But as I stated before, performance is not everything. It won't be really good if the writing/compiling/debugging process took too much time.
programming: the action or process of writing computer programs. | rants: speak or shout at length in a wild, [im]passioned way.
2015-03-20
Techempower Framework Benchmark 10 Preview 6
New framework benchmark preview has been published, still C++ on top, JavaScript second, followed by Scala, Nimrod, Dart and Go. There are no quite significant changes with previous benchmark.
But as I stated before, performance is not everything. It won't be really good if the writing/compiling/debugging process took too much time.
But as I stated before, performance is not everything. It won't be really good if the writing/compiling/debugging process took too much time.
2015-03-16
Techempower Framework Benchmark 10 Preview 5
New framework benchmark preview has been published, still C++ on top, JavaScript second, followed by Scala, Nimrod, Dart and Go. HHVM no longer on top because of some technical error. I think other benchmark seems not realistic enough '___')
But as I stated before, performance is not everything. It won't be really good if the compiling/debugging process took too much time.
But as I stated before, performance is not everything. It won't be really good if the compiling/debugging process took too much time.
2015-03-13
Manga Downloader on Linux
There are plenty of options to automate manga download on Linux, for example: AnyMangaDownloader, BatotoDownloader, LinuxMangaDownloader, HakuNeko, MangaTux, MangaEdenBatchDownloader, MangaDownloader (command line), MangaCrazy (jar), and Zenbu. And of course you can look for another alternatives on github.
MangaTux required you to give the URL manually (you cannot search within the program), it support some Spanish and English manga site (MangaHead, MangaFox, MangaShare, MangaReader, Animea) even 4chan, zerochan, danboru and pown.it. On ArchLinux, you can install and run using this command:
yaourt --needed --noconfirm -S --force mangatux
mangatux
With Hakuneko you can search within MangaReader, MangaHere, MangaFox, Batoto, and KissAnime (doesn't work). The interface are quite straightforward. You can install and run using this command:
yaourt --needed --noconfirm -S --force hakuneko
hakuneko
MangaEdenBatchDownloader also similar to MangaTux. You can install and run using this command:
yaourt --needed --noconfirm -S --force mangaedenbatchdownloader
MangaTux required you to give the URL manually (you cannot search within the program), it support some Spanish and English manga site (MangaHead, MangaFox, MangaShare, MangaReader, Animea) even 4chan, zerochan, danboru and pown.it. On ArchLinux, you can install and run using this command:
yaourt --needed --noconfirm -S --force mangatux
mangatux
With Hakuneko you can search within MangaReader, MangaHere, MangaFox, Batoto, and KissAnime (doesn't work). The interface are quite straightforward. You can install and run using this command:
yaourt --needed --noconfirm -S --force hakuneko
hakuneko
MangaEdenBatchDownloader also similar to MangaTux. You can install and run using this command:
yaourt --needed --noconfirm -S --force mangaedenbatchdownloader
java -jar /opt/edenbatchdownloader/EdenBatchDownloader.jar
BatotoDownloader exactly similar to MangaEdenBatchDownloader, You can install and run using this command:
yaourt --needed --noconfirm -S --force batotodownloader
java -jar /opt/batotodownloader/Batoto.jar
To read manga (cbz, cbr, cbt, cba, cb7, rar, zip, tar, ace, 7z, etc) you can use MComix, the install and run command:
yaourt --needed --noconfirm -S --force mcomix
mcomix
I think the best one for now is Hakuneko.
yaourt --needed --noconfirm -S --force batotodownloader
java -jar /opt/batotodownloader/Batoto.jar
To read manga (cbz, cbr, cbt, cba, cb7, rar, zip, tar, ace, 7z, etc) you can use MComix, the install and run command:
yaourt --needed --noconfirm -S --force mcomix
mcomix
I think the best one for now is Hakuneko.
