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refactor: nkatago -> ngochess

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重构gtp引擎
暂时放弃katago引擎(后续修复)
main v1.3.0
NoahLan 11 months ago
parent 0dda8560d2
commit 20e9de7583
30 changed files with 2242 additions and 671 deletions
Show Stats Download Patch File Download Diff File

2
go.mod
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@ -6,7 +6,7 @@ require (
ariga.io/entcache v0.1.0
entgo.io/ent v0.12.3
git.noahlan.cn/noahlan/nnet v1.2.7
git.noahlan.cn/noahlan/ntool v1.1.10
git.noahlan.cn/noahlan/ntool v1.2.4
github.com/BurntSushi/toml v1.3.2
github.com/Shopify/sarama v1.38.1
github.com/casbin/casbin/v2 v2.71.0

10
go.sum
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@ -22,6 +22,16 @@ git.noahlan.cn/noahlan/nnet v1.2.7 h1:dE6qMnQGy3SJXCCEAX8bMjkhS8+iZfTh1cB09gQq5X
git.noahlan.cn/noahlan/nnet v1.2.7/go.mod h1:rCmGIUFEu0Vhi0azXiTwenmE+cQiW5qTvm1boD4IEYk=
git.noahlan.cn/noahlan/ntool v1.1.10 h1:78ntTd71v+25ejEAxHHb0NrZCIwLISo9aLoZIbB3Cj8=
git.noahlan.cn/noahlan/ntool v1.1.10/go.mod h1:pzoXErnQDLaHhvEHOGDoINf5VP1MDiU8NAcnaMEhxa4=
git.noahlan.cn/noahlan/ntool v1.2.0 h1:kKmDJg0jQCjgEPQM+e1PVF0pwq2gK3sazCJArEiSVEY=
git.noahlan.cn/noahlan/ntool v1.2.0/go.mod h1:pzoXErnQDLaHhvEHOGDoINf5VP1MDiU8NAcnaMEhxa4=
git.noahlan.cn/noahlan/ntool v1.2.1 h1:0nHyQZzz78TrD9GPXzJA9DsL41/c1Q1x8rWqqngMLww=
git.noahlan.cn/noahlan/ntool v1.2.1/go.mod h1:pzoXErnQDLaHhvEHOGDoINf5VP1MDiU8NAcnaMEhxa4=
git.noahlan.cn/noahlan/ntool v1.2.2 h1:8zXkAvrwyO2NhqhjxPRafwIhlQ3ikWs3A2hi+KjDalo=
git.noahlan.cn/noahlan/ntool v1.2.2/go.mod h1:pzoXErnQDLaHhvEHOGDoINf5VP1MDiU8NAcnaMEhxa4=
git.noahlan.cn/noahlan/ntool v1.2.3 h1:OuDEwg8LRu4dbHWJobG0IM4Z/U9nxscBrVRolFgAsAA=
git.noahlan.cn/noahlan/ntool v1.2.3/go.mod h1:pzoXErnQDLaHhvEHOGDoINf5VP1MDiU8NAcnaMEhxa4=
git.noahlan.cn/noahlan/ntool v1.2.4 h1:gqFOiaxaXnnQDpYuCL9ipr9Xz0+2H3/Csy6q+0TFze0=
git.noahlan.cn/noahlan/ntool v1.2.4/go.mod h1:pzoXErnQDLaHhvEHOGDoINf5VP1MDiU8NAcnaMEhxa4=
github.com/BurntSushi/toml v0.3.1/go.mod h1:xHWCNGjB5oqiDr8zfno3MHue2Ht5sIBksp03qcyfWMU=
github.com/BurntSushi/toml v1.0.0/go.mod h1:CxXYINrC8qIiEnFrOxCa7Jy5BFHlXnUU2pbicEuybxQ=
github.com/BurntSushi/toml v1.3.2 h1:o7IhLm0Msx3BaB+n3Ag7L8EVlByGnpq14C4YWiu/gL8=

11
ngochess/README.md
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@ -0,0 +1,11 @@
# N-GTP
A golang package for handling GTP engine, (such as Katago. etc.), supporting analysis mode.
一个`Golang`编写的`围棋`工具包,支持通用`GTP 引擎`(如:`Katago`,`gnugo`),支持分析模式。
## 安装
## 使用

109
ngochess/engine_analysis.go
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package ngochess
//
//var (
// analStartupDecidedFunc cmdn.LineFunc = func(sb *strings.Builder, line string) bool {
// return strings.Contains(line, "Started, ready to begin handling requests")
// }
// analEndLineDecidedFunc cmdn.LineFunc = func(sb *strings.Builder, line string) bool {
// return nstr.IsJSON(sb.String())
// }
// analReadIDFunc cmdn.ReadIDFunc = func(serializer ndef.Serializer, data string) (string, error) {
// var s struct {
// ID string `json:"id"`
// }
// err := serializer.Unmarshal([]byte(data), &s)
// if err != nil {
// return "", err
// }
// return s.ID, nil
// }
//)
//
//type AnalysisEngine struct {
// *KatagoEngine
//}
//
//// NewAnalysisEngine 创建Analysis引擎
//func NewAnalysisEngine(name string, args ...string) (*AnalysisEngine, error) {
// engine := &AnalysisEngine{KatagoEngine: &KatagoEngine{
// Processor: cmdn.NewProcessor(
// false,
// cmdn.WithSerializer(njson.NewJsonSerializer()),
// cmdn.WithStartupDecidedFunc(analStartupDecidedFunc),
// cmdn.WithEndLineDecidedFunc(analEndLineDecidedFunc),
// cmdn.WithReadIDFunc(analReadIDFunc),
// ),
// Name: name,
// Mode: EngineAnalysis,
// }}
// err := engine.Processor.Run(name, args...)
// return engine, err
//}
//
//// Query 分析查询
//func (eng *AnalysisEngine) Query(req *req.AnalQueryReq, callback func(queryResp *resp.AnalQueryResp)) error {
// if len(req.ID) == 0 {
// req.ID = nrandom.SnowflakeIdStr()
// }
// return eng.Processor.Exec(req, func(serializer ndef.Serializer, data string) {
// var tmp resp.AnalQueryResp
// tmp.Err = serializer.Unmarshal([]byte(data), &tmp)
//
// callback(&tmp)
// })
//}
//
//// QueryVersion 查询版本号
//func (eng *AnalysisEngine) QueryVersion(callback func(versionResp *resp.AnalQueryVersionResp)) error {
// return eng.Processor.Exec(&req.AnalQueryActionReq{
// ID: nrandom.SnowflakeIdStr(),
// Action: req.AnalActionQueryVersion,
// }, func(serializer ndef.Serializer, data string) {
// var tmp resp.AnalQueryVersionResp
// tmp.Err = serializer.Unmarshal([]byte(data), &tmp)
// callback(&tmp)
// })
//}
//
//// ClearCache 清除缓存
//func (eng *AnalysisEngine) ClearCache(callback func(cacheResp *resp.AnalClearCacheResp)) error {
// return eng.Processor.Exec(&req.AnalQueryActionReq{
// ID: nrandom.SnowflakeIdStr(),
// Action: req.AnalActionClearCache,
// }, func(serializer ndef.Serializer, data string) {
// var tmp resp.AnalClearCacheResp
// tmp.Err = serializer.Unmarshal([]byte(data), &tmp)
// callback(&tmp)
// })
//}
//
//// Terminate 终止某次分析
//// terminateId: 分析轮次ID
//// turnNumbers: 需要终止分析的回合数(手数),可空:所有回合
//func (eng *AnalysisEngine) Terminate(terminateId string, turnNumbers []int32, callback func(terminateResp *resp.AnalTerminateResp)) error {
// return eng.Processor.Exec(&req.AnalQueryActionReq{
// ID: nrandom.SnowflakeIdStr(),
// Action: req.AnalActionTerminate,
// TerminateId: terminateId,
// TurnNumbers: turnNumbers,
// }, func(serializer ndef.Serializer, data string) {
// var tmp resp.AnalTerminateResp
// tmp.Err = serializer.Unmarshal([]byte(data), &tmp)
// callback(&tmp)
// })
//}
//
//// TerminateAll 终止所有分析
//// turnNumbers: 需要终止所有分析轮次的回合数,可空:所有回合
//func (eng *AnalysisEngine) TerminateAll(turnNumbers []int32, callback func(allResp *resp.AnalTerminateAllResp)) error {
// return eng.Processor.Exec(&req.AnalQueryActionReq{
// ID: nrandom.SnowflakeIdStr(),
// Action: req.AnalActionTerminateAll,
// TurnNumbers: turnNumbers,
// }, func(serializer ndef.Serializer, data string) {
// var tmp resp.AnalTerminateAllResp
// tmp.Err = serializer.Unmarshal([]byte(data), &tmp)
// callback(&tmp)
// })
//}

