def from_xla_hlo_proto(
hlos: Union[HloProto, Iterable[HloProto]],
timeout=300,
executor: Optional[ExecutorLike] = None,
chunksize: Optional[int] = None,
) -> Union[ProgramGraph, Iterable[ProgramGraph]]:
"""Construct a Program Graph from an XLA HLO protocol buffer.
:param hlos: A :code:`HloProto`, or an iterable sequence of :code:`HloProto`
instances.
:param timeout: The maximum number of seconds to wait for an individual
graph construction invocation before raising an error. If multiple
inputs are provided, this timeout is per-input.
:param executor: An executor object, with method :code:`submit(callable,
*args, **kwargs)` and returning a Future-like object with methods
:code:`done() -> bool` and :code:`result() -> float`. The executor role
is to dispatch the execution of the jobs locally/on a cluster/with
multithreading depending on the implementation. Eg:
:code:`concurrent.futures.ThreadPoolExecutor`. Defaults to single
threaded execution. This is only used when multiple inputs are given.
:param chunksize: The number of inputs to read and process at a time. A
larger chunksize improves parallelism but increases memory consumption
as more inputs must be stored in memory.
:return: If :code:`hlos` is a single input, returns a single
:code:`programl.ProgramGraph` instance. Else returns a generator over
:code:`programl.ProgramGraph` instances.
:raises GraphCreationError: If graph construction fails.
:raises TimeoutError: If the specified timeout is reached.
"""
def _run_one(hlo: HloProto) -> ProgramGraph:
process = subprocess.Popen(
[XLA2GRAPH, "--stdin_fmt=pb", "--stdout_fmt=pb"],
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
)
try:
stdout, stderr = process.communicate(
hlo.SerializeToString(), timeout=timeout
)
except subprocess.TimeoutExpired as e:
raise TimeoutError(str(e)) from e
return _graph_from_subprocess(process, stdout, stderr)
if isinstance(hlos, HloProto):
return _run_one(hlos)
return execute(_run_one, hlos, executor, chunksize)
def to_networkx(
graphs: Union[ProgramGraph, Iterable[ProgramGraph]],
timeout: int = 300,
executor: Optional[ExecutorLike] = None,
chunksize: Optional[int] = None,
) -> Union[nx.MultiDiGraph, Iterable[nx.MultiDiGraph]]:
"""Convert one or more Program Graphs to `NetworkX MultiDiGraphs
<https://networkx.org/documentation/stable/reference/classes/multidigraph.html>`_.
:param graphs: A Program Graph, or a sequence of Program Graphs.
:param timeout: The maximum number of seconds to wait for an individual
graph conversion before raising an error. If multiple inputs are
provided, this timeout is per-input.
:param executor: An executor object, with method :code:`submit(callable,
*args, **kwargs)` and returning a Future-like object with methods
:code:`done() -> bool` and :code:`result() -> float`. The executor role
is to dispatch the execution of the jobs locally/on a cluster/with
multithreading depending on the implementation. Eg:
:code:`concurrent.futures.ThreadPoolExecutor`. Defaults to single
threaded execution. This is only used when multiple inputs are given.
:param chunksize: The number of inputs to read and process at a time. A
larger chunksize improves parallelism but increases memory consumption
as more inputs must be stored in memory. This is only used when multiple
inputs are given.
:return: If a single input is provided, return a single :code:`nx.MultiDiGraph`.
Else returns an iterable sequence of :code:`nx.MultiDiGraph` instances.
:raises GraphTransformError: If graph conversion fails.
:raises TimeoutError: If the specified timeout is reached.
"""
def _run_one(json_data):
return nx_json.node_link_graph(json_data,
multigraph=True,
directed=True)
if isinstance(graphs, ProgramGraph):
return _run_one(to_json(graphs, timeout=timeout))
return execute(
_run_one,
to_json(graphs,
timeout=timeout,
executor=executor,
chunksize=chunksize),
executor,
chunksize,
)
def to_json(
graphs: Union[ProgramGraph, Iterable[ProgramGraph]],
timeout: int = 300,
executor: Optional[ExecutorLike] = None,
chunksize: Optional[int] = None,
) -> Union[JsonDict, Iterable[JsonDict]]:
"""Convert one or more Program Graphs to JSON node-link data.
