f17
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@ -49,28 +49,36 @@ use-jemalloc = false
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### Running x.py and building a stage1 compiler
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One thing to keep in mind is that `rustc` is a _bootstrapping_ compiler. That
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is, since `rustc` is written in Rust, we need to use an older version of the
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compiler to compile the newer version. In particular, the newer version of the
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compiler, `libstd`, and other tooling may use some unstable features
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internally. The result is the compiling `rustc` is done in stages.
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One thing to keep in mind is that `rustc` is a _bootstrapping_
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compiler. That is, since `rustc` is written in Rust, we need to use an
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older version of the compiler to compile the newer version. In
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particular, the newer version of the compiler, `libstd`, and other
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tooling may use some unstable features internally. The result is that
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compiling `rustc` is done in stages:
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- **Stage 0:** the stage0 compiler can be your existing
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(perhaps older version of)
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Rust compiler, the current _beta_ compiler or you may download the binary
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from the internet.
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- **Stage 1:** the code in your clone (for new version)
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is then compiled with the stage0
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compiler to produce the stage1 compiler.
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However, it was built with an older compiler (stage0),
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so to optimize the stage1 compiler we go to next stage.
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- **Stage 2:** we rebuild our stage1 compiler with itself
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to produce the stage2 compiler (i.e. it builds
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itself) to have all the _latest optimizations_.
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- _(Optional)_ **Stage 3**: to sanity check of our new compiler,
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we can build it again
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with stage2 compiler which must be identical to itself,
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unless something has broken.
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- **Stage 0:** the stage0 compiler is usually the current _beta_ compiler
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(`x.py` will download it for you); you can configure `x.py` to use something
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else, though.
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- **Stage 1:** the code in your clone (for new version) is then
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compiled with the stage0 compiler to produce the stage1 compiler.
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However, it was built with an older compiler (stage0), so to
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optimize the stage1 compiler we go to next stage.
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- (In theory, the stage1 compiler is functionally identical to the
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stage2 compiler, but in practice there are subtle differences. In
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particular, the stage1 compiler itself was built by stage0 and
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hence not by the source in your working directory: this means that
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the symbol names used in the compiler source may not match the
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symbol names that would have been made by the stage1 compiler.
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This can be important when using dynamic linking (e.g., with
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derives. Sometimes this means that some tests don't work when run
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with stage1.)
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- **Stage 2:** we rebuild our stage1 compiler with itself to produce
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the stage2 compiler (i.e. it builds itself) to have all the _latest
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optimizations_. (By default, we copy the stage1 libraries for use by
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the stage2 compiler, since they ought to be identical.)
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- _(Optional)_ **Stage 3**: to sanity check of our new compiler, we
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can build the libraries with the stage2 compiler. The result ought
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to be identical to before, unless something has broken.
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For hacking, often building the stage 1 compiler is enough, but for
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final testing and release, the stage 2 compiler is used.
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@ -80,6 +88,8 @@ It is, in particular, very useful when you're doing some kind of
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"type-based refactoring", like renaming a method, or changing the
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signature of some function.
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<a name=command></a>
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Once you've created a config.toml, you are now ready to run
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`x.py`. There are a lot of options here, but let's start with what is
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probably the best "go to" command for building a local rust:
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@ -88,27 +98,39 @@ probably the best "go to" command for building a local rust:
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> ./x.py build -i --stage 1 src/libstd
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```
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What this command will do is the following:
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This may *look* like it only builds libstd, but that is not the case.
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What this command does is the following:
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- Using the beta compiler (also called stage 0), it will build the
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standard library and rustc from the `src` directory. The resulting
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compiler is called the "stage 1" compiler.
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- During this build, the `-i` (or `--incremental`) switch enables incremental
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compilation, so that if you later rebuild after editing things in
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`src`, you can save a bit of time.
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- Using this stage 1 compiler, it will build the standard library.
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(this is what the `src/libstd`) means.
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- Build libstd using the stage0 compiler (using incremental)
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- Build librustc using the stage0 compiler (using incremental)
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- This produces the stage1 compiler
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- Build libstd using the stage1 compiler (cannot use incremental)
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This is just a subset of the full rustc build. The **full** rustc build
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(what you get if you just say `./x.py build`) has quite a few more steps:
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This final product (stage1 compiler + libs built using that compiler)
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is what you need to build other rust programs.
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- Build stage1 rustc with stage0 compiler.
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- Build libstd with stage1 compiler (up to here is the same).
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- Build rustc from `src` again, this time with the stage1 compiler
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(this part is new).
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Note that the command includes the `-i` switch. This enables incremental
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compilation. This will be used to speed up the first two steps of the process:
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in particular, if you make a small change, we ought to be able to use your old
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results to make producing the stage1 **compiler** faster.
