regtest.sh - platform/external/rappor - Git at Google

 #!/bin/bash
 usage() {
 echo "
  Run end-to-end tests in parallel.

  Usage:
    ./regtest.sh <function name>
  At the end, it will print an HTML summary.

  Three main functions are
     run [<pattern> [<lang>]] - run tests matching <pattern> in
                                        parallel. The language
                                        of the client to use.
     run-seq [<pattern> [<lang>]] - ditto, except that tests are run
                                        sequentially
     run-all                      - run all tests, in parallel

  Examples:
  $ ./regtest.sh run-seq unif-small-typical  # Run, the unif-small-typical test
  $ ./regtest.sh run-seq unif-small-         # Sequential, the tests containing:
                                             # 'unif-small-'
  $ ./regtest.sh run unif-  # Parallel run, matches multiple cases
  $ ./regtest.sh run-all    # Run all tests

  The <pattern> argument is a regex in 'grep -E' format. (Detail: Don't
  use $ in the pattern, since it matches the whole spec line and not just the
  test case name.) The number of processors used in a parallel run is one less
  than the number of CPUs on the machine.
 "
 }
 # Future speedups:
 # - Reuse the same input -- come up with naming scheme based on params
 # - Reuse the same maps -- ditto, rappor library can cache it
 #

 set -o nounset
 set -o pipefail
 set -o errexit

 . util.sh

 readonly THIS_DIR=$(dirname $0)
 readonly REPO_ROOT=$THIS_DIR
 readonly CLIENT_DIR=$REPO_ROOT/client/python
 # subdirs are in _tmp/$impl, which shouldn't overlap with anything else in _tmp
 readonly REGTEST_BASE_DIR=_tmp

 # All the Python tools need this
 export PYTHONPATH=$CLIENT_DIR

 print-unique-values() {
   local num_unique_values=$1
   seq 1 $num_unique_values | awk '{print "v" $1}'
 }

 # Add some more candidates here.  We hope these are estimated at 0.
 # e.g. if add_start=51, and num_additional is 20, show v51-v70
 more-candidates() {
   local last_true=$1
   local num_additional=$2

   local begin
   local end
   begin=$(expr $last_true + 1)
   end=$(expr $last_true + $num_additional)

   seq $begin $end | awk '{print "v" $1}'
 }

 # Args:
 #   unique_values: File of unique true values
 #   last_true: last true input, e.g. 50 if we generated "v1" .. "v50".
 #   num_additional: additional candidates to generate (starting at 'last_true')
 #   to_remove: Regex of true values to omit from the candidates list, or the
 #     string 'NONE' if none should be.  (Our values look like 'v1', 'v2', etc. so
 #     there isn't any ambiguity.)
 print-candidates() {
   local unique_values=$1
   local last_true=$2
   local num_additional=$3
   local to_remove=$4

   if test $to_remove = NONE; then
     cat $unique_values  # include all true inputs
   else
     egrep -v $to_remove $unique_values  # remove some true inputs
   fi
   more-candidates $last_true $num_additional
 }

 # Generate a single test case, specified by a line of the test spec.
 # This is a helper function for _run_tests().
 _setup-one-case() {
   local impl=$1
   shift  # impl is not part of the spec; the next 13 params are

   local test_case=$1

   # input params
   local dist=$2
   local num_unique_values=$3
   local num_clients=$4
   local values_per_client=$5

   # RAPPOR params
   local num_bits=$6
   local num_hashes=$7
   local num_cohorts=$8
   local p=$9
   local q=${10}  # need curly braces to get the 10th arg
   local f=${11}

   # map params
   local num_additional=${12}
   local to_remove=${13}

   banner 'Setting up parameters and candidate files for '$test_case

   local case_dir=$REGTEST_BASE_DIR/$impl/$test_case
   mkdir --verbose -p $case_dir

   # Save the "spec"
   echo "$@" > $case_dir/spec.txt

   local params_path=$case_dir/case_params.csv

   echo 'k,h,m,p,q,f' > $params_path
   echo "$num_bits,$num_hashes,$num_cohorts,$p,$q,$f" >> $params_path

   print-unique-values $num_unique_values > $case_dir/case_unique_values.txt

   local true_map_path=$case_dir/case_true_map.csv

   bin/hash_candidates.py \
     $params_path \
     < $case_dir/case_unique_values.txt \
     > $true_map_path

