Merge pull request #3117 from wagnerf42/master

gipy: new release
2023-12-01 22:21:12 +00:00 · 2023-12-01 22:21:12 +00:00 · e513b90bf4
parent 99076fa3ef f4d4307229
commit e513b90bf4
11 changed files with 349 additions and 523 deletions
--- a/apps/gipy/ChangeLog
+++ b/apps/gipy/ChangeLog
@ -115,3 +115,16 @@
 	* Integrating fixes in upstream rust heatshrink crate
 	* Small path optimisations with brouter (removing looplets)
 	* Bugfix in nearest segment detection
 0.23:
 	* New display algorithm : way faster, larger roads, zooming out is now ok
 	* You will need to re-generate your maps because the new algorithm uses a different scale
 	* Better path simplification
 	* Removed sharp turns auto-detection
 	* Waypoints autodetection using the map : this will generate more points than really needed but can still be effective.
 	* New option: sleep between waypoints
 	* Interface: centered svg preview + display file sizes
 	* Interface: disable/enable waypoints detection and elevation
 	* Touching the screen when sleeping will wake up but not change screen
 	* Removing footways (if bicycles not allowed) to reduce resource usage
 	* Switching screen will clear the screen immediately so you can know your screen touch has been received
--- a/apps/gipy/README.md
+++ b/apps/gipy/README.md
@ -18,7 +18,6 @@ It provides the following features :
 - display the path with current position from gps
 - display a local map around you, downloaded from openstreetmap
 - detects and buzzes if you leave the path
 - (optional) buzzes before sharp turns
 - (optional) buzzes before waypoints
 (for example when you need to turn in https://mapstogpx.com/)
 - display instant / average speed
@ -122,6 +121,7 @@ Few settings for now (feel free to suggest me more) :
 - power lcd off (disabled by default): turn lcd off when inactive to save power. the watch will wake up when reaching points,
 when you touch the screen and when speed is below 13km/h.
 - powersave by default: when gipy starts is powersaving activated ? (see below)
 - sleep between waypoints: instead of powersaving between points save power between waypoints (crossroads). this way you can save more. waypoints autodetection is WIP.
 ### Powersaving
@ -142,7 +142,7 @@ The algorithm works in the following ways :
 Activation events are the following :
- you are near (< 100m) the next point on path
+- you are near (< 100m) the next point (only waypoints of *sleep between waypoints* is on) on path
 - you are slow (< *wake-up speed* setting (13 km/h by default))
 - you are lost
 - you press the button / touch the screen
--- a/apps/gipy/TODO
+++ b/apps/gipy/TODO
@ -1,3 +1,10 @@
 urgent TODO:
 - prefetch tiles ?
 - update documentation to reflect new display ?
 - add an image for the arrow ?
 *** thoughts on lcd power ***
 so, i tried experimenting with turning the lcd off in order to save power.
--- a/apps/gipy/app.js
+++ b/apps/gipy/app.js
@ -2,17 +2,16 @@ let simulated = false;
 let displaying = false;
 let in_menu = false;
 let go_backwards = false;
 let zoomed = true;
 let status;
 let initial_options = Bangle.getOptions();
 let interests_colors = [
-  0xffff, // Waypoints, white
+  [1, 1, 1], // Waypoints, white
-  0xf800, // Bakery, red
+  [1, 0, 0], // Bakery, red
-  0x001f, // DrinkingWater, blue
+  [0, 0, 1], // DrinkingWater, blue
-  0x07ff, // Toilets, cyan
+  [0, 1, 1], // Toilets, cyan
-  0x07e0, // Artwork, green
+  [0, 1, 0], // Artwork, green
 ];
 let Y_OFFSET = 20;
@ -31,9 +30,10 @@ var settings = Object.assign(
    active_time: 10,
    brightness: 0.5,
    buzz_on_turns: false,
-    disable_bluetooth: true,
+    disable_bluetooth: false,
    power_lcd_off: false,
    powersave_by_default: false,
    sleep_between_waypoints: false,
  },
  s.readJSON("gipy.json", true) || {}
 );
@ -152,29 +152,8 @@ class TilesOffsets {
  }
 }
 // this function is not inlined to avoid array declaration in jit
 function center_points(points, scaled_current_x, scaled_current_y) {
  return g.transformVertices(points, [
    1,
    0,
    0,
    1,
    -scaled_current_x,
    -scaled_current_y,
  ]);
 }
 // this function is not inlined to avoid array declaration in jit
 function rotate_points(points, c, s) {
  let center_x = g.getWidth() / 2;
  let center_y = g.getHeight() / 2 + Y_OFFSET;
  return g.transformVertices(points, [-c, s, s, c, center_x, center_y]);
 }
 class Map {
  constructor(buffer, offset, filename) {
    this.points_cache = []; // don't refetch points all the time
    // header
    let color_array = Uint8Array(buffer, offset, 3);
    this.color = [
@ -262,123 +241,16 @@ class Map {
    // offset += encoded_blocks_size;
  }
-  display(
+  add_to_tile_image(img, absolute_tile_x, absolute_tile_y) {
-    displayed_x,
+    let tile_x = absolute_tile_x - this.first_tile[0];
-    displayed_y,
+    let tile_y = absolute_tile_y - this.first_tile[1];
-    scale_factor,
+    let side = img.getWidth() - 6;
    cos_direction,
    sin_direction
  ) {
    g.setColor(this.color[0], this.color[1], this.color[2]);
    let local_x = displayed_x - this.start_coordinates[0];
    let local_y = displayed_y - this.start_coordinates[1];
    let tile_x = Math.floor(local_x / this.side);
    let tile_y = Math.floor(local_y / this.side);
-    let limit = 1;
+    let thick = this.color[0] != 0;
-    if (!zoomed) {
+    img.setColor(this.color[0], this.color[1], this.color[2]);
      limit = 2;
    }
    for (let y = tile_y - limit; y <= tile_y + limit; y++) {
      if (y < 0 || y >= this.grid_size[1]) {
        continue;
      }
      for (let x = tile_x - limit; x <= tile_x + limit; x++) {
        if (x < 0 || x >= this.grid_size[0]) {
          continue;
        }
        if (
          this.tile_is_on_screen(
            x,
            y,
