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build.sh
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build.sh
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#!/bin/bash
# Copyright (c) 2019-2023, NVIDIA CORPORATION.
# cuDF build script
# This script is used to build the component(s) in this repo from
# source, and can be called with various options to customize the
# build as needed (see the help output for details)
# Abort script on first error
set -e
NUMARGS=$#
ARGS=$*
# NOTE: ensure all dir changes are relative to the location of this
# script, and that this script resides in the repo dir!
REPODIR=$(cd $(dirname $0); pwd)
VALIDARGS="clean libcudf cudf cudfjar dask_cudf benchmarks tests libcudf_kafka cudf_kafka custreamz -v -g -n --pydevelop -l --allgpuarch --disable_nvtx --opensource_nvcomp --show_depr_warn --ptds -h --build_metrics --incl_cache_stats"
HELP="$0 [clean] [libcudf] [cudf] [cudfjar] [dask_cudf] [benchmarks] [tests] [libcudf_kafka] [cudf_kafka] [custreamz] [-v] [-g] [-n] [-h] [--cmake-args=\\\"<args>\\\"]
clean - remove all existing build artifacts and configuration (start
over)
libcudf - build the cudf C++ code only
cudf - build the cudf Python package
cudfjar - build cudf JAR with static libcudf using devtoolset toolchain
dask_cudf - build the dask_cudf Python package
benchmarks - build benchmarks
tests - build tests
libcudf_kafka - build the libcudf_kafka C++ code only
cudf_kafka - build the cudf_kafka Python package
custreamz - build the custreamz Python package
-v - verbose build mode
-g - build for debug
-n - no install step (does not affect Python)
--pydevelop - Install Python packages in editable mode
--allgpuarch - build for all supported GPU architectures
--disable_nvtx - disable inserting NVTX profiling ranges
--opensource_nvcomp - disable use of proprietary nvcomp extensions
--show_depr_warn - show cmake deprecation warnings
--ptds - enable per-thread default stream
--build_metrics - generate build metrics report for libcudf
--incl_cache_stats - include cache statistics in build metrics report
--cmake-args=\\\"<args>\\\" - pass arbitrary list of CMake configuration options (escape all quotes in argument)
-h | --h[elp] - print this text
default action (no args) is to build and install 'libcudf' then 'cudf'
then 'dask_cudf' targets
"
LIB_BUILD_DIR=${LIB_BUILD_DIR:=${REPODIR}/cpp/build}
KAFKA_LIB_BUILD_DIR=${KAFKA_LIB_BUILD_DIR:=${REPODIR}/cpp/libcudf_kafka/build}
CUDF_KAFKA_BUILD_DIR=${REPODIR}/python/cudf_kafka/build
CUDF_BUILD_DIR=${REPODIR}/python/cudf/build
DASK_CUDF_BUILD_DIR=${REPODIR}/python/dask_cudf/build
CUSTREAMZ_BUILD_DIR=${REPODIR}/python/custreamz/build
CUDF_JAR_JAVA_BUILD_DIR="$REPODIR/java/target"
BUILD_DIRS="${LIB_BUILD_DIR} ${CUDF_BUILD_DIR} ${DASK_CUDF_BUILD_DIR} ${KAFKA_LIB_BUILD_DIR} ${CUDF_KAFKA_BUILD_DIR} ${CUSTREAMZ_BUILD_DIR} ${CUDF_JAR_JAVA_BUILD_DIR}"
# Set defaults for vars modified by flags to this script
VERBOSE_FLAG=""
BUILD_TYPE=Release
INSTALL_TARGET=install
BUILD_BENCHMARKS=OFF
BUILD_ALL_GPU_ARCH=0
BUILD_NVTX=ON
BUILD_TESTS=OFF
BUILD_DISABLE_DEPRECATION_WARNINGS=ON
BUILD_PER_THREAD_DEFAULT_STREAM=OFF
BUILD_REPORT_METRICS=OFF
BUILD_REPORT_INCL_CACHE_STATS=OFF
USE_PROPRIETARY_NVCOMP=ON
PYTHON_ARGS_FOR_INSTALL="-m pip install --no-build-isolation --no-deps"