   # banner "Constructing candidates"

   print-candidates \
     $case_dir/case_unique_values.txt $num_unique_values \
     $num_additional "$to_remove" \
     > $case_dir/case_candidates.txt

   # banner "Hashing candidates to get 'map'"

   bin/hash_candidates.py \
     $params_path \
     < $case_dir/case_candidates.txt \
     > $case_dir/case_map.csv
 }

 # Run a single test instance, specified by <test_name, instance_num>.
 # This is a helper function for _run_tests().
 _run-one-instance() {
   local test_case=$1
   local test_instance=$2
   local impl=$3

   local case_dir=$REGTEST_BASE_DIR/$impl/$test_case

   read -r \
     case_name distr num_unique_values num_clients values_per_client \
     num_bits num_hashes num_cohorts p q f \
     num_additional to_remove \
     < $case_dir/spec.txt

   local instance_dir=$case_dir/$test_instance
   mkdir --verbose -p $instance_dir

   banner "Generating reports (gen_reports.R)"

   # the TRUE_VALUES_PATH environment variable can be used to avoid
   # generating new values every time.  NOTE: You are responsible for making
   # sure the params match!

   local true_values=${TRUE_VALUES_PATH:-}
   if test -z "$true_values"; then
     true_values=$instance_dir/case_true_values.csv
     tests/gen_true_values.R $distr $num_unique_values $num_clients \
                             $values_per_client $num_cohorts \
                             $true_values
   else
     # TEMP hack: Make it visible to plot.
     # TODO: Fix compare_dist.R
     ln -s -f --verbose \
       $PWD/$true_values \
       $instance_dir/case_true_values.csv
   fi

   case $impl in
     python)
       banner "Running RAPPOR Python client"

       # Writes encoded "out" file, true histogram, true inputs to
       # $instance_dir.
       time tests/rappor_sim.py \
         --num-bits $num_bits \
         --num-hashes $num_hashes \
         --num-cohorts $num_cohorts \
         -p $p \
         -q $q \
         -f $f \
         < $true_values \
         > "$instance_dir/case_reports.csv"
       ;;

     cpp)
       banner "Running RAPPOR C++ client (see rappor_sim.log for errors)"

       time client/cpp/_tmp/rappor_sim \
         $num_bits \
         $num_hashes \
         $num_cohorts \
         $p \
         $q \
         $f \
         < $true_values \
         > "$instance_dir/case_reports.csv" \
         2>"$instance_dir/rappor_sim.log"
       ;;

     *)
       log "Invalid impl $impl (should be one of python|cpp)"
       exit 1
     ;;

   esac

   banner "Summing RAPPOR IRR bits to get 'counts'"

   bin/sum_bits.py \
     $case_dir/case_params.csv \
     < $instance_dir/case_reports.csv \
     > $instance_dir/case_counts.csv

   local out_dir=${instance_dir}_report
   mkdir --verbose -p $out_dir

   # Currently, the summary file shows and aggregates timing of the inference
   # engine, which excludes R's loading time and reading of the (possibly
   # substantial) map file. Timing below is more inclusive.
   TIMEFORMAT='Running compare_dist.R took %R seconds'
   time {
     # Input prefix, output dir
     tests/compare_dist.R -t "Test case: $test_case (instance $test_instance)" \
                          "$case_dir/case" "$instance_dir/case" $out_dir
   }
 }

 # Like _run-once-case, but log to a file.
 _run-one-instance-logged() {
   local test_case=$1
   local test_instance=$2
   local impl=$3

   local log_dir=$REGTEST_BASE_DIR/$impl/$test_case/${test_instance}_report
   mkdir --verbose -p $log_dir

   log "Started '$test_case' (instance $test_instance) -- logging to $log_dir/log.txt"
   _run-one-instance "$@" >$log_dir/log.txt 2>&1 \
     && log "Test case $test_case (instance $test_instance) done" \
     || log "Test case $test_case (instance $test_instance) failed"
 }

 make-summary() {
   local dir=$1
   local impl=$2

   local filename=results.html

   tests/make_summary.py $dir $dir/rows.html

   pushd $dir >/dev/null

   cat ../../tests/regtest.html \
     | sed -e '/__TABLE_ROWS__/ r rows.html' -e "s/_IMPL_/$impl/g" \
     > $filename

   popd >/dev/null

   log "Wrote $dir/$filename"
   log "URL: file://$PWD/$dir/$filename"
 }

 test-error() {
   local spec_regex=${1:-}
   log "Some test cases failed"
   if test -n "$spec_regex"; then
     log "(Perhaps none matched pattern '$spec_regex')"
   fi
   # don't quit just yet
   # exit 1
 }

