#!/usr/bin/env bash set -e usage() { cat <&2 USAGE: c++expr [-c CXX | -C | -I] [-i INCLUDE] [-b STEPS] [-t TESTS] [-o FILE] [-O CXX_OPTS...] [-g 'GLOBAL CODE'] 'MAIN CODE' OPTIONS: -c CXX use specified c++ compiler -C use cmake -I integrate into ClickHouse build tree in current directory -i INC add #include -l LIB link against LIB (only for -I or -C) -b STEPS_NUM make program to benchmark specified code snippet and run tests with STEPS_NUM each -b perf-top run infinite benchmark and show perf top -t TESTS_NUM make program to benchmark specified code snippet and run TESTS_NUM tests -o FILE do not run, just save binary executable file -O CXX_OPTS forward option compiler (e.g. -O "-O3 -std=c++20") EOF exit 1 } SOURCE_FILE=main.cpp GLOBAL= OUTPUT_EXECUTABLE= INCS="vector iostream typeinfo cstdlib cmath sys/time.h" LIBS="" BENCHMARK_STEPS=0 RUN_PERFTOP= BENCHMARK_TESTS=5 USE_CMAKE= USE_CLICKHOUSE= CXX=g++ CXX_OPTS= CMD_PARAMS= # # Parse command line # if [ "$1" == "--help" ]; then usage; fi while getopts "vc:CIi:l:b:t:o:O:g:" OPT; do case "$OPT" in v) set -x; ;; c) CXX="$OPTARG"; ;; C) USE_CMAKE=y; ;; I) USE_CLICKHOUSE=y; LIBS="$LIBS clickhouse_common_io"; ;; i) INCS="$INCS $OPTARG"; ;; l) LIBS="$LIBS $OPTARG"; ;; b) if [ "$OPTARG" = perf-top ]; then BENCHMARK_STEPS=-1; RUN_PERFTOP=y; else BENCHMARK_STEPS="$OPTARG"; fi; ;; t) BENCHMARK_TESTS="$OPTARG"; ;; o) OUTPUT_EXECUTABLE="$OPTARG"; ;; O) CXX_OPTS="$CXX_OPTS $OPTARG"; ;; g) GLOBAL="$OPTARG"; ;; esac done shift $(( $OPTIND - 1 )) # # Positional arguments # EXPR=$1 shift if [ -z "$EXPR" ]; then usage; fi # # Arguments forwarded to program should go after main code and before -- # while [ -n "$1" ] && [ "$1" != "--" ]; do CMD_PARAMS="$CMD_PARAMS $1" shift done if [ "$1" == "--" ]; then shift; fi # # Setup workdir # find_clickhouse_root () { local DIR="`pwd`" while [ $DIR != "/" ]; do if [ ! -e "$DIR/CMakeLists.txt" ]; then echo "error: $DIR has no CMakeLists.txt" return 1 fi if grep "project(ClickHouse)" "$DIR/CMakeLists.txt" >/dev/null 2>&1; then echo $DIR return 0 fi DIR="`dirname $DIR`" done echo "error: unable to find Clickhouse root folder" return 1 } find_clickhouse_build () { local CLICKHOUSE_ROOT="`find_clickhouse_root`" if [ -e "$CLICKHOUSE_ROOT/build/CMakeCache.txt" ]; then echo "$CLICKHOUSE_ROOT/build" return 0 fi echo "error: $CLICKHOUSE_ROOT/build/CMakeCache.txt doesn't exist" return 1 } CALL_DIR=`pwd` EXECUTABLE=cppexpr_$$ EXECUTABLE_DIR=. if [ -n "$USE_CLICKHOUSE" ]; then SUBDIR=cppexpr_$$ WORKDIR=$CALL_DIR/$SUBDIR if [ ! -e $CALL_DIR/CMakeLists.txt ]; then echo "error: $CALL_DIR/CMakeLists.txt is required for integration" >&2 exit 1 fi CLICKHOUSE_ROOT="`find_clickhouse_root`" BUILD_ROOT="`find_clickhouse_build`" CLICKHOUSE_PATH="${WORKDIR/$CLICKHOUSE_ROOT}" EXECUTABLE_DIR="${BUILD_ROOT}${CLICKHOUSE_PATH}" if [ -z "$CLICKHOUSE_ROOT" ] || [ -z "$BUILD_ROOT" ] || [ -z "$CLICKHOUSE_PATH" ]; then echo "error: unable to locate ClickHouse" >&2 exit 1 fi cp $CALL_DIR/CMakeLists.txt $CALL_DIR/CMakeLists.txt.backup.