pex_binary
A Python target that can be converted into an executable PEX file.
PEX files are self-contained executable files that contain a complete Python environment capable of running the target. For more information, see https://www.pantsbuild.org/v2.19/docs/pex.
Backend: pants.backend.python
args
Iterable[str] | None
None
Freeze these command-line args into the PEX. Allows you to run generic entry points on specific arguments without creating a shim file.
complete_platforms
Iterable[str] | None
None
The platforms the built PEX should be compatible with.
There must be built wheels available for all of the foreign platforms, rather than sdists.
You can give a list of multiple complete platforms to create a multiplatform PEX, meaning that the PEX will be executable in all of the supported environments.
Complete platforms should be addresses of file
targets that point to files that contain complete platform JSON as described by Pex (https://pex.readthedocs.io/en/latest/buildingpex.html#complete-platform).
See https://www.pantsbuild.org/v2.19/docs/pex for details.
dependencies
Iterable[str] | None
None
Addresses to other targets that this target depends on, e.g. ['helloworld/subdir:lib', 'helloworld/main.py:lib', '3rdparty:reqs#django']
.
This augments any dependencies inferred by Pants, such as by analyzing your imports. Use pants dependencies
or pants peek
on this target to get the final result.
See https://www.pantsbuild.org/v2.19/docs/targets for more about how addresses are formed, including for generated targets. You can also run pants list ::
to find all addresses in your project, or pants list dir
to find all addresses defined in that directory.
If the target is in the same BUILD file, you can leave off the BUILD file path, e.g. :tgt
instead of helloworld/subdir:tgt
. For generated first-party addresses, use ./
for the file path, e.g. ./main.py:tgt
; for all other generated targets, use :tgt#generated_name
.
You may exclude dependencies by prefixing with !
, e.g. ['!helloworld/subdir:lib', '!./sibling.txt']
. Ignores are intended for false positives with dependency inference; otherwise, simply leave off the dependency from the BUILD file.
description
str | None
None
A human-readable description of the target.
Use pants list --documented ::
to see all targets with descriptions.
emit_warnings
bool | None
None
Whether or not to emit PEX warnings at runtime.
The default is determined by the option emit_warnings
in the [pex-binary-defaults]
scope.
entry_point
str | None
None
Set the entry point, i.e. what gets run when executing ./my_app.pex
, to a module.
You can specify a full module like 'path.to.module'
and 'path.to.module:func'
, or use a shorthand to specify a file name, using the same syntax as the sources
field:
'app.py'
, Pants will convert into the modulepath.to.app
;'app.py:func'
, Pants will convert intopath.to.app:func
.
You may either set this field or the script
field, but not both. Leave off both fields to have no entry point.
env
Dict[str, str] | None
None
Freeze these environment variables into the PEX. Allows you to run generic entry points on a specific environment without creating a shim file.
environment
str | None
'__local__'
Specify which environment target to consume environment-sensitive options from.
Once environments are defined in [environments-preview].names
, you can specify the environment for this target by its name. Any fields that are defined in that environment will override the values from options set by pants.toml
, command line values, or environment variables.
You can specify multiple valid environments by using parametrize
. If __local__
is specified, Pants will fall back to the local_environment
defined for the current platform, or no environment if no such environment exists.
execution_mode
'venv' | 'zipapp' | None
'zipapp'
The mode the generated PEX file will run in.
The traditional PEX file runs in a modified 'zipapp' mode (See: https://www.python.org/dev/peps/pep-0441/) where zipped internal code and dependencies are first unpacked to disk. This mode achieves the fastest cold start times and may, for example be the best choice for cloud lambda functions.
The fastest execution mode in the steady state is 'venv', which generates a virtual environment from the PEX file on first run, but then achieves near native virtual environment start times. This mode also benefits from a traditional virtual environment sys.path
, giving maximum compatibility with stdlib and third party APIs.
ignore_errors
bool
False
Should PEX ignore errors when it cannot resolve dependencies?
include_requirements
bool
True
Whether to include the third party requirements the binary depends on in the packaged PEX file.
include_sources
bool
True
Whether to include your first party sources the binary uses in the packaged PEX file.
include_tools
bool
False
Whether to include Pex tools in the PEX bootstrap code.
With tools included, the generated PEX file can be executed with PEX_TOOLS=1 <pex file> --help
to gain access to all the available tools.
inherit_path
'fallback' | 'false' | 'prefer' | None
None
Whether to inherit the sys.path
(aka PYTHONPATH) of the environment that the binary runs in.
