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function init_listeners(state, context) {
window.addEventListener('keydown', (e) => keydown(e, state, context));
window.addEventListener('keyup', (e) => keyup(e, state, context));
window.addEventListener('paste', (e) => paste(e, state, context));
context.canvas.addEventListener('mousedown', (e) => mousedown(e, state, context));
context.canvas.addEventListener('mousemove', (e) => mousemove(e, state, context));
context.canvas.addEventListener('mouseup', (e) => mouseup(e, state, context));
context.canvas.addEventListener('mouseleave', (e) => mouseup(e, state, context));
context.canvas.addEventListener('contextmenu', cancel);
context.canvas.addEventListener('wheel', (e) => wheel(e, state, context));
context.canvas.addEventListener('touchstart', (e) => touchstart(e, state, context));
context.canvas.addEventListener('touchmove', (e) => touchmove(e, state, context));
context.canvas.addEventListener('touchend', (e) => touchend(e, state, context));
context.canvas.addEventListener('touchcancel', (e) => touchend(e, state, context));
context.canvas.addEventListener('drop', (e) => on_drop(e, state, context));
context.canvas.addEventListener('dragover', (e) => mousemove(e, state, context));
debug_panel_init(state, context);
}
function debug_panel_init(state, context) {
document.getElementById('debug-red').checked = state.debug.red;
document.getElementById('debug-do-prepass').checked = state.debug.do_prepass;
document.getElementById('debug-limit-from').checked = state.debug.limit_from;
document.getElementById('debug-limit-to').checked = state.debug.limit_to;
document.getElementById('debug-force-clip-off').checked = state.debug.force_clip_off;
document.getElementById('debug-draw-bvh').checked = state.debug.draw_bvh;
document.getElementById('debug-draw-bvh').addEventListener('change', (e) => {
state.debug.draw_bvh = e.target.checked;
schedule_draw(state, context);
});
document.getElementById('debug-force-clip-off').addEventListener('change', (e) => {
state.debug.force_clip_off = e.target.checked;
schedule_draw(state, context);
});
document.getElementById('debug-red').addEventListener('change', (e) => {
state.debug.red = e.target.checked;
schedule_draw(state, context);
});
document.getElementById('debug-do-prepass').addEventListener('change', (e) => {
state.debug.do_prepass = e.target.checked;
schedule_draw(state, context);
});
document.getElementById('debug-limit-from').addEventListener('change', (e) => {
state.debug.limit_from = e.target.checked;
schedule_draw(state, context);
});
document.getElementById('debug-limit-to').addEventListener('change', (e) => {
state.debug.limit_to = e.target.checked;
schedule_draw(state, context);
});
document.getElementById('debug-render-from').addEventListener('input', (e) => {
state.debug.render_from = parseInt(e.target.value);
schedule_draw(state, context);
});
document.getElementById('debug-render-to').addEventListener('input', (e) => {
state.debug.render_to = parseInt(e.target.value);
schedule_draw(state, context);
});
}
function cancel(e) {
e.preventDefault();
return false;
}
function zenmode() {
document.querySelector('.pallete-wrapper').classList.toggle('hidden');
document.querySelector('.sizer-wrapper').classList.toggle('hidden');
}
async function paste(e, state, context) {
const items = (e.clipboardData || e.originalEvent.clipboardData).items;
for (const item of items) {
if (item.kind === 'file') {
const file = item.getAsFile();
await insert_image(state, context, file);
}
}
}
function keydown(e, state, context) {
if (e.code === 'Space' && !state.drawing) {
state.spacedown = true;
context.canvas.classList.add('movemode');
} else if (e.code === 'Tab') {
e.preventDefault();
zenmode();
} else if (e.code === 'KeyZ') {
const topleft = screen_to_canvas(state, {'x': 0, 'y': 0});
const bottomright = screen_to_canvas(state, {'x': context.canvas.width, 'y': context.canvas.height});
for (let i = 0; i < state.events.length; ++i) {
const event = state.events[i];
if (event.type === EVENT.STROKE) {
let on_screen = false;
for (const p of event.points) {
if (topleft.x <= p.x && p.x <= bottomright.x && topleft.y <= p.y && p.y <= bottomright.y) {
on_screen = true;
break;
}
}
if (on_screen) {
console.log(i);
}
}
}
} else if (e.code === 'KeyD') {
document.querySelector('.debug-window').classList.toggle('dhide');
}
}
function keyup(e, state, context) {
if (e.code === 'Space' && state.spacedown) {
state.spacedown = false;
state.moving = false;
