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function bvh_make_leaf(bvh, index, stroke) {
const leaf = {
'stroke_index': index,
'bbox': stroke.bbox,
'area': stroke.area,
'parent_index': null,
'is_leaf': true,
};
bvh.nodes.push(leaf);
return bvh.nodes.length - 1;
}
function bvh_make_internal(bvh) {
const node = {
'child1': null,
'child2': null,
'parent_index': null,
'is_leaf': false,
};
bvh.nodes.push(node);
return bvh.nodes.length - 1;
}
function bvh_compute_sah(bvh, new_leaf, potential_sibling, only_parent = false) {
let cost = 0;
let union_box;
if (!only_parent) {
union_box = quad_union(new_leaf.bbox, potential_sibling.bbox);
const internal_node_would_be = { 'bbox': union_box };
const new_internal_node_cost = (union_box.x2 - union_box.x1) * (union_box.y2 - union_box.y1);
cost += new_internal_node_cost;
} else {
union_box = new_leaf.bbox;
}
let parent_index = potential_sibling.parent_index;
while (parent_index !== null) {
const current_node = bvh.nodes[parent_index];
const old_cost = current_node.area;
union_box = quad_union(current_node.bbox, union_box);
const new_cost = (union_box.x2 - union_box.x1) * (union_box.y2 - union_box.y1);
cost += new_cost - old_cost;
parent_index = current_node.parent_index;
}
return cost;
}
function bvh_find_best_sibling(bvh, leaf_index) {
// branch and bound
const leaf = bvh.nodes[leaf_index];
const leaf_cost = (leaf.bbox.x2 - leaf.bbox.x1) * (leaf.bbox.y2 - leaf.bbox.y1);
let best_cost = bvh_compute_sah(bvh, leaf, bvh.nodes[bvh.root]);
let best_index = bvh.root;
bvh.pqueue.clear();
bvh.pqueue.push(best_index, best_cost);
while (bvh.pqueue.size > 0) {
const current_index = bvh.pqueue.pop();
const current_node = bvh.nodes[current_index];
const cost = bvh_compute_sah(bvh, current_node, leaf);
if (cost < best_cost) {
best_cost = cost;
best_index = current_index;
}
if (!current_node.is_leaf) {
const child1 = bvh.nodes[current_node.child1];
const lower_bound_for_children = bvh_compute_sah(bvh, child1, leaf, true) + leaf_cost;
if (lower_bound_for_children < best_cost) {
bvh.pqueue.push(current_node.child1, lower_bound_for_children);
bvh.pqueue.push(current_node.child2, lower_bound_for_children);
}
}
}
return best_index;
}
function bvh_add_stroke(bvh, index, stroke) {
const leaf_index = bvh_make_leaf(bvh, index, stroke);
12 months ago
if (bvh.nodes.length === 1) {
bvh.root = leaf_index;
return;
}
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if (bvh.pqueue.capacity < Math.ceil(bvh.nodes.length * 1.2)) {
bvh.pqueue = new MinQueue(bvh.nodes.length * 2);
}
// It's as easy as 1-2-3
// 1. Find best sibling for leaf
const sibling = bvh_find_best_sibling(bvh, leaf_index);
// 2. Create new parent
const old_parent = bvh.nodes[sibling].parent_index;
const new_parent = bvh_make_internal(bvh);
bvh.nodes[new_parent].parent_index = old_parent;
bvh.nodes[new_parent].bbox = quad_union(stroke.bbox, bvh.nodes[sibling].bbox);
if (old_parent !== null) {
// The sibling was not the root
if (bvh.nodes[old_parent].child1 === sibling) {
bvh.nodes[old_parent].child1 = new_parent;
} else {
bvh.nodes[old_parent].child2 = new_parent;
}
bvh.nodes[new_parent].child1 = sibling;
bvh.nodes[new_parent].child2 = leaf_index;
bvh.nodes[sibling].parent_index = new_parent;
bvh.nodes[leaf_index].parent_index = new_parent;
} else {
// The sibling was the root
bvh.nodes[new_parent].child1 = sibling;
bvh.nodes[new_parent].child2 = leaf_index;
bvh.nodes[sibling].parent_index = new_parent;
bvh.nodes[leaf_index].parent_index = new_parent;
bvh.root = new_parent;
}
const new_bbox = quad_union(bvh.nodes[bvh.nodes[new_parent].child1].bbox, bvh.nodes[bvh.nodes[new_parent].child2].bbox);
bvh.nodes[new_parent].bbox = new_bbox;
bvh.nodes[new_parent].area = (new_bbox.x2 - new_bbox.x1) * (new_bbox.y2 - new_bbox.y1);
// 3. Refit and insert in fullnode
let refit_index = bvh.nodes[leaf_index].parent_index;
while (refit_index !== null) {
const child1 = bvh.nodes[refit_index].child1;
const child2 = bvh.nodes[refit_index].child2;