 # Assuming the spec file, write a list of test case names (first column) with
 # the instance ids (second column), where instance ids run from 1 to $1.
 # Third column is impl.
 _setup-test-instances() {
   local instances=$1
   local impl=$2

   while read line; do
     for i in $(seq 1 $instances); do
       read case_name _ <<< $line  # extract the first token
       echo $case_name $i $impl
     done
   done
 }

 # Print the default number of parallel processes, which is max(#CPUs - 1, 1)
 default-processes() {
   processors=$(grep -c ^processor /proc/cpuinfo || echo 4)  # Linux-specific
   if test $processors -gt 1; then  # leave one CPU for the OS
     processors=$(expr $processors - 1)
   fi
   echo $processors
 }

 # Args:
 #   spec_gen: A program to execute to generate the spec.
 #   spec_regex: A pattern selecting the subset of tests to run
 #   parallel: Whether the tests are run in parallel (T/F).  Sequential
 #     runs log to the console; parallel runs log to files.
 #   impl: one of python, or cpp
 #   instances: A number of times each test case is run

 _run-tests() {
   local spec_gen=$1
   local spec_regex="$2"  # grep -E format on the spec, can be empty
   local parallel=$3
   local impl=${4:-"cpp"}
   local instances=${5:-1}

   local regtest_dir=$REGTEST_BASE_DIR/$impl
   rm -r -f --verbose $regtest_dir

   mkdir --verbose -p $regtest_dir

   local func
   local processors

   if test $parallel = F; then
     func=_run-one-instance  # output to the console
     processors=1
   else
     func=_run-one-instance-logged
     # Let the user override with MAX_PROC, in case they don't have enough
     # memory.
     processors=${MAX_PROC:-$(default-processes)}
     log "Running $processors parallel processes"
   fi

   local cases_list=$regtest_dir/test-cases.txt
   # Need -- for regexes that start with -
   $spec_gen | grep -E -- "$spec_regex" > $cases_list

   # Generate parameters for all test cases.
   cat $cases_list \
     | xargs -l -P $processors -- $0 _setup-one-case $impl \
     || test-error

   log "Done generating parameters for all test cases"

   local instances_list=$regtest_dir/test-instances.txt
   _setup-test-instances $instances $impl < $cases_list > $instances_list

   cat $instances_list \
     | xargs -l -P $processors -- $0 $func || test-error

   log "Done running all test instances"

   make-summary $regtest_dir $impl
 }

 # used for most tests
 readonly REGTEST_SPEC=tests/regtest_spec.py

 # Run tests sequentially.  NOTE: called by demo.sh.
 run-seq() {
   local spec_regex=${1:-'^r-'}  # grep -E format on the spec
   shift

   time _run-tests $REGTEST_SPEC $spec_regex F $@
 }

 # Run tests in parallel
 run() {
   local spec_regex=${1:-'^r-'}  # grep -E format on the spec
   shift

   time _run-tests $REGTEST_SPEC $spec_regex T $@
 }

 # Run tests in parallel (7+ minutes on 8 cores)
 run-all() {
   log "Running all tests. Can take a while."
   time _run-tests $REGTEST_SPEC '^r-' T cpp
 }

 run-user() {
   local spec_regex=${1:-}
   local parallel=T  # too much memory
   time _run-tests tests/user_spec.py "$spec_regex" $parallel cpp
 }

 # Use stable true values
 compare-python-cpp() {
   local num_unique_values=100
   local num_clients=10000
   local values_per_client=10
   local num_cohorts=64

   local true_values=$REGTEST_BASE_DIR/stable_true_values.csv

   tests/gen_true_values.R \
     exp $num_unique_values $num_clients $values_per_client $num_cohorts \
     $true_values

   wc -l $true_values

   # Run Python and C++ simulation on the same input

   ./build.sh cpp-client

   TRUE_VALUES_PATH=$true_values \
     ./regtest.sh run-seq '^demo3' 1 python

   TRUE_VALUES_PATH=$true_values \
     ./regtest.sh run-seq '^demo3' 1 cpp

   head _tmp/{python,cpp}/demo3/1/case_reports.csv
 }

 if test $# -eq 0 ; then
   usage
 else
   "$@"
 fi
	#!/bin/bash
	usage() {
	echo "
	Run end-to-end tests in parallel.