            local_x,
            local_y,
            scale_factor,
            cos_direction,
            sin_direction
          )
        ) {
          //           let colors = [
          //             [0, 0, 0],
          //             [0, 0, 1],
          //             [0, 1, 0],
          //             [0, 1, 1],
          //             [1, 0, 0],
          //             [1, 0, 1],
          //             [1, 1, 0],
          //             [1, 1, 0.5],
          //             [0.5, 0, 0.5],
          //             [0, 0.5, 0.5],
          //           ];
          if (this.color[0] == 1 && this.color[1] == 0 && this.color[2] == 0) {
            this.display_thick_tile(
              x,
              y,
              local_x,
              local_y,
              scale_factor,
              cos_direction,
              sin_direction
            );
          } else {
            this.display_tile(
              x,
              y,
              local_x,
              local_y,
              scale_factor,
              cos_direction,
              sin_direction
            );
          }
        }
      }
    }
  }
-  tile_is_on_screen(
+    let tile_num = tile_x + tile_y * this.grid_size[0];
    tile_x,
    tile_y,
    current_x,
    current_y,
    scale_factor,
    cos_direction,
    sin_direction
  ) {
    let width = g.getWidth();
    let height = g.getHeight();
    let center_x = width / 2;
    let center_y = height / 2 + Y_OFFSET;
    let side = this.side;
    let tile_center_x = (tile_x + 0.5) * side;
    let tile_center_y = (tile_y + 0.5) * side;
    let scaled_center_x = (tile_center_x - current_x) * scale_factor;
    let scaled_center_y = (tile_center_y - current_y) * scale_factor;
    let rotated_center_x =
      scaled_center_x * cos_direction - scaled_center_y * sin_direction;
    let rotated_center_y =
      scaled_center_x * sin_direction + scaled_center_y * cos_direction;
    let on_screen_center_x = center_x - rotated_center_x;
    let on_screen_center_y = center_y + rotated_center_y;
    let scaled_side = side * scale_factor * Math.sqrt(1 / 2);
    if (on_screen_center_x + scaled_side <= 0) {
      return false;
    }
    if (on_screen_center_x - scaled_side >= width) {
      return false;
    }
    if (on_screen_center_y + scaled_side <= 0) {
      return false;
    }
    if (on_screen_center_y - scaled_side >= height) {
      return false;
    }
    return true;
  }
  tile_points(tile_num, tile_x, tile_y, scaled_side) {
    let line_start_offset = this.tiles_offsets.tile_start_offset(
      tile_y * this.grid_size[0]
    );
@ -388,117 +260,37 @@ class Map {
      this.tiles_offsets.tile_end_offset(tile_num) - line_start_offset;
    let line = this.binary_lines[tile_y];
-    // we need to copy both for correct results and for performances
+    for (let i = offset; i < upper_limit; i += 4) {
-    // let's precompute also.
+      let x1 = (line.buffer[i] / 255) * side + 3;
-    let cached_tile = new Float64Array(upper_limit - offset);
+      let y1 = ((255 - line.buffer[i + 1]) / 255) * side + 3;
-    for (let i = offset; i < upper_limit; i += 2) {
+      let x2 = (line.buffer[i + 2] / 255) * side + 3;
-      let x = (tile_x + line.buffer[i] / 255) * scaled_side;
+      let y2 = ((255 - line.buffer[i + 3]) / 255) * side + 3;
-      let y = (tile_y + line.buffer[i + 1] / 255) * scaled_side;
+
-      cached_tile[i - offset] = x;
+      let thickness = 1;
-      cached_tile[i + 1 - offset] = y;
+      if (thick) {
-    }
+        thickness = 3.5;
    return cached_tile;
      }
-  invalidate_caches() {
+      let xdiff = x2 - x1;
-    this.points_cache = [];
+      let ydiff = y2 - y1;
  }
  fetch_points(tile_x, tile_y, scaled_side) {
    let tile_num = tile_x + tile_y * this.grid_size[0];
    for (let i = 0; i < this.points_cache.length; i++) {
      if (this.points_cache[i][0] == tile_num) {
        return this.points_cache[i][1];
      }
    }
    if (this.points_cache.length > 40) {
      this.points_cache.shift();
    }
    let points = this.tile_points(tile_num, tile_x, tile_y, scaled_side);
    this.points_cache.push([tile_num, points]);
    return points;
  }
  display_tile(
    tile_x,
    tile_y,
    current_x,
    current_y,
    scale_factor,
    cos_direction,
    sin_direction
  ) {
    "jit";
    let points = this.fetch_points(tile_x, tile_y, this.side * scale_factor);
    let scaled_current_x = current_x * scale_factor;
    let scaled_current_y = current_y * scale_factor;
    let recentered_points = center_points(
      points,
      scaled_current_x,
      scaled_current_y
    );
    let screen_points = rotate_points(
      recentered_points,
      cos_direction,
      sin_direction
    );
    for (let i = 0; i < screen_points.length; i += 4) {
      g.drawLine(
        screen_points[i],
        screen_points[i + 1],
        screen_points[i + 2],
        screen_points[i + 3]
      );
    }
  }
  display_thick_tile(
    tile_x,
    tile_y,
    current_x,
    current_y,
    scale_factor,
    cos_direction,
    sin_direction
  ) {
    "jit";
    let points = this.fetch_points(tile_x, tile_y, this.side * scale_factor);
    let scaled_current_x = current_x * scale_factor;
    let scaled_current_y = current_y * scale_factor;
    let recentered_points = center_points(
      points,
      scaled_current_x,
      scaled_current_y
    );
    let screen_points = rotate_points(
      recentered_points,
      cos_direction,
      sin_direction
    );
    for (let i = 0; i < screen_points.length; i += 4) {
      let final_x = screen_points[i];
      let final_y = screen_points[i + 1];
      let new_final_x = screen_points[i + 2];
      let new_final_y = screen_points[i + 3];
      let xdiff = new_final_x - final_x;
