Text Placeholder

Text Placeholder is a minimalistic text template engine designed for the manipulation of named placeholders within textual templates.

This library operates based on two primary elements:

For use within a no_std environment, Text Placeholder can be configured by disabling the default features. This allows the library to maintain compatibility with no_std specifications.

Placeholders

Placeholders are defined within certain boundaries and will be replaced once the template is parsed.

Let's define a template with placeholders named first and second:

rust let template = Template::new("Hello {{first}} {{second}}!");

Templates use the handlebars syntax as boundaries by default, but can be overridden:

rust let template = Template::new_with_placeholder("Hello $[first] $[second]!", "$[", "]");

Context

Context is the data structure that will be used to replace your placeholders with real data.

You can think of your placeholder as a key within a HashMap or the name of a field within a struct. In fact, these are the three types of context supported by this library:

HashMap

Each placeholder should be a key with an associated value that can be converted into a str.

The following methods are available with a HashMap:

Example

``rust use text_placeholder::Template; use std::collections::HashMap; // or for no_stduse hashbrown::HashMap;`

let default_template = Template::new("Hello {{first}} {{second}}!");

let mut table = HashMap::new(); table.insert("first", "text"); table.insert("second", "placeholder");

asserteq!(defaulttemplate.fillwithhashmap(&table), "Hello text placeholder!");

// We can also specify our own boundaries:

let customtemplate = Template::newwith_placeholder("Hello $[first]] $[second]!", "$[", "]");

asserteq!(defaulttemplate.fillwithhashmap(&table), "Hello text placeholder!"); ```

Function

This uses a function to generate the substitution value. The value could be extracted from a HashMap or BTreeMap, read from a config file or database, or purely computed from the key itself.

The function takes a key and returns an Option<Cow<str>> - that is it can return a borrowed &str, an owned String or no value. Returning no value causes fill_with_function to fail (it's the equivalent of fill_with_hashmap_strict in this way).

The function actually a FnMut closure, so it can also modify external state, such as keeping track of which key values were used. key has a lifetime borrowed from the template, so it can be stored outside of the closure.

Example

```rust use text_placeholder::Template; use std::borrow::Cow;

let template = Template::new("Hello {{first}} {{second}}!");

let mut idx = 0; asserteq!( &*template.fillwithfunction( |key| { idx += 1; Some(Cow::Owned(format!("{key}-{idx}"))) }) .unwrap(), "Hello first-1 second-2!" ); asserteq!(idx, 2); ```

Struct

Allow structs that implement the serde::Serialize trait to be used as context.

This is an optional feature that depends on serde. In order to enable it add the following to your Cargo.toml file:

toml [dependencies] text_placeholder = { version = "0.4", features = ["struct_context"] }

Each placeholder should be a field in your struct with an associated value that can be converted into a str.

The following methods are available with a struct:

Example

```rust use text_placeholder::Template;

[derive(Serialize)]

struct Context { first: String, second: String }

let defaulttemplate = Template::new("Hello {{first}} {{second}}!"); let context = Context { first: "text".tostring(), second: "placeholder".to_string() };

asserteq!(defaulttemplate.fillwithstruct(&context), "Hello text placeholder!");

// We can also specify our own boundaries:

let customtemplate = Template::newwith_placeholder("Hello $[first]] $[second]!", "$[", "]");

asserteq!(defaulttemplate.fillwithstruct(&context), "Hello text placeholder!"); ```