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225 lines
5.4 KiB
V
225 lines
5.4 KiB
V
module benchmark
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import time
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import term
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/*
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Example usage of this module:
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```
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import benchmark
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mut bmark := benchmark.new_benchmark()
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// by default the benchmark will be verbose, i.e. it will include timing information
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// if you want it to be silent, set bmark.verbose = false
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for {
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bmark.step() // call this when you want to advance the benchmark.
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// The timing info in bmark.step_message will be measured starting from the last call to bmark.step
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....
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//bmark.fail() // call this if the step failed
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//bmark.step_message(('failed')
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bmark.ok() // call this when the step succeeded
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println( bmark.step_message('ok')
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}
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bmark.stop() // call when you want to finalize the benchmark
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println( bmark.total_message('remarks about the benchmark') )
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```
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benchmark.start() and b.measure() are convenience methods,
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intended to be used in combination. Their goal is to make
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benchmarking of small snippets of code as *short*, easy to
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write, and then to read and analyze the results, as possible.
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Example:
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```v
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import benchmark
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b := benchmark.start()
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// your code 1 ...
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b.measure('code_1')
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// your code 2 ...
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b.measure('code_2')
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```
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... which will produce on stdout something like this:
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SPENT 17 ms in code_1
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SPENT 462 ms in code_2
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*/
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const (
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b_ok = term.ok_message('OK ')
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b_fail = term.fail_message('FAIL')
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b_skip = term.warn_message('SKIP')
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b_spent = term.ok_message('SPENT')
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)
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pub struct Benchmark {
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pub mut:
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bench_timer time.StopWatch
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verbose bool
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no_cstep bool
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step_timer time.StopWatch
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ntotal int
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nok int
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nfail int
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nskip int
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nexpected_steps int
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cstep int
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bok string
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bfail string
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}
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pub fn new_benchmark() Benchmark {
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return Benchmark{
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bench_timer: time.new_stopwatch({})
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verbose: true
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}
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}
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pub fn new_benchmark_no_cstep() Benchmark {
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return Benchmark{
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bench_timer: time.new_stopwatch({})
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verbose: true
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no_cstep: true
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}
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}
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pub fn new_benchmark_pointer() &Benchmark {
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return &Benchmark{
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bench_timer: time.new_stopwatch({})
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verbose: true
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}
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}
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pub fn (mut b Benchmark) set_total_expected_steps(n int) {
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b.nexpected_steps = n
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}
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pub fn (mut b Benchmark) stop() {
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b.bench_timer.stop()
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}
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pub fn (mut b Benchmark) step() {
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b.step_timer.restart()
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if !b.no_cstep {
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b.cstep++
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}
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}
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pub fn (mut b Benchmark) fail() {
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b.step_timer.stop()
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b.ntotal++
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b.nfail++
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}
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pub fn (mut b Benchmark) ok() {
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b.step_timer.stop()
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b.ntotal++
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b.nok++
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}
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pub fn (mut b Benchmark) skip() {
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b.step_timer.stop()
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b.ntotal++
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b.nskip++
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}
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pub fn (mut b Benchmark) fail_many(n int) {
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b.step_timer.stop()
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b.ntotal += n
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b.nfail += n
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}
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pub fn (mut b Benchmark) ok_many(n int) {
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b.step_timer.stop()
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b.ntotal += n
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b.nok += n
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}
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pub fn (mut b Benchmark) neither_fail_nor_ok() {
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b.step_timer.stop()
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}
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pub fn start() Benchmark {
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mut b := new_benchmark()
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b.step()
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return b
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}
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pub fn (mut b Benchmark) measure(label string) i64 {
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b.ok()
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res := b.step_timer.elapsed().microseconds()
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println(b.step_message_with_label(b_spent, 'in $label'))
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b.step()
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return res
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}
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pub fn (b &Benchmark) step_message_with_label(label string, msg string) string {
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timed_line := b.tdiff_in_ms(msg, b.step_timer.elapsed().microseconds())
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if b.nexpected_steps > 1 {
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mut sprogress := ''
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if b.nexpected_steps < 10 {
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sprogress = if b.no_cstep { 'TMP1/${b.nexpected_steps:1d}' } else {
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'${b.cstep:1d}/${b.nexpected_steps:1d}'
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}
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} else if b.nexpected_steps >= 10 && b.nexpected_steps < 100 {
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sprogress = if b.no_cstep { 'TMP2/${b.nexpected_steps:2d}' } else {
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'${b.cstep:2d}/${b.nexpected_steps:2d}'
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}
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} else if b.nexpected_steps >= 100 && b.nexpected_steps < 1000 {
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sprogress = if b.no_cstep { 'TMP3/${b.nexpected_steps:3d}' } else {
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'${b.cstep:3d}/${b.nexpected_steps:3d}'
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}
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} else {
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sprogress = if b.no_cstep { 'TMP4/${b.nexpected_steps:4d}' } else {
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'${b.cstep:4d}/${b.nexpected_steps:4d}'
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}
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}
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return '${label:-5s} [${sprogress}] ${timed_line}'
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}
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return '${label:-5s}${timed_line}'
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}
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pub fn (b &Benchmark) step_message(msg string) string {
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return b.step_message_with_label('', msg)
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}
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pub fn (b &Benchmark) step_message_ok(msg string) string {
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return b.step_message_with_label(b_ok, msg)
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}
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pub fn (b &Benchmark) step_message_fail(msg string) string {
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return b.step_message_with_label(b_fail, msg)
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}
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pub fn (b &Benchmark) step_message_skip(msg string) string {
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return b.step_message_with_label(b_skip, msg)
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}
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pub fn (b &Benchmark) total_message(msg string) string {
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mut tmsg := '${msg}\n ok, fail, skip, total = ' + term.ok_message('${b.nok:5d}') + ', ' + if b.nfail > 0 { term.red('${b.nfail:5d}') } else { '${b.nfail:5d}' } + ', ' + if b.nskip > 0 { term.bright_yellow('${b.nskip:5d}') } else { '${b.nskip:5d}' } + ', ' + '${b.ntotal:5d}'
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if b.verbose {
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tmsg = '<=== total time spent $tmsg'
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}
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mut spaces := ' '
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if b.nexpected_steps > 1 {
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// NB: the formula below accounts for the progress bar [step/total]
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str_steps := '$b.nexpected_steps'
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x := 4 + str_steps.len * 2 + 5
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spaces = ' '.repeat(x)
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}
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return spaces + b.tdiff_in_ms(tmsg, b.bench_timer.elapsed().microseconds())
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}
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// .total_duration - returns the duration in ms
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pub fn (b &Benchmark) total_duration() i64 {
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return b.bench_timer.elapsed().milliseconds()
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}
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// //////////////////////////////////////////////////////////////////
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fn (b &Benchmark) tdiff_in_ms(s string, tdiff i64) string {
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if b.verbose {
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return '${f64(tdiff)/1000.0:9.3f} ms $s'
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}
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return s
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}
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