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Unfortunately, incremental cannot be used to speed up making the
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stage1 libraries. This is because incremental only works when you run
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the *same compiler* twice in a row. In this case, we are building a
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*new stage1 compiler* every time. Therefore, the old incremental
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results may not apply. **As a result, you will probably find that
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building the stage1 libstd is a bottleneck for you** -- but fear not,
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there is a (hacky) workaround. See [the section on "recommended
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workflows"](#workflow) below.
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Note that this whole command just gives you a subset of the full rustc
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build. The **full** rustc build (what you get if you just say `./x.py
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build`) has quite a few more steps:
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- Build librustc and rustc with the stage1 compiler.
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- The resulting compiler here is called the "stage2" compiler.
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- Build libstd with stage2 compiler.
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- Build librustdoc and a bunch of other things.
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- Build librustdoc and a bunch of other things with the stage2 compiler.
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<a name=toolchain></a>
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@ -148,6 +170,66 @@ release: 1.25.0-dev
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LLVM version: 4.0
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```
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<a name=workflow></a>
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### Suggested workflows for faster builds of the compiler
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There are two workflows that are useful for faster builders of the
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compiler.
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**Check, check, and check again.** The first workflow, which is useful
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when doing simple refactorings, is to run `./x.py check`
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continuously. Here you are just checking that the compiler can
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**build**, but often that is all you need (e.g., when renaming a
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method). You can then run `./x.py build` when you actually need to
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run tests.
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In fact, it is sometimes useful to put off tests even when you are not
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100% sure the code will work. You can then keep building up
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refactoring commits and only run the tests at some later time. You can
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then use `git bisect` to track down **precisely** which commit caused
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the problem. A nice side-effect of this style is that you are left
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with a fairly fine-grained set of commits at the end, all of which
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build and pass tests. This often helps reviewing.
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**Incremental builds with `--keep-stage`.** Sometimes just checking
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whether the compiler builds is not enough. A common example is that
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you need to add a `debug!` statement to inspect the value of some
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state or better understand the problem. In that case, you really need
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a full build. By leveraging incremental, though, you can often get
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these builds to complete very fast (e.g., around 30 seconds): the only
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catch is this requires a bit of fudging and may produce compilers that
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don't work (but that is easily detected and fixed).
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The sequence of commands you want is as follows:
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- Initial build: `./x.py build -i --stage 1 src/libstd`
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- As [documented above](#command), this will build a functional
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stage1 compiler
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- Subsequent builds: `./x.py build -i --stage 1 src/libstd --keep-stage 1`
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- Note that we added the `--keep-stage 1` flag here
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The effect of `--keep-stage 1` is that we just *assume* that the old
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standard library can be re-used. If you are editing the compiler, this
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is almost always true: you haven't changed the standard library, after
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all. But sometimes, it's not true: for example, if you are editing
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the "metadata" part of the compiler, which controls how the compiler
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encodes types and other states into the `rlib` files, or if you are
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editing things that wind up in the metadata (such as the definition of
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the MIR).
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**The TL;DR is that you might get weird behavior from a compile when
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using `--keep-stage 1`** -- for example, strange
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[ICEs](appendix/glossary.html) or other panics. In that case, you
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should simply remove the `--keep-stage 1` from the command and
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rebuild. That ought to fix the problem.
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You can also use `--keep-stage 1` when running tests. Something like
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this:
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- Initial test run: `./x.py test -i --stage 1 src/test/ui`
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- Subsequent test run: `./x.py test -i --stage 1 src/test/ui --keep-stage 1`
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### Other x.py commands
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Here are a few other useful x.py commands. We'll cover some of them in detail
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@ -61,21 +61,24 @@ filtering for tests that include "issue-1234" in the name.
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## Using incremental compilation
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You can further enable the `--incremental` flag to save additional time in subsequent rebuilds:
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You can further enable the `--incremental` flag to save additional
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time in subsequent rebuilds:
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```bash
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> ./x.py test --stage 1 src/test/ui --incremental --test-args issue-1234
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```
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If you don't want to include the flag with every command, you can enable it in the `config.toml`, too:
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If you don't want to include the flag with every command, you can
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enable it in the `config.toml`, too:
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```toml
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# Whether to always use incremental compilation when building rustc
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incremental = true
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```
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Note that incremental compilation will use more disk space than usual. If disk space is a
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concern for you, you might want to check the size of the `build` directory from time to time.
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Note that incremental compilation will use more disk space than
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usual. If disk space is a concern for you, you might want to check the
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size of the `build` directory from time to time.
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## Running tests manually
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