use gjson::Value as gjValue;
use nu_plugin::{EvaluatedCall, LabeledError};
use nu_protocol::{Span, Spanned, Value};

pub fn execute_json_query(
    _name: &str,
    call: &EvaluatedCall,
    input: &Value,
    query: Option<Spanned<String>>,
) -> Result<Value, LabeledError> {
    let input_string = match &input.as_string() {
        Ok(s) => s.clone(),
        Err(e) => {
            return Err(LabeledError {
                span: Some(call.head),
                msg: e.to_string(),
                label: "problem with input data".to_string(),
            })
        }
    };

    let query_string = match &query {
        Some(v) => &v.item,
        None => {
            return Err(LabeledError {
                msg: "problem with input data".to_string(),
                label: "problem with input data".to_string(),
                span: Some(call.head),
            })
        }
    };

    // Validate the json before trying to query it
    let is_valid_json = gjson::valid(&input_string);

    if !is_valid_json {
        return Err(LabeledError {
            msg: "invalid json".to_string(),
            label: "invalid json".to_string(),
            span: Some(call.head),
        });
    }

    let val: gjValue = gjson::get(&input_string, query_string);

    if query_contains_modifiers(query_string) {
        let json_str = val.json();
        Ok(Value::string(json_str, call.head))
    } else {
        Ok(convert_gjson_value_to_nu_value(&val, &call.head))
    }
}

fn query_contains_modifiers(query: &str) -> bool {
    // https://github.com/tidwall/gjson.rs documents 7 modifiers as of 4/19/21
    // Some of these modifiers mean we really need to output the data as a string
    // instead of tabular data. Others don't matter.

    // Output as String
    // @ugly: Remove all whitespace from a json document.
    // @pretty: Make the json document more human readable.
    query.contains("@ugly") || query.contains("@pretty")

    // Output as Tabular
    // Since it's output as tabular, which is our default, we can just ignore these
    // @reverse: Reverse an array or the members of an object.
    // @this: Returns the current element. It can be used to retrieve the root element.
    // @valid: Ensure the json document is valid.
    // @flatten: Flattens an array.
    // @join: Joins multiple objects into a single object.
}

fn convert_gjson_value_to_nu_value(v: &gjValue, span: &Span) -> Value {
    match v.kind() {
        gjson::Kind::Array => {
            let mut vals = vec![];
            v.each(|_k, v| {
                vals.push(convert_gjson_value_to_nu_value(&v, span));
                true
            });

            Value::List { vals, span: *span }
        }
        gjson::Kind::Null => Value::nothing(*span),
        gjson::Kind::False => Value::boolean(false, *span),
        gjson::Kind::Number => {
            let str_value = v.str();
            if str_value.contains('.') {
                Value::float(v.f64(), *span)
            } else {
                Value::int(v.i64(), *span)
            }
        }
        gjson::Kind::String => Value::string(v.str(), *span),
        gjson::Kind::True => Value::boolean(true, *span),
        gjson::Kind::Object => {
            let mut cols = vec![];
            let mut vals = vec![];
            v.each(|k, v| {
                cols.push(k.to_string());
                vals.push(convert_gjson_value_to_nu_value(&v, span));
                true
            });
            Value::Record {
                cols,
                vals,
                span: *span,
            }
        }
    }
}

#[cfg(test)]
mod tests {
    use gjson::{valid, Value as gjValue};

    #[test]
    fn validate_string() {
        let json = r#"{ "name": { "first": "Tom", "last": "Anderson" }, "age": 37, "children": ["Sara", "Alex", "Jack"], "friends": [ { "first": "James", "last": "Murphy" }, { "first": "Roger", "last": "Craig" } ] }"#;
        let val = valid(json);
        assert!(val);
    }

    #[test]
    fn answer_from_get_age() {
        let json = r#"{ "name": { "first": "Tom", "last": "Anderson" }, "age": 37, "children": ["Sara", "Alex", "Jack"], "friends": [ { "first": "James", "last": "Murphy" }, { "first": "Roger", "last": "Craig" } ] }"#;
        let val: gjValue = gjson::get(json, "age");
        assert_eq!(val.str(), "37");
    }

    #[test]
    fn answer_from_get_children() {
        let json = r#"{ "name": { "first": "Tom", "last": "Anderson" }, "age": 37, "children": ["Sara", "Alex", "Jack"], "friends": [ { "first": "James", "last": "Murphy" }, { "first": "Roger", "last": "Craig" } ] }"#;
        let val: gjValue = gjson::get(json, "children");
        assert_eq!(val.str(), r#"["Sara", "Alex", "Jack"]"#);
    }

    #[test]
    fn answer_from_get_children_count() {
        let json = r#"{ "name": { "first": "Tom", "last": "Anderson" }, "age": 37, "children": ["Sara", "Alex", "Jack"], "friends": [ { "first": "James", "last": "Murphy" }, { "first": "Roger", "last": "Craig" } ] }"#;
        let val: gjValue = gjson::get(json, "children.#");
        assert_eq!(val.str(), "3");
    }

    #[test]
    fn answer_from_get_friends_first_name() {
        let json = r#"{ "name": { "first": "Tom", "last": "Anderson" }, "age": 37, "children": ["Sara", "Alex", "Jack"], "friends": [ { "first": "James", "last": "Murphy" }, { "first": "Roger", "last": "Craig" } ] }"#;
        let val: gjValue = gjson::get(json, "friends.#.first");
        assert_eq!(val.str(), r#"["James","Roger"]"#);
    }
}