168
ngochess/engine_gtp.go
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@ -0,0 +1,168 @@
package ngochess
//
//import (
// "fmt"
// "git.noahlan.cn/noahlan/ntool-biz/nkatago/codec"
// "git.noahlan.cn/noahlan/ntool-biz/nkatago/req"
// "git.noahlan.cn/noahlan/ntool-biz/nkatago/resp"
// "git.noahlan.cn/noahlan/ntool/ndef"
// "git.noahlan.cn/noahlan/ntool/nsys/cmdn"
// "strings"
//)
//
//var (
// gtpStartupDecidedFunc cmdn.LineFunc = func(sb *strings.Builder, line string) bool {
// return strings.Contains(line, "GTP ready")
// }
// gtpEndLineDecidedFunc cmdn.LineFunc = func(sb *strings.Builder, line string) bool {
// return len(line) == 0
// }
// gtpReadIDFunc cmdn.ReadIDFunc = func(serializer ndef.Serializer, data string) (string, error) {
// return "", nil
// }
//)
//
//type GtpEngine struct {
// *KatagoEngine
//
// lastID string
//}
//
//// NewGtpEngine 创建GTP引擎
//func NewGtpEngine(name string, args ...string) (*GtpEngine, error) {
// engine := &GtpEngine{KatagoEngine: &KatagoEngine{
// Processor: cmdn.NewProcessor(
// true,
// cmdn.WithSerializer(codec.NewGtpSerializer()),
// cmdn.WithStartupDecidedFunc(gtpStartupDecidedFunc),
// cmdn.WithEndLineDecidedFunc(gtpEndLineDecidedFunc),
// cmdn.WithReadIDFunc(gtpReadIDFunc),
// ),
// Name: name,
// Mode: EngineGTP,
// }}
// err := engine.Processor.Run(name, args...)
// return engine, err
//}
//
//func (eng *GtpEngine) ID(id string) {
// eng.lastID = id
//}
//
//// Exec 同步方式自定义命令
//func (eng *GtpEngine) Exec(id, cmd string) (*resp.GtpResponse, error) {
// cmds := strings.Fields(cmd)
//
// ret := resp.NewGtpResponse(cmds[0])
// err := eng.Processor.ExecAsync(req.NewGtpReq(id, cmd, cmds[1:]...), func(serializer ndef.Serializer, data string) {
// ret.Err = serializer.Unmarshal([]byte(data), ret)
// })
// return ret, err
//}
//
//// KnowCommand 判断命令是否支持
//func (eng *GtpEngine) KnowCommand(cmd string) bool {
// value, err := eng.Exec(eng.lastID, "known_command "+cmd)
// if err != nil {
// return false
// }
// if strings.ToLower(strings.TrimSpace(value.Content)) != "true" {
// return false
// }
// return true
//}
//
//// Komi 设置贴目
//func (eng *GtpEngine) Komi(komi float64) (*resp.GtpResponse, error) {
// return eng.Exec(eng.lastID, fmt.Sprintf("komi %v", komi))
//}
//
//// BoardSize 设置棋盘大小
//func (eng *GtpEngine) BoardSize(size int) (*resp.GtpResponse, error) {
// return eng.Exec(eng.lastID, fmt.Sprintf("boardsize %v", size))
//}
//
//// GenMove AI落子
//func (eng *GtpEngine) GenMove(color string) (*resp.GtpResponse, error) {
// color = strings.ToUpper(color)
// command := "genmove " + color
// return eng.Exec(eng.lastID, command)
//}
//
//// Play 手工落子
//func (eng *GtpEngine) Play(color, coor string) (*resp.GtpResponse, error) {
// color = strings.ToUpper(color)
// return eng.Exec(eng.lastID, fmt.Sprintf("play %s %s", color, coor))
//}
//
//// LoadSgf 加载SGF文件
//func (eng *GtpEngine) LoadSgf(file string) (*resp.GtpResponse, error) {
// command := fmt.Sprintf("loadsgf %s", file)
// return eng.Exec(eng.lastID, command)
//}
//
//// FinalStatusList 获取当前盘面形势判断
//func (eng *GtpEngine) FinalStatusList(cmd string) (*resp.GtpResponse, error) {
// command := fmt.Sprintf("final_status_list %s", cmd)
// return eng.Exec(eng.lastID, command)
//}
//
//// SetLevel 设置AI级别
//func (eng *GtpEngine) SetLevel(seed int) (*resp.GtpResponse, error) {
// command := fmt.Sprintf("level %d", seed)
// return eng.Exec(eng.lastID, command)
//}
//
//// SetRandomSeed 设置AI随机数
//func (eng *GtpEngine) SetRandomSeed(seed int) (*resp.GtpResponse, error) {
// command := fmt.Sprintf("set_random_seed %d", seed)
// return eng.Exec(eng.lastID, command)
//}
//
//// ShowBoard 显示棋盘
//func (eng *GtpEngine) ShowBoard() (*resp.GtpResponse, error) {
// return eng.Exec(eng.lastID, "showboard")
//}
//
//// ClearBoard 清空棋盘
//func (eng *GtpEngine) ClearBoard() (*resp.GtpResponse, error) {
// return eng.Exec(eng.lastID, "clear_board")
//}
//
//// PrintSgf 打印SGF
//func (eng *GtpEngine) PrintSgf() (*resp.GtpResponse, error) {
// return eng.Exec(eng.lastID, "printsgf")
//}
//
//// TimeSetting 设置时间规则
//func (eng *GtpEngine) TimeSetting(baseTime, byoTime, byoStones int) (*resp.GtpResponse, error) {
// return eng.Exec(eng.lastID, fmt.Sprintf("time_settings %d %d %d", baseTime, byoTime, byoStones))
//}
//
//// KGSTimeSetting 设置KGS time
//func (eng *GtpEngine) KGSTimeSetting(mainTime, readTime, readLimit int) (*resp.GtpResponse, error) {
// return eng.Exec(eng.lastID, fmt.Sprintf("kgs-time_settings byoyomi %d %d %d", mainTime, readTime, readLimit))
//}
//
//// FinalScore 获取结果
//func (eng *GtpEngine) FinalScore() (*resp.GtpResponse, error) {
// return eng.Exec(eng.lastID, "final_score")
//}
//
//// Undo 悔棋
//func (eng *GtpEngine) Undo() (*resp.GtpResponse, error) {
// return eng.Exec(eng.lastID, "undo")
//}
//
//// TimeLeft 设置时间
//func (eng *GtpEngine) TimeLeft(color string, mainTime, stones int) (*resp.GtpResponse, error) {
// return eng.Exec(eng.lastID, fmt.Sprintf("time_left %s %d %d", color, mainTime, stones))
//}
//
//// Quit 退出
//func (eng *GtpEngine) Quit() (*resp.GtpResponse, error) {
// r, err := eng.Exec(eng.lastID, "quit")
// err = eng.Processor.Stop()
// return r, err
//}

674
ngochess/examples/gnugo/COPYING
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GNU GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <http://fsf.org/>
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
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How to Apply These Terms to Your New Programs
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state the exclusion of warranty; and each file should have at least
the "copyright" line and a pointer to where the full notice is found.
<one line to give the program's name and a brief idea of what it does.>
Copyright (C) <year> <name of author>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
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(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
<program> Copyright (C) <year> <name of author>
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
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You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<http://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<http://www.gnu.org/philosophy/why-not-lgpl.html>.