2015-03-04
Monitorix: System Resource Monitoring for Linux
Monitorix is a daemon that enables you to monitor your Linux server/system resources. It has built-in web server, and developed using Perl. To install the daemon on ArchLinux, use this command:
yaourt --needed --noconfirm -S --force monitorix
sudo systemctl enable monitorix
sudo systemctl start monitorix
The configuration file can be found on /etc/monitorix/monitorix.conf, for example you can enable the built-in webserver and change the port, change the network interface's to be monitored or enable and disable sensors, just find the key and change it, for example:
<httpd_builtin>
enabled = y
host = 127.0.0.1
port = 8081
user = nobody
group = nobody
log_file = /var/log/monitorix-httpd
hosts_deny =
hosts_allow =
<auth>
enabled = y
msg = Monitorix: Restricted access
htpasswd = /var/lib/monitorix/htpasswd
</auth>
</httpd_builtin>
<graph_enable>
system = y
proc = y
fs = y
net = y
user = y
netstat = y
</graph_enable>
<net>
list = enp2s0, wlp3s0
<desc>
enp2s0 = Gigabit LAN, 0, 10000000000
wlp3s0 = Wireless LAN, 0, 100000000
</desc>
gateway = enp2s0
</net>
After changing the configuration file, you may want to create a password so no other user can see the web, for example to create a new user named test with password youMayNotKnow:
sudo htpasswd -bcd /var/lib/monitorix/htpasswd test youMayNotKnow
after that, don't forget to restart the service:
sudo systemctl restart monitorix
Then you can see the result by visiting http://127.0.0.1:8081/monitorix.
yaourt --needed --noconfirm -S --force monitorix
sudo systemctl enable monitorix
sudo systemctl start monitorix
The configuration file can be found on /etc/monitorix/monitorix.conf, for example you can enable the built-in webserver and change the port, change the network interface's to be monitored or enable and disable sensors, just find the key and change it, for example:
<httpd_builtin>
enabled = y
host = 127.0.0.1
port = 8081
user = nobody
group = nobody
log_file = /var/log/monitorix-httpd
hosts_deny =
hosts_allow =
<auth>
enabled = y
msg = Monitorix: Restricted access
htpasswd = /var/lib/monitorix/htpasswd
</auth>
</httpd_builtin>
<graph_enable>
system = y
proc = y
fs = y
net = y
user = y
netstat = y
</graph_enable>
<net>
list = enp2s0, wlp3s0
<desc>
enp2s0 = Gigabit LAN, 0, 10000000000
wlp3s0 = Wireless LAN, 0, 100000000
</desc>
gateway = enp2s0
</net>
After changing the configuration file, you may want to create a password so no other user can see the web, for example to create a new user named test with password youMayNotKnow:
sudo htpasswd -bcd /var/lib/monitorix/htpasswd test youMayNotKnow
after that, don't forget to restart the service:
sudo systemctl restart monitorix
2015-03-03
Prime Number Generator Benchmark
Today we're gonna benchmark about prime number generator (without sieve and prime library). The spec is generating all prime number below 10 million and outputting every 100k-th prime found. As usual, the source can be found on my dropbox (folder: prime). The benchmark performed on 64-bit Linux, i3-4150, 16GB RAM and non-SSD disk.
# desired output:
1299721
2750161
4256249
5800139
7368791
8960467
$ g++ --version
g++ (GCC) 4.9.2 20150204 (prerelease)
$ time g++ -std=c++11 prime.cpp
CPU: 0.20s Real: 0.23s RAM: 50232KB
$ time ./a.out
CPU: 2.94s Real: 2.95s RAM: 6592KB
$ time g++ -O2 -std=c++11 prime.cpp
CPU: 0.21s Real: 0.23s RAM: 51912KB
$ time ./a.out
CPU: 0.85s Real: 0.85s RAM: 6616KB
$ clang++ --version
clang version 3.5.1 (tags/RELEASE_351/final)
$ time clang++ -std=c++11 prime.cpp
CPU: 0.19s Real: 0.23s RAM: 46792KB
$ time ./a.out