bvh.nodes[refit_index].bbox = quad_union(bvh.nodes[child1].bbox, bvh.nodes[child2].bbox);
if (bvh.nodes[refit_index].is_fullnode) {
tv_add2(bvh.nodes[refit_index].stroke_indices, index);
}
refit_index = bvh.nodes[refit_index].parent_index;
}
}
function bvh_intersect_quad(bvh, quad, result_buffer) {
if (bvh.root === null) {
return;
}
tv_clear(bvh.traverse_stack);
tv_add(bvh.traverse_stack, bvh.root);
while (bvh.traverse_stack.size > 0) {
const node_index = tv_pop(bvh.traverse_stack);
const node = bvh.nodes[node_index];
if (!quads_intersect(node.bbox, quad)) {
continue;
}
if (node.is_fullnode) {
if (quad_fully_inside(quad, node.bbox)) {
tv_append(result_buffer, tv_data(node.stroke_indices));
continue;
}
}
if (node.is_leaf) {
tv_add(result_buffer, node.stroke_index);
} else {
tv_add(bvh.traverse_stack, node.child1);
tv_add(bvh.traverse_stack, node.child2);
}
}
}
function bvh_clip(state, context) {
if (state.stroke_count === 0) {
return;
}
tv_ensure(context.clipped_indices, round_to_pow2(state.stroke_count, 4096))
tv_ensure(state.bvh.traverse_stack, round_to_pow2(state.stroke_count, 4096));
tv_clear(context.clipped_indices);
const screen_topleft = screen_to_canvas(state, {'x': 0, 'y': 0});
const screen_bottomright = screen_to_canvas(state, {'x': context.canvas.width, 'y': context.canvas.height});
const screen_topright = { 'x': screen_bottomright.x, 'y': screen_topleft.y };
const screen_bottomleft = { 'x': screen_topleft.x, 'y': screen_bottomright.y };
const screen = {
'x1': screen_topleft.x,
'y1': screen_topleft.y,
'x2': screen_bottomright.x,
'y2': screen_bottomright.y
};
bvh_intersect_quad(state.bvh, screen, context.clipped_indices);
tv_data(context.clipped_indices).sort(); // we need to draw back to front still!
}
function bvh_point(state, p) {
const bvh = state.bvh;
const stack = [];
const indices = [];
if (bvh.root === null) {
return null;
}
stack.push(bvh.root);
while (stack.length > 0) {
const node_index = stack.pop();
const node = bvh.nodes[node_index];
if (!point_in_bbox(p, node.bbox)) {
continue;
}
if (node.is_leaf) {
const stroke = state.events[node.stroke_index];
const xs = state.wasm.buffers['xs'].tv.data.subarray(stroke.coords_from, stroke.coords_to);
const ys = state.wasm.buffers['ys'].tv.data.subarray(stroke.coords_from, stroke.coords_to);
const pressures = state.wasm.buffers['pressures'].tv.data.subarray(stroke.coords_from, stroke.coords_to);
if (point_in_stroke(p, xs, ys, pressures, stroke.width)) {
indices.push(node.stroke_index);
}
} else {
stack.push(node.child1);
stack.push(node.child2);
}
}
if (indices.length > 0) {
indices.sort();
return indices[indices.length - 1];
}
return null;
}
function bvh_construct_rec(bvh, vertical, strokes, depth) {
if (strokes.length > 1) {
// internal
let sorted_strokes;
if (vertical) {
sorted_strokes = strokes.toSorted((a, b) => a.bbox.cy - b.bbox.cy);
} else {
sorted_strokes = strokes.toSorted((a, b) => a.bbox.cx - b.bbox.cx);
}
const node_index = bvh_make_internal(bvh);
const left_of_split_count = Math.floor(strokes.length / 2);
const child1 = bvh_construct_rec(bvh, !vertical, sorted_strokes.slice(0, left_of_split_count), depth + 1);
const child2 = bvh_construct_rec(bvh, !vertical, sorted_strokes.slice(left_of_split_count, sorted_strokes.length), depth + 1);
bvh.nodes[child1].parent_index = node_index;
bvh.nodes[child2].parent_index = node_index;
bvh.nodes[node_index].child1 = child1;
bvh.nodes[node_index].child2 = child2;
bvh.nodes[node_index].bbox = quad_union(bvh.nodes[child1].bbox, bvh.nodes[child2].bbox);
if (depth === config.bvh_fullnode_depth) {
const indices = tv_create(Int32Array, round_to_pow2(strokes.length, 32));
for (let i = 0; i < strokes.length; ++i) {
tv_add(indices, strokes[i].index);
}
bvh.nodes[node_index].stroke_indices = indices;
bvh.nodes[node_index].is_fullnode = true;
}
return node_index;
} else {
// leaf
return bvh_make_leaf(bvh, strokes[0].index, strokes[0]);
}
}
function bvh_construct(state) {
if (state.events.length > 0) {
state.bvh.root = bvh_construct_rec(state.bvh, true, state.events, 0);
}
}