244
ngochess/examples/gnugo/README
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GNU Go
This is GNU Go, a Go program. Development versions of GNU Go may be
found at http://www.gnu.org/software/gnugo/devel.html. Consult TODO if
you are interested in helping.
Installation
In short, './configure; make' will build GNU Go; optionally (running
as root) 'make install' will put it into /usr/local/bin and also
install the man page. You also will probably want to install CGoban.
See INSTALL for details.
Documentation
User documentation can be obtained by running 'gnugo --help' or 'man
gnugo' from any terminal.
Texinfo documentation includes instructions for users as well as
documentation of GNU Go's algorithms and functions for programmers and
developers. Use an info reader or emacs to read the info files, or run
`make gnugo.dvi' or `make gnugo.ps' in the doc/ directory to get
printed documentation. You can also make html documentation from the
Texinfo files. One method of making html documentation is to run the
command 'makeinfo --html gnugo.texi' in the doc/ directory.
Contact us at gnugo@gnu.org if you are interested in helping to
develop this program.
Running GNU Go via CGoban
This is an extremely nice way to run GNU Go. CGoban provides a
beautiful graphic user interface under X Window System.
Start CGoban. When the CGoban Control panel comes up, select ``Go
Modem''. You will get the Go Modem Protocol Setup. Choose one (or
both) of the players to be ``Program,'' and fill out the box with the
path to gnugo. After clicking OK, you get the Game Setup window.
Choose ``Rules Set'' to be Japanese (otherwise handicaps won't work).
Set the board size and handicap if you want. Click OK and you are
ready to go.
In the Go Modem Protocol Setup window, when you specify the path to
GNU Go, you can give it command line options, such as --quiet to
suppress most messages. Since the Go Modem Protocol preempts standard
I/O other messages are sent to stderr, even if they are not error
messages. These will appear in the terminal from which you started
CGoban.
If you want to play with a komi, you should bear in mind that
the GMP does not have any provision for communicating the komi.
Because of this misfeature, unless you set the komi at the command
line GNU Go will have to guess it. It assumes the komi is 5.5 for
even games, 0.5 for handicap games. If this is not what you want,
you can specify the komi at the command line with the --komi
option, in the Go Modem Protocol Setup window. You have to set
the komi again in the Game Setup window, which comes up next.
Click OK and you are ready to go.
Other command line options can be listed by typing 'gnugo --help'
-or- 'man gnugo' from any terminal, or by consulting the Texinfo
documentation.
Ascii Interface
Even if you do not have CGoban installed you can play with GNU Go
using its default Ascii interface. Simply type `gnugo' at the command
line, and GNU Go will draw a board. Typing `help' will give a list of
options. At the end of the game, pass twice, and GNU Go will prompt you
through the counting. You and GNU Go must agree on the dead groups--you
can toggle the status of groups to be removed, and when you are done,
GNU Go will report the score.
GNU Go mode in Emacs
You can run GNU Go from Emacs. This has the advantage that you place
the stones using the cursor arrow keys. This requires Emacs 20.4 or
later. (Tested with Emacs 20.4. Does not work with 20.2.)
Load `interface/gnugo.el', either by `M-x load-file', or by adding a
line
(autoload 'gnugo "gnugo" "GNU Go" t)
in your `.emacs' file. Now you may start GNU Go by `M-x gnugo'. You
will be prompted for command line options *note Invoking GNU Go::.
Using these, you may set the handicap, board size, color and komi.
You can enter commands from the GNU Go ASCII interface after
typing `:'. For example, to take a move back, type `:back', or
to list all commands, type `:help'.
Here are the default keybindings:
* `Return' or `Space'
Select point as the next move. An error is signalled for
invalid locations. Illegal locations, on the other hand,
show up in the GNU Go Console buffer.
* `q' or `Q'
Quit. Both Board and Console buffers are deleted.
* `R'
Resign.
* `C-l'
Refresh. Includes restoring default window configuration.
* `M-_'
Bury both Board and Console buffers (when the boss is near).
* `p'
Pass; i.e., select no location for your move.
* `:'
Extended command. Type in a string to be passed directly to
the inferior GNU Go process."
Running GNU Go via Jago
Jago, like CGoban is a client capable of providing GNU Go with a
graphical user interface. Unlike CGoban, it does not require
X Window System, so it is an attractive alternative under Windows.
You will need a Java Runtime Environment. Obtain Jago at
http://www.rene-grothmann.de/jago and follow the links there for the
Java Runtime Environment.
Go Modem Protocol
The Go Modem Protocol was developed by Bruce Wilcox with input from
David Fotland, Anders Kierulf and others, according to the history in
ftp://www.joy.ne.jp/welcome/igs/Go/programs/protocol.Z . Any Go
program *should* use this protocol since it is standard. Since CGoban
supports this protocol, the user interface for any Go program can be
done entirely through CGoban. The programmer can concentrate on the
real issues without worrying about drawing stones, resizing the board
and other distracting issues.
Options
A few options are described here. A more complete list
may be found in the Texinfo documentation, or by running
gnugo --help.
* `--help', `-h'.
Print a help message describing the options. This will also
tell you the defaults of various parameters, most importantly
the level and cache size. The default values of these
parameters can be set before compiling by `configure'. If
you forget the defaults you can find out using `--help'.
* `--level LEVEL'
GNU Go can play with different strengths and speeds. Level 10
is the default. Decreasing the level will make GNU Go faster
but less accurate in its reading.
* `--quiet', `--silent'
Don't print copyright and other messages. Messages
specifically requested by other command line options, such as
`--trace', are not supressed.
* `-l', `--infile FILENAME'
Load the named SGF file
* `-L', `--until MOVE'
Stop loading just before the indicated move is played. MOVE
can be either the move number or location.
* `-o', `--outfile FILENAME'
Write sgf output to file
* `--mode MODE'
Force the playing mode ('ascii', 'gmp' or 'gtp'). The
default is ASCII, but if no terminal is detected GMP (Go
Modem Protocol) will be assumed. In practice this is usually
what you want, so you may never need this option.
* `-M', `--cache-size MEGS'
Memory in megabytes used for hashing. The default size is 8
unless you configure gnugo with the command `configure
--enable-cache-size=SIZE' before compiling to make SIZE
the default.
* `--chinese-rules'
Use Chinese counting.
* `--japanese-rules'
Use Japanese Rules. This is the default unless you specify
`--enable-chinese-rules' as a configure option.
* `--copyright': Display the copyright notice
* `--version' or `-v': Print the version number
* `--printsgf FILENAME': Create an SGF file containing a diagram of
the board. Useful with `-L' to create diagrams from games.
Copyrights and License
All files Copyright 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006,
2007, 2008 and 2009 by the Free Software Foundation except as noted below.
All files are under the GNU General Public License, which may be
found in the file COPYING, with the following exceptions.
* The files interface/gtp.c and gtp.h are copyright 2001 by
the Free Software Foundation. In the interests of promoting
the Go Text Protocol these two files are licensed under a less
restrictive license than the GPL and are free for unrestricted use.
The GTP license appears in each file.
* The files gmp.c and gmp.h are copyright Bill Shubert. These
are free for unrestricted use.
* The files regression/golois/* and the tests vie.tst, connect.tst,
capture.tst and global.tst are copyright Tristan Cazenave and are
used with his permission
* The SGF files in regression/games/handtalk are copyright Jessie Annala
and are used with permission.
* The SGF files in regression/games/mertin13x13 are copyright Stefan
Mertin and are used with permission.
* The remaining SGF files are either copyright by the FSF or are in
the public domain.

12
ngochess/examples/gnugo/run.bat
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@echo off
set level=10
set dir=.\
if not "%1"=="" set level=%~1
if not "%2"=="" set dir=%~2
set dir=%~dp0%dir%
cd %dir%
gnugo.exe --mode=gtp --level=%level% --chinese-rules

150
ngochess/examples/test.go
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package main
import (
"fmt"
"git.noahlan.cn/noahlan/ntool-biz/ngochess/gtp"
"sync"
"time"
)
var (
gtpName = "ngochess\\examples\\gnugo\\gnugo.exe"
gtpArgs = []string{"--mode=gtp", "--chinese-rules", "--quiet"}
gtp1 = [][]string{
{"B", "L10"}, {"W", "K4"}, {"B", "D4"}, {"W", "D10"}, {"B", "C11"},
{"W", "C10"}, {"B", "D11"}, {"W", "E11"}, {"B", "E12"}, {"W", "F11"},
{"B", "F12"}, {"W", "G11"}, {"B", "E9"}, {"W", "E10"}, {"B", "B10"},
{"W", "B9"}, {"B", "A11"}, {"W", "F3"}, {"B", "D9"}, {"W", "C9"},
{"B", "D7"}, {"W", "C6"}, {"B", "C8"}, {"W", "B8"}, {"B", "C7"},
{"W", "D6"}, {"B", "B7"}, {"W", "B6"}, {"B", "E6"}, {"W", "E5"},
{"B", "F6"}, {"W", "A7"}, {"B", "E8"}, {"W", "F5"}, {"B", "C3"},
{"W", "F7"}, {"B", "F8"}, {"W", "G7"}, {"B", "E7"}, {"W", "G8"},
}
gtp2 = [][]string{
{"B", "L11"}, {"W", "D4"}, {"B", "K3"}, {"W", "D10"}, {"B", "C8"},
{"W", "C6"}, {"B", "E8"}, {"W", "F10"}, {"B", "B10"}, {"W", "C11"},
{"B", "B11"}, {"W", "B12"}, {"B", "C10"}, {"W", "D11"}, {"B", "D9"},
{"W", "J11"}, {"B", "K10"}, {"W", "H9"}, {"B", "D6"}, {"W", "D5"},
{"B", "E6"}, {"W", "F4"}, {"B", "B4"}, {"W", "B5"}, {"B", "C4"},
{"W", "C5"}, {"B", "C2"}, {"W", "D2"}, {"B", "D3"}, {"W", "E3"},
{"B", "C3"}, {"W", "E2"}, {"B", "A2"}, {"W", "B1"}, {"B", "H3"},
{"W", "L5"}, {"B", "L4"}, {"W", "J5"}, {"B", "L6"}, {"W", "K6"},
}
)
func testSingleGtpEngine() {
gtpEngine := gtp.NewGtpEngine(gtp.WithDevMode(true), gtp.WithTimeout(10*time.Second))
gtpEngine.Start(gtpName, gtpArgs...)
gtpEngine.SetLevel(10)
if !gtpEngine.Sync(13, 6.5, []string{}, gtp2) {
return
}
if winner, score, ok := gtpEngine.FinalScore(); ok {
fmt.Printf("win: %s, score: %.2f\n", winner, score)
}
}
func testMultipleGtpEngines() {
container := gtp.NewGtpEngineContainer(&gtp.Options{
DevMode: true,
MaxMessageId: 999,
Timeout: 10 * time.Second,
})
ngin1 := container.GetById(1)
ngin1.StartSafe(gtpName, gtpArgs...)
ngin2 := container.GetById(2)
ngin2.StartSafe(gtpName, gtpArgs...)
testNgin := func(ngin *gtp.GtpEngine, plays [][]string) {
ngin.SetLevel(1)
if !ngin.Sync(13, 6.5, []string{}, plays) {
return
}
if winner, score, ok := ngin.FinalScore(); ok {
fmt.Printf("win: %s, score: %.2f\n", winner, score)
}
}
testNgin(ngin1, gtp1)
testNgin(ngin2, gtp2)
}
func main() {
//testSingleGtpEngine()
testMultipleGtpEngines()
var wg sync.WaitGroup
wg.Add(1)
wg.Wait()
}
//
//func testGTPEngine() {
// engine, err := ngochess.NewGtpEngine(".\\run.bat")
// if err != nil {
// panic(err)
// }
//
// r, err := engine.BoardSize(1)
// if err != nil {
// panic(err)
// }
// fmt.Println(r)
//}
//
//func testAnalEngine() {
// eng, err := ngochess.NewAnalysisEngine(".\\run_analysis.bat")
// if err != nil {
// panic(err)
// }
//
// var wg sync.WaitGroup
//
// wg.Add(1)
// err = eng.QueryVersion(func(versionResp *resp.AnalQueryVersionResp) {
// fmt.Println(fmt.Sprintf("查询到版本git_hash:%s version:%s", versionResp.GitHash, versionResp.Version))
// wg.Done()
// })
// if err != nil {
// panic(err)
// }
//
// queryReq := &req.AnalQueryReq{
// Rules: "chinese",
// Komi: 6.5,
// BoardXSize: 9,
// BoardYSize: 9,
// AnalyzeTurns: []int32{2},
// }
// queryReq.AddInitialStone("B", "A1")
// queryReq.AddInitialStone("B", "A2")
//
// queryReq.AddMove("W", "B3")
// queryReq.AddMove("B", "C5")
//
// wg.Add(1)
// err = eng.Query(queryReq, func(queryResp *resp.AnalQueryResp) {
// moveInfo := queryResp.MoveInfos[0]
// fmt.Println(fmt.Sprintf("当前玩家:%s, 建议移动:%s, 此步移动的建议后续: %v, 胜率:%f, 直觉优先级:%d 预测平均分: %f",
// queryResp.RootInfo.CurrentPlayer,
//
// moveInfo.Move,
// moveInfo.PV,
// moveInfo.WinRate,
// moveInfo.Order,
// moveInfo.ScoreMean,
// ))
// wg.Done()
// })
//
// wg.Wait()
//}
//
//func main() {
// testGTPEngine()
// //testAnalEngine()
//}