      let ydiff = new_final_y - final_y;
      let d = Math.sqrt(xdiff * xdiff + ydiff * ydiff);
-      let ox = (-ydiff / d) * 3;
+      let ox = (-ydiff / d) * thickness;
-      let oy = (xdiff / d) * 3;
+      let oy = (xdiff / d) * thickness;
-      g.fillPoly([
+      img.fillPoly([
-        final_x + ox,
+        x1 + ox,
-        final_y + oy,
+        y1 + oy,
-        new_final_x + ox,
+        x2 + ox,
-        new_final_y + oy,
+        y2 + oy,
-        new_final_x - ox,
+        x2 - ox,
-        new_final_y - oy,
+        y2 - oy,
-        final_x - ox,
+        x1 - ox,
-        final_y - oy,
+        y1 - oy,
      ]);
      // } else {
      // img.drawLine(x1, y1, x2, y2);
      // }
    }
  }
 }
@ -525,112 +317,30 @@ class Interests {
      this.binary_interests[i] = binary_interests[i];
    }
    offset += end;
    this.points_cache = [];
    return [this, offset];
  }
-  display(
+  add_to_tile_image(img, absolute_tile_x, absolute_tile_y) {
-    displayed_x,
+    let tile_x = absolute_tile_x - this.first_tile[0];
-    displayed_y,
+    let tile_y = absolute_tile_y - this.first_tile[1];
-    scale_factor,
+    let side = img.getWidth() - 6;
-    cos_direction,
+
-    sin_direction
+    let tile_num = tile_x + tile_y * this.grid_size[0];
  ) {
    let local_x = displayed_x - this.start_coordinates[0];
    let local_y = displayed_y - this.start_coordinates[1];
    let tile_x = Math.floor(local_x / this.side);
    let tile_y = Math.floor(local_y / this.side);
    for (let y = tile_y - 1; y <= tile_y + 1; y++) {
      if (y < 0 || y >= this.grid_size[1]) {
        continue;
      }
      for (let x = tile_x - 1; x <= tile_x + 1; x++) {
        if (x < 0 || x >= this.grid_size[0]) {
          continue;
        }
        this.display_tile(
          x,
          y,
          local_x,
          local_y,
          scale_factor,
          cos_direction,
          sin_direction
        );
      }
    }
  }
  tile_points(tile_num, tile_x, tile_y, scaled_side) {
    let offset = this.offsets.tile_start_offset(tile_num);
    let upper_limit = this.offsets.tile_end_offset(tile_num);
-    let tile_interests = [];
+    let buffer = this.binary_interests;
    for (let i = offset; i < upper_limit; i += 3) {
-      let interest = this.binary_interests[i];
+      let type = buffer[i];
-      let x = (tile_x + this.binary_interests[i + 1] / 255) * scaled_side;
+      let x = (buffer[i + 1] / 255) * side + 3;
-      let y = (tile_y + this.binary_interests[i + 2] / 255) * scaled_side;
+      let y = ((255 - buffer[i + 2]) / 255) * side + 3;
      if (interest >= interests_colors.length) {
        throw "bad interest" + interest + "at" + tile_num + "offset" + i;
      }
      tile_interests.push(interest);
      tile_interests.push(x);
      tile_interests.push(y);
    }
    return tile_interests;
  }
  fetch_points(tile_x, tile_y, scaled_side) {
    //TODO: factorize with map ?
    let tile_num = tile_x + tile_y * this.grid_size[0];
    for (let i = 0; i < this.points_cache.length; i++) {
      if (this.points_cache[i][0] == tile_num) {
        return this.points_cache[i][1];
      }
    }
    if (this.points_cache.length > 40) {
      this.points_cache.shift();
    }
    let points = this.tile_points(tile_num, tile_x, tile_y, scaled_side);
    this.points_cache.push([tile_num, points]);
    return points;
  }
  invalidate_caches() {
    this.points_cache = [];
  }
  display_tile(
    tile_x,
    tile_y,
    displayed_x,
    displayed_y,
    scale_factor,
    cos_direction,
    sin_direction
  ) {
    let width = g.getWidth();
    let half_width = width / 2;
    let half_height = g.getHeight() / 2 + Y_OFFSET;
    let interests = this.fetch_points(tile_x, tile_y, this.side * scale_factor);
    let scaled_current_x = displayed_x * scale_factor;
    let scaled_current_y = displayed_y * scale_factor;
    for (let i = 0; i < interests.length; i += 3) {
      let type = interests[i];
      let x = interests[i + 1];
      let y = interests[i + 2];
      let scaled_x = x - scaled_current_x;
      let scaled_y = y - scaled_current_y;
      let rotated_x = scaled_x * cos_direction - scaled_y * sin_direction;
      let rotated_y = scaled_x * sin_direction + scaled_y * cos_direction;
      let final_x = half_width - rotated_x;
      let final_y = half_height + rotated_y;
      let color = interests_colors[type];
      if (type == 0) {
-        g.setColor(0, 0, 0).fillCircle(final_x, final_y, 6);
+        img.setColor(0, 0, 0).fillCircle(x, y, 6);
      }
-      g.setColor(color).fillCircle(final_x, final_y, 5);
+      img.setColor(color[0], color[1], color[2]).fillCircle(x, y, 5);
    }
  }
 }
@ -645,21 +355,23 @@ class Status {
    this.interests = interests;
    this.heights = heights;
    this.screen = MAP;
    let half_screen_width = g.getWidth() / 2;
    let half_screen_height = g.getHeight() / 2;
    let half_screen_diagonal = Math.sqrt(
      half_screen_width * half_screen_width +
        half_screen_height * half_screen_height
    );
    this.scale_factor = half_screen_diagonal / maps[0].side; // multiply geo coordinates by this to get pixels coordinates
    this.on_path = true; // are we on the path or lost ?
    this.position = null; // where we are
-    this.adjusted_cos_direction = 1; // cos of where we look at
+    this.direction = 0;
-    this.adjusted_sin_direction = 0; // sin of where we look at
+    this.adjusted_cos_direction = Math.cos(-Math.PI / 2.0);
    this.adjusted_sin_direction = Math.sin(-Math.PI / 2.0);
    this.zoomed_in = true;
    this.current_segment = null; // which segment is closest
    this.reaching = null; // which waypoint are we reaching ?
    this.distance_to_next_point = null; // how far are we from next point ?