# Set defaults for vars that may not have been defined externally
# FIXME: if INSTALL_PREFIX is not set, check PREFIX, then check
# CONDA_PREFIX, but there is no fallback from there!
INSTALL_PREFIX=${INSTALL_PREFIX:=${PREFIX:=${CONDA_PREFIX}}}
PARALLEL_LEVEL=${PARALLEL_LEVEL:=$(nproc)}
function hasArg {
(( ${NUMARGS} != 0 )) && (echo " ${ARGS} " | grep -q " $1 ")
}
function cmakeArgs {
# Check for multiple cmake args options
if [[ $(echo $ARGS | { grep -Eo "\-\-cmake\-args" || true; } | wc -l ) -gt 1 ]]; then
echo "Multiple --cmake-args options were provided, please provide only one: ${ARGS}"
exit 1
fi
# Check for cmake args option
if [[ -n $(echo $ARGS | { grep -E "\-\-cmake\-args" || true; } ) ]]; then
# There are possible weird edge cases that may cause this regex filter to output nothing and fail silently
# the true pipe will catch any weird edge cases that may happen and will cause the program to fall back
# on the invalid option error
EXTRA_CMAKE_ARGS=$(echo $ARGS | { grep -Eo "\-\-cmake\-args=\".+\"" || true; })
if [[ -n ${EXTRA_CMAKE_ARGS} ]]; then
# Remove the full EXTRA_CMAKE_ARGS argument from list of args so that it passes validArgs function
ARGS=${ARGS//$EXTRA_CMAKE_ARGS/}
# Filter the full argument down to just the extra string that will be added to cmake call
EXTRA_CMAKE_ARGS=$(echo $EXTRA_CMAKE_ARGS | grep -Eo "\".+\"" | sed -e 's/^"//' -e 's/"$//')
fi
fi
}
function buildAll {
((${NUMARGS} == 0 )) || !(echo " ${ARGS} " | grep -q " [^-]\+ ")
}
function buildLibCudfJniInDocker {
local cudaVersion="11.5.0"
local imageName="cudf-build:${cudaVersion}-devel-centos7"
local CMAKE_GENERATOR="${CMAKE_GENERATOR:-Ninja}"
local workspaceDir="/rapids"
local localMavenRepo=${LOCAL_MAVEN_REPO:-"$HOME/.m2/repository"}
local workspaceRepoDir="$workspaceDir/cudf"
local workspaceMavenRepoDir="$workspaceDir/.m2/repository"
local workspaceCcacheDir="$workspaceDir/.ccache"
mkdir -p "$CUDF_JAR_JAVA_BUILD_DIR/libcudf-cmake-build"
mkdir -p "$HOME/.ccache" "$HOME/.m2"
nvidia-docker build \
-f java/ci/Dockerfile.centos7 \
--build-arg CUDA_VERSION=${cudaVersion} \
-t $imageName .