CPU: 2.93s Real: 2.94s RAM: 6488KB
$ time clang++ -O2 -std=c++11 prime.cpp
CPU: 0.20s Real: 0.22s RAM: 50484KB
$ time ./a.out
CPU: 0.84s Real: 0.84s RAM: 6636KB
$ go version
go version go1.4.1 linux/amd64
$ time go build prime.go
CPU: 0.11s Real: 0.12s RAM: 30364KB
$ time ./prime
CPU: 2.48s Real: 2.49s RAM: 20412KB
$ javac -version
javac 1.7.0_75
$ time javac prime.java
CPU: 0.73s Real: 0.44s RAM: 47464KB
$ time java prime
CPU: 1.21s Real: 1.18s RAM: 104580KB
$ javac -version
javac 1.8.0_40
$ time javac prime.java
CPU: 0.96s Real: 0.45s RAM: 59860KB
$ time java prime
CPU: 1.23s Real: 1.19s RAM: 104716KB
$ ruby --version
ruby 2.1.5p273 (2014-11-13 revision 48405) [x86_64-linux]
$ time ruby prime.rb
CPU: 20.97s Real: 20.99s RAM: 14388KB
$ rbx --version
rubinius 2.5.2.c85 (2.1.0 e8a24276 2015-02-23 3.5.1 JI) [x86_64-linux-gnu]
$ time rbx prime.rb
CPU: 14.20s Real: 14.15s RAM: 54004KB
$ jruby --version
jruby 9.0.0.0-SNAPSHOT (2.2.0p0) 2015-02-24 2a3dc1f OpenJDK 64-Bit Server VM 24.75-b04 on 1.7.0_75-b13 +jit [linux-amd64]
$ time jruby prime.rb
CPU: 38.79s Real: 36.41s RAM: 298688KB
$ node --version
v0.10.36
$ time node prime.js
CPU: 1.61s Real: 1.62s RAM: 24796KB
$ pacman -Qo `which jsc-3`
/usr/bin/jsc-3 is owned by webkitgtk 2.4.8-1
$ time jsc-3 prime.js
CPU: 2.30s Real: 2.31s RAM: 22008KB
$ js24 --help| grep Version
Version: JavaScript-C24.2.0
$ time js24 prime.js
CPU: 1.19s Real: 1.24s RAM: 15488KB
$ echo | rhino
Rhino 1.7 release 4 2014 07 01
$ time rhino prime.js
CPU: 56.23s Real: 55.72s RAM: 873048KB
$ echo | jjs -version
nashorn 1.8.0_40
$ time jjs prime.js
CPU: 23.36s Real: 22.28s RAM: 448144KB
$ php --version
PHP 5.6.5 (cli) (built: Jan 22 2015 18:29:09)
$ time php prime.php
CPU: 36.70s Real: 36.77s RAM: 111488KB
$ hhvm --version
HipHop VM 3.5.0 (rel) Compiler: 1422366928_067131079
$ time hhvm -v Eval.Jit=true prime.php
CPU: 5.92s Real: 11.14s RAM: 98288KB
$ python --version
Python 3.4.2
$ time python prime.py
CPU: 78.33s Real: 78.51s RAM: 33476KB
$ pypy --version
Python 2.7.8 (10f1b29a2bd2, Feb 05 2015, 16:50:17) [PyPy 2.5.0 with GCC 4.9.2 20141224 (prerelease)]
$ time pypy prime.py
CPU: 3.66s Real: 4.14s RAM: 84180KB
$ lua -v
Lua 5.2.3 Copyright (C) 1994-2013 Lua.org, PUC-Rio
$ time lua prime.lua
CPU: 22.16s Real: 22.19s RAM: 18628KB
$ luajit -v
LuaJIT 2.0.3 -- Copyright (C) 2005-2014 Mike Pall. http://luajit.org/
$ time luajit prime.lua
CPU: 6.64s Real: 6.65s RAM: 10360KB
$ mcs --version
Mono C# compiler version 3.12.0.0
$ time mcs prime.cs
CPU: 0.35s Real: 0.36s RAM: 39704KB
$ time mono prime.exe
CPU: 1.78s Real: 1.79s RAM: 16368KB
$ dart --version
Dart VM version: 1.8.5 (Tue Jan 13 12:44:14 2015) on "linux_x64"
$ time dart prime.dart
CPU: 1.37s Real: 1.38s RAM: 31604KB
$ crystal --version
Crystal 0.6.1 [0162f84] (Mon Mar 16 15:22:20 UTC 2015)
$ time crystal prime.cr
CPU: 2.53s Real: 2.62s RAM: 28552KB
$ time crystal prime.cr --release
CPU: 1.18s Real: 1.23s RAM: 36784KB
$ julia --version
julia version 0.3.6
$ time julia prime.jl
CPU: 3.09s Real: 3.12s RAM: 71576KB
$ nim --version
Nim Compiler Version 0.10.2 (2014-12-31) [Linux: amd64]
$ time nim c prime.nim
CPU: 0.66s Real: 0.69s RAM: 44728KB
$ time ./prime
CPU: 7.65s Real: 7.67s RAM: 12224KB
$ time nim c -d:release prime.nim
CPU: 1.36s Real: 1.36s RAM: 55376KB
$ time ./prime
CPU: 2.44s Real: 2.45s RAM: 12160KB
$ rustc --version
rustc 1.0.0-dev (built 2015-02-23)
$ time rustc prime.rs
CPU: 0.36s Real: 1.76s RAM: 95960KB
$ time ./prime
CPU: 3.75s Real: 3.76s RAM: 6196KB
$ time rustc -O prime.rs
CPU: 0.34s Real: 0.38s RAM: 96764KB
And the summary:
Note #1: PH7 failed to give any output within 1 minute.