    this.projected_point = null;
    this.reset_images_cache();
    let width = g.getWidth();
    let height = g.getHeight();
    let diagonal_third = Math.sqrt(width * width + height * height) / 3;
    this.scale_factor = diagonal_third / maps[0].side; // multiply geo coordinates by this to get pixels coordinates
    if (this.path !== null) {
      let r = [0];
@ -681,6 +393,28 @@ class Status {
    this.old_points = []; // record previous points but only when enough distance between them
    this.old_times = []; // the corresponding times
  }
  reset_images_cache() {
    let tiles_per_diagonals = this.zoomed_in ? 3 : 5;
    let screen_width = g.getWidth();
    let screen_height = g.getHeight();
    this.images_cache = [];
    let img_side =
      Math.ceil(
        Math.sqrt(screen_width * screen_width + screen_height * screen_height) /
          tiles_per_diagonals
      ) + 6; // three extra pixels on each side to allow thick lines
    E.defrag();
    let limit = tiles_per_diagonals * (tiles_per_diagonals + 1);
    for (let i = 0; i < limit; i++) {
      let img = Graphics.createArrayBuffer(img_side, img_side, 4, {
        msb: true,
      });
      this.images_cache.push({ image: img, x: -1, y: -1 });
    }
  }
  activate() {
    if (!powersaving) {
      return;
@ -709,14 +443,6 @@ class Status {
      }
    }
  }
  invalidate_caches() {
    for (let i = 0; i < this.maps.length; i++) {
      this.maps[i].invalidate_caches();
    }
    if (this.interests !== null) {
      this.interests.invalidate_caches();
    }
  }
  new_position_reached(position) {
    // we try to figure out direction by looking at previous points
    // instead of the gps course which is not very nice.
@ -746,11 +472,14 @@ class Status {
    let oldest_point = this.old_points[0];
    let distance_to_oldest = oldest_point.distance(position);
    let time_to_oldest = now - this.old_times[0];
    // every 3 points we count the distance
    if (this.gps_coordinates_counter % 3 == 0) {
-      if (distance_to_oldest < 150.0) {
+      if (time_to_oldest > 6 || distance_to_oldest < 150.0) {
-        // to avoid gps glitches
+        // to avoid gps glitches (sometimes the gps signal will make you jump around)
        // however if gps disconnects (time_to_oldest becomes large) we still count the distance
        // when it re-activates
        this.advanced_distance += distance_to_oldest;
      }
    }
@ -778,6 +507,7 @@ class Status {
      }
      return;
    }
    this.direction = direction;
    if (in_menu) {
      return;
    }
@ -877,14 +607,15 @@ class Status {
      //     }, time_to_next_point);
      //   }
      // }
      let reaching_waypoint = this.path.is_waypoint(next_point);
      if (this.distance_to_next_point <= 100) {
        if (reaching_waypoint || !settings.sleep_between_waypoints) {
          this.activate();
        }
-      if (this.reaching != next_point && this.distance_to_next_point <= 100) {
+
        if (this.reaching != next_point) {
          this.reaching = next_point;
-        let reaching_waypoint = this.path.is_waypoint(next_point);
+          if (reaching_waypoint && settings.buzz_on_turns) {
        if (reaching_waypoint) {
          if (settings.buzz_on_turns) {
            Bangle.buzz();
            setTimeout(() => Bangle.buzz(), 500);
            setTimeout(() => Bangle.buzz(), 1000);
@ -922,21 +653,12 @@ class Status {
    direction = Math.atan2(diff.lat, diff.lon);
    let full_angle = direction - this.angle;
    // let c = towards.coordinates(p, this.adjusted_cos_direction, this.adjusted_sin_direction, this.scale_factor);
    // g.setColor(1,0,1).fillCircle(c[0], c[1], 5);
    let scale;
    if (zoomed) {
      scale = this.scale_factor;
    } else {
      scale = this.scale_factor / 2;
    }
    c = this.projected_point.coordinates(
      this.displayed_position,
      this.adjusted_cos_direction,
      this.adjusted_sin_direction,
-      scale
+      this.scale_factor
    );
    let cos1 = Math.cos(full_angle + 0.6 + Math.PI / 2);
@ -990,14 +712,97 @@ class Status {
      return false;
    }
  }
  tile_image(absolute_tile_x, absolute_tile_y) {
    // in the cache old images are front and recently used ones are back
    let cached_img_index = this.images_cache.findIndex((i) => {
      return i.x == absolute_tile_x && i.y == absolute_tile_y;
    });
    if (cached_img_index == -1) {
      // console.log("loading", absolute_tile_x, absolute_tile_y);
      let old_image = this.images_cache.shift();
      this.compute_tile_image(old_image.image, absolute_tile_x, absolute_tile_y);
      this.images_cache.push({
        image: old_image.image,
        x: absolute_tile_x,
        y: absolute_tile_y,
      });
      return old_image.image;
    } else {
      let cached_img = this.images_cache.splice(cached_img_index, 1)[0];
      this.images_cache.push(cached_img);
      return cached_img.image;
    }
  }
  compute_tile_image(img, absolute_tile_x, absolute_tile_y) {
    img.transparent = img.toColor(1, 1, 1);
    img.setBgColor(1, 1, 1).clear();
    this.maps.forEach((m) => {
      m.add_to_tile_image(img, absolute_tile_x, absolute_tile_y);
    });
    this.interests.add_to_tile_image(img, absolute_tile_x, absolute_tile_y);
  }
  display_map() {
    // start_profiling();
    let displayed_x = this.displayed_position.lon;
    let displayed_y = this.displayed_position.lat;
    let tile_x_coord = displayed_x / this.maps[0].side;
    let tile_y_coord = displayed_y / this.maps[0].side;
    let absolute_tile_x = Math.floor(tile_x_coord);
    let absolute_tile_y = Math.floor(tile_y_coord);
    let tiles_per_diagonals = this.zoomed_in ? 3 : 5;
    let diagonal = Math.ceil(
      Math.sqrt(g.getWidth() * g.getWidth() + g.getHeight() * g.getHeight()) /
        tiles_per_diagonals
    );
    let angle = this.direction - Math.PI / 2;
