Struct TeraHandler 

pub struct TeraHandler(/* private fields */);

A trillium handler for the Tera template engine

Implementations

impl TeraHandler

pub fn new(tera: impl Into<Self>) -> Self

Construct a new TeraHandler from either a &str or PathBuf that represents a directory glob containing templates, or from a tera::Tera instance

use std::{iter::FromIterator, path::PathBuf};
use trillium_tera::TeraHandler;

let handler = TeraHandler::new(PathBuf::from_iter([".", "examples", "**", "*.html"]));

// or

let handler = TeraHandler::new("examples/*.html");

// or

let mut tera = trillium_tera::Tera::default();
tera.add_raw_template("hello.html", "hello {{name}}")?;
let handler = TeraHandler::new(tera);

Trait Implementations

impl Clone for TeraHandler

fn clone(&self) -> TeraHandler

Returns a duplicate of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Debug for TeraHandler

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl From<&[&str]> for TeraHandler

fn from(dir_parts: &[&str]) -> Self

Converts to this type from the input type.

impl From<&String> for TeraHandler

fn from(dir: &String) -> Self

Converts to this type from the input type.

impl From<&str> for TeraHandler

fn from(dir: &str) -> Self

Converts to this type from the input type.

impl From<PathBuf> for TeraHandler

fn from(dir: PathBuf) -> Self

Converts to this type from the input type.

impl From<String> for TeraHandler

fn from(dir: String) -> Self

Converts to this type from the input type.

impl From<Tera> for TeraHandler

fn from(tera: Tera) -> Self

Converts to this type from the input type.

impl Handler for TeraHandler

async fn run(&self, conn: Conn) -> Conn

Executes this handler, performing any modifications to the Conn that are desired.

fn init(&mut self, info: &mut Info) -> impl Future<Output = ()> + Send

Performs one-time async set up on a mutable borrow of the Handler before the server starts accepting requests. This allows a Handler to be defined in synchronous code but perform async setup such as establishing a database connection or fetching some state from an external source. This is optional, and chances are high that you do not need this.

fn before_send(&self, conn: Conn) -> impl Future<Output = Conn> + Send

Performs any final modifications to this conn after all handlers have been run. Although this is a slight deviation from the simple conn->conn->conn chain represented by most Handlers, it provides an easy way for libraries to effectively inject a second handler into a response chain. This is useful for loggers that need to record information both before and after other handlers have run, as well as database transaction handlers and similar library code.

fn has_upgrade(&self, upgrade: &Upgrade) -> bool

predicate function answering the question of whether this Handler would like to take ownership of the negotiated Upgrade. If this returns true, you must implement Handler::upgrade. The first handler that responds true to this will receive ownership of the trillium::Upgrade in a subsequent call to Handler::upgrade

fn upgrade(&self, upgrade: Upgrade) -> impl Future<Output = ()> + Send

This will only be called if the handler reponds true to Handler::has_upgrade and will only be called once for this upgrade. There is no return value, and this function takes exclusive ownership of the underlying transport once this is called. You can downcast the transport to whatever the source transport type is and perform any non-http protocol communication that has been negotiated. You probably don’t want this unless you’re implementing something like websockets. Please note that for many transports such as TcpStreams, dropping the transport (and therefore the Upgrade) will hang up / disconnect.

fn name(&self) -> Cow<'static, str>

Customize the name of your handler. This is used in Debug implementations. The default is the type name of this handler.