mod support;
use csmlinterpreter::data::{Event, MessageData};
use csmlinterpreter::interpret;
use serde_json::Value;
use support::tools::{gen_context, gen_event, message_to_json_value, read_file};
fn format_message(event: Event, step: &str) -> MessageData {
let text = read_file("CSML/basic_test/object.csml".to_owned()).unwrap();
let context = gen_context(serde_json::json!({}), serde_json::json!({}));
interpret(&text, step, context, &event, None)
}
fn check_error_component(vec: &MessageData) -> bool {
let comp = &vec.messages[0];
comp.content_type == "error"
}
#[test]
fn ok_object_step1() {
let data = r#"{"messages":[ {"content":{"text":"1"},"content_type":"text"} ],"next_flow":null,"memories":[],"next_step":"end"}"#;
let msg = format_message(gen_event(""), "step1");
let v1: Value = message_to_json_value(msg);
let v2: Value = serde_json::from_str(data).unwrap();
assert_eq!(v1, v2)
}
#[test]
fn ok_object_step2() {
let data = r#"{"messages":[ {"content":{"text":"4"},"content_type":"text"} ],"next_flow":null,"memories":[],"next_step":"end"}"#;
let msg = format_message(gen_event(""), "step2");
let v1: Value = message_to_json_value(msg);
let v2: Value = serde_json::from_str(data).unwrap();
assert_eq!(v1, v2)
}
#[test]
fn ok_object_step3() {
let data = r#"{"messages":[ {"content":{"text":"true"},"content_type":"text"} ],"next_flow":null,"memories":[],"next_step":"end"}"#;
let msg = format_message(gen_event(""), "step3");
let v1: Value = message_to_json_value(msg);
let v2: Value = serde_json::from_str(data).unwrap();
assert_eq!(v1, v2)
}
#[test]
fn ok_object_step4() {
let msg = format_message(gen_event(""), "step4");
let res = check_error_component(&msg);
assert_eq!(res, false)
}
#[test]
fn ok_object_step5() {
let msg = format_message(gen_event(""), "step5");
let v: Value = message_to_json_value(msg);
let int = v["messages"][0]["content"]["text"]
.as_str()
.unwrap()
.parse::<i64>()
.unwrap();
if int < 1 && int > 5 {
panic!("Random fail {}", int);
}
}