    let cos_direction = Math.cos(angle);
    let sin_direction = Math.sin(angle);
    let d = Math.floor(tiles_per_diagonals / 2);
    for (let x = -d; x <= d; x++) {
      for (let y = -d; y <= d; y++) {
        let img = this.tile_image(absolute_tile_x + x, absolute_tile_y + y);
        let screen_x =
          (absolute_tile_x + x + 0.5 - tile_x_coord) * diagonal + 3;
        let screen_y =
          -(absolute_tile_y + y + 0.5 - tile_y_coord) * diagonal - 3;
        let rotated_x = screen_x * cos_direction - screen_y * sin_direction;
        let rotated_y = screen_x * sin_direction + screen_y * cos_direction;
        let final_x = g.getWidth() / 2 + rotated_x;
        let final_y = g.getHeight() / 2 + Y_OFFSET + rotated_y;
        g.drawImage(img, final_x, final_y, { rotate: angle });
      }
    }
    // end_profiling("map display");
  }
  display() {
    if (displaying || in_menu) {
      return; // don't draw on drawings
    }
    g.reset();
    displaying = true;
    g.clear();
    if (this.screen == MAP) {
      this.display_map();
      if (this.position !== null) {
        // start_profiling();
        this.display_path();
        // end_profiling("path display");
      }
      // start_profiling();
      this.display_direction();
      this.display_stats();
      // end_profiling("direction and stats display");
    } else {
      let current_position = 0;
      if (this.current_segment !== null) {
@ -1023,6 +828,7 @@ class Status {
      }
    }
    Bangle.drawWidgets();
    g.flip();
    displaying = false;
  }
  display_heights(display_start, current_position, displayed_length) {
@ -1175,39 +981,6 @@ class Status {
      widgets_height
    );
  }
  display_map() {
    let scale_factor = this.scale_factor;
    if (!zoomed) {
      scale_factor /= 2;
    }
    // start_profiling();
    for (let i = 0; i < this.maps.length; i++) {
      this.maps[i].display(
        this.displayed_position.lon,
        this.displayed_position.lat,
        scale_factor,
        this.adjusted_cos_direction,
        this.adjusted_sin_direction
      );
    }
    // end_profiling("map");
    if (this.interests !== null) {
      this.interests.display(
        this.displayed_position.lon,
        this.displayed_position.lat,
        scale_factor,
        this.adjusted_cos_direction,
        this.adjusted_sin_direction
      );
    }
    if (this.position !== null) {
      this.display_path();
    }
    this.display_direction();
    this.display_stats();
  }
  display_stats() {
    let now = new Date();
    let minutes = now.getMinutes().toString();
@ -1303,9 +1076,6 @@ class Status {
    let half_width = width / 2;
    let half_height = height / 2 + Y_OFFSET;
    let scale_factor = this.scale_factor;
    if (!zoomed) {
      scale_factor /= 2;
    }
    if (this.path !== null) {
      // compute coordinate for projection on path
@ -1424,8 +1194,6 @@ function load_gps(filename) {
 class Path {
  constructor(buffer, offset) {
    // let p = Uint16Array(buffer, offset, 1);
    // console.log(p);
    let points_number = Uint16Array(buffer, offset, 1)[0];
    offset += 2;
@ -1640,11 +1408,11 @@ function start_gipy(path, maps, interests, heights) {
          },
        },
        Zoom: {
-          value: zoomed,
+          value: status.zoomed_in,
          format: (v) => (v ? "In" : "Out"),
          onchange: (v) => {
-            status.invalidate_caches();
+            status.zoomed_in = v;
-            zoomed = v;
+            status.reset_images_cache();
          },
        },
        /*LANG*/
@ -1687,11 +1455,14 @@ function start_gipy(path, maps, interests, heights) {
  status.display();
  Bangle.on("touch", () => {
    let active = status.active;
    status.activate();
    if (in_menu) {
      return;
    }
-    if (status.heights !== null) {
+    if (active && status.heights !== null) {
      g.clear();
      g.flip();
      status.screen = (status.screen + 1) % 3;
      status.display();
    }
@ -1720,51 +1491,52 @@ function start_gipy(path, maps, interests, heights) {
  });
  if (simulated) {
-    status.starting_time = getTime();
+    // status.starting_time = getTime();
-    // let's keep the screen on in simulations
+    // // let's keep the screen on in simulations
-    Bangle.setLCDTimeout(0);
+    // Bangle.setLCDTimeout(0);
-    Bangle.setLCDPower(1);
+    // Bangle.setLCDPower(1);
-    Bangle.loadWidgets(); // i don't know why i cannot load them at start : they would display on splash screen
+    // Bangle.loadWidgets(); // i don't know why i cannot load them at start : they would display on splash screen
-    function simulate_gps(status) {
+    // function simulate_gps(status) {
-      if (status.path === null) {
+    //   if (status.path === null) {
-        let map = status.maps[0];
+    //     let map = status.maps[0];
-        let p1 = new Point(map.start_coordinates[0], map.start_coordinates[1]);
+    //     let p1 = new Point(map.start_coordinates[0], map.start_coordinates[1]);
-        let p2 = new Point(
+    //     let p2 = new Point(
-          map.start_coordinates[0] + map.side * map.grid_size[0],
+    //       map.start_coordinates[0] + map.side * map.grid_size[0],
-          map.start_coordinates[1] + map.side * map.grid_size[1]
+    //       map.start_coordinates[1] + map.side * map.grid_size[1]
-        );
+    //     );
-        let pos = p1.times(1 - fake_gps_point).plus(p2.times(fake_gps_point));
+    //     let pos = p1.times(1 - fake_gps_point).plus(p2.times(fake_gps_point));
-        if (fake_gps_point < 1) {
+    //     if (fake_gps_point < 1) {
-          fake_gps_point += 0.05;
+    //       fake_gps_point += 0.05;
-        }
+    //     }
-        status.update_position(pos);
+    //     status.update_position(pos);
-      } else {
+    //   } else {
-        if (fake_gps_point > status.path.len - 1 || fake_gps_point < 0) {