Note #2: IO failed to give complete output within 2 minutes.
Note #3: Nimrod caches the compile process, so the second time compile are less than 100ms
Note #4: Potion failed to give complete output within 2 minutes.
Note #5: Gnatmake caches the compile process, so the second time compile are less than 10ms, but it doesn't overwrite when different flag used (-O2 for example).
Note #6: Some languages can be compiled, and some other can be executed directly using certain command, but I choose one that I learned first (but I will benchmark both method when I have much free time)
Note #7: Compile cache deleted before every (3) benchmark run, the value taken are the median.
Changelog:
2015-03-03: benchmark published
2015-03-xx: Lua, C# (mcs), and Dart added
2015-03-17: Crystal, Julia, and Nimrod (nim) added
2015-03-18: ObjectPascal (fpc), Ada (gnat), and Nashorn (jjs) added
# desired output:
1299721
2750161
4256249
5800139
7368791
8960467
$ g++ --version
g++ (GCC) 4.9.2 20150204 (prerelease)
$ time g++ -std=c++11 prime.cpp
CPU: 0.20s Real: 0.23s RAM: 50232KB
$ time ./a.out
CPU: 2.94s Real: 2.95s RAM: 6592KB
$ time g++ -O2 -std=c++11 prime.cpp
CPU: 0.21s Real: 0.23s RAM: 51912KB
$ time ./a.out
CPU: 0.85s Real: 0.85s RAM: 6616KB
$ clang++ --version
clang version 3.5.1 (tags/RELEASE_351/final)
$ time clang++ -std=c++11 prime.cpp
CPU: 0.19s Real: 0.23s RAM: 46792KB
$ time ./a.out
CPU: 2.93s Real: 2.94s RAM: 6488KB
$ time clang++ -O2 -std=c++11 prime.cpp
CPU: 0.20s Real: 0.22s RAM: 50484KB
$ time ./a.out
CPU: 0.84s Real: 0.84s RAM: 6636KB
$ go version
go version go1.4.1 linux/amd64
$ time go build prime.go
CPU: 0.11s Real: 0.12s RAM: 30364KB
$ time ./prime
CPU: 2.48s Real: 2.49s RAM: 20412KB
$ javac -version
javac 1.7.0_75
$ time javac prime.java
CPU: 0.73s Real: 0.44s RAM: 47464KB
$ time java prime
CPU: 1.21s Real: 1.18s RAM: 104580KB
$ javac -version
javac 1.8.0_40
$ time javac prime.java
CPU: 0.96s Real: 0.45s RAM: 59860KB
$ time java prime
CPU: 1.23s Real: 1.19s RAM: 104716KB
$ ruby --version
ruby 2.1.5p273 (2014-11-13 revision 48405) [x86_64-linux]
$ time ruby prime.rb
CPU: 20.97s Real: 20.99s RAM: 14388KB
$ rbx --version
rubinius 2.5.2.c85 (2.1.0 e8a24276 2015-02-23 3.5.1 JI) [x86_64-linux-gnu]
$ time rbx prime.rb
CPU: 14.20s Real: 14.15s RAM: 54004KB
$ jruby --version
jruby 9.0.0.0-SNAPSHOT (2.2.0p0) 2015-02-24 2a3dc1f OpenJDK 64-Bit Server VM 24.75-b04 on 1.7.0_75-b13 +jit [linux-amd64]
$ time jruby prime.rb
CPU: 38.79s Real: 36.41s RAM: 298688KB
$ node --version
v0.10.36
$ time node prime.js
CPU: 1.61s Real: 1.62s RAM: 24796KB
$ pacman -Qo `which jsc-3`
/usr/bin/jsc-3 is owned by webkitgtk 2.4.8-1
$ time jsc-3 prime.js
CPU: 2.30s Real: 2.31s RAM: 22008KB
$ js24 --help| grep Version
Version: JavaScript-C24.2.0
$ time js24 prime.js
CPU: 1.19s Real: 1.24s RAM: 15488KB
$ echo | rhino
Rhino 1.7 release 4 2014 07 01
$ time rhino prime.js
CPU: 56.23s Real: 55.72s RAM: 873048KB
$ echo | jjs -version
nashorn 1.8.0_40
