// Copyright (c) 2019-2022 Alexander Medvednikov. All rights reserved.
// Use of this source code is governed by an MIT license
// that can be found in the LICENSE file.
import os
import time
import arrays
const warmup_samples = 2
const max_samples = 10
const discard_highest_samples = 6
const voptions = ' -skip-unused -show-timings -stats '
const fast_dir = os.dir(@FILE)
const fast_log_path = os.join_path(fast_dir, 'fast.log')
const vdir = os.dir(os.dir(os.dir(fast_dir)))
fn elog(msg string) {
line := '${time.now().format_ss_micro()} ${msg}\n'
if mut f := os.open_append(fast_log_path) {
f.write_string(line) or {}
f.close()
}
eprint(line)
}
fn lsystem(cmd string) int {
elog('lsystem: ${cmd}')
return os.system(cmd)
}
fn lexec(cmd string) string {
elog(' lexec: ${cmd}')
return os.execute_or_exit(cmd).output.trim_right('\r\n')
}
fn main() {
total_sw := time.new_stopwatch()
elog('fast.html generator start')
defer {
elog('fast.html generator end, total: ${total_sw.elapsed().milliseconds():6} ms')
}
//
mut ccompiler_path := 'tcc'
if vdir.contains('/tmp/cirrus-ci-build') {
ccompiler_path = 'clang'
}
if os.args.contains('-clang') {
ccompiler_path = 'clang'
}
elog('fast_dir: ${fast_dir} | vdir: ${vdir} | compiler: ${ccompiler_path}')
os.chdir(fast_dir)!
if !os.exists('${vdir}/v') && !os.is_dir('${vdir}/vlib') {
elog('fast.html generator needs to be located in `v/cmd/tools/fast`')
exit(1)
}
if !os.exists('table.html') {
os.create('table.html')!
}
if !os.args.contains('-noupdate') {
elog('Fetching updates...')
ret := lsystem('${vdir}/v up')
if ret != 0 {
elog('failed to update V, exit_code: ${ret}')
return
}
}
// fetch the last commit's hash
commit := lexec('git rev-parse HEAD')[..8]
if os.exists('website/index.html') {
uploaded_index := os.read_file('website/index.html')!
if uploaded_index.contains('>${commit}<') {
elog('NOTE: commit ${commit} had been benchmarked already.')
if !os.args.contains('-force') {
elog('nothing more to do')
return
}
}
}
os.chdir(vdir)!
message := lexec('git log --pretty=format:"%s" -n1 ${commit}')
commit_date := lexec('git log -n1 --pretty="format:%at" ${commit}')
date := time.unix(commit_date.i64())
elog('Benchmarking commit ${commit} , with commit message: "${message}", commit_date: ${commit_date}, date: ${date}')
// build an optimized V
if os.args.contains('-do-not-rebuild-vprod') {
if !os.exists('vprod') {
elog('Exiting, since if you use `-do-not-rebuild-vprod`, you should already have a `${vdir}/vprod` executable, but it is missing!')
return
}
} else {
elog(' Building vprod...')
if os.args.contains('-noprod') {
lexec('./v -o vprod cmd/v') // for faster debugging
} else {
lexec('./v -o vprod -prod -prealloc cmd/v')
}
}
if !os.args.contains('-do-not-rebuild-caches') {
elog('clearing caches...')
// cache vlib modules
lexec('${vdir}/v wipe-cache')
lexec('${vdir}/v -o vwarm_caches -cc ${ccompiler_path} cmd/v')
}
// measure
diff1 := measure('${vdir}/vprod ${voptions} -o v.c cmd/v', 'v.c')
diff2 := measure('${vdir}/vprod ${voptions} -cc ${ccompiler_path} -o v2 cmd/v', 'v2')
diff3 := 0 // measure('$vdir/vprod -native $vdir/cmd/tools/1mil.v', 'native 1mil')
diff4 := measure('${vdir}/vprod ${voptions} -cc ${ccompiler_path} examples/hello_world.v',
'hello.v')
vc_size := os.file_size('v.c') / 1000
scan, parse, check, cgen, vlines := measure_steps_minimal(vdir)!
html_message := message.replace_each(['<', '<', '>', '>'])
os.chdir(fast_dir)!