+    //     if (fake_gps_point > status.path.len - 1 || fake_gps_point < 0) {
-          return;
+    //       return;
-        }
+    //     }
-        let point_index = Math.floor(fake_gps_point);
+    //     let point_index = Math.floor(fake_gps_point);
-        if (point_index >= status.path.len / 2 - 1) {
+    //     if (point_index >= status.path.len / 2 - 1) {
-          return;
+    //       return;
-        }
+    //     }
-        let p1 = status.path.point(2 * point_index); // use these to approximately follow path
+    //     let p1 = status.path.point(2 * point_index); // use these to approximately follow path
-        let p2 = status.path.point(2 * (point_index + 1));
+    //     let p2 = status.path.point(2 * (point_index + 1));
-        //let p1 = status.path.point(point_index); // use these to strictly follow path
+    //     //let p1 = status.path.point(point_index); // use these to strictly follow path
-        //let p2 = status.path.point(point_index + 1);
+    //     //let p2 = status.path.point(point_index + 1);
-        let alpha = fake_gps_point - point_index;
+    //     let alpha = fake_gps_point - point_index;
-        let pos = p1.times(1 - alpha).plus(p2.times(alpha));
+    //     let pos = p1.times(1 - alpha).plus(p2.times(alpha));
-        if (go_backwards) {
+    //     if (go_backwards) {
-          fake_gps_point -= 0.2; // advance simulation
+    //       fake_gps_point -= 0.2; // advance simulation
-        } else {
+    //     } else {
-          fake_gps_point += 0.2; // advance simulation
+    //       fake_gps_point += 0.2; // advance simulation
-        }
+    //     }
-        status.update_position(pos);
+    //     console.log(fake_gps_point);
-      }
+    //     status.update_position(pos);
-    }
+    //   }
    // }
-    setInterval(simulate_gps, 500, status);
+    // setInterval(simulate_gps, 500, status);
  } else {
    status.activate();
--- a/apps/gipy/interface.html
+++ b/apps/gipy/interface.html
@ -51,6 +51,10 @@
    <input type="button" id="upload" name="upload" value="Upload" disabled>
    <input type="checkbox" id="autodetect_waypoints" name="autodetect_waypoints" checked/>
    <label for="autodetect_waypoints">detect waypoints</label>
    <input type="checkbox" id="include_elevation" name="include_elevation" checked/>
    <label for="include_elevation">include elevation</label>
    <div id="status"></div>
    <div id="svgmap"></div>
@ -111,10 +115,11 @@ function display_polygon(map) {
      }
      map.fitBounds(L.latLngBounds(L.latLng(min_lat, min_lng), L.latLng(max_lat, max_lng)));
 	  document.getElementById('convert').disabled = false;
 }
-import init, { load_gps_from_string, get_polygon, get_polyline, request_map, get_gps_content, get_gps_map_svg, gps_from_area } from "./pkg/gps.js";
+import init, { disable_elevation, load_gps_from_string, get_polygon, get_polyline, request_map, get_gps_content, get_gps_map_svg, gps_from_area } from "./pkg/gps.js";
 console.log("imported wasm");
 // start map
@ -187,7 +192,8 @@ document
      status.innerHTML = "file reading completed";
 	  let gpx_content = reader.result;
-      gps_data = load_gps_from_string(gpx_content);
+      let autodetect_waypoints = document.getElementById("autodetect_waypoints").checked;
      gps_data = load_gps_from_string(gpx_content, autodetect_waypoints);
      display_polygon(map);
 	};
    reader.readAsText(this.files[0]);
@ -211,8 +217,12 @@ document
        request_map(gps_data, key1, value1, key2, value2, key3, value3, key4, value4).then(
            () => {
-        status.innerHTML = "file converted";
+        let include_elevation = document.getElementById("include_elevation").checked;
        if (!include_elevation) {
          disable_elevation(gps_data);
        }
        gps_content = get_gps_content(gps_data);
        status.innerHTML = "file converted (" + gps_content.length + " bytes)";
        let svg_string = get_gps_map_svg(gps_data);
        let img = document.getElementById("svgmap");
        img.innerHTML = svg_string;
--- a/apps/gipy/metadata.json
+++ b/apps/gipy/metadata.json
@ -2,7 +2,7 @@
  "id": "gipy",
  "name": "Gipy",
  "shortName": "Gipy",
-  "version": "0.22",
+  "version": "0.23",
  "description": "Follow gpx files using the gps. Don't get lost in your bike trips and hikes.",
  "allow_emulator":false,
  "icon": "gipy.png",
--- a/apps/gipy/pkg/gps.d.ts
+++ b/apps/gipy/pkg/gps.d.ts
@ -2,6 +2,10 @@
 /* eslint-disable */
 /**
 * @param {Gps} gps
 */
 export function disable_elevation(gps: Gps): void;
 /**
 * @param {Gps} gps
 * @returns {string}
 */
 export function get_gps_map_svg(gps: Gps): string;
@ -40,9 +44,10 @@ export function get_gps_content(gps: Gps): Uint8Array;
 export function request_map(gps: Gps, key1: string, value1: string, key2: string, value2: string, key3: string, value3: string, key4: string, value4: string): Promise<void>;
 /**
 * @param {string} input
 * @param {boolean} autodetect_waypoints
 * @returns {Gps}
 */
-export function load_gps_from_string(input: string): Gps;
+export function load_gps_from_string(input: string, autodetect_waypoints: boolean): Gps;
 /**
 * @param {number} xmin
 * @param {number} ymin
@ -62,22 +67,23 @@ export type InitInput = RequestInfo | URL | Response | BufferSource | WebAssembl
 export interface InitOutput {
  readonly memory: WebAssembly.Memory;
  readonly __wbg_gps_free: (a: number) => void;
  readonly disable_elevation: (a: number) => void;
  readonly get_gps_map_svg: (a: number, b: number) => void;
  readonly get_polygon: (a: number, b: number) => void;
  readonly has_heights: (a: number) => number;
  readonly get_polyline: (a: number, b: number) => void;
  readonly get_gps_content: (a: number, b: number) => void;