context.canvas.classList.remove('movemode');
}
}
function mousedown(e, state, context) {
const screenp = {'x': window.devicePixelRatio * e.clientX, 'y': window.devicePixelRatio * e.clientY};
const canvasp = screen_to_canvas(state, screenp);
if (e.button === 2) {
// Right click on image to select it
const image_event = image_at(state, canvasp.x, canvasp.y);
if (image_event) {
context.active_image = image_event.image_id;
} else {
context.active_image = null;
}
schedule_draw(state, context);
return;
}
if (e.button !== 0) {
return;
}
if (context.active_image) {
// Move selected image with left click
const image_event = image_at(state, canvasp.x, canvasp.y);
if (image_event && image_event.image_id === context.active_image) {
state.moving_image = image_event;
return;
}
}
if (state.spacedown) {
state.moving = true;
context.canvas.classList.add('moving');
return;
}
if (state.tools.active === 'pencil') {
geometry_clear_player(state, context, state.me);
geometry_add_point(state, context, state.me, canvasp);
state.drawing = true;
context.active_image = null;
schedule_draw(state, context);
} else if (state.tools.active === 'ruler') {
} else if (state.tools.active === 'eraser') {
state.erasing = true;
}
}
function mousemove(e, state, context) {
e.preventDefault();
let do_draw = false;
if (state.moving) {
state.canvas.offset.x += e.movementX;
state.canvas.offset.y += e.movementY;
do_draw = true;
}
if (state.moving_image) {
state.moving_image.x += e.movementX / state.canvas.zoom;
state.moving_image.y += e.movementY / state.canvas.zoom;
move_image(context, state.moving_image);
do_draw = true;
}
const screenp = {'x': window.devicePixelRatio * e.clientX, 'y': window.devicePixelRatio * e.clientY};
const canvasp = screen_to_canvas(state, screenp);
if (state.drawing) {
geometry_add_point(state, context, state.me, canvasp);
fire_event(state, predraw_event(canvasp.x, canvasp.y));
do_draw = true;
}
if (state.erasing) {
const p1 = screen_to_canvas(state, state.cursor);
const p2 = { 'x': canvasp.x, 'y': canvasp.y };
const erased = strokes_intersect_line(state, p1, p2);
for (const index of erased) {
if (!state.events[index].deleted) {
state.events[index].deleted = true;
do_draw = true;
geometry_delete_stroke(state, context, index);
}
}
}
if (do_draw) {
schedule_draw(state, context);
}
state.cursor = screenp;
return false;
}
function mouseup(e, state, context) {
if (e.button !== 0) {
return;
}
if (state.moving_image) {
schedule_draw(state, context);
queue_event(state, image_move_event(context.active_image, state.moving_image.x, state.moving_image.y));
state.moving_image = null;
return;
}
if (state.moving) {
state.moving = false;
context.canvas.classList.remove('moving');
return;
}
if (state.drawing) {
const stroke = geometry_prepare_stroke(state);
if (stroke) {
geometry_add_stroke(state, context, stroke, 0); // TODO: stroke index?
queue_event(state, stroke_event(state));
geometry_clear_player(state, context, state.me);
schedule_draw(state, context);
}
state.drawing = false;
return;
}
if (state.erasing) {
state.erasing = false;
return;
}
}
function wheel(e, state, context) {
const screenp = {'x': window.devicePixelRatio * e.clientX, 'y': window.devicePixelRatio * e.clientY};
const canvasp = screen_to_canvas(state, screenp);
const dz = (e.deltaY < 0 ? 0.1 : -0.1);
const old_zoom = state.canvas.zoom;
state.canvas.zoom *= (1.0 + dz);
if (state.canvas.zoom > config.max_zoom) {
state.canvas.zoom = old_zoom;
return;
}
if (state.canvas.zoom < config.min_zoom) {
state.canvas.zoom = old_zoom;
return;
}
const zoom_offset_x = Math.round((dz * old_zoom) * canvasp.x);
const zoom_offset_y = Math.round((dz * old_zoom) * canvasp.y);
state.canvas.offset.x -= zoom_offset_x;
state.canvas.offset.y -= zoom_offset_y;
schedule_draw(state, context);
}
function start_move(e, state, context) {
// two touch identifiers are expected to be pushed into state.touch.ids at this point
geometry_clear_player(state, context, state.me); // Hide predraws of this stroke that is not means to be
fire_event(state, clear_event(state)); // Tell others to hide predraws of this stroke
for (const touch of e.touches) {
const screenp = {'x': window.devicePixelRatio * touch.clientX, 'y': window.devicePixelRatio * touch.clientY};
if (touch.identifier === state.touch.ids[0]) {
state.touch.first_finger_position = screenp;
} else if (touch.identifier === state.touch.ids[1]) {
state.touch.second_finger_position = screenp;
}
}
}
function touchstart(e, state, context) {
e.preventDefault();
// First finger(s) down?