69
ngochess/gtp/container.go
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package gtp
import (
"sync"
)
type EngineContainer struct {
*Options // 通用配置
// 实例容器,动态扩容,暂不限制使用数量
data []*GtpEngine
*sync.RWMutex
}
func NewGtpEngineContainer(opts *Options) *EngineContainer {
return &EngineContainer{
Options: opts,
data: make([]*GtpEngine, 0),
RWMutex: &sync.RWMutex{},
}
}
// Get 获取空闲实例
func (e *EngineContainer) Get(opts ...Option) *GtpEngine {
e.Lock()
defer e.Unlock()
for _, ngin := range e.data {
sess := ngin.Session()
if !sess.Exists(KeyInUse) {
return ngin
}
if !sess.Attribute(KeyInUse).(bool) {
return ngin
}
}
// 没有空闲的实例,创建之
var ngin *GtpEngine
if len(opts) == 0 {
ngin = NewGtpEngine(WithDevMode(e.DevMode), WithTimeout(e.Timeout))
} else {
ngin = NewGtpEngine(opts...)
}
e.data = append(e.data, ngin)
return ngin
}
// GetById 获取或创建给定ID的实例
func (e *EngineContainer) GetById(id int64, opts ...Option) *GtpEngine {
e.RLock()
for _, ngin := range e.data {
sess := ngin.Session()
if sess.Id() == id {
e.RUnlock()
return ngin
}
}
e.RUnlock()
// 未能获取到指定实例,创建之
ngin := e.Get(opts...)
ngin.Bind(id)
return ngin
}

492
ngochess/gtp/gtp.go
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package gtp
import (
"errors"
"fmt"
"git.noahlan.cn/noahlan/ntool/narr"
"git.noahlan.cn/noahlan/ntool/ncmd"
"git.noahlan.cn/noahlan/ntool/nlog"
"git.noahlan.cn/noahlan/ntool/nmath"
"git.noahlan.cn/noahlan/ntool/nstr"
"git.noahlan.cn/noahlan/ntool/nsys/atomic"
"strings"
"sync"
"time"
)
var (
DefaultMaxMessageId uint = 999
DefaultTimeout = 3 * time.Second
)
var ErrTimeout = errors.New("timeout")
type (
Options struct {
DevMode bool `json:",default=false"` // 开发模式
MaxMessageId uint `json:",default=999"` // 最大消息ID
Timeout time.Duration `json:""` // 单条命令最大等待时间默认3s
}
Option func(options *Options)
pendingMsg struct {
chWait chan struct{}
resp *GTPResponse
}
GtpEngine struct {
*Options
Cmd *ncmd.Cmd
serializer *GTPSerializer
mid *atomic.AtomicInt64
pendingMsg map[string]*pendingMsg
mu sync.RWMutex
}
)
func NewGtpEngine(opts ...Option) *GtpEngine {
serializer := NewGTPSerializer()
ret := &GtpEngine{
Options: &Options{
DevMode: false,
},
mid: atomic.NewAtomicInt64(),
pendingMsg: make(map[string]*pendingMsg),
mu: sync.RWMutex{},
}
for _, opt := range opts {
opt(ret.Options)
}
if ret.MaxMessageId == 0 {
ret.MaxMessageId = DefaultMaxMessageId
}
if ret.Timeout == 0 {
ret.Timeout = DefaultTimeout
}
ret.serializer = serializer
ret.Cmd = ncmd.NewCmd(ncmd.WithOptions(&ncmd.Options{
Marshaler: serializer,
Buffered: false,
CombinedOutput: false,
Streaming: true,
LineBufferSize: ncmd.DEFAULT_LINE_BUFFER_SIZE,
DevMode: ret.DevMode,
}))
return ret
}
// Bind 绑定实例到id
func (e *GtpEngine) Bind(id int64) {
e.Cmd.Session.SetId(id)
// Set in_use flag
e.Cmd.Session.SetAttribute(KeyInUse, true)
}
// Release 释放示例,以便其它调用
func (e *GtpEngine) Release() {
e.Cmd.Session.SetId(0)
e.Cmd.Session.SetAttribute(KeyInUse, false)
}
func (e *GtpEngine) Session() *ncmd.Session {
return e.Cmd.Session
}
func (e *GtpEngine) StartSafe(name string, args ...string) <-chan ncmd.Status {
ret := e.Cmd.StatusChan()
if !e.Cmd.Started() {
if !e.Cmd.Stopped() {
ret = e.Start(name, args...)
} else {
// 被停止
e.Cmd = e.Cmd.Clone()
ret = e.Start(name, args...)
}
}
return ret
}
func (e *GtpEngine) Start(name string, args ...string) <-chan ncmd.Status {
statusChan := e.Cmd.Start(name, args...)
go e.handleMessage()
return statusChan
}
func (e *GtpEngine) Send(id, command string, args ...string) (*GTPResponse, error) {
if len(id) == 0 || len(id) > 3 {
id = e.nextId()
}
pMsg := &pendingMsg{
chWait: make(chan struct{}, 1),
}
e.mu.Lock()
e.pendingMsg[id] = pMsg
e.mu.Unlock()
err := e.Cmd.Send(&GTPCommand{
ID: id,
Cmd: command,
Args: args,
})
if err != nil {
return nil, err
}
// waiting pending message with timeout
timer := time.NewTimer(e.Timeout)
select {
case <-timer.C:
// error
e.mu.Lock()
delete(e.pendingMsg, id)
e.mu.Unlock()
return nil, ErrTimeout
case <-pMsg.chWait:
return pMsg.resp, nil
}
}
func (e *GtpEngine) nextId() string {
idInt := e.mid.IncrementAndGet()
if idInt > int64(e.MaxMessageId) {
e.mid.Reset()
idInt = e.mid.IncrementAndGet()
}
return nstr.SafeString(idInt)
}
func (e *GtpEngine) handleMessage() {
for e.Cmd.Stdout != nil || e.Cmd.Stderr != nil {
select {
case line, open := <-e.Cmd.Stdout:
if !open {
e.Cmd.Stdout = nil
continue
}
//if e.DevMode {
// nlog.Debugf("接收单条消息: %s", line)
//}
resp, ok := e.serializer.Unmarshal(line)
if !ok {
continue
}
if e.DevMode {
nlog.Debugf("接收完整消息: %+v", resp)
}
e.mu.RLock()
pMsg, ok := e.pendingMsg[resp.ID]
e.mu.RUnlock()
if !ok {
continue
}
pMsg.resp = resp
pMsg.chWait <- struct{}{}
case line, open := <-e.Cmd.Stderr:
if !open {
e.Cmd.Stdout = nil
continue
}
nlog.Errorf("错误消息: %s\n", line)
}
}
}
// Name 查看gtp软件名称
func (e *GtpEngine) Name() string {
cmd := "name"
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return "unknown"
}
return resp.Content
}
// Version 查看gtp软件版本
func (e *GtpEngine) Version() string {
cmd := "version"
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return "0"
}
return resp.Content
}
// ProtocolVersion 查看gtp协议版本
func (e *GtpEngine) ProtocolVersion() string {
cmd := "protocol_version"
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return "1"
}
return resp.Content
}
// ListCommands 列举gtp软件可用命令列表
func (e *GtpEngine) ListCommands() []string {
cmd := "list_commands"
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return []string{}
}
return strings.Split(resp.Content, "\n")
}
// KnowCommand 判断命令是否支持
func (e *GtpEngine) KnowCommand(cmd string) bool {
command := fmt.Sprintf("known_command %s", cmd)
resp, err := e.Send(e.nextId(), command)
if !e.Check(resp, err, command) {
return false
}
if strings.ToLower(strings.TrimSpace(resp.Content)) != "true" {
return false
}
return true
}
// Komi 设置贴目
func (e *GtpEngine) Komi(komi float64) bool {
cmd := fmt.Sprintf("komi %.1f", komi)
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// BoardSize 设置棋盘大小
func (e *GtpEngine) BoardSize(size int) bool {
cmd := fmt.Sprintf("boardsize %d", size)
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// ClearBoard 清理棋盘
func (e *GtpEngine) ClearBoard() bool {
cmd := "clear_board"
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// Play 下棋 color: B/W vex: A1
func (e *GtpEngine) Play(color, vex string) bool {
cmd := fmt.Sprintf("play %s %s", color, vex)
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// GenMove 生成一手棋 color: B/W
func (e *GtpEngine) GenMove(color string) string {
cmd := fmt.Sprintf("genmove %s", color)
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return ""
}
return resp.Content
}
// SetFreeHandicap 设置自由的让子点位
func (e *GtpEngine) SetFreeHandicap(vexArr ...string) bool {
if len(vexArr) < 2 {
return true
}
cmd := fmt.Sprintf("set_free_handicap %s", strings.Join(vexArr, " "))
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// Sync 同步
// handicaps: points of all handicaps
// plays: [][2]string -> [["B","A1"]]
func (e *GtpEngine) Sync(size int, komi float64, handicaps []string, plays [][]string) bool {
// 1. komi
// 2. boardsize
// 3. clear_board
// 4. set_free_handicap pos1 pos2 ...
// 5~n. play X XX
playAllFn := func() bool {
return narr.Every(plays, func(_ int, v []string) bool {
if len(v) < 2 {
return false
}
color, pos := v[0], v[1]
return e.Play(color, pos)
})
}
return e.Komi(komi) &&
e.BoardSize(size) &&
e.ClearBoard() &&
e.SetFreeHandicap(handicaps...) &&
playAllFn()
}
// LoadSgf 加载SGF文件
func (e *GtpEngine) LoadSgf(file string) bool {
cmd := fmt.Sprintf("loadsgf %s", file)
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// FinalStatusList 获取当前盘面形势判断
func (e *GtpEngine) FinalStatusList(cmd string) string {
command := fmt.Sprintf("final_status_list %s", cmd)
resp, err := e.Send(e.nextId(), command)
if !e.Check(resp, err, command) {
return ""
}
return resp.Content
}
// SetLevel 设置AI级别
func (e *GtpEngine) SetLevel(level int) bool {
cmd := fmt.Sprintf("level %d", level)
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// SetRandomSeed 设置AI随机数
func (e *GtpEngine) SetRandomSeed(seed int) bool {
cmd := fmt.Sprintf("set_random_seed %d", seed)
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// ShowBoard 显示棋盘
func (e *GtpEngine) ShowBoard() string {
cmd := "showboard"
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return ""
}
return resp.Content
}
// PrintSgf 打印SGF
func (e *GtpEngine) PrintSgf() string {
cmd := "printsgf"
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return ""
}
return resp.Content
}
// TimeSetting 设置时间规则
func (e *GtpEngine) TimeSetting(baseTime, byoTime, byoStones int) bool {
cmd := fmt.Sprintf("time_settings %d %d %d", baseTime, byoTime, byoStones)
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// KGSTimeSetting 设置KGS time
func (e *GtpEngine) KGSTimeSetting(mainTime, readTime, readLimit int) bool {
cmd := fmt.Sprintf("kgs-time_settings byoyomi %d %d %d", mainTime, readTime, readLimit)
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// FinalScore 获取结果
// returns winner, score, ok
func (e *GtpEngine) FinalScore() (string, float64, bool) {
cmd := "final_score"
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return "", 0, false
}
splited := strings.Split(resp.Content, "+")
if len(splited) < 2 {
return "", 0, false
}
score, _ := nmath.Float(splited[1])
return splited[0], score, true
}
// Undo 悔棋
func (e *GtpEngine) Undo() bool {
cmd := "undo"
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// TimeLeft 设置时间
func (e *GtpEngine) TimeLeft(color string, mainTime, stones int) bool {
cmd := fmt.Sprintf("time_left %s %d %d", color, mainTime, stones)
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
return true
}
// Quit 退出
func (e *GtpEngine) Quit() bool {
cmd := "quit"
resp, err := e.Send(e.nextId(), cmd)
if !e.Check(resp, err, cmd) {
return false
}
_ = e.Cmd.Stop()
return true
}
func (e *GtpEngine) Check(resp *GTPResponse, err error, cmd string) bool {
if err != nil {
nlog.Errorf("发送命令[%s]失败 %v", cmd, err)
return false
}
if resp.Err != nil {
nlog.Errorf("接收到GTP错误消息 %v", resp.Err)
return false
}
return true
}