	Usage:
	./regtest.sh <function name>
	At the end, it will print an HTML summary.

	Three main functions are
	run [<pattern> [<lang>]] - run tests matching <pattern> in
	parallel. The language
	of the client to use.
	run-seq [<pattern> [<lang>]] - ditto, except that tests are run
	sequentially
	run-all - run all tests, in parallel

	Examples:
	$ ./regtest.sh run-seq unif-small-typical # Run, the unif-small-typical test
	$ ./regtest.sh run-seq unif-small- # Sequential, the tests containing:
	# 'unif-small-'
	$ ./regtest.sh run unif- # Parallel run, matches multiple cases
	$ ./regtest.sh run-all # Run all tests

	The <pattern> argument is a regex in 'grep -E' format. (Detail: Don't
	use $ in the pattern, since it matches the whole spec line and not just the
	test case name.) The number of processors used in a parallel run is one less
	than the number of CPUs on the machine.
	"
	}
	# Future speedups:
	# - Reuse the same input -- come up with naming scheme based on params
	# - Reuse the same maps -- ditto, rappor library can cache it
	#

	set -o nounset
	set -o pipefail
	set -o errexit

	. util.sh

	readonly THIS_DIR=$(dirname $0)
	readonly REPO_ROOT=$THIS_DIR
	readonly CLIENT_DIR=$REPO_ROOT/client/python
	# subdirs are in _tmp/$impl, which shouldn't overlap with anything else in _tmp
	readonly REGTEST_BASE_DIR=_tmp

	# All the Python tools need this
	export PYTHONPATH=$CLIENT_DIR

	print-unique-values() {
	local num_unique_values=$1
	seq 1 $num_unique_values \| awk '{print "v" $1}'
	}

	# Add some more candidates here. We hope these are estimated at 0.
	# e.g. if add_start=51, and num_additional is 20, show v51-v70
	more-candidates() {
	local last_true=$1
	local num_additional=$2

	local begin
	local end
	begin=$(expr $last_true + 1)
	end=$(expr $last_true + $num_additional)

	seq $begin $end \| awk '{print "v" $1}'
	}

	# Args:
	# unique_values: File of unique true values
	# last_true: last true input, e.g. 50 if we generated "v1" .. "v50".
	# num_additional: additional candidates to generate (starting at 'last_true')
	# to_remove: Regex of true values to omit from the candidates list, or the
	# string 'NONE' if none should be. (Our values look like 'v1', 'v2', etc. so
	# there isn't any ambiguity.)
	print-candidates() {
	local unique_values=$1
	local last_true=$2
	local num_additional=$3
	local to_remove=$4

	if test $to_remove = NONE; then
	cat $unique_values # include all true inputs
	else
	egrep -v $to_remove $unique_values # remove some true inputs
	fi
	more-candidates $last_true $num_additional
	}

	# Generate a single test case, specified by a line of the test spec.
	# This is a helper function for _run_tests().
	_setup-one-case() {
	local impl=$1
	shift # impl is not part of the spec; the next 13 params are

	local test_case=$1

	# input params
	local dist=$2
	local num_unique_values=$3
	local num_clients=$4
	local values_per_client=$5

	# RAPPOR params
	local num_bits=$6
	local num_hashes=$7
	local num_cohorts=$8
	local p=$9
	local q=${10} # need curly braces to get the 10th arg
	local f=${11}

	# map params
	local num_additional=${12}
	local to_remove=${13}

	banner 'Setting up parameters and candidate files for '$test_case

	local case_dir=$REGTEST_BASE_DIR/$impl/$test_case
	mkdir --verbose -p $case_dir

	# Save the "spec"
	echo "$@" > $case_dir/spec.txt

	local params_path=$case_dir/case_params.csv

	echo 'k,h,m,p,q,f' > $params_path
	echo "$num_bits,$num_hashes,$num_cohorts,$p,$q,$f" >> $params_path

	print-unique-values $num_unique_values > $case_dir/case_unique_values.txt

	local true_map_path=$case_dir/case_true_map.csv

	bin/hash_candidates.py \
	$params_path \
	< $case_dir/case_unique_values.txt \
	> $true_map_path