if (state.touch.ids.length === 0) {
if (e.changedTouches.length === 1) {
// We give a bit of time to add a second finger
state.touch.waiting_for_second_finger = true;
state.touch.moves = 0;
state.touch.buffered.length = 0;
state.touch.ids.push(e.changedTouches[0].identifier);
state.touch.drawing = true;
setTimeout(() => {
state.touch.waiting_for_second_finger = false;
}, config.second_finger_timeout);
} else {
state.touch.ids.push(e.changedTouches[0].identifier);
state.touch.ids.push(e.changedTouches[1].identifier);
start_move(e, state, context);
}
return;
}
// There are touches already
if (state.touch.waiting_for_second_finger) {
if (e.changedTouches.length === 1) {
state.touch.ids.push(e.changedTouches[0].identifier);
start_move(e, state, context);
}
return;
}
}
function touchmove(e, state, context) {
if (state.touch.ids.length === 1) {
const touch = find_touch(e.changedTouches, state.touch.ids[0]);
if (!touch) {
return;
}
const screenp = {'x': window.devicePixelRatio * touch.clientX, 'y': window.devicePixelRatio * touch.clientY};
const canvasp = screen_to_canvas(state, screenp);
if (state.touch.moving) {
// Can happen if we have been panning the canvas and lifted one finger,
// but not the second one
return;
}
state.touch.moves += 1;
if (state.touch.moves > config.buffer_first_touchmoves) {
// At this point touch with second finger will NOT start a pan
state.touch.waiting_for_second_finger = false;
}
geometry_add_point(state, context, state.me, canvasp);
fire_event(state, predraw_event(canvasp.x, canvasp.y));
schedule_draw(state, context);
return;
}
if (state.touch.ids.length === 2) {
state.touch.moving = true;
let first_finger_position = null;
let second_finger_position = null;
// A separate loop because touches might be in different order ? (question mark)
// IMPORTANT: e.touches, not e.changedTouches!
for (const touch of e.touches) {
const screenp = {'x': window.devicePixelRatio * touch.clientX, 'y': window.devicePixelRatio * touch.clientY};
if (touch.identifier === state.touch.ids[0]) {
first_finger_position = screenp;
} else if (touch.identifier === state.touch.ids[1]) {
second_finger_position = screenp;
}
}
const old_finger_midpoint = mid_v2(state.touch.first_finger_position, state.touch.second_finger_position);
const new_finger_midpoint = mid_v2(first_finger_position, second_finger_position);
const new_finger_midpoint_canvas = mid_v2(
screen_to_canvas(state, first_finger_position),
screen_to_canvas(state, second_finger_position)
);
const old_finger_distance = dist_v2(state.touch.first_finger_position, state.touch.second_finger_position);
const new_finger_distance = dist_v2(first_finger_position, second_finger_position);
const dx = new_finger_midpoint.x - old_finger_midpoint.x;
const dy = new_finger_midpoint.y - old_finger_midpoint.y;
const old_zoom = state.canvas.zoom;
state.canvas.offset.x += dx;
state.canvas.offset.y += dy;
// console.log(new_finger_distance, state.touch.finger_distance);
const scale_by = new_finger_distance / old_finger_distance;
const dz = state.canvas.zoom * (scale_by - 1.0);
const zoom_offset_x = dz * new_finger_midpoint_canvas.x;
const zoom_offset_y = dz * new_finger_midpoint_canvas.y;
if (config.min_zoom <= state.canvas.zoom * scale_by && state.canvas.zoom * scale_by <= config.max_zoom) {
state.canvas.zoom *= scale_by;
state.canvas.offset.x -= zoom_offset_x;
state.canvas.offset.y -= zoom_offset_y;
}
state.touch.first_finger_position = first_finger_position;
state.touch.second_finger_position = second_finger_position;
schedule_draw(state, context);
return;
}
}
function touchend(e, state, context) {
for (const touch of e.changedTouches) {
if (state.touch.drawing) {
if (state.touch.ids[0] == touch.identifier) {
// const event = stroke_event();
// await queue_event(event);
const stroke = geometry_prepare_stroke(state);
if (stroke) {
geometry_add_stroke(state, context, stroke, 0); // TODO: stroke index
queue_event(state, stroke_event(state));
geometry_clear_player(state, context, state.me);
schedule_draw(state, context);
}
state.touch.drawing = false;
}
}
const index = state.touch.ids.indexOf(touch.identifier);
if (index !== -1) {
state.touch.ids.splice(index, 1);
}
}
if (state.touch.ids.length === 0) {
// Only allow drawing again when ALL fingers have been lifted
state.touch.moving = false;
waiting_for_second_finger = false;
}
}
async function on_drop(e, state, context) {
e.preventDefault();
if (e.dataTransfer.files.length !== 1) {
return;
}
const file = e.dataTransfer.files[0];
await insert_image(state, context, file);
schedule_draw(state, context);
return false;
}