:param graphs: A Program Graph, or a sequence of Program Graphs.
:param timeout: The maximum number of seconds to wait for an individual
graph conversion before raising an error. If multiple inputs are
provided, this timeout is per-input.
:param executor: An executor object, with method :code:`submit(callable,
*args, **kwargs)` and returning a Future-like object with methods
:code:`done() -> bool` and :code:`result() -> float`. The executor role
is to dispatch the execution of the jobs locally/on a cluster/with
multithreading depending on the implementation. Eg:
:code:`concurrent.futures.ThreadPoolExecutor`. Defaults to single
threaded execution. This is only used when multiple inputs are given.
:param chunksize: The number of inputs to read and process at a time. A
larger chunksize improves parallelism but increases memory consumption
as more inputs must be stored in memory. This is only used when multiple
inputs are given.
:return: If a single input is provided, return a single JSON dictionary.
Else returns an iterable sequence of JSON dictionaries.
:raises GraphTransformError: If graph conversion fails.
:raises TimeoutError: If the specified timeout is reached.
"""
def _run_one(graph: ProgramGraph):
try:
return json.loads(
_run_graph_transform_binary(
GRAPH2JSON,
graph,
timeout,
))
except json.JSONDecodeError as e:
raise GraphTransformError(str(e)) from e
if isinstance(graphs, ProgramGraph):
return _run_one(graphs)
return execute(_run_one, graphs, executor, chunksize)
def to_dot(
graphs: Union[ProgramGraph, Iterable[ProgramGraph]],
timeout: int = 300,
executor: Optional[ExecutorLike] = None,
chunksize: Optional[int] = None,
) -> Union[str, Iterable[str]]:
"""Convert one or more Program Graphs to DOT Graph Description Language.
This produces a DOT source string representing the input graph. This can
then be rendered using the graphviz command line tools, or parsed using
`pydot <https://pypi.org/project/pydot/>`_.
:param graphs: A Program Graph, or a sequence of Program Graphs.
:param timeout: The maximum number of seconds to wait for an individual
graph conversion before raising an error. If multiple inputs are
provided, this timeout is per-input.
:param executor: An executor object, with method :code:`submit(callable,
*args, **kwargs)` and returning a Future-like object with methods
:code:`done() -> bool` and :code:`result() -> float`. The executor role
is to dispatch the execution of the jobs locally/on a cluster/with
multithreading depending on the implementation. Eg:
:code:`concurrent.futures.ThreadPoolExecutor`. Defaults to single
threaded execution. This is only used when multiple inputs are given.
:param chunksize: The number of inputs to read and process at a time. A
larger chunksize improves parallelism but increases memory consumption
as more inputs must be stored in memory. This is only used when multiple
inputs are given.
:return: A graphviz dot string when a single input is provided, else an
iterable sequence of graphviz dot strings.
:raises GraphTransformError: If graph conversion fails.
:raises TimeoutError: If the specified timeout is reached.
"""
def _run_one(graph: ProgramGraph) -> str:
return _run_graph_transform_binary(GRAPH2DOT, graph,
timeout).decode("utf-8")
if isinstance(graphs, ProgramGraph):
return _run_one(graphs)
return execute(_run_one, graphs, executor, chunksize)
def from_cpp(
srcs: Union[str, Iterable[str]],
copts: Optional[List[str]] = None,
system_includes: bool = True,
language: str = "c++",
version: str = "10",
timeout=300,
executor: Optional[ExecutorLike] = None,
chunksize: Optional[int] = None,
) -> Union[ProgramGraph, Iterable[ProgramGraph]]:
"""Construct a Program Graph from a string of C/C++ code.
This is a convenience function for generating graphs of simple single-file
code snippets. For example:
>>> programl.from_cpp(\"\"\" ... #include <stdio.h>
...
... int main() {
... printf("Hello, ProGraML!");
... return 0;
... }
... \"\"\")
This is equivalent to invoking clang with input over stdin:
.. code-block::
cat <<EOF | clang -xc++ - -c -o -
#include <stdio.h>
int main() {
printf("Hello, ProGraML!");
return 0;
}
EOF
For more control over the clang invocation, see :func:`from_clang`.
:param srcs: A string of C / C++, or an iterable sequence of strings of C /
C++.
:param copts: A list of additional command line arguments to pass to clang.