	# banner "Constructing candidates"

	print-candidates \
	$case_dir/case_unique_values.txt $num_unique_values \
	$num_additional "$to_remove" \
	> $case_dir/case_candidates.txt

	# banner "Hashing candidates to get 'map'"

	bin/hash_candidates.py \
	$params_path \
	< $case_dir/case_candidates.txt \
	> $case_dir/case_map.csv
	}

	# Run a single test instance, specified by <test_name, instance_num>.
	# This is a helper function for _run_tests().
	_run-one-instance() {
	local test_case=$1
	local test_instance=$2
	local impl=$3

	local case_dir=$REGTEST_BASE_DIR/$impl/$test_case

	read -r \
	case_name distr num_unique_values num_clients values_per_client \
	num_bits num_hashes num_cohorts p q f \
	num_additional to_remove \
	< $case_dir/spec.txt

	local instance_dir=$case_dir/$test_instance
	mkdir --verbose -p $instance_dir

	banner "Generating reports (gen_reports.R)"

	# the TRUE_VALUES_PATH environment variable can be used to avoid
	# generating new values every time. NOTE: You are responsible for making
	# sure the params match!

	local true_values=${TRUE_VALUES_PATH:-}
	if test -z "$true_values"; then
	true_values=$instance_dir/case_true_values.csv
	tests/gen_true_values.R $distr $num_unique_values $num_clients \
	$values_per_client $num_cohorts \
	$true_values
	else
	# TEMP hack: Make it visible to plot.
	# TODO: Fix compare_dist.R
	ln -s -f --verbose \
	$PWD/$true_values \
	$instance_dir/case_true_values.csv
	fi

	case $impl in
	python)
	banner "Running RAPPOR Python client"

	# Writes encoded "out" file, true histogram, true inputs to
	# $instance_dir.
	time tests/rappor_sim.py \
	--num-bits $num_bits \
	--num-hashes $num_hashes \
	--num-cohorts $num_cohorts \
	-p $p \
	-q $q \
	-f $f \
	< $true_values \
	> "$instance_dir/case_reports.csv"
	;;

	cpp)
	banner "Running RAPPOR C++ client (see rappor_sim.log for errors)"

	time client/cpp/_tmp/rappor_sim \
	$num_bits \
	$num_hashes \
	$num_cohorts \
	$p \
	$q \
	$f \
	< $true_values \
	> "$instance_dir/case_reports.csv" \
	2>"$instance_dir/rappor_sim.log"
	;;

	*)
	log "Invalid impl $impl (should be one of python\|cpp)"
	exit 1
	;;

	esac

	banner "Summing RAPPOR IRR bits to get 'counts'"

	bin/sum_bits.py \
	$case_dir/case_params.csv \
	< $instance_dir/case_reports.csv \
	> $instance_dir/case_counts.csv

	local out_dir=${instance_dir}_report
	mkdir --verbose -p $out_dir

	# Currently, the summary file shows and aggregates timing of the inference
	# engine, which excludes R's loading time and reading of the (possibly
	# substantial) map file. Timing below is more inclusive.
	TIMEFORMAT='Running compare_dist.R took %R seconds'
	time {
	# Input prefix, output dir
	tests/compare_dist.R -t "Test case: $test_case (instance $test_instance)" \
	"$case_dir/case" "$instance_dir/case" $out_dir
	}
	}

	# Like _run-once-case, but log to a file.
	_run-one-instance-logged() {
	local test_case=$1
	local test_instance=$2
	local impl=$3

	local log_dir=$REGTEST_BASE_DIR/$impl/$test_case/${test_instance}_report
	mkdir --verbose -p $log_dir

	log "Started '$test_case' (instance $test_instance) -- logging to $log_dir/log.txt"
	_run-one-instance "$@" >$log_dir/log.txt 2>&1 \
	&& log "Test case $test_case (instance $test_instance) done" \
	\|\| log "Test case $test_case (instance $test_instance) failed"
	}

	make-summary() {
	local dir=$1
	local impl=$2

	local filename=results.html

	tests/make_summary.py $dir $dir/rows.html

	pushd $dir >/dev/null

	cat ../../tests/regtest.html \
	\| sed -e '/__TABLE_ROWS__/ r rows.html' -e "s/_IMPL_/$impl/g" \
	> $filename

	popd >/dev/null

	log "Wrote $dir/$filename"
	log "URL: file://$PWD/$dir/$filename"
	}

	test-error() {
	local spec_regex=${1:-}
	log "Some test cases failed"
	if test -n "$spec_regex"; then
	log "(Perhaps none matched pattern '$spec_regex')"
	fi
	# don't quit just yet
	# exit 1
	}