  readonly request_map: (a: number, b: number, c: number, d: number, e: number, f: number, g: number, h: number, i: number, j: number, k: number, l: number, m: number, n: number, o: number, p: number, q: number) => number;
-  readonly load_gps_from_string: (a: number, b: number) => number;
+  readonly load_gps_from_string: (a: number, b: number, c: number) => number;
  readonly gps_from_area: (a: number, b: number, c: number, d: number) => number;
  readonly __wbindgen_malloc: (a: number) => number;
  readonly __wbindgen_realloc: (a: number, b: number, c: number) => number;
  readonly __wbindgen_export_2: WebAssembly.Table;
-  readonly _dyn_core__ops__function__FnMut__A____Output___R_as_wasm_bindgen__closure__WasmClosure___describe__invoke__h9f56e5d7ebbfdb61: (a: number, b: number, c: number) => void;
+  readonly wasm_bindgen__convert__closures__invoke1_mut__hef038f7a61abd0f6: (a: number, b: number, c: number) => void;
  readonly __wbindgen_add_to_stack_pointer: (a: number) => number;
  readonly __wbindgen_free: (a: number, b: number) => void;
  readonly __wbindgen_exn_store: (a: number) => void;
-  readonly wasm_bindgen__convert__closures__invoke2_mut__h193105c6f054446a: (a: number, b: number, c: number, d: number) => void;
+  readonly wasm_bindgen__convert__closures__invoke2_mut__h545ed49cfafdda52: (a: number, b: number, c: number, d: number) => void;
 }
 export type SyncInitInput = BufferSource | WebAssembly.Module;
--- a/apps/gipy/pkg/gps.js
+++ b/apps/gipy/pkg/gps.js
@ -98,14 +98,6 @@ function takeObject(idx) {
    return ret;
 }
 const cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });
 cachedTextDecoder.decode();
 function getStringFromWasm0(ptr, len) {
    return cachedTextDecoder.decode(getUint8Memory0().subarray(ptr, ptr + len));
 }
 function addHeapObject(obj) {
    if (heap_next === heap.length) heap.push(heap.length + 1);
    const idx = heap_next;
@ -115,6 +107,14 @@ function addHeapObject(obj) {
    return idx;
 }
 const cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });
 cachedTextDecoder.decode();
 function getStringFromWasm0(ptr, len) {
    return cachedTextDecoder.decode(getUint8Memory0().subarray(ptr, ptr + len));
 }
 function debugString(val) {
    // primitive types
    const type = typeof val;
@ -205,7 +205,7 @@ function makeMutClosure(arg0, arg1, dtor, f) {
    return real;
 }
 function __wbg_adapter_24(arg0, arg1, arg2) {
-    wasm._dyn_core__ops__function__FnMut__A____Output___R_as_wasm_bindgen__closure__WasmClosure___describe__invoke__h9f56e5d7ebbfdb61(arg0, arg1, addHeapObject(arg2));
+    wasm.wasm_bindgen__convert__closures__invoke1_mut__hef038f7a61abd0f6(arg0, arg1, addHeapObject(arg2));
 }
 function _assertClass(instance, klass) {
@ -214,6 +214,14 @@ function _assertClass(instance, klass) {
    }
    return instance.ptr;
 }
 /**
 * @param {Gps} gps
 */
 export function disable_elevation(gps) {
    _assertClass(gps, Gps);
    wasm.disable_elevation(gps.ptr);
 }
 /**
 * @param {Gps} gps
 * @returns {string}
@ -350,12 +358,13 @@ export function request_map(gps, key1, value1, key2, value2, key3, value3, key4,
 /**
 * @param {string} input
 * @param {boolean} autodetect_waypoints
 * @returns {Gps}
 */
-export function load_gps_from_string(input) {
+export function load_gps_from_string(input, autodetect_waypoints) {
    const ptr0 = passStringToWasm0(input, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);
    const len0 = WASM_VECTOR_LEN;
-    const ret = wasm.load_gps_from_string(ptr0, len0);
+    const ret = wasm.load_gps_from_string(ptr0, len0, autodetect_waypoints);
    return Gps.__wrap(ret);
 }
@ -378,8 +387,8 @@ function handleError(f, args) {
        wasm.__wbindgen_exn_store(addHeapObject(e));
    }
 }
-function __wbg_adapter_85(arg0, arg1, arg2, arg3) {
+function __wbg_adapter_86(arg0, arg1, arg2, arg3) {
-    wasm.wasm_bindgen__convert__closures__invoke2_mut__h193105c6f054446a(arg0, arg1, addHeapObject(arg2), addHeapObject(arg3));
+    wasm.wasm_bindgen__convert__closures__invoke2_mut__h545ed49cfafdda52(arg0, arg1, addHeapObject(arg2), addHeapObject(arg3));
 }
 /**
@ -454,6 +463,10 @@ function getImports() {
    imports.wbg.__wbindgen_object_drop_ref = function(arg0) {
        takeObject(arg0);
    };
    imports.wbg.__wbindgen_object_clone_ref = function(arg0) {
        const ret = getObject(arg0);
        return addHeapObject(ret);
    };
    imports.wbg.__wbindgen_string_new = function(arg0, arg1) {
        const ret = getStringFromWasm0(arg0, arg1);
        return addHeapObject(ret);
@ -462,29 +475,6 @@ function getImports() {
        const ret = fetch(getObject(arg0));
        return addHeapObject(ret);
    };
    imports.wbg.__wbindgen_object_clone_ref = function(arg0) {
        const ret = getObject(arg0);
        return addHeapObject(ret);
    };
    imports.wbg.__wbg_fetch_749a56934f95c96c = function(arg0, arg1) {
        const ret = getObject(arg0).fetch(getObject(arg1));
        return addHeapObject(ret);
    };
    imports.wbg.__wbg_newwithstrandinit_05d7180788420c40 = function() { return handleError(function (arg0, arg1, arg2) {
        const ret = new Request(getStringFromWasm0(arg0, arg1), getObject(arg2));
        return addHeapObject(ret);
    }, arguments) };
    imports.wbg.__wbg_signal_31753ac644b25fbb = function(arg0) {
        const ret = getObject(arg0).signal;
        return addHeapObject(ret);
    };
    imports.wbg.__wbg_new_6396e586b56e1dff = function() { return handleError(function () {
        const ret = new AbortController();
        return addHeapObject(ret);
    }, arguments) };
    imports.wbg.__wbg_abort_064ae59cda5cd244 = function(arg0) {
        getObject(arg0).abort();
    };
    imports.wbg.__wbg_new_2d0053ee81e4dd2a = function() { return handleError(function () {
        const ret = new Headers();
        return addHeapObject(ret);
@ -521,6 +511,25 @@ function getImports() {
        const ret = getObject(arg0).text();
