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/* activity_info.rs
*
* Copyright 2020-2021 Rasmus Thomsen <oss@cogitri.dev>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
use crate::{
core::i18n,
model::{ActivityDataPoints, ActivityType},
};
use gtk::gdk::RGBA;
use gtk::glib::{self, Boxed};
use std::{convert::TryFrom, str::FromStr};
#[derive(Clone, Debug, PartialEq, Eq, Boxed)]
#[boxed_type(name = "ActivityInfo")]
pub struct ActivityInfoBoxed(pub ActivityInfo);
/// A struct containing informations about a certain activity type.
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct ActivityInfo {
pub activity_type: ActivityType,
pub available_data_points: ActivityDataPoints,
pub average_calories_burned_per_minute: u32,
/// An ID that can be used for saving things to the DB.
pub id: &'static str,
/// The localised name of the `ActivityType`.
pub name: String,
pub color: RGBA,
}
impl Default for ActivityInfo {
fn default() -> Self {
Self::from(ActivityType::default())
}
}
fn rgb(r: u8, g: u8, b: u8) -> RGBA {
gtk::gdk::RGBA::builder()
.red(f32::from(r) / 255.0)
.blue(f32::from(g) / 255.0)
.green(f32::from(b) / 255.0)
.alpha(0.9)
.build()
}
impl From<ActivityType> for ActivityInfo {
/// Converts an [ActivityType] into an [ActivityInfo] that contains infos like a localised name.
///
/// # Returns
/// The respective [ActivityInfo]
///
/// # Examples
/// ```
/// use libhealth::model::{ActivityInfo, ActivityType, ActivityDataPoints};
///
/// let info = ActivityInfo::from(ActivityType::Basketball);
/// assert_eq!(info.activity_type, ActivityType::Basketball);
/// assert_eq!(info.available_data_points, ActivityDataPoints::CALORIES_BURNED | ActivityDataPoints::DURATION | ActivityDataPoints::HEART_RATE);
/// assert_eq!(info.id, "basketball");
/// // assert_eq!(info.name, "Basketball") Assuming your language is set to English, this would work too.
/// ```
fn from(activity_type: ActivityType) -> Self {
match activity_type {
ActivityType::Basketball => Self::new(
ActivityType::Basketball,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE,
6,
i18n("Basketball"),
rgb(245, 194, 17),
),
ActivityType::Bicycling => Self::new(
ActivityType::Bicycling,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE
| ActivityDataPoints::DISTANCE,
10,
i18n("Bicycling"),
rgb(246, 211, 45),
),
ActivityType::Boxing => Self::new(
ActivityType::Boxing,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE,
7,
i18n("Boxing"),
rgb(192, 28, 40),
),
ActivityType::Dancing => Self::new(
ActivityType::Dancing,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE,
8,
i18n("Dancing"),
rgb(246, 97, 81),
),
ActivityType::Football => Self::new(
ActivityType::Football,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE,
3,
i18n("Football"),
rgb(152, 106, 68),
),
ActivityType::Golf => Self::new(
ActivityType::Golf,
ActivityDataPoints::CALORIES_BURNED | ActivityDataPoints::DURATION,
4,
i18n("Golf"),
rgb(38, 162, 105),
),
ActivityType::Hiking => Self::new(
ActivityType::Hiking,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE
| ActivityDataPoints::STEP_COUNT
| ActivityDataPoints::DISTANCE,
8,
i18n("Hiking"),
rgb(53, 132, 228),
),
ActivityType::Hockey => Self::new(
ActivityType::Hockey,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE,
10,
i18n("Hockey"),
rgb(94, 92, 100),
),
ActivityType::HorseRiding => Self::new(
ActivityType::HorseRiding,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE
| ActivityDataPoints::DISTANCE,
5,
i18n("Horse Riding"),
rgb(145, 65, 172),
),
ActivityType::OtherSports => Self::new(
ActivityType::OtherSports,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE,
9,
i18n("Other Sports"),
rgb(249, 240, 107),
),
ActivityType::Rollerblading => Self::new(
ActivityType::Rollerblading,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE
| ActivityDataPoints::DISTANCE,
10,
i18n("Rollerblading"),
rgb(220, 138, 221),
),
ActivityType::Running => Self::new(
ActivityType::Running,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE
| ActivityDataPoints::DISTANCE
| ActivityDataPoints::STEP_COUNT,
15,
i18n("Running"),
rgb(255, 190, 111),
),
ActivityType::Skiing => Self::new(
ActivityType::Skiing,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE
| ActivityDataPoints::DISTANCE,
12,
i18n("Skiing"),
rgb(153, 193, 241),
),
ActivityType::Soccer => Self::new(
ActivityType::Soccer,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE,
8,
i18n("Soccer"),
rgb(143, 240, 164),
),
ActivityType::Softball => Self::new(
ActivityType::Softball,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE,
5,
i18n("Softball"),
rgb(154, 153, 150),
),
ActivityType::Swimming => Self::new(
ActivityType::Swimming,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE
| ActivityDataPoints::DISTANCE,
12,
i18n("Swimming"),
rgb(26, 95, 180),
),
ActivityType::Tennis => Self::new(
ActivityType::Tennis,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE,
6,
i18n("Tennis"),
rgb(46, 194, 126),
),
ActivityType::TrackAndField => Self::new(
ActivityType::TrackAndField,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE,
5,
i18n("Track And Field"),
rgb(205, 171, 143),
),
ActivityType::Volleyball => Self::new(
ActivityType::Volleyball,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE
| ActivityDataPoints::DISTANCE
| ActivityDataPoints::STEP_COUNT,
5,
i18n("Volleyball"),
rgb(222, 221, 218),
),
ActivityType::Walking => Self::new(
ActivityType::Walking,
ActivityDataPoints::CALORIES_BURNED
| ActivityDataPoints::DURATION
| ActivityDataPoints::HEART_RATE
| ActivityDataPoints::DISTANCE
| ActivityDataPoints::STEP_COUNT,
5,
i18n("Walking"),
rgb(99, 69, 44),
),
}
}
}
impl TryFrom<&str> for ActivityInfo {
type Error = strum::ParseError;
/// Try converting from an [ActivityInfo] `ID` to an [ActivityInfo].
///
/// # Examples
/// ```
/// use libhealth::model::{ActivityInfo, ActivityType, ActivityDataPoints};
/// use std::convert::TryFrom;
///
/// let info = ActivityInfo::try_from("basketball").unwrap();
/// assert_eq!(info.activity_type, ActivityType::Basketball);
/// assert_eq!(info.available_data_points, ActivityDataPoints::CALORIES_BURNED | ActivityDataPoints::DURATION | ActivityDataPoints::HEART_RATE);
/// assert_eq!(info.id, "basketball");
/// // assert_eq!(info.name, "Basketball") Assuming your language is set to English, this would work too.
///
/// assert!(ActivityInfo::try_from("unknown").is_err());
/// ```
fn try_from(val: &str) -> Result<Self, Self::Error> {
match ActivityType::from_str(val) {
Ok(t) => Ok(Self::from(t)),
Err(e) => Err(e),
}
}
}
impl ActivityInfo {
pub fn new(
activity_type: ActivityType,
available_data_points: ActivityDataPoints,
average_calories_burned_per_minute: u32,
name: String,
color: RGBA,
) -> Self {
Self {
id: activity_type.into(),
activity_type,
available_data_points,
average_calories_burned_per_minute,
name,
color,
}
}
}
#[cfg(test)]
mod test {
use super::*;
fn get_all_activity_infos() -> Vec<ActivityInfo> {
let mut v = Vec::with_capacity(20);
for t in [
ActivityType::Basketball,
ActivityType::Bicycling,
ActivityType::Boxing,
ActivityType::Dancing,
ActivityType::Football,
ActivityType::Golf,
ActivityType::Hiking,
ActivityType::Hockey,
ActivityType::HorseRiding,
ActivityType::OtherSports,
ActivityType::Rollerblading,
ActivityType::Running,
ActivityType::Skiing,
ActivityType::Soccer,
ActivityType::Softball,
ActivityType::Swimming,
ActivityType::Tennis,
ActivityType::TrackAndField,
ActivityType::Volleyball,
ActivityType::Walking,
] {
v.push(ActivityInfo::from(t));
}
v
}
#[test]
fn non_zero_calories_burned() {
for info in get_all_activity_infos() {
assert_ne!(
info.average_calories_burned_per_minute, 0,
"Average calories burned must not be 0 to avoid division by zero!"
);
}
}
#[test]
fn no_same_color() {
let all_infos = get_all_activity_infos();
for info in &all_infos {
for secondary in &all_infos {
if info.activity_type != secondary.activity_type {
assert_ne!(
info.color, secondary.color,
"Found duplicate color: {:?} and {:?}",
info, secondary
)
}
}
}
}
}