/* Copyright (C) 2022-2023 Salvatore Sanfilippo -- All Rights Reserved
 * See the LICENSE file for information about the license. */

#include "app.h"

/* =========================== Subview handling ================================
 * Note that these are not the Flipper subviews, but the subview system
 * implemented inside ProtoView.
 * ========================================================================== */

/* Return the ID of the currently selected subview, of the current
 * view. */
int ui_get_current_subview(ProtoViewApp *app) {
    return app->current_subview[app->current_view];
}

/* Called by view rendering callback that has subviews, to show small triangles
 * facing down/up if there are other subviews the user can access with up
 * and down. */
void ui_show_available_subviews(Canvas *canvas, ProtoViewApp *app,
                             int last_subview)
{
    int subview = ui_get_current_subview(app);
    if (subview != 0)
        canvas_draw_triangle(canvas,120,5,8,5,CanvasDirectionBottomToTop);
    if (subview != last_subview-1)
        canvas_draw_triangle(canvas,120,59,8,5,CanvasDirectionTopToBottom);
}

/* Handle up/down keys when we are in a subview. If the function catched
 * such keypress, it returns true, so that the actual view input callback
 * knows it can just return ASAP without doing anything. */
bool ui_process_subview_updown(ProtoViewApp *app, InputEvent input, int last_subview) {
    int subview = ui_get_current_subview(app);
    if (input.type == InputTypePress) {
        if (input.key == InputKeyUp) {
            if (subview != 0)
                app->current_subview[app->current_view]--;
            return true;
        } else if (input.key == InputKeyDown) {
            if (subview != last_subview-1)
                app->current_subview[app->current_view]++;
            return true;
        }
    }
    return false;
}

/* ============================= Text input ====================================
 * Normally we just use our own private UI widgets. However for the text input
 * widget, that is quite complex, visualizes a keyboard and must be standardized
 * for user coherent experience, we use the one provided by the Flipper
 * framework. The following two functions allow to show the keyboard to get
 * text and later dismiss it.
 * ========================================================================== */

/* Show the keyboard, take the user input and store it into the specified
 * 'buffer' of 'buflen' total bytes. When the user is done, the done_callback
 * is called passing the application context to it. Such callback needs
 * to do whatever it wants with the input buffer and dismissi the keyboard
 * calling: dismiss_keyboard(app);
 *
 * Note: if the buffer is not a null-termined zero string, what it contains will
 * be used as initial input for the user. */
void ui_show_keyboard(ProtoViewApp *app, char *buffer, uint32_t buflen,
                   void (*done_callback)(void*))
{
    app->show_text_input = true;
    app->text_input_buffer = buffer;
    app->text_input_buffer_len = buflen;
    app->text_input_done_callback = done_callback;
}

void ui_dismiss_keyboard(ProtoViewApp *app) {
    view_dispatcher_stop(app->view_dispatcher);
}

/* ================================= Alert ================================== */

/* Set an alert message to be shown over any currently active view, for
 * the specified amount of time of 'ttl' milliseconds. */
void ui_show_alert(ProtoViewApp *app, const char *text, uint32_t ttl) {
    app->alert_dismiss_time = furi_get_tick() + furi_ms_to_ticks(ttl);
    snprintf(app->alert_text,ALERT_MAX_LEN,"%s",text);
}

/* Cancel the alert before its time has elapsed. */
void ui_dismiss_alert(ProtoViewApp *app) {
    app->alert_dismiss_time = 0;
}

/* Show the alert if an alert is set. This is called after the currently
 * active view displayed its stuff, so we overwrite the screen with the
 * alert message. */
void ui_draw_alert_if_needed(Canvas *canvas, ProtoViewApp *app) {
    if (app->alert_dismiss_time == 0) {
        /* No active alert. */
        return;
    } else if (app->alert_dismiss_time < furi_get_tick()) {
        /* Alert just expired. */
        ui_dismiss_alert(app);
        return;
    }

    /* Show the alert. A box with black border and a text inside. */
    canvas_set_font(canvas, FontPrimary);
    uint8_t w = canvas_string_width(canvas, app->alert_text);
    uint8_t h = 8; // Font height.
    uint8_t text_x = 64-(w/2);
    uint8_t text_y = 32+4;
    uint8_t padding = 3;
    canvas_set_color(canvas,ColorBlack);
    canvas_draw_box(canvas,text_x-padding,text_y-padding-h,w+padding*2,h+padding*2);
    canvas_set_color(canvas,ColorWhite);
    canvas_draw_box(canvas,text_x-padding+1,text_y-padding-h+1,w+padding*2-2,h+padding*2-2);
    canvas_set_color(canvas,ColorBlack);
    canvas_draw_str(canvas,text_x,text_y,app->alert_text);
}

/* =========================== Canvas extensions ============================ */

void canvas_draw_str_with_border(Canvas* canvas, uint8_t x, uint8_t y, const char* str, Color text_color, Color border_color)
{
    struct {
        uint8_t x; uint8_t y;
    } dir[8] = {
        {-1,-1},
        {0,-1},
        {1,-1},
        {1,0},
        {1,1},
        {0,1},
        {-1,1},
        {-1,0}
    };

    /* Rotate in all the directions writing the same string to create a
     * border, then write the actual string in the other color in the
     * middle. */
    canvas_set_color(canvas, border_color);
    for (int j = 0; j < 8; j++)
        canvas_draw_str(canvas,x+dir[j].x,y+dir[j].y,str);
    canvas_set_color(canvas, text_color);
    canvas_draw_str(canvas,x,y,str);
    canvas_set_color(canvas, ColorBlack);
}