This is a RiveScript interpreter library written for the Java programming language. RiveScript is a scripting language for chatterbots, making it easy to write trigger/response pairs for building up a bot's intelligence.
RiveScript is a scripting language for authoring chatbots. It has a very simple syntax and is designed to be easy to read and fast to write.
A simple example of what RiveScript looks like:
+ hello bot
- Hello human.
This matches a user's message of "hello bot" and would reply "Hello human." Or for a slightly more complicated example:
+ my name is *
* == => >Wow, we have the same name!
* != undefined => >Did you change your name?
- >Nice to meet you, !
The official website for RiveScript is https://www.rivescript.com/
To test drive RiveScript in your web browser, try the RiveScript Playground.
Also check out the RiveScript Community Wiki for common design patterns and tips & tricks for RiveScript.
Add the rivescript-core
dependency to your project:
Maven:
<dependency>
<groupId>com.rivescriptgroupId>
<artifactId>rivescript-coreartifactId>
<version>0.10.0version>
dependency>
Gradle:
dependencies {
compile "com.rivescript:rivescript-core:0.10.0"
}
If you want to use RiveScript in a Spring Boot application see the Spring Boot Starter section.
When used as a library for writing your own chatbot, the synopsis is as follows:
import com.rivescript.Config;
import com.rivescript.RiveScript;
// Create a new bot with the default settings.
RiveScript bot = new RiveScript();
// To enable UTF-8 mode, you'd have initialized the bot like:
RiveScript bot = new RiveScript(Config.utf8());
// Load a directory full of RiveScript documents (.rive files)
bot.loadDirectory("./replies");
// Load an individual file.
bot.LoadFile("./testsuite.rive");
// Sort the replies after loading them!
bot.sortReplies();
// Get a reply.
String reply = bot.reply("user", "Hello bot!");
The rivescript-core
distribution also includes an interactive shell for testing your
RiveScript bot. Run it with the path to a folder on disk that contains your
RiveScript documents. Example:
java com.rivescript.cmd.Shell [options]
The com.rivescript.RiveScript
constructor takes an optional Config
instance.
Here is a full example with all the supported options. You only need to provide
values for configuration options that are different to the defaults.
RiveScript bot = new RiveScript(Config.newBuilder()
.throwExceptions(false) // Whether exception throwing is enabled
.strict(true) // Whether strict syntax checking is enabled
.utf8(false) // Whether UTF-8 mode is enabled
.unicodePunctuation("[.,!?;:]") // The unicode punctuation pattern
.forceCase(false) // Whether forcing triggers to lowercase is enabled
.concat(ConcatMode.NONE) // The concat mode
.depth(50) // The recursion depth limit
.sessionManager(sessionManager) // The session manager for user variables
.errorMessages(errors) // Map of custom error messages
.build());
For convenience, you can use shortcuts:
// The default constructor uses a basic configuration.
RiveScript bot = new RiveScript();
// This is similar as:
RiveScript bot = new RiveScript(Config.basic());
// To use the basic configuration with UTF-8 mode enabled use:
RiveScript bot = new RiveScript(Config.utf8());
UTF-8 support in RiveScript is considered an experimental feature. It is disabled by default.
By default (without UTF-8 mode on), triggers may only contain basic ASCII characters (no foreign characters), and the user's message is stripped of all characters except letters, numbers and spaces. This means that, for example, you can't capture a user's e-mail address in a RiveScript reply, because of the @ and . characters.
When UTF-8 mode is enabled, these restrictions are lifted. Triggers are only
limited to not contain certain metacharacters like the backslash, and the
user's message is only stripped of backslashes and HTML angled brackets
(to protect from obvious XSS if you use RiveScript in a web application).
Additionally, common punctuation characters are stripped out, with the default
set being [.,!?;:]
. This can be overridden by providing a new regexp
string to the Config.Builder#unicodePunctuation()
method. Example:
// Make a new bot with UTF-8 mode enabled and override the punctuation
characters that get stripped from the user's message.
RiveScript bot = new RiveScript(Config.Builder
.utf8()
.unicodePunctuation("[.,!?;:]")
.build());
The
tags in RiveScript will capture the user's "raw" input, so you can
write replies to get the user's e-mail address or store foreign characters in
their name.
Add the rivescript-spring-boot-starter
dependency to your project:
Maven:
<dependency>
<groupId>com.rivescriptgroupId>
<artifactId>rivescript-spring-boot-starterartifactId>
<version>0.10.0version>
dependency>
Gradle:
dependencies {
compile "com.rivescript:rivescript-spring-boot-starter:0.10.0"
}
The starter will automatically add the rivescript-core
dependency to your
project and trigger the auto configuration to create the RiveScript
bot
instance.
Although the auto configuration will use sensible defaults to create the bot
instance, the following properties can be specified inside your
application.properties
/application.yml
file (or as command line switches)
to customize the auto configuration behaviour:
rivescript:
enabled: true # Enable RiveScript for the application.
source-path: classpath:/rivescript/ # The comma-separated list of RiveScript source files and/or directories.
file-extensions: .rive, .rs # The comma-separated list of RiveScript file extensions to load.
throw-exceptions: false # Enable throw exceptions.
strict: true # Enable strict syntax checking.
utf8: false # Enable UTF-8 mode.
unicode-punctuation: [.,!?;:] # The unicode punctuation pattern (only used when UTF-8 mode is enabled).
force-case: false # Enable forcing triggers to lowercase.
concat: none # The concat mode (none|newline|space).
depth: 50 # The recursion depth limit.
error-messages: # The custom error message overrides. For instance `rivescript.error-messages.deepRecursion=Custom Deep Recursion Detected Message`
object-handlers: # The comma-separated list of object handler names to register (currently supported: `groovy`, `javascript`, `ruby`).
To automatically register custom Java subroutines and/or non-default supported
object handlers in the created RiveScript
bot instance, define appropriate
beans in your application context like:
@Bean public Map<String, Subroutine> subroutines() { // The key is the name of the Java object macro to register. Map<String, Subroutine> subroutines = new HashMap<>(); subroutines.put("subroutine1", new Subroutine1()); subroutines.put("subroutine2", new Subroutine2()); return subroutines; } @Bean public Map<String, ObjectHandler> objectHandlers() { // The key is the name of the programming language to register. Map<String, ObjectHandler> objectHandlers = new HashMap<>(); objectHandlers.put("handler1", new ObjectHandler1()); objectHandlers.put("handler2", new ObjectHandler2()); return objectHandlers; }
To compile, test, build all jars and docs run:
./gradlew build
To install all jars into your local Maven cache run:
./gradlew install
The /samples
folder contains various samples of Java RiveScript bot implementations.
rsbot
- The RSBot.java
is a simple implementation using the com.rivescript.cmd.Shell
.
These commands may be used at your input prompt in RSBot:
/quit - Quit the program
/dump topics - Dump the internal topic/trigger/reply struct (debugging)
/dump sorted - Dump the internal trigger sort buffers (debugging)
/last - Print the last trigger you matched.
To execute RSBot
to begin chatting with the demo Eliza-based run:
./gradlew :rivescript-samples-rsbot:runBot --console plain
spring-boot-starter-rsbot
- This example uses the RiveScript Spring Boot Starter to
auto-configure the RiveScript
bot instance.
To begin chatting with the demo bot run:
./gradlew :rivescript-samples-spring-boot-starter-rsbot:bootRun --console plain
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