nvidia-docker run -it -u $(id -u):$(id -g) --rm \
-e PARALLEL_LEVEL \
-e CCACHE_DISABLE \
-e CCACHE_DIR="$workspaceCcacheDir" \
-v "/etc/group:/etc/group:ro" \
-v "/etc/passwd:/etc/passwd:ro" \
-v "/etc/shadow:/etc/shadow:ro" \
-v "/etc/sudoers.d:/etc/sudoers.d:ro" \
-v "$HOME/.ccache:$workspaceCcacheDir:rw" \
-v "$REPODIR:$workspaceRepoDir:rw" \
-v "$localMavenRepo:$workspaceMavenRepoDir:rw" \
--workdir "$workspaceRepoDir/java/target/libcudf-cmake-build" \
${imageName} \
scl enable devtoolset-9 \
"cmake $workspaceRepoDir/cpp \
-G${CMAKE_GENERATOR} \
-DCMAKE_C_COMPILER_LAUNCHER=ccache \
-DCMAKE_CXX_COMPILER_LAUNCHER=ccache \
-DCMAKE_CUDA_COMPILER_LAUNCHER=ccache \
-DCMAKE_CXX_LINKER_LAUNCHER=ccache \
-DCMAKE_BUILD_TYPE=${BUILD_TYPE} \
-DCUDA_STATIC_RUNTIME=ON \
-DCMAKE_CUDA_ARCHITECTURES=${CUDF_CMAKE_CUDA_ARCHITECTURES} \
-DCMAKE_INSTALL_PREFIX=/usr/local/rapids \
-DUSE_NVTX=ON \
-DCUDF_USE_PROPRIETARY_NVCOMP=ON \
-DCUDF_USE_ARROW_STATIC=ON \
-DCUDF_ENABLE_ARROW_S3=OFF \
-DBUILD_TESTS=OFF \
-DCUDF_USE_PER_THREAD_DEFAULT_STREAM=ON \
-DRMM_LOGGING_LEVEL=OFF \
-DBUILD_SHARED_LIBS=OFF && \
cmake --build . --parallel ${PARALLEL_LEVEL} && \
cd $workspaceRepoDir/java && \
mvn ${MVN_PHASES:-"package"} \
-Dmaven.repo.local=$workspaceMavenRepoDir \
-DskipTests=${SKIP_TESTS:-false} \
-Dparallel.level=${PARALLEL_LEVEL} \
-Dcmake.ccache.opts='-DCMAKE_C_COMPILER_LAUNCHER=ccache \
-DCMAKE_CXX_COMPILER_LAUNCHER=ccache \
-DCMAKE_CUDA_COMPILER_LAUNCHER=ccache \
-DCMAKE_CXX_LINKER_LAUNCHER=ccache' \
-DCUDF_CPP_BUILD_DIR=$workspaceRepoDir/java/target/libcudf-cmake-build \
-DCUDA_STATIC_RUNTIME=ON \
-DCUDF_USE_PER_THREAD_DEFAULT_STREAM=ON \
-DUSE_GDS=ON \
-DGPU_ARCHS=${CUDF_CMAKE_CUDA_ARCHITECTURES} \
-DCUDF_JNI_LIBCUDF_STATIC=ON \
-Dtest=*,!CuFileTest,!CudaFatalTest,!ColumnViewNonEmptyNullsTest"
}
if hasArg -h || hasArg --h || hasArg --help; then
echo "${HELP}"
exit 0
fi
# Check for valid usage
if (( ${NUMARGS} != 0 )); then
# Check for cmake args
cmakeArgs
for a in ${ARGS}; do
if ! (echo " ${VALIDARGS} " | grep -q " ${a} "); then
echo "Invalid option or formatting, check --help: ${a}"
exit 1
fi
done
fi
# Process flags
if hasArg -v; then
VERBOSE_FLAG="-v"
fi
if hasArg -g; then
BUILD_TYPE=Debug
fi
if hasArg -n; then
INSTALL_TARGET=""
LIBCUDF_BUILD_DIR=${LIB_BUILD_DIR}
fi
if hasArg --allgpuarch; then
BUILD_ALL_GPU_ARCH=1
fi
if hasArg benchmarks; then
BUILD_BENCHMARKS=ON
fi
if hasArg tests; then
BUILD_TESTS=ON
fi
if hasArg --disable_nvtx; then
BUILD_NVTX="OFF"
fi
if hasArg --opensource_nvcomp; then
USE_PROPRIETARY_NVCOMP="OFF"
fi
if hasArg --show_depr_warn; then
BUILD_DISABLE_DEPRECATION_WARNINGS=OFF
fi
if hasArg --ptds; then
BUILD_PER_THREAD_DEFAULT_STREAM=ON
fi
if hasArg --build_metrics; then
BUILD_REPORT_METRICS=ON
fi
if hasArg --incl_cache_stats; then
BUILD_REPORT_INCL_CACHE_STATS=ON
fi
if hasArg --pydevelop; then
PYTHON_ARGS_FOR_INSTALL="${PYTHON_ARGS_FOR_INSTALL} -e"