$ time jjs prime.js
CPU: 23.36s Real: 22.28s RAM: 448144KB
$ php --version
PHP 5.6.5 (cli) (built: Jan 22 2015 18:29:09)
$ time php prime.php
CPU: 36.70s Real: 36.77s RAM: 111488KB
$ hhvm --version
HipHop VM 3.5.0 (rel) Compiler: 1422366928_067131079
$ time hhvm -v Eval.Jit=true prime.php
CPU: 5.92s Real: 11.14s RAM: 98288KB
$ python --version
Python 3.4.2
$ time python prime.py
CPU: 78.33s Real: 78.51s RAM: 33476KB
$ pypy --version
Python 2.7.8 (10f1b29a2bd2, Feb 05 2015, 16:50:17) [PyPy 2.5.0 with GCC 4.9.2 20141224 (prerelease)]
$ time pypy prime.py
CPU: 3.66s Real: 4.14s RAM: 84180KB
$ lua -v
Lua 5.2.3 Copyright (C) 1994-2013 Lua.org, PUC-Rio
$ time lua prime.lua
CPU: 22.16s Real: 22.19s RAM: 18628KB
$ luajit -v
LuaJIT 2.0.3 -- Copyright (C) 2005-2014 Mike Pall. http://luajit.org/
$ time luajit prime.lua
CPU: 6.64s Real: 6.65s RAM: 10360KB
$ mcs --version
Mono C# compiler version 3.12.0.0
$ time mcs prime.cs
CPU: 0.35s Real: 0.36s RAM: 39704KB
$ time mono prime.exe
CPU: 1.78s Real: 1.79s RAM: 16368KB
$ dart --version
Dart VM version: 1.8.5 (Tue Jan 13 12:44:14 2015) on "linux_x64"
$ time dart prime.dart
CPU: 1.37s Real: 1.38s RAM: 31604KB
$ crystal --version
Crystal 0.6.1 [0162f84] (Mon Mar 16 15:22:20 UTC 2015)
$ time crystal prime.cr
CPU: 2.53s Real: 2.62s RAM: 28552KB
$ time crystal prime.cr --release
CPU: 1.18s Real: 1.23s RAM: 36784KB
$ julia --version
julia version 0.3.6
$ time julia prime.jl
CPU: 3.09s Real: 3.12s RAM: 71576KB
$ nim --version
Nim Compiler Version 0.10.2 (2014-12-31) [Linux: amd64]
$ time nim c prime.nim
CPU: 0.66s Real: 0.69s RAM: 44728KB
$ time ./prime
CPU: 7.65s Real: 7.67s RAM: 12224KB
$ time nim c -d:release prime.nim
CPU: 1.36s Real: 1.36s RAM: 55376KB
$ time ./prime
CPU: 2.44s Real: 2.45s RAM: 12160KB
$ rustc --version
rustc 1.0.0-dev (built 2015-02-23)
$ time rustc prime.rs
CPU: 0.36s Real: 1.76s RAM: 95960KB
$ time ./prime
CPU: 3.75s Real: 3.76s RAM: 6196KB
$ time rustc -O prime.rs
CPU: 0.34s Real: 0.38s RAM: 96764KB
$ time ./prime
CPU: 1.03s Real: 1.04s RAM: 6224KB
$ gnatmake --version
GNATMAKE 4.9.2 20150304 (prerelease)
$ time gnatmake prime.adb
CPU: 0.40s Real: 0.44s RAM: 51540KB
$ time ./prime
CPU: 5.85s Real: 5.86s RAM: 5488KB
$ rm prime prime.o prime.ali; time gnatmake -O2 prime.adb
CPU: 0.86s Real: 0.91s RAM: 57084KB
$ time ./prime
CPU: 1.27s Real: 1.27s RAM: 5348KB
$ fpc -version
Free Pascal Compiler version 2.6.4 [2014/03/12] for x86_64
$ time fpc prime.pas
CPU: 0.01s Real: 0.02s RAM: 10636KB
$ time ./prime
CPU: 3.42s Real: 3.42s RAM: 6688KB
$ time fpc -O2 prime.pas
CPU: 0.01s Real: 0.02s RAM: 10568KB
$ time ./prime
CPU: 3.00s Real: 3.02s RAM: 6688KB
$ gnatmake --version
GNATMAKE 4.9.2 20150304 (prerelease)
$ time gnatmake prime.adb
CPU: 0.40s Real: 0.44s RAM: 51540KB
$ time ./prime
CPU: 5.85s Real: 5.86s RAM: 5488KB
$ rm prime prime.o prime.ali; time gnatmake -O2 prime.adb
CPU: 0.86s Real: 0.91s RAM: 57084KB
$ time ./prime
CPU: 1.27s Real: 1.27s RAM: 5348KB
$ fpc -version