:param system_includes: Detect and pass :code:`-isystem` arguments to clang
using the default search path of the system compiler. See
:func:`get_system_includes()
<programl.util.py.cc_system_includes.get_system_includes>` for details.
:param language: The programming language of :code:`srcs`. Must be either
:code:`c++` or :code:`c`.
:param version: The version of clang to use. See
:code:`programl.CLANG_VERSIONS` for a list of available versions.
:param timeout: The maximum number of seconds to wait for an individual
clang invocation before raising an error. If multiple :code:`srcs`
inputs are provided, this timeout is per-input.
:param executor: An executor object, with method :code:`submit(callable,
*args, **kwargs)` and returning a Future-like object with methods
:code:`done() -> bool` and :code:`result() -> float`. The executor role
is to dispatch the execution of the jobs locally/on a cluster/with
multithreading depending on the implementation. Eg:
:code:`concurrent.futures.ThreadPoolExecutor`. Defaults to single
threaded execution. This is only used when multiple inputs are given.
:param chunksize: The number of inputs to read and process at a time. A
larger chunksize improves parallelism but increases memory consumption
as more inputs must be stored in memory.
:return: If :code:`srcs` is singular, returns a single
:code:`programl.ProgramGraph` instance. Else returns a generator over
:code:`programl.ProgramGraph` instances.
:raises UnsupportedCompiler: If the requested compiler version is not
supported.
:raises GraphCreationError: If compilation of the input fails.
:raises TimeoutError: If the specified timeout is reached.
"""
copts = copts or []
binary = CLANG2GRAPH_BINARIES.get(version)
if not binary:
raise UnsupportedCompiler(
f"Unknown clang version: {version}. "
f"Supported versions: {sorted(CLANG2GRAPH_BINARIES.keys())}"
)
if system_includes:
for directory in get_system_includes():
copts += ["-isystem", str(directory)]
def _run_one(src: str):
process = subprocess.Popen(
[binary, f"-x{language}", "-"] + copts,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
)
try:
stdout, stderr = process.communicate(src.encode("utf-8"), timeout=timeout)
except subprocess.TimeoutExpired as e:
raise TimeoutError(str(e)) from e
return _graph_from_subprocess(process, stdout, stderr)
if isinstance(srcs, str):
return _run_one(srcs)
return execute(_run_one, srcs, executor, chunksize)
def from_llvm_ir(
irs: Union[str, Iterable[str]],
timeout=300,
version: str = "10",
executor: Optional[ExecutorLike] = None,
chunksize: Optional[int] = None,
) -> Union[ProgramGraph, Iterable[ProgramGraph]]:
"""Construct a Program Graph from a string of LLVM-IR.
This takes as input one or more LLVM-IR strings as generated by
:code:`llvm-dis` from a bitcode file, or from :code:`clang` using arguments:
:code:`-emit-llvm -S`.
Example usage:
>>> programl.from_llvm_ir(\"\"\"
... source_filename = "-"
... target datalayout = "e-m:o-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128"
... target triple = "x86_64-apple-macosx11.0.0"
...
... ; ...
... \"\"\")
Multiple inputs can be passed in a single invocation to be batched and
processed in parallel. For example:
>>> with concurrent.futures.ThreadPoolExecutor(max_workers=16) as executor:
... graphs = programl.from_llvm_ir(llvm_ir_strings, executor=executor)
:param irs: A string of LLVM-IR, or an iterable sequence of LLVM-IR strings.
:param version: The version of LLVM to use. See
:code:`programl.LLVM_VERSIONS` for a list of available versions.
:param timeout: The maximum number of seconds to wait for an individual
graph construction invocation before raising an error. If multiple
inputs are provided, this timeout is per-input.
:param executor: An executor object, with method :code:`submit(callable,
*args, **kwargs)` and returning a Future-like object with methods
:code:`done() -> bool` and :code:`result() -> float`. The executor role
is to dispatch the execution of the jobs locally/on a cluster/with
multithreading depending on the implementation. Eg:
:code:`concurrent.futures.ThreadPoolExecutor`. Defaults to single
threaded execution. This is only used when multiple inputs are given.
:param chunksize: The number of inputs to read and process at a time. A
larger chunksize improves parallelism but increases memory consumption
as more inputs must be stored in memory.