17
ngochess/gtp/msg.go
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package gtp
type (
// GTPCommand GTP命令
GTPCommand struct {
ID string // 消息ID
Cmd string
Args []string
}
// GTPResponse GTP命令回复
GTPResponse struct {
ID string
Content string
Err error
}
)

29
ngochess/gtp/options.go
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package gtp
import "time"
func WithOptions(opt Options) Option {
return func(options *Options) {
options.DevMode = opt.DevMode
options.MaxMessageId = opt.MaxMessageId
options.Timeout = opt.Timeout
}
}
func WithDevMode(val bool) Option {
return func(options *Options) {
options.DevMode = val
}
}
func WithMaxMessageId(max uint) Option {
return func(options *Options) {
options.MaxMessageId = max
}
}
func WithTimeout(timeout time.Duration) Option {
return func(options *Options) {
options.Timeout = timeout
}
}

114
ngochess/gtp/serializer_gtp.go
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package gtp
import (
"errors"
"fmt"
"git.noahlan.cn/noahlan/ntool/nbyte"
"git.noahlan.cn/noahlan/ntool/nstr"
"regexp"
"strings"
)
var (
TabRegex = regexp.MustCompile(`\t`)
IdRegex = regexp.MustCompile(`\s`)
)
type GTPSerializer struct {
contentBuf strings.Builder
firstLine bool
//
lastResp *GTPResponse
}
func NewGTPSerializer() *GTPSerializer {
ret := &GTPSerializer{
contentBuf: strings.Builder{},
}
ret.reset()
return ret
}
func (s *GTPSerializer) Marshal(v any) ([]byte, error) {
ret, ok := v.(*GTPCommand)
if !ok {
return nil, errors.New(fmt.Sprintf("参数类型必须为 %T", GTPCommand{}))
}
// ret arg0 arg1 arg2 ...
// Cmd arg0 arg1 arg2 ...
sb := strings.Builder{}
if ret.ID != "" {
sb.WriteString(ret.ID)
sb.WriteString(" ")
}
sb.WriteString(ret.Cmd)
sb.WriteString(" ")
sb.WriteString(strings.Join(ret.Args, " "))
return []byte(sb.String()), nil
}
func (s *GTPSerializer) reset() {
s.contentBuf.Reset()
s.firstLine = true
s.lastResp = nil
}
func (s *GTPSerializer) Unmarshal(line string) (*GTPResponse, bool) {
// replace \t and trimSpace
line = strings.TrimSpace(TabRegex.ReplaceAllString(line, " "))
// 是否第一行
s.firstLine = nstr.ContainsOne(line, []string{"=", "?"})
if len(line) == 0 {
defer s.reset()
if s.firstLine {
s.lastResp = &GTPResponse{
ID: "",
Content: s.contentBuf.String(),
Err: errors.New("unknown"),
}
return s.lastResp, true
} else {
// end line
content := s.contentBuf.String()
// remove last '\n'
cLen := len(content)
if cLen > 0 && content[cLen-1] == '\n' {
content = content[:cLen-1]
}
if s.lastResp.Err == nil {
s.lastResp.Content = content
} else {
s.lastResp.Err = errors.New(content)
}
return s.lastResp, true
}
}
if s.firstLine {
s.lastResp = &GTPResponse{}
// 第一行,处理 err, id 等内容
hasErr := line[0] == '?'
hasId := len(line) >= 2 && nbyte.IsDigit(line[1])
line = line[1:]
if hasId {
s.lastResp.ID = IdRegex.Split(line, -1)[0]
line = line[len(s.lastResp.ID):]
}
if hasErr {
s.lastResp.Err = errors.New("接收GTP错误消息")
}
}
// 填充内容直至末尾行
s.contentBuf.WriteString(strings.TrimSpace(line))
s.contentBuf.WriteByte('\n')
return nil, false
}

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ngochess/gtp/vars.go
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package gtp
var (
KeyInUse = "IN_USE"
)

67
ngochess/req/req_analysis.go
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package req
//
//import (
// "encoding/json"
// "git.noahlan.cn/noahlan/ntool/nsys/cmdn"
//)
//
//type Stone struct {
// Player string // 玩家 "B" / "W"
// Location string // "C4" GTP标准协议或 "CC" 行列协议
//}
//
//func (s Stone) MarshalJSON() ([]byte, error) {
// ret := []string{s.Player, s.Location}
// return json.Marshal(ret)
//}
//
//var _ cmdn.ICommand = (*AnalQueryReq)(nil)
//
//type AnalQueryReq struct {
// ID string `json:"id"` // ID
// Moves []Stone `json:"moves"` // moves
// InitialStones []Stone `json:"initialStones,omitempty,optional"` // 初始化棋子(让子棋,棋谱等等)
// Rules string `json:"rules"` // 规则, chinese / japanese / tromp-taylor .etc...
// Komi float32 `json:"komi"` // 贴目中国规则一般7.5目
// BoardXSize int64 `json:"boardXSize"` // 棋盘X大小
// BoardYSize int64 `json:"boardYSize"` // 棋盘Y大小
// AnalyzeTurns []int32 `json:"analyzeTurns,omitempty,optional"` // 需要分析的回合数与moves对应若不指定则分析最后一回合
// InitialPlayer string `json:"initialPlayer,omitempty,optional"` // 指定第一手的玩家 "B" / "W"当moves为空时很有用
// /// .etc...
//}
//
//func (r *AnalQueryReq) MessageID() string {
// return r.ID
//}
//
//func (r *AnalQueryReq) AddMove(player, location string) {
// r.Moves = append(r.Moves, Stone{Player: player, Location: location})
//}
//
//func (r *AnalQueryReq) AddInitialStone(player, location string) {
// r.InitialStones = append(r.InitialStones, Stone{Player: player, Location: location})
//}
//
//var _ cmdn.ICommand = (*AnalQueryActionReq)(nil)
//
//const (
// AnalActionQueryVersion = "query_version"
// AnalActionClearCache = "clear_cache"
// AnalActionTerminate = "terminate"
// AnalActionTerminateAll = "terminate_all"
//)
//
//type AnalQueryActionReq struct {
// ID string `json:"id"` // ID
// Action string `json:"action"` // 查询动作
//
// // terminate
// TerminateId string `json:"terminateId,omitempty,optional"`
// // terminate | terminate_all
// TurnNumbers []int32 `json:"turnNumbers,omitempty,optional"`
//}
//
//func (r *AnalQueryActionReq) MessageID() string {
// return r.ID
//}