Use false
to not inherit sys.path
; use fallback
to inherit sys.path
after packaged dependencies; and use prefer
to inherit sys.path
before packaged dependencies.
interpreter_constraints
Iterable[str] | None
None
The Python interpreters this code is compatible with.
Each element should be written in pip-style format, e.g. CPython==2.7.*
or CPython>=3.6,<4
. You can leave off CPython
as a shorthand, e.g. >=2.7
will be expanded to CPython>=2.7
.
Specify more than one element to OR the constraints, e.g. ['PyPy==3.7.*', 'CPython==3.7.*']
means either PyPy 3.7 or CPython 3.7.
If the field is not set, it will default to the option [python].interpreter_constraints
.
See https://www.pantsbuild.org/v2.19/docs/python-interpreter-compatibility for how these interpreter constraints are merged with the constraints of dependencies.
layout
'loose' | 'packed' | 'zipapp' | None
'zipapp'
The layout used for the PEX binary.
By default, a PEX is created as a single file zipapp, but either a packed or loose directory tree based layout can be chosen instead.
A packed layout PEX is an executable directory structure designed to have cache-friendly characteristics for syncing incremental updates to PEXed applications over a network. At the top level of the packed directory tree there is an executable __main__.py
script. The directory can also be executed by passing its path to a Python executable; e.g: python packed-pex-dir/
. The Pex bootstrap code and all dependency code are packed into individual zip files for efficient caching and syncing.
A loose layout PEX is similar to a packed PEX, except that neither the Pex bootstrap code nor the dependency code are packed into zip files, but are instead present as collections of loose files in the directory tree providing different caching and syncing tradeoffs.
Both zipapp and packed layouts install themselves in the $PEX_ROOT
as loose apps by default before executing, but these layouts compose with execution_mode='zipapp'
as well.
output_path
str | None
None
Where the built asset should be located.
If undefined, this will use the path to the BUILD file, followed by the target name. For example, src/python/project:app
would be src.python.project/app.ext
.
When running pants package
, this path will be prefixed by --distdir
(e.g. dist/
).
Warning: setting this value risks naming collisions with other package targets you may have.
resolve
str | None
None
The resolve from [python].resolves
to use.
If not defined, will default to [python].default_resolve
.
All dependencies must share the same value for their resolve
field.
resolve_local_platforms
bool | None
None
For each of the platforms
specified, attempt to find a local interpreter that matches.
If a matching interpreter is found, use the interpreter to resolve distributions and build any that are only available in source distribution form. If no matching interpreter is found (or if this option is False
), resolve for the platform by accepting only pre-built binary distributions (wheels).
restartable
bool
False
If true, runs of this target with the run
goal may be interrupted and restarted when its input files change.
script
str | None
None
Set the entry point, i.e. what gets run when executing ./my_app.pex
, to a script or console_script as defined by any of the distributions in the PEX.
You may either set this field or the entry_point
field, but not both. Leave off both fields to have no entry point.
shebang
str | None
None
Set the generated PEX to use this shebang, rather than the default of PEX choosing a shebang based on the interpreter constraints.
This influences the behavior of running ./result.pex
. You can ignore the shebang by instead running /path/to/python_interpreter ./result.pex
.
strip_pex_env
bool
True
Whether or not to strip the PEX runtime environment of PEX*
environment variables.
Most applications have no need for the PEX*
environment variables that are used to control PEX startup; so these variables are scrubbed from the environment by Pex before transferring control to the application by default. This prevents any subprocesses that happen to execute other PEX files from inheriting these control knob values since most would be undesired; e.g.: PEX_MODULE or PEX_PATH.
tags
Iterable[str] | None
None
Arbitrary strings to describe a target.
For example, you may tag some test targets with 'integration_test' so that you could run pants --tag='integration_test' test ::
to only run on targets with that tag.
venv_hermetic_scripts
bool
True
If execution_mode is "venv", emit a hermetic venv pex
script and hermetic console scripts.
The venv pex
script and the venv console scripts are constructed to be hermetic by default; Python is executed with -sE
to restrict the sys.path
to the PEX venv contents only. Setting this field to False
elides the Python -sE
restrictions and can be used to interoperate with frameworks that use PYTHONPATH
manipulation to run code.
venv_site_packages_copies
bool
False
If execution_mode is venv, populate the venv site packages using hard links or copies of resolved PEX dependencies instead of symlinks.
This can be used to work around problems with tools or libraries that are confused by symlinked source files.