Free Pascal Compiler version 2.6.4 [2014/03/12] for x86_64
$ time fpc prime.pas
CPU: 0.01s Real: 0.02s RAM: 10636KB
$ time ./prime
CPU: 3.42s Real: 3.42s RAM: 6688KB
$ time fpc -O2 prime.pas
CPU: 0.01s Real: 0.02s RAM: 10568KB
$ time ./prime
CPU: 3.00s Real: 3.02s RAM: 6688KB
Compiler / Interpreter | Language | Compile Duration | Compile RAM | Runtime Duration | Runtime RAM | Total Duration |
g++ | C++ | 200 | 50232 | 2940 | 6592 | 3140 |
g++ (-O2) | C++ | 210 | 51912 | 850 | 6616 | 1060 |
clang++ | C++ | 190 | 46792 | 2930 | 6488 | 3120 |
clang++ (-O2) | C++ | 200 | 50484 | 840 | 6636 | 1040 |
go | Go | 110 | 30364 | 2480 | 20412 | 2590 |
javac, java | Java | 730 | 47464 | 1210 | 104580 | 1940 |
ruby | Ruby | 20970 | 14388 | 20970 | ||
rbx | Ruby | 14200 | 54004 | 14200 | ||
jruby | Ruby | 38790 | 298688 | 38790 | ||
node | JavaScript | 1610 | 24796 | 1610 | ||
jsc-3 | JavaScript | 2300 | 22008 | 2300 | ||
js24 | JavaScript | 1190 | 15488 | 1190 | ||
rhino | JavaScript | 56230 | 873048 | 56230 | ||
jjs | JavaScript | 23360 | 448144 | 23360 | ||
php | PHP | 36700 | 111488 | 36700 | ||
hhvm | PHP | 5920 | 98288 | 5920 | ||
python3 | Python 3 | 78330 | 33476 | 78330 | ||
pypy | Python 2 | 3660 | 84180 | 3660 | ||
lua | Lua | 22160 | 18628 | 22160 | ||
luajit | Lua | 6640 | 10360 | 6640 | ||
mcs | C# | 350 | 39704 | 1780 | 16368 | 2130 |
dart | Dart | 1370 | 31604 | 1370 | ||
crystal | Crystal | 2530 | 28552 | 2530 | ||
crystal (--release) | Crystal | 1180 | 36784 | 1180 | ||
julia | Julia | 3090 | 71576 | 3090 | ||
nim | Nimrod | 660 | 44728 | 7650 | 12224 | 8310 |
nim (-d:release) | Nimrod | 1360 | 55376 | 2440 | 12160 | 3800 |
rustc | Rust | 360 | 95960 | 3750 | 6196 | 4110 |
rustc (-O) | Rust | 340 | 96764 | 1030 | 6224 | 1370 |
gnatmake | Ada | 400 | 51540 | 5850 | 5488 | 6250 |
gnatmake (-O2) | Ada | 860 | 57084 | 1270 | 5348 | 2130 |
fpc | ObjectPascal | 10 | 10636 | 3420 | 6688 | 3430 |
fpc (-O2) | ObjectPascal | 10 | 10568 | 3000 | 6688 | 3010 |
Note #1: PH7 failed to give any output within 1 minute.
Note #2: IO failed to give complete output within 2 minutes.
Note #3: Nimrod caches the compile process, so the second time compile are less than 100ms
Note #4: Potion failed to give complete output within 2 minutes.
Note #5: Gnatmake caches the compile process, so the second time compile are less than 10ms, but it doesn't overwrite when different flag used (-O2 for example).
Note #6: Some languages can be compiled, and some other can be executed directly using certain command, but I choose one that I learned first (but I will benchmark both method when I have much free time)
Note #7: Compile cache deleted before every (3) benchmark run, the value taken are the median.
2015-03-03: benchmark published
2015-03-xx: Lua, C# (mcs), and Dart added
2015-03-17: Crystal, Julia, and Nimrod (nim) added
2015-03-18: ObjectPascal (fpc), Ada (gnat), and Nashorn (jjs) added
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