Codegen options
All of these options are passed to rustc
via the -C
flag, short for "codegen." You can see
a version of this list for your exact compiler by running rustc -C help
.
ar
This option is deprecated and does nothing.
linker
This flag lets you control which linker rustc
invokes to link your code.
link-arg=val
This flag lets you append a single extra argument to the linker invocation.
"Append" is significant; you can pass this flag multiple times to add multiple arguments.
link-args
This flag lets you append multiple extra arguments to the linker invocation. The options should be separated by spaces.
linker-flavor
This flag lets you control the linker flavor used by rustc
. If a linker is given with the
-C linker
flag described above then the linker flavor is inferred from the value provided. If no
linker is given then the linker flavor is used to determine the linker to use. Every rustc
target
defaults to some linker flavor.
link-dead-code
Normally, the linker will remove dead code. This flag disables this behavior.
An example of when this flag might be useful is when trying to construct code coverage metrics.
lto
This flag instructs LLVM to use link time optimizations.
It takes one of two values, thin
and fat
. 'thin' LTO is a new feature of
LLVM,
'fat' referring to the classic version of LTO.
target-cpu
This instructs rustc
to generate code specifically for a particular processor.
You can run rustc --print target-cpus
to see the valid options to pass
here. Additionally, native
can be passed to use the processor of the host
machine.
target-feature
Individual targets will support different features; this flag lets you control enabling or disabling a feature.
To see the valid options and an example of use, run rustc --print target-features
.
passes
This flag can be used to add extra LLVM passes to the compilation.
The list must be separated by spaces.
llvm-args
This flag can be used to pass a list of arguments directly to LLVM.
The list must be separated by spaces.
save-temps
rustc
will generate temporary files during compilation; normally it will
delete them after it's done with its work. This option will cause them to be
preserved instead of removed.
rpath
This option allows you to set the value of
rpath
.
overflow-checks
This flag allows you to control the behavior of integer overflow. This flag can be passed many options:
- To turn overflow checks on:
y
,yes
, oron
. - To turn overflow checks off:
n
,no
, oroff
.
no-prepopulate-passes
The pass manager comes pre-populated with a list of passes; this flag ensures that list is empty.
no-vectorize-loops
By default, rustc
will attempt to vectorize
loops. This
flag will turn that behavior off.
no-vectorize-slp
By default, rustc
will attempt to vectorize loops using superword-level
parallelism. This
flag will turn that behavior off.
soft-float
This option will make rustc
generate code using "soft floats." By default,
a lot of hardware supports floating point instructions, and so the code generated
will take advantage of this. "soft floats" emulate floating point instructions
in software.
prefer-dynamic
By default, rustc
prefers to statically link dependencies. This option will
make it use dynamic linking instead.
no-integrated-as
LLVM comes with an internal assembler; this option will let you use an external assembler instead.
no-redzone
This flag allows you to disable the red zone. This flag can be passed many options:
- To enable the red zone:
y
,yes
, oron
. - To disable it:
n
,no
, oroff
.
relocation-model
This option lets you choose which relocation model to use.
To find the valid options for this flag, run rustc --print relocation-models
.
code-model=val
This option lets you choose which code model to use.
To find the valid options for this flag, run rustc --print code-models
.
metadata
This option allows you to control the metadata used for symbol mangling.
extra-filename
This option allows you to put extra data in each output filename.
codegen-units
This flag lets you control how many threads are used when doing code generation.
Increasing parallelism may speed up compile times, but may also produce slower code.
remark
This flag lets you print remarks for these optimization passes.
The list of passes should be separated by spaces.
all
will remark on every pass.
no-stack-check
This option is deprecated and does nothing.
debuginfo
This flag lets you control debug information:
0
: no debug info at all1
: line tables only2
: full debug info
opt-level
This flag lets you control the optimization level.
0
: no optimizations, also turn oncfg(debug_assertions)
.1
: basic optimizations2
: some optimizations3
: all optimizationss
: optimize for binary sizez
: optimize for binary size, but also turn off loop vectorization.
debug-assertions
This flag lets you turn cfg(debug_assertions)
on or off.
inline-threshold
This option lets you set the threshold for inlining a function.
The default is 225.
panic
This option lets you control what happens when the code panics.
abort
: terminate the process upon panicunwind
: unwind the stack upon panic
incremental
This flag allows you to enable incremental compilation.
profile-generate
This flag allows for creating instrumented binaries that will collect profiling data for use with profile-guided optimization (PGO). The flag takes an optional argument which is the path to a directory into which the instrumented binary will emit the collected data. See the chapter on profile-guided optimization for more information.
profile-use
This flag specifies the profiling data file to be used for profile-guided
optimization (PGO). The flag takes a mandatory argument which is the path
to a valid .profdata
file. See the chapter on
profile-guided optimization for more information.