module benchmark import time import term const ( b_ok = term.ok_message('OK ') b_fail = term.fail_message('FAIL') b_skip = term.warn_message('SKIP') b_spent = term.ok_message('SPENT') ) pub struct Benchmark { pub mut: bench_timer time.StopWatch verbose bool no_cstep bool step_timer time.StopWatch ntotal int nok int nfail int nskip int nexpected_steps int cstep int bok string bfail string } pub fn new_benchmark() Benchmark { return Benchmark{ bench_timer: time.new_stopwatch({}) verbose: true } } pub fn new_benchmark_no_cstep() Benchmark { return Benchmark{ bench_timer: time.new_stopwatch({}) verbose: true no_cstep: true } } pub fn new_benchmark_pointer() &Benchmark { return &Benchmark{ bench_timer: time.new_stopwatch({}) verbose: true } } pub fn (mut b Benchmark) set_total_expected_steps(n int) { b.nexpected_steps = n } pub fn (mut b Benchmark) stop() { b.bench_timer.stop() } pub fn (mut b Benchmark) step() { b.step_timer.restart() if !b.no_cstep { b.cstep++ } } pub fn (mut b Benchmark) fail() { b.step_timer.stop() b.ntotal++ b.nfail++ } pub fn (mut b Benchmark) ok() { b.step_timer.stop() b.ntotal++ b.nok++ } pub fn (mut b Benchmark) skip() { b.step_timer.stop() b.ntotal++ b.nskip++ } pub fn (mut b Benchmark) fail_many(n int) { b.step_timer.stop() b.ntotal += n b.nfail += n } pub fn (mut b Benchmark) ok_many(n int) { b.step_timer.stop() b.ntotal += n b.nok += n } pub fn (mut b Benchmark) neither_fail_nor_ok() { b.step_timer.stop() } pub fn start() Benchmark { mut b := new_benchmark() b.step() return b } pub fn (mut b Benchmark) measure(label string) i64 { b.ok() res := b.step_timer.elapsed().microseconds() println(b.step_message_with_label(b_spent, 'in $label')) b.step() return res } pub fn (b &Benchmark) step_message_with_label(label string, msg string) string { timed_line := b.tdiff_in_ms(msg, b.step_timer.elapsed().microseconds()) if b.nexpected_steps > 1 { mut sprogress := '' if b.nexpected_steps < 10 { sprogress = if b.no_cstep { 'TMP1/${b.nexpected_steps:1d}' } else { '${b.cstep:1d}/${b.nexpected_steps:1d}' } } else if b.nexpected_steps >= 10 && b.nexpected_steps < 100 { sprogress = if b.no_cstep { 'TMP2/${b.nexpected_steps:2d}' } else { '${b.cstep:2d}/${b.nexpected_steps:2d}' } } else if b.nexpected_steps >= 100 && b.nexpected_steps < 1000 { sprogress = if b.no_cstep { 'TMP3/${b.nexpected_steps:3d}' } else { '${b.cstep:3d}/${b.nexpected_steps:3d}' } } else { sprogress = if b.no_cstep { 'TMP4/${b.nexpected_steps:4d}' } else { '${b.cstep:4d}/${b.nexpected_steps:4d}' } } return '${label:-5s} [${sprogress}] ${timed_line}' } return '${label:-5s}${timed_line}' } pub fn (b &Benchmark) step_message(msg string) string { return b.step_message_with_label('', msg) } pub fn (b &Benchmark) step_message_ok(msg string) string { return b.step_message_with_label(b_ok, msg) } pub fn (b &Benchmark) step_message_fail(msg string) string { return b.step_message_with_label(b_fail, msg) } pub fn (b &Benchmark) step_message_skip(msg string) string { return b.step_message_with_label(b_skip, msg) } pub fn (b &Benchmark) total_message(msg string) string { mut tmsg := '${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}' if b.verbose { tmsg = '<=== total time spent $tmsg' } mut spaces := ' ' if b.nexpected_steps > 1 { // NB: the formula below accounts for the progress bar [step/total] str_steps := '$b.nexpected_steps' x := 4 + str_steps.len * 2 + 5 spaces = ' '.repeat(x) } return spaces + b.tdiff_in_ms(tmsg, b.bench_timer.elapsed().microseconds()) } // .total_duration - returns the duration in ms pub fn (b &Benchmark) total_duration() i64 { return b.bench_timer.elapsed().milliseconds() } // ////////////////////////////////////////////////////////////////// fn (b &Benchmark) tdiff_in_ms(s string, tdiff i64) string { if b.verbose { return '${f64(tdiff)/1000.0:9.3f} ms $s' } return s }