70
ngochess/resp/resp_analysis.go
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package resp
//
//type AnalBaseResp struct {
// ID string `json:"id"` // ID 必有
// Action string `json:"action,omitempty,optional"` // Action 动作,不是必填值
// // 其它东西,通过组合
//
// Err error
//}
//
//type AnalQueryResp struct {
// AnalBaseResp
// IsDuringSearch bool `json:"isDuringSearch"` // 是否是搜索的过程结果,发送时指定 reportDuringSearchEvery则会在过程中进行回复
// TurnNumber int32 `json:"turnNumber"` // 正在分析的回合数(手数)
// MoveInfos []struct {
// Move string `json:"move"` // 正在分析的移动,通常为棋盘坐标
// Visits int32 `json:"visits"` // 访问次数(神经网络)
// WinRate float64 `json:"winrate"` // 胜率 [0~1] [0%~100%] 越高越好
// ScoreMean float64 `json:"scoreMean"` // 预计平均分
// ScoreLead float64 `json:"scoreLead"` // 预计平均分 与 ScoreMean 一致
// ScoreStdev float64 `json:"scoreStdev"` // 预计平均分标准差由于MCTS机制该分值可能偏高
// ScoreSelfplay float64 `json:"scoreSelfplay"` // 自我对弈时的预计分数,该值目前偏高
// Prior float64 `json:"prior"` // 策略优先级 [0~1],通常会选优先级高的下棋(直觉)
// Utility float64 `json:"utility"` // 综合效用值结合winrate和score值域 [-C,C]
// Lcb float64 `json:"lcb"` // LCB胜率但值可能有误 [0~1] 可能会越界
// UtilityLcb float64 `json:"utilityLcb"` // LCB综合效用值
// Weight float64 `json:"weight"` // Visits 的平均权重
// Order int32 `json:"order"` // Katago神经网络中的直觉优先级值[0~max]越低,优先级越高
// PV []string `json:"pv"` // 此次移动之后预测之后的移动列表
// // PvVisits
// // pvEdgeVisits
// // ownership
// // ownershipStdev
// } `json:"moveInfos"` // 移动信息
// RootInfo struct {
// ThisHash string `json:"thisHash"` // 本次移动的唯一编码
// SymHash string `json:"symHash"` //
// CurrentPlayer string `json:"currentPlayer"` // "B" or "W"
// // RawStWrError
// // rawStScoreError
// // rawVarTimeLeft
// Visits int32 `json:"visits"` // 访问次数(神经网络)
// WinRate float64 `json:"winrate"` // 胜率 [0~1] [0%~100%] 越高越好
// ScoreLead float64 `json:"scoreLead"` // 预计平均分 与 ScoreMean 一致
// ScoreSelfplay float64 `json:"scoreSelfplay"` // 自我对弈时的预计分数,该值目前偏高
// Utility float64 `json:"utility"` // 综合效用值结合winrate和score值域 [-C,C]
// } `json:"rootInfo"` // 根信息
//}
//
//type AnalQueryVersionResp struct {
// AnalBaseResp
// GitHash string `json:"git_hash"` // GitHash
// Version string `json:"version"` // 版本号
//}
//
//type AnalClearCacheResp struct {
// AnalBaseResp
//}
//
//type AnalTerminateResp struct {
// AnalBaseResp
// IsDuringSearch bool `json:"isDuringSearch"` // 是否是搜索的过程结果,发送时指定 reportDuringSearchEvery则会在过程中进行回复
// TurnNumber int64 `json:"turnNumber"` // 本次停止的回合数
//}
//
//type AnalTerminateAllResp struct {
// AnalBaseResp
// TurnNumbers []int64 `json:"turnNumbers"` // 本次停止的回合数
//}

0
nkatago/run.bat → ngochess/run.bat
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0
nkatago/run_analysis.bat → ngochess/run_analysis.bat
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14
nkatago/README.md
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# N-GTP
A golang package for handling GTP engine, (such as Katago. etc.), supporting analysis mode.
一个`Golang`编写的`GTP`工具包,支持通用`GTP 引擎`(如:`Katago`),支持分析模式。
## 安装
```bash
go get -u git.noahlan.cn/noahlan/ntools-go/ngtp
```
## 使用

44
nkatago/codec/serializer_gtp.go
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package codec
import (
"errors"
"fmt"
"git.noahlan.cn/noahlan/ntool-biz/nkatago/req"
"git.noahlan.cn/noahlan/ntool-biz/nkatago/resp"
"git.noahlan.cn/noahlan/ntool/ndef"
"strings"
)
type GtpSerializer struct {
}
func NewGtpSerializer() ndef.Serializer {
return &GtpSerializer{}
}
func (s *GtpSerializer) Marshal(v interface{}) ([]byte, error) {
ret, ok := v.(*req.GtpReq)
if !ok {
return nil, errors.New(fmt.Sprintf("参数类型必须为 %T", req.GtpReq{}))
}
// ret arg0 arg1 arg2 ...
// cmd arg0 arg1 arg2 ...
sb := strings.Builder{}
if ret.ID != "" {
sb.WriteString(ret.ID)
sb.WriteString(" ")
}
sb.WriteString(ret.Command)
sb.WriteString(" ")
sb.WriteString(strings.Join(ret.Args, " "))
return []byte(sb.String()), nil
}
func (s *GtpSerializer) Unmarshal(data []byte, v interface{}) error {
t, ok := v.(*resp.GtpResponse)
if !ok {
return errors.New(fmt.Sprintf("参数类型必须为 %T", resp.GtpResponse{}))
}
t.SetContent(string(data))
return nil
}

29
nkatago/config.go
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package nkatago
import (
"errors"
"strings"
)
// KatagoConfig Katago配置
type KatagoConfig struct {
Exec string // Exec 可执行程序路径,可以是相对路径 必填
Mode EngineType `json:",default=Analysis"` // 类型 Analysis | Gtp
Dir string `json:",default=/"` // Katago 路径
Model string `json:",default=/"` // 模型文件路径,可以是相对路径
Config string `json:",default=analysis.cfg"` // 配置文件路径,可以是相对路径
}
func (c KatagoConfig) BuildGTP() (*GtpEngine, error) {
if c.Mode != EngineGTP {
return nil, errors.New("engine mode does not matched")
}
return NewGtpEngine(c.Exec, strings.ToLower(c.Mode), c.Dir, c.Model, c.Config)
}
func (c KatagoConfig) BuildAnalysis() (*AnalysisEngine, error) {
if c.Mode != EngineAnalysis {
return nil, errors.New("engine mode does not matched")
}
return NewAnalysisEngine(c.Exec, strings.ToLower(c.Mode), c.Dir, c.Model, c.Config)
}

17
nkatago/engine.go
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package nkatago
import "git.noahlan.cn/noahlan/ntool/nsys/cmdn"
type EngineType = string
const (
EngineGTP EngineType = "Gtp"
EngineAnalysis EngineType = "Analysis"
)
// KatagoEngine katago 引擎
type KatagoEngine struct {
Processor *cmdn.Processor
Name string
Mode EngineType
}