$$ echo "add_subdirectory ($SUBDIR)" >>$CALL_DIR/CMakeLists.txt cleanup() { mv $CALL_DIR/CMakeLists.txt.backup.$$ $CALL_DIR/CMakeLists.txt rm -rf $WORKDIR rm -rf ${BUILD_ROOT}${CLICKHOUSE_PATH} } else WORKDIR=/var/tmp/cppexpr_$$ cleanup() { rm -rf $WORKDIR } fi mkdir -p $WORKDIR cd $WORKDIR # # Generate CMakeLists.txt # if [ -n "$USE_CMAKE" ]; then cat <>CMakeLists.txt project(CppExpr) SET(PROJECT_NAME CppExpr) SET(CMAKE_INCLUDE_CURRENT_DIR TRUE) cmake_minimum_required(VERSION 2.8) set(CMAKE_CXX_FLAGS -fPIC) set(CMAKE_C_FLAGS -fPIC) set(CMAKE_BUILD_TYPE Release) set(SOURCES $SOURCE_FILE) add_executable($EXECUTABLE \${SOURCES}) EOF fi # # Generate CMakeLists.txt for integration # if [ -n "$USE_CLICKHOUSE" ]; then cat <>CMakeLists.txt add_executable($EXECUTABLE $SOURCE_FILE) EOF fi # # Add libraries to CMakeLists.txt # if [ -n "$LIBS" ]; then cat <>CMakeLists.txt target_link_libraries($EXECUTABLE PRIVATE $LIBS) EOF fi # # Generate source code # >$SOURCE_FILE for INC in $INCS; do echo "#include <$INC>" >> $SOURCE_FILE done cat <>$SOURCE_FILE #define OUT(expr) std::cout << #expr << " -> " << (expr) << std::endl; size_t max_tests = $BENCHMARK_TESTS; size_t max_steps = $BENCHMARK_STEPS; $GLOBAL int main(int argc, char** argv) { (void)argc; (void)argv; try { EOF if [ $BENCHMARK_STEPS -eq 0 ]; then cat <>$SOURCE_FILE $EXPR EOF else cat <>$SOURCE_FILE std::cout << "Steps per test: " << max_steps << std::endl; if (max_steps == 0) max_steps = 1; double total = 0.0; for (size_t test = 0; test < max_tests; test++) { timeval beg, end; gettimeofday(&beg, nullptr); for (size_t step = 0; step < max_steps; step++) { asm volatile("" ::: "memory"); $EXPR } gettimeofday(&end, nullptr); double interval = (end.tv_sec - beg.tv_sec)*1e6 + (end.tv_usec - beg.tv_usec); std::cout << "Test #" << test << ": " << interval / max_steps << " us\t" << max_steps * 1e6 / interval << " sps" << std::endl; total += interval; } std::cout << "Average: " << total / max_tests / max_steps << " us\t" << max_steps * 1e6 / (total / max_tests) << " sps" << std::endl; EOF fi cat <>$SOURCE_FILE return 0; } catch (std::exception& e) { std::cerr << "unhandled exception (" << typeid(e).name() << "):" << e.what() << std::endl; } catch (...) { std::cerr << "unknown unhandled exception\n"; } return 1; } #ifdef OUT #undef OUT #endif EOF # # Compile # if [ -n "$USE_CMAKE" ]; then if ! (cmake . && make); then cat -n $SOURCE_FILE cleanup exit 1 fi elif [ -n "$USE_CLICKHOUSE" ]; then if ! (cd $BUILD_ROOT && ninja $EXECUTABLE) >stdout.log 2>stderr.log; then cat stdout.log cat stderr.log >&2 cat -n $SOURCE_FILE cleanup exit 1 fi else RET=0 $CXX $CXX_OPTS -I$CALL_DIR -o $EXECUTABLE $SOURCE_FILE || RET=$? if [ $RET -ne 0 ]; then cat -n $SOURCE_FILE cleanup exit $RET fi fi # # Execute # RET=0 if [ -z "$OUTPUT_EXECUTABLE" ]; then if [ -z "$RUN_PERFTOP" ]; then "$@" $EXECUTABLE_DIR/$EXECUTABLE $CMD_PARAMS || RET=$? else "$@" $EXECUTABLE_DIR/$EXECUTABLE $CMD_PARAMS & PID=$! perf top -p $PID kill $PID fi else cp $EXECUTABLE_DIR/$EXECUTABLE $CALL_DIR/$OUTPUT_EXECUTABLE fi # # Cleanup # cleanup echo "Exit code: $RET" exit $RET