fi
# Append `-DFIND_CUDF_CPP=ON` to EXTRA_CMAKE_ARGS unless a user specified the option.
if [[ "${EXTRA_CMAKE_ARGS}" != *"DFIND_CUDF_CPP"* ]]; then
EXTRA_CMAKE_ARGS="${EXTRA_CMAKE_ARGS} -DFIND_CUDF_CPP=ON"
fi
# If clean given, run it prior to any other steps
if hasArg clean; then
# If the dirs to clean are mounted dirs in a container, the
# contents should be removed but the mounted dirs will remain.
# The find removes all contents but leaves the dirs, the rmdir
# attempts to remove the dirs but can fail safely.
for bd in ${BUILD_DIRS}; do
if [ -d ${bd} ]; then
find ${bd} -mindepth 1 -delete
rmdir ${bd} || true
fi
done
# Cleaning up python artifacts
find ${REPODIR}/python/ | grep -E "(__pycache__|\.pyc|\.pyo|\.so|\_skbuild$)" | xargs rm -rf
fi
################################################################################
# Configure, build, and install libcudf
if buildAll || hasArg libcudf || hasArg cudf || hasArg cudfjar; then
if (( ${BUILD_ALL_GPU_ARCH} == 0 )); then
CUDF_CMAKE_CUDA_ARCHITECTURES="${CUDF_CMAKE_CUDA_ARCHITECTURES:-NATIVE}"
if [[ "$CUDF_CMAKE_CUDA_ARCHITECTURES" == "NATIVE" ]]; then
echo "Building for the architecture of the GPU in the system..."
else
echo "Building for the GPU architecture(s) $CUDF_CMAKE_CUDA_ARCHITECTURES ..."
fi
else
CUDF_CMAKE_CUDA_ARCHITECTURES="RAPIDS"
echo "Building for *ALL* supported GPU architectures..."
fi
fi
if buildAll || hasArg libcudf; then
# get the current count before the compile starts
if [[ "$BUILD_REPORT_INCL_CACHE_STATS" == "ON" && -x "$(command -v sccache)" ]]; then
# zero the sccache statistics
sccache --zero-stats
fi
cmake -S $REPODIR/cpp -B ${LIB_BUILD_DIR} \
-DCMAKE_INSTALL_PREFIX=${INSTALL_PREFIX} \
-DCMAKE_CUDA_ARCHITECTURES=${CUDF_CMAKE_CUDA_ARCHITECTURES} \
-DUSE_NVTX=${BUILD_NVTX} \
-DCUDF_USE_PROPRIETARY_NVCOMP=${USE_PROPRIETARY_NVCOMP} \
-DBUILD_TESTS=${BUILD_TESTS} \
-DBUILD_BENCHMARKS=${BUILD_BENCHMARKS} \
-DDISABLE_DEPRECATION_WARNINGS=${BUILD_DISABLE_DEPRECATION_WARNINGS} \
-DCUDF_USE_PER_THREAD_DEFAULT_STREAM=${BUILD_PER_THREAD_DEFAULT_STREAM} \
-DCMAKE_BUILD_TYPE=${BUILD_TYPE} \
${EXTRA_CMAKE_ARGS}
cd ${LIB_BUILD_DIR}
compile_start=$(date +%s)
cmake --build . -j${PARALLEL_LEVEL} ${VERBOSE_FLAG}
compile_end=$(date +%s)
compile_total=$(( compile_end - compile_start ))
# Record build times
if [[ "$BUILD_REPORT_METRICS" == "ON" && -f "${LIB_BUILD_DIR}/.ninja_log" ]]; then
echo "Formatting build metrics"
MSG=""
