[][src]Crate genere

Genere is a library to generate (possibly randomized) text with options to match the (grammatical) gender of various elements.

Example

use genere::Generator;
let json = r#"
{
   "hero": ["John[m]", "Joan[f]"],
   "job[hero]": ["wizard/witch"],
   "main[hero]": ["{hero}. He/She is a {job}."]
}"#;

let mut gen = Generator::new();
gen.add_json(json).unwrap();;
let result = gen.instantiate("main").unwrap();
assert!(&result == "John. He is a wizard."
       || &result == "Joan. She is a witch.");

Features

Binary or Rust library

It is possible to use Genere as a binary:

$ genere main < file.json

will instantiate the main symbol in the file.json file.

Genere is, however, primarily a Rust library, so it can be used in programs written in Rust: you only have to add

genere = "0.1"

In the dependencies section of your Cargo.toml file.

Text generation

Genere is inspired by Tracery and thus has a similar syntax to allow you to easily generate randonized text:

let json = r#"
{
    "name": ["John", "Johana", "Vivienne", "Eric"],
    "last_name": ["StrongArm", "Slayer", "The Red"],
    "class": ["mage", "warrior", "thief", "rogue", "barbarian"],
    "race": ["human", "dwarvish", "elvish", "vampire"],
    "text": ["{name} {last_name} is a {race} {class}.",
         "Meet {name} {last_name}, A proud {class}!"]
}
"#;

might display "Johana Slayer is a vampire warrior."

Basically, you define a list of symbols which will be replaced (randomly) by one version of the string in the corresponding array when you "call" them using the {symbol} syntax.

Not that once a symbol has been "instantiated", ils value is fixed. So if you had:

"text": ["Meet {name} {last_name}. {name} is a proud {class}."]

it is guaranteed that both replacements for {name} will be identical.

If you want to get a (possibly) different instantiation, you need to use {{symbol}}:

"text": ["Meet {name} {last_name}. {name} is a proud {class}. There is also {{name}}, a {{class}}."]

Capitalization

When declared, symbols are case-insensitive. When they are referred to in content replacements, the capitalization of the symbol will impact the capitalization of the replacement: if thhe symbol is in lowercase, the content is not touched; if only the first letter of the symbol is in uppercase, the first letter of the replacement content will be changed to uppercase; and if the symbol is all in uppercase, the same will be applied for the replacement content.

let json = r#"
{
    "dog": ["a good dog"],
    "text1": ["This is {dog}"],
    "text2": ["This is {DOG}"],
    "text3": ["{Dog}"]
}
"#;

will display "This is a good dog", "This is A GOOD DOG" and "A good dog" for "text1", "text2" and "text3" respectively.

Gender adaptation

Genere seeks to allow easy generation of sentences that are grammaticaly gender accurate:

let json = r#"
{
    "name": ["John[m]", "Johana[f]", "Vivienne[f]", "Eric[m]"],
    "class": ["mage", "warrior", "thief", "rogue", "barbarian"],
    "text[name]": ["Meet {name}. He/She is a proud {class}!"]
}
"#;

will make sure to display "He" or She" according to the gender specified in the symbol name.

You can set a gender to these values using the [m], [f] or [n]. Similarly, you can tell genere that a symbol depends on another's symbol gender by using [symbol] in the symbol name. E.g., text[main] means that the gender in main's replacement strings will be determined by name's gender. It is also possible to specify a neutral gender, by using [n] in the definition and by adding a / in the replacement string (e.g. He/She/They). If it isn't specified in the replacement string, both male and female version will be outputted (e.g. He/She instead of Them).

Sometimes a sentence might use various gendered elements and not just depend on only one symbol's gender. For each gender variation, it is possible to specify a "dependency":

"text[hero]": ["He/She is called {hero}. His/Her son/daughter[child] is named {child}."]

Here, the gender of hero will be used to determine between He/She and His/Her, but the gender of child will be used to pick between son/daughter.

Spaces in gender adaptation

When you use this gender syntax, the '/' will only consider the word before and the word after, not allowing to have spaces in your expressions. If you want to insert a space in a gender adaptation expression, you must escape it with ~, e.g.: "du/de~ la"

Additional gender syntax

It is also possible to use the "median point" syntax used e.g. in french: "C'est un·e sorci·er·ère." is equivalent to "C'est un/une sorcier/sorcière".

Escaping

If you want to use the '[', ']', '{', '}', '/' and '·' characters in your text, you can use the escape character '~'. E.g., "~{foo}" will display "{foo}" instead of trying to find the symbol foo and replace it with its content. You can also use "~~" if you want to display the tilde symbol.

License

Genere is published under the Mozilla Public License, version 2.0. For more information, see the License.

ChangeLog

See ChangeLog.

Structs

Generator

Generator. Main structure of this library.

Enums

Gender

Gender

Type Definitions

Result

Convenient wrapper around std::Result.