119
nkatago/engine_analysis.go
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package nkatago
import (
"git.noahlan.cn/noahlan/ntool-biz/nkatago/req"
"git.noahlan.cn/noahlan/ntool-biz/nkatago/resp"
"git.noahlan.cn/noahlan/ntool/ndef"
"git.noahlan.cn/noahlan/ntool/njson"
"git.noahlan.cn/noahlan/ntool/nrandom"
"git.noahlan.cn/noahlan/ntool/nstr"
"git.noahlan.cn/noahlan/ntool/nsys/cmdn"
"strings"
)
var (
analStartupDecidedFunc cmdn.LineFunc = func(sb *strings.Builder, line string) bool {
return strings.Contains(line, "Started, ready to begin handling requests")
}
analEndLineDecidedFunc cmdn.LineFunc = func(sb *strings.Builder, line string) bool {
return nstr.IsJSON(sb.String())
}
analReadIDFunc cmdn.ReadIDFunc = func(serializer ndef.Serializer, data string) (string, error) {
var s struct {
ID string `json:"id"`
}
err := serializer.Unmarshal([]byte(data), &s)
if err != nil {
return "", err
}
return s.ID, nil
}
)
type AnalysisEngine struct {
*KatagoEngine
}
// NewAnalysisEngine 创建Analysis引擎
func NewAnalysisEngine(name string, args ...string) (*AnalysisEngine, error) {
engine := &AnalysisEngine{KatagoEngine: &KatagoEngine{
Processor: cmdn.NewProcessor(
false,
cmdn.WithSerializer(njson.NewJsonSerializer()),
cmdn.WithStartupDecidedFunc(analStartupDecidedFunc),
cmdn.WithEndLineDecidedFunc(analEndLineDecidedFunc),
cmdn.WithReadIDFunc(analReadIDFunc),
),
Name: name,
Mode: EngineAnalysis,
}}
err := engine.Processor.Run(name, args...)
return engine, err
}
// Query 分析查询
func (eng *AnalysisEngine) Query(req *req.AnalQueryReq, callback func(queryResp *resp.AnalQueryResp)) error {
if len(req.ID) == 0 {
req.ID = nrandom.SnowflakeIdStr()
}
return eng.Processor.Exec(req, func(serializer ndef.Serializer, data string) {
var tmp resp.AnalQueryResp
tmp.Err = serializer.Unmarshal([]byte(data), &tmp)
callback(&tmp)
})
}
// QueryVersion 查询版本号
func (eng *AnalysisEngine) QueryVersion(callback func(versionResp *resp.AnalQueryVersionResp)) error {
return eng.Processor.Exec(&req.AnalQueryActionReq{
ID: nrandom.SnowflakeIdStr(),
Action: req.AnalActionQueryVersion,
}, func(serializer ndef.Serializer, data string) {
var tmp resp.AnalQueryVersionResp
tmp.Err = serializer.Unmarshal([]byte(data), &tmp)
callback(&tmp)
})
}
// ClearCache 清除缓存
func (eng *AnalysisEngine) ClearCache(callback func(cacheResp *resp.AnalClearCacheResp)) error {
return eng.Processor.Exec(&req.AnalQueryActionReq{
ID: nrandom.SnowflakeIdStr(),
Action: req.AnalActionClearCache,
}, func(serializer ndef.Serializer, data string) {
var tmp resp.AnalClearCacheResp
tmp.Err = serializer.Unmarshal([]byte(data), &tmp)
callback(&tmp)
})
}
// Terminate 终止某次分析
// terminateId: 分析轮次ID
// turnNumbers: 需要终止分析的回合数(手数),可空:所有回合
func (eng *AnalysisEngine) Terminate(terminateId string, turnNumbers []int32, callback func(terminateResp *resp.AnalTerminateResp)) error {
return eng.Processor.Exec(&req.AnalQueryActionReq{
ID: nrandom.SnowflakeIdStr(),
Action: req.AnalActionTerminate,
TerminateId: terminateId,
TurnNumbers: turnNumbers,
}, func(serializer ndef.Serializer, data string) {
var tmp resp.AnalTerminateResp
tmp.Err = serializer.Unmarshal([]byte(data), &tmp)
callback(&tmp)
})
}
// TerminateAll 终止所有分析
// turnNumbers: 需要终止所有分析轮次的回合数,可空:所有回合
func (eng *AnalysisEngine) TerminateAll(turnNumbers []int32, callback func(allResp *resp.AnalTerminateAllResp)) error {
return eng.Processor.Exec(&req.AnalQueryActionReq{
ID: nrandom.SnowflakeIdStr(),
Action: req.AnalActionTerminateAll,
TurnNumbers: turnNumbers,
}, func(serializer ndef.Serializer, data string) {
var tmp resp.AnalTerminateAllResp
tmp.Err = serializer.Unmarshal([]byte(data), &tmp)
callback(&tmp)
})
}

167
nkatago/engine_gtp.go
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package nkatago
import (
"fmt"
"git.noahlan.cn/noahlan/ntool-biz/nkatago/codec"
"git.noahlan.cn/noahlan/ntool-biz/nkatago/req"
"git.noahlan.cn/noahlan/ntool-biz/nkatago/resp"
"git.noahlan.cn/noahlan/ntool/ndef"
"git.noahlan.cn/noahlan/ntool/nsys/cmdn"
"strings"
)
var (
gtpStartupDecidedFunc cmdn.LineFunc = func(sb *strings.Builder, line string) bool {
return strings.Contains(line, "GTP ready")
}
gtpEndLineDecidedFunc cmdn.LineFunc = func(sb *strings.Builder, line string) bool {
return len(line) == 0
}
gtpReadIDFunc cmdn.ReadIDFunc = func(serializer ndef.Serializer, data string) (string, error) {
return "", nil
}
)
type GtpEngine struct {
*KatagoEngine
lastID string
}
// NewGtpEngine 创建GTP引擎
func NewGtpEngine(name string, args ...string) (*GtpEngine, error) {
engine := &GtpEngine{KatagoEngine: &KatagoEngine{
Processor: cmdn.NewProcessor(
true,
cmdn.WithSerializer(codec.NewGtpSerializer()),
cmdn.WithStartupDecidedFunc(gtpStartupDecidedFunc),
cmdn.WithEndLineDecidedFunc(gtpEndLineDecidedFunc),
cmdn.WithReadIDFunc(gtpReadIDFunc),
),
Name: name,
Mode: EngineGTP,
}}
err := engine.Processor.Run(name, args...)
return engine, err
}
func (eng *GtpEngine) ID(id string) {
eng.lastID = id
}
// Exec 同步方式自定义命令
func (eng *GtpEngine) Exec(id, cmd string) (*resp.GtpResponse, error) {
cmds := strings.Fields(cmd)
ret := resp.NewGtpResponse(cmds[0])
err := eng.Processor.ExecAsync(req.NewGtpReq(id, cmd, cmds[1:]...), func(serializer ndef.Serializer, data string) {
ret.Err = serializer.Unmarshal([]byte(data), ret)
})
return ret, err
}
// KnowCommand 判断命令是否支持
func (eng *GtpEngine) KnowCommand(cmd string) bool {
value, err := eng.Exec(eng.lastID, "known_command "+cmd)
if err != nil {
return false
}
if strings.ToLower(strings.TrimSpace(value.Content)) != "true" {
return false
}
return true
}
// Komi 设置贴目
func (eng *GtpEngine) Komi(komi float64) (*resp.GtpResponse, error) {
return eng.Exec(eng.lastID, fmt.Sprintf("komi %v", komi))
}
// BoardSize 设置棋盘大小
func (eng *GtpEngine) BoardSize(size int) (*resp.GtpResponse, error) {
return eng.Exec(eng.lastID, fmt.Sprintf("boardsize %v", size))
}
// GenMove AI落子
func (eng *GtpEngine) GenMove(color string) (*resp.GtpResponse, error) {
color = strings.ToUpper(color)
command := "genmove " + color
return eng.Exec(eng.lastID, command)
}
// Play 手工落子
func (eng *GtpEngine) Play(color, coor string) (*resp.GtpResponse, error) {
color = strings.ToUpper(color)
return eng.Exec(eng.lastID, fmt.Sprintf("play %s %s", color, coor))
}
// LoadSgf 加载SGF文件
func (eng *GtpEngine) LoadSgf(file string) (*resp.GtpResponse, error) {
command := fmt.Sprintf("loadsgf %s", file)
return eng.Exec(eng.lastID, command)
}
// FinalStatusList 获取当前盘面形势判断
func (eng *GtpEngine) FinalStatusList(cmd string) (*resp.GtpResponse, error) {
command := fmt.Sprintf("final_status_list %s", cmd)
return eng.Exec(eng.lastID, command)
}
// SetLevel 设置AI级别
func (eng *GtpEngine) SetLevel(seed int) (*resp.GtpResponse, error) {
command := fmt.Sprintf("level %d", seed)
return eng.Exec(eng.lastID, command)
}
// SetRandomSeed 设置AI随机数
func (eng *GtpEngine) SetRandomSeed(seed int) (*resp.GtpResponse, error) {
command := fmt.Sprintf("set_random_seed %d", seed)
return eng.Exec(eng.lastID, command)
}
// ShowBoard 显示棋盘
func (eng *GtpEngine) ShowBoard() (*resp.GtpResponse, error) {
return eng.Exec(eng.lastID, "showboard")
}
// ClearBoard 清空棋盘
func (eng *GtpEngine) ClearBoard() (*resp.GtpResponse, error) {
return eng.Exec(eng.lastID, "clear_board")
}
// PrintSgf 打印SGF
func (eng *GtpEngine) PrintSgf() (*resp.GtpResponse, error) {
return eng.Exec(eng.lastID, "printsgf")
}
// TimeSetting 设置时间规则
func (eng *GtpEngine) TimeSetting(baseTime, byoTime, byoStones int) (*resp.GtpResponse, error) {
return eng.Exec(eng.lastID, fmt.Sprintf("time_settings %d %d %d", baseTime, byoTime, byoStones))
}
// KGSTimeSetting 设置KGS time
func (eng *GtpEngine) KGSTimeSetting(mainTime, readTime, readLimit int) (*resp.GtpResponse, error) {
return eng.Exec(eng.lastID, fmt.Sprintf("kgs-time_settings byoyomi %d %d %d", mainTime, readTime, readLimit))
}
// FinalScore 获取结果
func (eng *GtpEngine) FinalScore() (*resp.GtpResponse, error) {
return eng.Exec(eng.lastID, "final_score")
}
// Undo 悔棋
func (eng *GtpEngine) Undo() (*resp.GtpResponse, error) {
return eng.Exec(eng.lastID, "undo")
}
// TimeLeft 设置时间
func (eng *GtpEngine) TimeLeft(color string, mainTime, stones int) (*resp.GtpResponse, error) {
return eng.Exec(eng.lastID, fmt.Sprintf("time_left %s %d %d", color, mainTime, stones))
}
// Quit 退出
func (eng *GtpEngine) Quit() (*resp.GtpResponse, error) {
r, err := eng.Exec(eng.lastID, "quit")
err = eng.Processor.Stop()
return r, err
}