# get some sccache stats after the compile
if [[ "$BUILD_REPORT_INCL_CACHE_STATS" == "ON" && -x "$(command -v sccache)" ]]; then
COMPILE_REQUESTS=$(sccache -s | grep "Compile requests \+ [0-9]\+$" | awk '{ print $NF }')
CACHE_HITS=$(sccache -s | grep "Cache hits \+ [0-9]\+$" | awk '{ print $NF }')
HIT_RATE=$(echo - | awk "{printf \"%.2f\n\", $CACHE_HITS / $COMPILE_REQUESTS * 100}")
MSG="${MSG}<br/>cache hit rate ${HIT_RATE} %"
fi
MSG="${MSG}<br/>parallel setting: $PARALLEL_LEVEL"
MSG="${MSG}<br/>parallel build time: $compile_total seconds"
if [[ -f "${LIB_BUILD_DIR}/libcudf.so" ]]; then
LIBCUDF_FS=$(ls -lh ${LIB_BUILD_DIR}/libcudf.so | awk '{print $5}')
MSG="${MSG}<br/>libcudf.so size: $LIBCUDF_FS"
fi
BMR_DIR=${RAPIDS_ARTIFACTS_DIR:-"${LIB_BUILD_DIR}"}
echo "Metrics output dir: [$BMR_DIR]"
mkdir -p ${BMR_DIR}
MSG_OUTFILE="$(mktemp)"
echo "$MSG" > "${MSG_OUTFILE}"
python ${REPODIR}/cpp/scripts/sort_ninja_log.py ${LIB_BUILD_DIR}/.ninja_log --fmt html --msg "${MSG_OUTFILE}" > ${BMR_DIR}/ninja_log.html
cp ${LIB_BUILD_DIR}/.ninja_log ${BMR_DIR}/ninja.log
fi
if [[ ${INSTALL_TARGET} != "" ]]; then
cmake --build . -j${PARALLEL_LEVEL} --target install ${VERBOSE_FLAG}
fi
fi
# Build and install the cudf Python package
if buildAll || hasArg cudf; then
cd ${REPODIR}/python/cudf
SKBUILD_CMAKE_ARGS="-DCMAKE_PREFIX_PATH=${INSTALL_PREFIX};-DCMAKE_LIBRARY_PATH=${LIBCUDF_BUILD_DIR};-DCMAKE_CUDA_ARCHITECTURES=${CUDF_CMAKE_CUDA_ARCHITECTURES};${EXTRA_CMAKE_ARGS}" \
python ${PYTHON_ARGS_FOR_INSTALL} .
fi
# Build and install the dask_cudf Python package
if buildAll || hasArg dask_cudf; then
cd ${REPODIR}/python/dask_cudf
python ${PYTHON_ARGS_FOR_INSTALL} .
fi
if hasArg cudfjar; then
buildLibCudfJniInDocker
fi
# Build libcudf_kafka library
if hasArg libcudf_kafka; then
cmake -S $REPODIR/cpp/libcudf_kafka -B ${KAFKA_LIB_BUILD_DIR} \
-DCMAKE_INSTALL_PREFIX=${INSTALL_PREFIX} \
-DBUILD_TESTS=${BUILD_TESTS} \
-DCMAKE_BUILD_TYPE=${BUILD_TYPE} \
${EXTRA_CMAKE_ARGS}
cd ${KAFKA_LIB_BUILD_DIR}
cmake --build . -j${PARALLEL_LEVEL} ${VERBOSE_FLAG}
if [[ ${INSTALL_TARGET} != "" ]]; then
cmake --build . -j${PARALLEL_LEVEL} --target install ${VERBOSE_FLAG}
fi
fi
# build cudf_kafka Python package
if hasArg cudf_kafka; then
cd ${REPODIR}/python/cudf_kafka
SKBUILD_CMAKE_ARGS="-DCMAKE_PREFIX_PATH=${INSTALL_PREFIX};-DCMAKE_LIBRARY_PATH=${LIBCUDF_BUILD_DIR};${EXTRA_CMAKE_ARGS}"
python ${PYTHON_ARGS_FOR_INSTALL} .
fi
# build custreamz Python package
if hasArg custreamz; then
cd ${REPODIR}/python/custreamz
python ${PYTHON_ARGS_FOR_INSTALL} .
fi