        return addHeapObject(ret);
    }, arguments) };
    imports.wbg.__wbg_fetch_749a56934f95c96c = function(arg0, arg1) {
        const ret = getObject(arg0).fetch(getObject(arg1));
        return addHeapObject(ret);
    };
    imports.wbg.__wbg_signal_31753ac644b25fbb = function(arg0) {
        const ret = getObject(arg0).signal;
        return addHeapObject(ret);
    };
    imports.wbg.__wbg_new_6396e586b56e1dff = function() { return handleError(function () {
        const ret = new AbortController();
        return addHeapObject(ret);
    }, arguments) };
    imports.wbg.__wbg_abort_064ae59cda5cd244 = function(arg0) {
        getObject(arg0).abort();
    };
    imports.wbg.__wbg_newwithstrandinit_05d7180788420c40 = function() { return handleError(function (arg0, arg1, arg2) {
        const ret = new Request(getStringFromWasm0(arg0, arg1), getObject(arg2));
        return addHeapObject(ret);
    }, arguments) };
    imports.wbg.__wbg_new_abda76e883ba8a5f = function() {
        const ret = new Error();
        return addHeapObject(ret);
@ -620,7 +629,7 @@ function getImports() {
                const a = state0.a;
                state0.a = 0;
                try {
-                    return __wbg_adapter_85(a, state0.b, arg0, arg1);
+                    return __wbg_adapter_86(a, state0.b, arg0, arg1);
                } finally {
                    state0.a = a;
                }
@ -655,6 +664,10 @@ function getImports() {
        const ret = new Uint8Array(getObject(arg0));
        return addHeapObject(ret);
    };
    imports.wbg.__wbg_stringify_d6471d300ded9b68 = function() { return handleError(function (arg0) {
        const ret = JSON.stringify(getObject(arg0));
        return addHeapObject(ret);
    }, arguments) };
    imports.wbg.__wbg_get_765201544a2b6869 = function() { return handleError(function (arg0, arg1) {
        const ret = Reflect.get(getObject(arg0), getObject(arg1));
        return addHeapObject(ret);
@ -667,10 +680,6 @@ function getImports() {
        const ret = Reflect.set(getObject(arg0), getObject(arg1), getObject(arg2));
        return ret;
    }, arguments) };
    imports.wbg.__wbg_stringify_d6471d300ded9b68 = function() { return handleError(function (arg0) {
        const ret = JSON.stringify(getObject(arg0));
        return addHeapObject(ret);
    }, arguments) };
    imports.wbg.__wbindgen_debug_string = function(arg0, arg1) {
        const ret = debugString(getObject(arg1));
        const ptr0 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);
@ -685,8 +694,8 @@ function getImports() {
        const ret = wasm.memory;
        return addHeapObject(ret);
    };
-    imports.wbg.__wbindgen_closure_wrapper2230 = function(arg0, arg1, arg2) {
+    imports.wbg.__wbindgen_closure_wrapper2354 = function(arg0, arg1, arg2) {
-        const ret = makeMutClosure(arg0, arg1, 264, __wbg_adapter_24);
+        const ret = makeMutClosure(arg0, arg1, 299, __wbg_adapter_24);
        return addHeapObject(ret);
    };
--- a/apps/gipy/pkg/gps_bg.wasm
+++ b/apps/gipy/pkg/gps_bg.wasm
--- a/apps/gipy/pkg/gps_bg.wasm.d.ts
+++ b/apps/gipy/pkg/gps_bg.wasm.d.ts
@ -2,19 +2,20 @@
 /* eslint-disable */
 export const memory: WebAssembly.Memory;
 export function __wbg_gps_free(a: number): void;
 export function disable_elevation(a: number): void;
 export function get_gps_map_svg(a: number, b: number): void;
 export function get_polygon(a: number, b: number): void;
 export function has_heights(a: number): number;
 export function get_polyline(a: number, b: number): void;
 export function get_gps_content(a: number, b: number): void;
 export function request_map(a: number, b: number, c: number, d: number, e: number, f: number, g: number, h: number, i: number, j: number, k: number, l: number, m: number, n: number, o: number, p: number, q: number): number;
-export function load_gps_from_string(a: number, b: number): number;
+export function load_gps_from_string(a: number, b: number, c: number): number;
 export function gps_from_area(a: number, b: number, c: number, d: number): number;
 export function __wbindgen_malloc(a: number): number;
 export function __wbindgen_realloc(a: number, b: number, c: number): number;
 export const __wbindgen_export_2: WebAssembly.Table;
-export function _dyn_core__ops__function__FnMut__A____Output___R_as_wasm_bindgen__closure__WasmClosure___describe__invoke__h9f56e5d7ebbfdb61(a: number, b: number, c: number): void;
+export function wasm_bindgen__convert__closures__invoke1_mut__hef038f7a61abd0f6(a: number, b: number, c: number): void;
 export function __wbindgen_add_to_stack_pointer(a: number): number;
 export function __wbindgen_free(a: number, b: number): void;
 export function __wbindgen_exn_store(a: number): void;
-export function wasm_bindgen__convert__closures__invoke2_mut__h193105c6f054446a(a: number, b: number, c: number, d: number): void;
+export function wasm_bindgen__convert__closures__invoke2_mut__h545ed49cfafdda52(a: number, b: number, c: number, d: number): void;
--- a/apps/gipy/settings.js
+++ b/apps/gipy/settings.js
@ -6,10 +6,11 @@
            wake_up_speed: 13,
            active_time: 10,
            buzz_on_turns: false,
-            disable_bluetooth: true,
+            disable_bluetooth: false,
            brightness: 0.5,
            power_lcd_off: false,
            powersave_by_default: false,
            sleep_between_waypoints: false,
        },
        require("Storage").readJSON(FILE, true) || {}
    );
@ -89,6 +90,13 @@
                settings.powersave_by_default = v;
                writeSettings();
            }
        },
        "sleep between waypoints": {
            value: settings.sleep_between_waypoints == true,
            onchange: (v) => {
                settings.sleep_between_waypoints = v;
                writeSettings();
            }
        }
    });
 });