	# Assuming the spec file, write a list of test case names (first column) with
	# the instance ids (second column), where instance ids run from 1 to $1.
	# Third column is impl.
	_setup-test-instances() {
	local instances=$1
	local impl=$2

	while read line; do
	for i in $(seq 1 $instances); do
	read case_name _ <<< $line # extract the first token
	echo $case_name $i $impl
	done
	done
	}

	# Print the default number of parallel processes, which is max(#CPUs - 1, 1)
	default-processes() {
	processors=$(grep -c ^processor /proc/cpuinfo \|\| echo 4) # Linux-specific
	if test $processors -gt 1; then # leave one CPU for the OS
	processors=$(expr $processors - 1)
	fi
	echo $processors
	}

	# Args:
	# spec_gen: A program to execute to generate the spec.
	# spec_regex: A pattern selecting the subset of tests to run
	# parallel: Whether the tests are run in parallel (T/F). Sequential
	# runs log to the console; parallel runs log to files.
	# impl: one of python, or cpp
	# instances: A number of times each test case is run

	_run-tests() {
	local spec_gen=$1
	local spec_regex="$2" # grep -E format on the spec, can be empty
	local parallel=$3
	local impl=${4:-"cpp"}
	local instances=${5:-1}

	local regtest_dir=$REGTEST_BASE_DIR/$impl
	rm -r -f --verbose $regtest_dir

	mkdir --verbose -p $regtest_dir

	local func
	local processors

	if test $parallel = F; then
	func=_run-one-instance # output to the console
	processors=1
	else
	func=_run-one-instance-logged
	# Let the user override with MAX_PROC, in case they don't have enough
	# memory.
	processors=${MAX_PROC:-$(default-processes)}
	log "Running $processors parallel processes"
	fi

	local cases_list=$regtest_dir/test-cases.txt
	# Need -- for regexes that start with -
	$spec_gen \| grep -E -- "$spec_regex" > $cases_list

	# Generate parameters for all test cases.
	cat $cases_list \
	\| xargs -l -P $processors -- $0 _setup-one-case $impl \
	\|\| test-error

	log "Done generating parameters for all test cases"

	local instances_list=$regtest_dir/test-instances.txt
	_setup-test-instances $instances $impl < $cases_list > $instances_list

	cat $instances_list \
	\| xargs -l -P $processors -- $0 $func \|\| test-error

	log "Done running all test instances"

	make-summary $regtest_dir $impl
	}

	# used for most tests
	readonly REGTEST_SPEC=tests/regtest_spec.py

	# Run tests sequentially. NOTE: called by demo.sh.
	run-seq() {
	local spec_regex=${1:-'^r-'} # grep -E format on the spec
	shift

	time _run-tests $REGTEST_SPEC $spec_regex F $@
	}

	# Run tests in parallel
	run() {
	local spec_regex=${1:-'^r-'} # grep -E format on the spec
	shift

	time _run-tests $REGTEST_SPEC $spec_regex T $@
	}

	# Run tests in parallel (7+ minutes on 8 cores)
	run-all() {
	log "Running all tests. Can take a while."
	time _run-tests $REGTEST_SPEC '^r-' T cpp
	}

	run-user() {
	local spec_regex=${1:-}
	local parallel=T # too much memory
	time _run-tests tests/user_spec.py "$spec_regex" $parallel cpp
	}

	# Use stable true values
	compare-python-cpp() {
	local num_unique_values=100
	local num_clients=10000
	local values_per_client=10
	local num_cohorts=64

	local true_values=$REGTEST_BASE_DIR/stable_true_values.csv

	tests/gen_true_values.R \
	exp $num_unique_values $num_clients $values_per_client $num_cohorts \
	$true_values

	wc -l $true_values

	# Run Python and C++ simulation on the same input

	./build.sh cpp-client

	TRUE_VALUES_PATH=$true_values \
	./regtest.sh run-seq '^demo3' 1 python

	TRUE_VALUES_PATH=$true_values \
	./regtest.sh run-seq '^demo3' 1 cpp

	head _tmp/{python,cpp}/demo3/1/case_reports.csv
	}

	if test $# -eq 0 ; then
	usage
	else
	"$@"
	fi