:return: If :code:`irs` is a single IR, returns a single
:code:`programl.ProgramGraph` instance. Else returns a generator over
:code:`programl.ProgramGraph` instances.
:raises UnsupportedCompiler: If the requested LLVM version is not supported.
:raises GraphCreationError: If graph construction fails.
:raises TimeoutError: If the specified timeout is reached.
"""
binary = LLVM2GRAPH_BINARIES.get(version)
if not binary:
raise UnsupportedCompiler(
f"Unknown llvm version: {version}. "
f"Supported versions: {sorted(LLVM2GRAPH_BINARIES.keys())}"
)
def _run_one(ir: str):
process = subprocess.Popen(
[binary, "--stdout_fmt=pb"],
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
)
try:
stdout, stderr = process.communicate(ir.encode("utf-8"), timeout=timeout)
except subprocess.TimeoutExpired as e:
raise TimeoutError(str(e)) from e
return _graph_from_subprocess(process, stdout, stderr)
if isinstance(irs, str):
return _run_one(irs)
return execute(_run_one, irs, executor, chunksize)
def from_clang(
args: Union[List[str], Iterable[List[str]]],
system_includes: bool = True,
version: str = "10",
timeout=300,
executor: Optional[ExecutorLike] = None,
chunksize: Optional[int] = None,
) -> Union[ProgramGraph, Iterable[ProgramGraph]]:
"""Run clang and construct a Program Graph from the output.
Example usage:
>>> programl.from_clang(["/path/to/my/app.c", "-DMY_MACRO=3"])
This is equivalent to invoking clang as:
.. code-block::
clang -c /path/to/my/app.c -DMY_MACRO=3
Multiple inputs can be passed in a single invocation to be batched and
processed in parallel. For example:
>>> with concurrent.futures.ThreadPoolExecutor(max_workers=16) as executor:
... programl.from_clang(
... ["a.cc", "-DMY_MACRO=3"],
... ["b.cpp"],
... ["c.c", "-O3", "-std=c99"],
... executor=executor,
... )
:param args: A list of arguments to pass to clang, or an iterable sequence
of arguments to pass to clang.
:param system_includes: Detect and pass :code:`-isystem` arguments to clang
using the default search path of the system compiler. See
:func:`get_system_includes()
<programl.util.py.cc_system_includes.get_system_includes>` for details.
:param version: The version of clang to use. See
:code:`programl.CLANG_VERSIONS` for a list of available versions.
:param timeout: The maximum number of seconds to wait for an individual
clang invocation before raising an error. If multiple inputs are
provided, this timeout is per-input.
:param executor: An executor object, with method :code:`submit(callable,
*args, **kwargs)` and returning a Future-like object with methods
:code:`done() -> bool` and :code:`result() -> float`. The executor role
is to dispatch the execution of the jobs locally/on a cluster/with
multithreading depending on the implementation. Eg:
:code:`concurrent.futures.ThreadPoolExecutor`. Defaults to single
threaded execution. This is only used when multiple inputs are given.
:param chunksize: The number of inputs to read and process at a time. A
larger chunksize improves parallelism but increases memory consumption
as more inputs must be stored in memory.
:return: If :code:`args` is a single list of arguments, returns a single
:code:`programl.ProgramGraph` instance. Else returns a generator over
:code:`programl.ProgramGraph` instances.
:raises UnsupportedCompiler: If the requested compiler version is not
supported.
:raises GraphCreationError: If compilation of the input fails.
:raises TimeoutError: If the specified timeout is reached.
"""
binary = CLANG2GRAPH_BINARIES.get(version)
if not binary:
raise UnsupportedCompiler(
f"Unknown clang version: {version}. "
f"Supported versions: {sorted(CLANG2GRAPH_BINARIES.keys())}"
)
extra_copts = []
if system_includes:
for directory in get_system_includes():
extra_copts += ["-isystem", str(directory)]
def _run_one(one_args):
process = subprocess.Popen(
[binary] + one_args + extra_copts,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
)
try:
stdout, stderr = process.communicate(timeout=timeout)
except subprocess.TimeoutExpired as e:
raise TimeoutError(str(e)) from e
return _graph_from_subprocess(process, stdout, stderr)
if isinstance(args, list) and args and isinstance(args[0], str):
return _run_one(args)
return execute(_run_one, args, executor, chunksize)
