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setup.py
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setup.py
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import distutils.cmd
import distutils.log
import subprocess
import os
import sys
from os.path import join, isfile, abspath, isdir, dirname
from setuptools import setup
def check_tf_cuda_compatibility():
import tensorflow
build = tensorflow.sysconfig.get_build_info() # is_rocm_build, cuda_compute_capabilities
tf_gcc = build['cpu_compiler']
is_cuda_build = build['is_cuda_build']
print(f"TensorFlow compiler: {tf_gcc}.")
if not is_cuda_build:
raise AssertionError("Your TensorFlow build does not support CUDA.")
else:
cuda_version = build['cuda_version']
cudnn_version = build['cudnn_version']
print(f"TensorFlow was compiled against CUDA {cuda_version} and cuDNN {cudnn_version}.")
return tf_gcc
def compile_cuda(file_names, nvcc, source_dir, target_dir, logfile):
import tensorflow
tf_cflags = tensorflow.sysconfig.get_compile_flags()
command = [
nvcc,
join(source_dir, f'{file_names}.cu.cc'),
'-o', join(target_dir, f'{file_names}.cu.o'),
'-std=c++11',
'-c',
'-D GOOGLE_CUDA=1',
'-x', 'cu',
'-Xcompiler',
'-fPIC',
'--expt-relaxed-constexpr',
'-DNDEBUG',
'-O3'
] + tf_cflags
print(f"nvcc {file_names}")
logfile.writelines(["\n", " ".join(command), "\n"])
subprocess.check_call(command, stdout=logfile, stderr=logfile)
def compile_gcc(file_names, gcc, source_dir, target_dir, cuda_lib, logfile):
import tensorflow
from packaging import version
if version.parse(tensorflow.__version__) >= version.parse('2.5.0'):
cpp_version, gcc_version = '14', '7.5'
else:
cpp_version, gcc_version = '11', '4.8'
tf_cflags = tensorflow.sysconfig.get_compile_flags()
tf_lflags = tensorflow.sysconfig.get_link_flags()
link_cuda_lib = '-L' + cuda_lib
command = [
gcc,
join(source_dir, f'{file_names}.cc'),
join(target_dir, f'{file_names}.cu.o'),
'-o', join(target_dir, f'{file_names}.so'),
f'-std=c++{cpp_version}',
'-shared',
'-fPIC',
'-lcudart',
'-O3',
link_cuda_lib
] + tf_cflags + tf_lflags
print(f"gcc {file_names}")
logfile.writelines(["\n", " ".join(command), "\n"])
subprocess.check_call(command, stdout=logfile, stderr=logfile)
class CudaCommand(distutils.cmd.Command):
description = 'Compile CUDA sources'
user_options = [
('gcc=', None, 'Path to the gcc compiler.'),
('nvcc=', None, 'Path to the Nvidia nvcc compiler.'),
('cuda-lib=', None, 'Path to the CUDA libraries.'),
]
def initialize_options(self):
tf_gcc = check_tf_cuda_compatibility()
self.gcc = tf_gcc if isfile(tf_gcc) else 'gcc'
self.nvcc = '/usr/local/cuda/bin/nvcc' if isfile('/usr/local/cuda/bin/nvcc') else 'nvcc'
self.cuda_lib = '/usr/local/cuda/lib64/'
def finalize_options(self) -> None:
pass
def run(self):
src_path = abspath('./phi/tf/cuda/src')
build_path = abspath('./phi/tf/cuda/build')
logfile_path = abspath('./phi/tf/cuda/log.txt')
print("Source Path:\t" + src_path)
print("Build Path:\t" + build_path)
print("GCC:\t\t" + self.gcc)
print("NVCC:\t\t" + self.nvcc)
print("CUDA lib:\t" + self.cuda_lib)
print("----------------------------")
# Remove old build files
if isdir(build_path):
print('Removing old build files from %s' % build_path)
for file in os.listdir(build_path):
os.remove(join(build_path, file))
else:
print('Creating build directory at %s' % build_path)
os.mkdir(build_path)
print('Compiling CUDA code...')
with open(logfile_path, "w") as logfile:
try:
compile_cuda('resample', self.nvcc, src_path, build_path, logfile=logfile)
compile_gcc('resample', self.gcc, src_path, build_path, self.cuda_lib, logfile=logfile)
compile_cuda('resample_gradient', self.nvcc, src_path, build_path, logfile=logfile)
compile_gcc('resample_gradient', self.gcc, src_path, build_path, self.cuda_lib, logfile=logfile)
# compile_cuda('bicgstab_ilu_linear_solve_op', self.nvcc, src_path, build_path, logfile=logfile)
# compile_gcc('bicgstab_ilu_linear_solve_op', self.gcc, src_path, build_path, self.cuda_lib, logfile=logfile)
except BaseException as err:
print(f"Compilation failed. See {logfile_path} for details.")
raise err
print(f"Compilation complete. See {logfile_path} for details.")
try:
with open(join(dirname(__file__), 'docs/Package_Info.md'), 'r') as readme:
long_description = readme.read()
except FileNotFoundError:
long_description = ""
pass
with open(join(dirname(__file__), 'phi', 'VERSION'), 'r') as version_file:
version = version_file.read()
setup(
name='phiflow',
version=version,
download_url='https://github.com/tum-pbs/PhiFlow/archive/%s.tar.gz' % version,
packages=['phi',
'phi.field',
'phi.geom',
'phi.jax',
'phi.jax.stax',
'phi.math',
'phi.math.backend',
'phi.physics',
'phi.tf',
'phi.torch',
'phi.vis',
'phi.vis._console',
'phi.vis._dash',
'phi.vis._matplotlib',
],
cmdclass={
'tf_cuda': CudaCommand,
},
description='Differentiable PDE solving framework for machine learning',
long_description=long_description,
long_description_content_type='text/markdown',
keywords=['Differentiable', 'Simulation', 'Fluid', 'Machine Learning', 'Deep Learning'],
license='MIT',
author='Philipp Holl',
author_email='[email protected]',
url='https://github.com/tum-pbs/PhiFlow',
include_package_data=True,
install_requires=[
'numpy', # 1.20 causes TensorFlow tracing errors: NotImplementedError: Cannot convert a symbolic Tensor to a numpy array.
'scipy>=1.5.4',
'matplotlib>=3.5.0', # also required by dash for color maps
'packaging',
],
# Optional packages:
# - dash + plotly (included in dash)
# - torch
# - tensorflow
# - jax
#
# phi.verify() should detect missing packages.
classifiers=[
'Development Status :: 5 - Production/Stable',
'Intended Audience :: Developers',
'Topic :: Software Development :: Build Tools',
'License :: OSI Approved :: MIT License',
'Programming Language :: Python :: 3',
'Programming Language :: Python :: 3.6',
'Programming Language :: Python :: 3.7',
'Programming Language :: Python :: 3.8',
'Programming Language :: Python :: 3.9',
'Programming Language :: Python :: 3.10',
],
)