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response.rs
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response.rs
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use schemars::JsonSchema;
use serde::{Deserialize, Serialize};
use std::fmt;
use crate::Binary;
use super::{Attribute, CosmosMsg, Empty, Event, SubMsg};
/// A response of a contract entry point, such as `instantiate`, `execute` or `migrate`.
///
/// This type can be constructed directly at the end of the call. Alternatively a
/// mutable response instance can be created early in the contract's logic and
/// incrementally be updated.
///
/// ## Examples
///
/// Direct:
///
/// ```
/// # use cosmwasm_std::{Binary, DepsMut, Env, MessageInfo};
/// # type InstantiateMsg = ();
/// #
/// use cosmwasm_std::{attr, Response, StdResult};
///
/// pub fn instantiate(
/// deps: DepsMut,
/// _env: Env,
/// _info: MessageInfo,
/// msg: InstantiateMsg,
/// ) -> StdResult<Response> {
/// // ...
///
/// Ok(Response::new().add_attribute(("action", "instantiate")))
/// }
/// ```
///
/// Mutating:
///
/// ```
/// # use cosmwasm_std::{coins, BankMsg, Binary, DepsMut, Env, MessageInfo, SubMsg};
/// # type InstantiateMsg = ();
/// # type MyError = ();
/// #
/// use cosmwasm_std::Response;
///
/// pub fn instantiate(
/// deps: DepsMut,
/// _env: Env,
/// info: MessageInfo,
/// msg: InstantiateMsg,
/// ) -> Result<Response, MyError> {
/// let mut response = Response::new()
/// .add_attribute(("Let the", "hacking begin"))
/// .add_message(BankMsg::Send {
/// to_address: String::from("recipient"),
/// amount: coins(128, "uint"),
/// })
/// .add_attribute(("foo", "bar"))
/// .set_data(b"the result data");
/// Ok(response)
/// }
/// ```
#[derive(Serialize, Deserialize, Clone, Debug, PartialEq, JsonSchema)]
#[non_exhaustive]
pub struct Response<T = Empty>
where
T: Clone + fmt::Debug + PartialEq + JsonSchema,
{
/// Optional list of messages to pass. These will be executed in order.
/// If the ReplyOn variant matches the result (Always, Success on Ok, Error on Err),
/// the runtime will invoke this contract's `reply` entry point
/// after execution. Otherwise, they act like "fire and forget".
/// Use `SubMsg::new` to create messages with the older "fire and forget" semantics.
pub messages: Vec<SubMsg<T>>,
/// The attributes that will be emitted as part of a "wasm" event
pub attributes: Vec<Attribute>,
pub events: Vec<Event>,
pub data: Option<Binary>,
}
impl<T> Default for Response<T>
where
T: Clone + fmt::Debug + PartialEq + JsonSchema,
{
fn default() -> Self {
Response {
messages: vec![],
attributes: vec![],
events: vec![],
data: None,
}
}
}
impl<T> Response<T>
where
T: Clone + fmt::Debug + PartialEq + JsonSchema,
{
pub fn new() -> Self {
Self::default()
}
/// Add an attribute included in the main `wasm` event.
pub fn add_attribute(mut self, attr: impl Into<Attribute>) -> Self {
self.attributes.push(attr.into());
self
}
/// This creates a "fire and forget" message, by using `SubMsg::new()` to wrap it,
/// and adds it to the list of messages to process.
pub fn add_message(mut self, msg: impl Into<CosmosMsg<T>>) -> Self {
self.messages.push(SubMsg::new(msg));
self
}
/// This takes an explicit SubMsg (creates via eg. `reply_on_error`)
/// and adds it to the list of messages to process.
pub fn add_submessage(mut self, msg: SubMsg<T>) -> Self {
self.messages.push(msg);
self
}
/// Adds an extra event to the response, separate from the main `wasm` event
/// that is always created.
///
/// The `wasm-` prefix will be appended by the runtime to the provided type
/// of event.
pub fn add_event(mut self, event: Event) -> Self {
self.events.push(event);
self
}
/// Bulk add attributes included in the main `wasm` event.
pub fn add_attributes<A: Into<Attribute>>(
mut self,
attrs: impl IntoIterator<Item = A>,
) -> Self {
self.attributes.extend(attrs.into_iter().map(A::into));
self
}
/// Bulk add "fire and forget" messages to the list of messages to process.
pub fn add_messages<M: Into<CosmosMsg<T>>>(self, msgs: impl IntoIterator<Item = M>) -> Self {
self.add_submessages(msgs.into_iter().map(SubMsg::new))
}
/// Bulk add explicit SubMsg structs to the list of messages to process.
pub fn add_submessages(mut self, msgs: impl IntoIterator<Item = SubMsg<T>>) -> Self {
self.messages.extend(msgs.into_iter());
self
}
/// Bulk add custom events to the response. These are separate from the main
/// `wasm` event.
///
/// The `wasm-` prefix will be appended by the runtime to the provided types
/// of events.
pub fn add_events(mut self, events: impl IntoIterator<Item = Event>) -> Self {
self.events.extend(events.into_iter());
self
}
/// Set the binary data included in the response.
pub fn set_data(mut self, data: impl Into<Binary>) -> Self {
self.data = Some(data.into());
self
}
}
#[cfg(test)]
mod tests {
use super::super::BankMsg;
use super::*;
use crate::results::submessages::{ReplyOn, UNUSED_MSG_ID};
use crate::{coins, from_slice, to_vec};
#[test]
fn can_serialize_and_deserialize_init_response() {
let original = Response {
messages: vec![
SubMsg {
id: 12,
msg: BankMsg::Send {
to_address: String::from("checker"),
amount: coins(888, "moon"),
}
.into(),
gas_limit: Some(12345u64),
reply_on: ReplyOn::Always,
},
SubMsg {
id: UNUSED_MSG_ID,
msg: BankMsg::Send {
to_address: String::from("you"),
amount: coins(1015, "earth"),
}
.into(),
gas_limit: None,
reply_on: ReplyOn::Never,
},
],
attributes: vec![Attribute {
key: "action".to_string(),
value: "release".to_string(),
}],
events: vec![],
data: Some(Binary::from([0xAA, 0xBB])),
};
let serialized = to_vec(&original).expect("encode contract result");
let deserialized: Response = from_slice(&serialized).expect("decode contract result");
assert_eq!(deserialized, original);
}
}