// place the new row on top
table := os.read_file('table.html')!
new_table :=
'
${date.format()} |
${commit} |
${html_message} |
${diff1}ms |
${diff2}ms |
${diff3}ms |
${diff4}ms |
${vc_size} KB |
${parse}ms |
${check}ms |
${cgen}ms |
${scan}ms |
${vlines} |
${int(f64(vlines) / f64(diff1) * 1000.0)} |
\n' +
table.trim_space() + '\n'
os.write_file('table.html', new_table)!
// regenerate index.html
header := os.read_file('header.html')!
footer := os.read_file('footer.html')!
mut res := os.create('index.html')!
res.writeln(header)!
res.writeln(new_table)!
res.writeln(footer)!
res.close()
// upload the result to github pages
if os.args.contains('-upload') {
elog('uploading...')
os.chdir('website')!
lexec('git checkout gh-pages')
os.mv('../index.html', 'index.html')!
lsystem('git commit -am "update benchmark"')
lsystem('git push origin gh-pages')
elog('uploading done')
}
}
// measure returns milliseconds
fn measure(cmd string, description string) int {
elog(' Measuring ${description}, warmups: ${warmup_samples}, samples: ${max_samples}, discard: ${discard_highest_samples}, with cmd: `${cmd}`')
for _ in 0 .. warmup_samples {
os.execute_or_exit(cmd)
}
mut runs := []int{}
for r in 0 .. max_samples {
sw := time.new_stopwatch()
os.execute_or_exit(cmd)
sample := int(sw.elapsed().milliseconds())
runs << sample
elog(' Sample ${r + 1:2}/${max_samples:2} ... ${sample} ms')
}
runs.sort()
elog(' runs before discarding: ${runs}, avg: ${f64(arrays.sum(runs) or { 0 }) / runs.len:5.2f}')
// Discard the highest times, since on AWS, they are caused by random load spikes,
// that are unpredictable, add noise and skew the statistics, without adding useful
// insights:
for _ in 0 .. discard_highest_samples {
runs.pop()
}
elog(' runs after discarding: ${runs}, avg: ${f64(arrays.sum(runs) or { 0 }) / runs.len:5.2f}')
return int(f64(arrays.sum(runs) or { 0 }) / runs.len)
}
fn measure_steps_minimal(vdir string) !(int, int, int, int, int) {
elog('measure_steps_minimal ${vdir}, samples: ${max_samples}')
mut scans, mut parses, mut checks, mut cgens, mut vliness := []int{}, []int{}, []int{}, []int{}, []int{}
for i in 0 .. max_samples {
scan, parse, check, cgen, vlines, cmd := measure_steps_one_sample(vdir)
scans << scan
parses << parse
checks << check
cgens << cgen
vliness << vlines
elog(' [${i:2}/${max_samples:2}] scan: ${scan} ms, min parse: ${parse} ms, min check: ${check} ms, min cgen: ${cgen} ms, min vlines: ${vlines} ms, cmd: ${cmd}')
}
scan, parse, check, cgen, vlines := arrays.min(scans)!, arrays.min(parses)!, arrays.min(checks)!, arrays.min(cgens)!, arrays.min(vliness)!
elog('measure_steps_minimal => min scan: ${scan} ms, min parse: ${parse} ms, min check: ${check} ms, min cgen: ${cgen} ms, min vlines: ${vlines} ms')
return scan, parse, check, cgen, vlines
}
fn measure_steps_one_sample(vdir string) (int, int, int, int, int, string) {
cmd := '${vdir}/vprod ${voptions} -o v.c cmd/v'
resp := os.execute_or_exit(cmd)
mut scan, mut parse, mut check, mut cgen, mut vlines := 0, 0, 0, 0, 0
lines := resp.output.split_into_lines()
if lines.len == 3 {
parse = lines[0].before('.').int()
check = lines[1].before('.').int()
cgen = lines[2].before('.').int()
} else {
ms_lines := lines.map(it.split(' ms '))
for line in ms_lines {
if line.len == 2 {
if line[1] == 'SCAN' {
scan = line[0].int()
}
if line[1] == 'PARSE' {
parse = line[0].int()
}
if line[1] == 'CHECK' {
check = line[0].int()
}
if line[1] == 'C GEN' {
cgen = line[0].int()
}
} else {
// fetch number of V lines
if line[0].contains('V') && line[0].contains('source') && line[0].contains('size') {
start := line[0].index(':') or { 0 }
end := line[0].index('lines,') or { 0 }
s := line[0][start + 1..end]
vlines = s.trim_space().int()
}
}
}
}
return scan, parse, check, cgen, vlines, cmd
}