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path: root/karlgui/src/views/calendar.rs
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use crate::{helper::weekday_to_str, Globals};
use chrono::{Datelike, Duration, NaiveDateTime, Timelike};
use egui::{Color32, Rect, Sense, Stroke, Ui, Vec2};
use egui_extras::{Size, TableBuilder};
use std::{collections::BTreeMap, ops::Range};

#[derive(Default)]
pub struct Calendar {
    // offset: NaiveDate,
}

impl Calendar {
    pub fn ui(&mut self, ui: &mut Ui, g: &mut Globals) {
        let start_date = chrono::Utc::now().date_naive(); //self.offset;
        let end_date = start_date + chrono::Duration::days(7);
        let start_dt = start_date.and_hms(0, 0, 0);
        let end_dt = end_date.and_hms(0, 0, 0);

        let task_ids = g.tasks.keys().map(|e| e.to_owned()).collect::<Vec<_>>();
        let instances =
            BTreeMap::from_iter(task_ids.iter().filter_map(|id| {
                Some((id, g.get_instances_range(*id, start_dt, end_dt).to_owned()?))
            }));

        let height = 1500.0;

        TableBuilder::new(ui)
            .column(Size::exact(50.0))
            .columns(Size::remainder(), 7)
            .header(50.0, |mut tr| {
                tr.col(|_| {});
                for d in 0..7 {
                    tr.col(|ui| {
                        ui.heading(weekday_to_str(
                            (start_dt + Duration::days(d as i64))
                                .date()
                                .weekday()
                                .num_days_from_monday()
                                .into(),
                        ));
                    });
                }
            })
            .body(|mut tb| {
                tb.row(height, |mut tr| {
                    tr.col(|ui| {
                        let (response, p) =
                            ui.allocate_painter(Vec2::new(50.0, height), Sense::hover());
                        for h in 0..24 {
                            p.text(
                                response.rect.min + Vec2::new(0.0, h as f32 / 24.0 * height),
                                egui::Align2::LEFT_TOP,
                                format!("{h:02}:00"),
                                egui::FontId::monospace(15.0),
                                Color32::from_gray(150),
                            );
                        }
                    });
                    for d in 0..7 {
                        tr.col(|ui| {
                            let time = start_dt + Duration::days(d as i64);
                            let time_end = time + Duration::days(1) - Duration::seconds(1);
                            let instances_here = instances
                                .iter()
                                .map(|(id, rs)| {
                                    (
                                        id,
                                        rs.iter()
                                            .filter(|r| r.overlaps(time..time_end))
                                            .collect::<Vec<_>>(),
                                    )
                                })
                                .filter(|(_, l)| l.len() != 0);
                            ui.horizontal(|ui| {
                                for (id, rs) in instances_here {
                                    let task = g.tasks.get(id).unwrap();

                                    let (rect, response) = ui.allocate_exact_size(
                                        Vec2::new(10.0, height),
                                        Sense::hover(),
                                    );

                                    for r in &rs {
                                        let r = r.start.unwrap_or(time)..r.end.unwrap_or(time_end);
                                        let rect_start = (r.start.hour() as f32
                                            + (r.start.minute() as f32 / 60.0))
                                            / 24.0
                                            * height;
                                        let rect_end = (r.end.hour() as f32
                                            + (r.end.minute() as f32 / 60.0))
                                            / 24.0
                                            * height;
                                        let rect = Rect::from_two_pos(
                                            rect.min + Vec2::new(0.0, rect_start),
                                            rect.min + Vec2::new(10.0, rect_end),
                                        );

                                        if let Some(p) = response.hover_pos() {
                                            if rect.contains(p) {
                                                response.clone().on_hover_ui_at_pointer(|ui| {
                                                    ui.heading(&task.name);
                                                    ui.label(&format!(
                                                        "from {} to {}",
                                                        r.start, r.end
                                                    ));
                                                    if let Some(d) = &task.description {
                                                        ui.label(d);
                                                    }
                                                });
                                            }
                                        }
                                        ui.painter().rect(
                                            rect,
                                            0.0,
                                            Color32::KHAKI,
                                            Stroke::new(0.0, Color32::WHITE),
                                        );
                                    }
                                }
                            });
                        });
                    }
                });
            });
    }
}

pub trait Overlaps<T> {
    fn overlaps(&self, v: T) -> bool;
}
impl Overlaps<NaiveDateTime> for Range<NaiveDateTime> {
    fn overlaps(&self, v: NaiveDateTime) -> bool {
        self.start <= v && v < self.end
    }
}
impl Overlaps<NaiveDateTime> for Range<Option<NaiveDateTime>> {
    fn overlaps(&self, v: NaiveDateTime) -> bool {
        match (self.start, self.end) {
            (Some(s), Some(e)) => s <= v && v < e,
            (Some(s), None) => s <= v,
            (None, Some(e)) => v < e,
            (None, None) => false,
        }
    }
}
impl Overlaps<Range<NaiveDateTime>> for Range<Option<NaiveDateTime>> {
    fn overlaps(&self, v: Range<NaiveDateTime>) -> bool {
        match (self.start, self.end) {
            (None, None) => false,
            (None, Some(e)) => v.start < e,
            (Some(s), None) => v.end > s,
            (Some(s), Some(e)) => v.start < e && v.end > s,
        }
    }
}
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