66
nkatago/req/req_analysis.go
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package req
import (
"encoding/json"
"git.noahlan.cn/noahlan/ntool/nsys/cmdn"
)
type Stone struct {
Player string // 玩家 "B" / "W"
Location string // "C4" GTP标准协议或 "CC" 行列协议
}
func (s Stone) MarshalJSON() ([]byte, error) {
ret := []string{s.Player, s.Location}
return json.Marshal(ret)
}
var _ cmdn.ICommand = (*AnalQueryReq)(nil)
type AnalQueryReq struct {
ID string `json:"id"` // ID
Moves []Stone `json:"moves"` // moves
InitialStones []Stone `json:"initialStones,omitempty,optional"` // 初始化棋子(让子棋,棋谱等等)
Rules string `json:"rules"` // 规则, chinese / japanese / tromp-taylor .etc...
Komi float32 `json:"komi"` // 贴目中国规则一般7.5目
BoardXSize int64 `json:"boardXSize"` // 棋盘X大小
BoardYSize int64 `json:"boardYSize"` // 棋盘Y大小
AnalyzeTurns []int32 `json:"analyzeTurns,omitempty,optional"` // 需要分析的回合数与moves对应若不指定则分析最后一回合
InitialPlayer string `json:"initialPlayer,omitempty,optional"` // 指定第一手的玩家 "B" / "W"当moves为空时很有用
/// .etc...
}
func (r *AnalQueryReq) MessageID() string {
return r.ID
}
func (r *AnalQueryReq) AddMove(player, location string) {
r.Moves = append(r.Moves, Stone{Player: player, Location: location})
}
func (r *AnalQueryReq) AddInitialStone(player, location string) {
r.InitialStones = append(r.InitialStones, Stone{Player: player, Location: location})
}
var _ cmdn.ICommand = (*AnalQueryActionReq)(nil)
const (
AnalActionQueryVersion = "query_version"
AnalActionClearCache = "clear_cache"
AnalActionTerminate = "terminate"
AnalActionTerminateAll = "terminate_all"
)
type AnalQueryActionReq struct {
ID string `json:"id"` // ID
Action string `json:"action"` // 查询动作
// terminate
TerminateId string `json:"terminateId,omitempty,optional"`
// terminate | terminate_all
TurnNumbers []int32 `json:"turnNumbers,omitempty,optional"`
}
func (r *AnalQueryActionReq) MessageID() string {
return r.ID
}

25
nkatago/req/req_gtp.go
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package req
import (
"git.noahlan.cn/noahlan/ntool/nsys/cmdn"
)
var _ cmdn.ICommand = (*GtpReq)(nil)
type GtpReq struct {
ID string
Command string
Args []string
}
func NewGtpReq(id, cmd string, args ...string) *GtpReq {
return &GtpReq{
ID: id,
Command: cmd,
Args: args,
}
}
func (r *GtpReq) MessageID() string {
return ""
}

69
nkatago/resp/resp_analysis.go
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package resp
type AnalBaseResp struct {
ID string `json:"id"` // ID 必有
Action string `json:"action,omitempty,optional"` // Action 动作,不是必填值
// 其它东西,通过组合
Err error
}
type AnalQueryResp struct {
AnalBaseResp
IsDuringSearch bool `json:"isDuringSearch"` // 是否是搜索的过程结果,发送时指定 reportDuringSearchEvery则会在过程中进行回复
TurnNumber int32 `json:"turnNumber"` // 正在分析的回合数(手数)
MoveInfos []struct {
Move string `json:"move"` // 正在分析的移动,通常为棋盘坐标
Visits int32 `json:"visits"` // 访问次数(神经网络)
WinRate float64 `json:"winrate"` // 胜率 [0~1] [0%~100%] 越高越好
ScoreMean float64 `json:"scoreMean"` // 预计平均分
ScoreLead float64 `json:"scoreLead"` // 预计平均分 与 ScoreMean 一致
ScoreStdev float64 `json:"scoreStdev"` // 预计平均分标准差由于MCTS机制该分值可能偏高
ScoreSelfplay float64 `json:"scoreSelfplay"` // 自我对弈时的预计分数,该值目前偏高
Prior float64 `json:"prior"` // 策略优先级 [0~1],通常会选优先级高的下棋(直觉)
Utility float64 `json:"utility"` // 综合效用值结合winrate和score值域 [-C,C]
Lcb float64 `json:"lcb"` // LCB胜率但值可能有误 [0~1] 可能会越界
UtilityLcb float64 `json:"utilityLcb"` // LCB综合效用值
Weight float64 `json:"weight"` // Visits 的平均权重
Order int32 `json:"order"` // Katago神经网络中的直觉优先级值[0~max]越低,优先级越高
PV []string `json:"pv"` // 此次移动之后预测之后的移动列表
// PvVisits
// pvEdgeVisits
// ownership
// ownershipStdev
} `json:"moveInfos"` // 移动信息
RootInfo struct {
ThisHash string `json:"thisHash"` // 本次移动的唯一编码
SymHash string `json:"symHash"` //
CurrentPlayer string `json:"currentPlayer"` // "B" or "W"
// RawStWrError
// rawStScoreError
// rawVarTimeLeft
Visits int32 `json:"visits"` // 访问次数(神经网络)
WinRate float64 `json:"winrate"` // 胜率 [0~1] [0%~100%] 越高越好
ScoreLead float64 `json:"scoreLead"` // 预计平均分 与 ScoreMean 一致
ScoreSelfplay float64 `json:"scoreSelfplay"` // 自我对弈时的预计分数,该值目前偏高
Utility float64 `json:"utility"` // 综合效用值结合winrate和score值域 [-C,C]
} `json:"rootInfo"` // 根信息
}
type AnalQueryVersionResp struct {
AnalBaseResp
GitHash string `json:"git_hash"` // GitHash
Version string `json:"version"` // 版本号
}
type AnalClearCacheResp struct {
AnalBaseResp
}
type AnalTerminateResp struct {
AnalBaseResp
IsDuringSearch bool `json:"isDuringSearch"` // 是否是搜索的过程结果,发送时指定 reportDuringSearchEvery则会在过程中进行回复
TurnNumber int64 `json:"turnNumber"` // 本次停止的回合数
}
type AnalTerminateAllResp struct {
AnalBaseResp
TurnNumbers []int64 `json:"turnNumbers"` // 本次停止的回合数
}

45
nkatago/resp/resp_gtp.go
Unescape Escape View File

@ -1,45 +0,0 @@
package resp
import (
"errors"
"fmt"
"regexp"
"strings"
)
type GtpResponse struct {
Command string
Content string
Err error
}
func NewGtpResponse(cmd string) *GtpResponse {
return &GtpResponse{
Command: cmd,
}
}
func (g *GtpResponse) SetContent(str string) {
reg, _ := regexp.Compile(`\t`)
result := strings.TrimSpace(reg.ReplaceAllString(str, " "))
if len(result) > 0 {
first := result[0]
switch first {
case '=':
g.Content = strings.TrimSpace(result[1:])
case '?':
g.Err = errors.New(strings.TrimSpace(result[1:]))
default:
g.Err = errors.New("未能识别GTP引擎返回值")
}
}
}
func (g *GtpResponse) String() string {
if g.Err != nil {
return fmt.Sprintf("Err: [%v]", g.Err)
}
return fmt.Sprintf("CMD:[%s] Response:[%s]", g.Command, g.Content)
}

75
nkatago/test/main.go
Unescape Escape View File

@ -1,75 +0,0 @@
package main
import (
"fmt"
"git.noahlan.cn/noahlan/ntool-biz/nkatago"
"git.noahlan.cn/noahlan/ntool-biz/nkatago/req"
"git.noahlan.cn/noahlan/ntool-biz/nkatago/resp"
"sync"
)
func testGTPEngine() {
engine, err := nkatago.NewGtpEngine(".\\run.bat")
if err != nil {
panic(err)
}
r, err := engine.BoardSize(1)
if err != nil {
panic(err)
}
fmt.Println(r)
}
func testAnalEngine() {
eng, err := nkatago.NewAnalysisEngine(".\\run_analysis.bat")
if err != nil {
panic(err)
}
var wg sync.WaitGroup
wg.Add(1)
err = eng.QueryVersion(func(versionResp *resp.AnalQueryVersionResp) {
fmt.Println(fmt.Sprintf("查询到版本git_hash:%s version:%s", versionResp.GitHash, versionResp.Version))
wg.Done()
})
if err != nil {
panic(err)
}
queryReq := &req.AnalQueryReq{
Rules: "chinese",
Komi: 6.5,
BoardXSize: 9,
BoardYSize: 9,
AnalyzeTurns: []int32{2},
}
queryReq.AddInitialStone("B", "A1")
queryReq.AddInitialStone("B", "A2")
queryReq.AddMove("W", "B3")
queryReq.AddMove("B", "C5")
wg.Add(1)
err = eng.Query(queryReq, func(queryResp *resp.AnalQueryResp) {
moveInfo := queryResp.MoveInfos[0]
fmt.Println(fmt.Sprintf("当前玩家:%s, 建议移动:%s, 此步移动的建议后续: %v, 胜率:%f, 直觉优先级:%d 预测平均分: %f",
queryResp.RootInfo.CurrentPlayer,
moveInfo.Move,
moveInfo.PV,
moveInfo.WinRate,
moveInfo.Order,
moveInfo.ScoreMean,
))
wg.Done()
})
wg.Wait()
}
func main() {
testGTPEngine()
//testAnalEngine()
}
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