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async function init_wasm(state) {
const results = await WebAssembly.instantiateStreaming(fetch('wasm/lod.wasm'));
state.wasm.exports = results.instance.exports;
state.wasm.exports.memory.grow(1024);
}
function rdp_find_max(state, zoom, coords_from, start, end) {
// Finds a point from the range [start, end) with the maximum distance from the line (start--end) that is also further than EPS
const EPS = 1.0 / zoom;
let result = -1;
let max_dist = 0;
const ax = state.coordinates.data[coords_from + start * 2 + 0];
const ay = state.coordinates.data[coords_from + start * 2 + 1];
const bx = state.coordinates.data[coords_from + end * 2 + 0];
const by = state.coordinates.data[coords_from + end * 2 + 1];
const dx = bx - ax;
const dy = by - ay;
const dist_ab = Math.sqrt(dx * dx + dy * dy);
const dir_nx = dy / dist_ab;
const dir_ny = -dx / dist_ab;
for (let i = start + 1; i < end; ++i) {
const px = state.coordinates.data[coords_from + i * 2 + 0];
const py = state.coordinates.data[coords_from + i * 2 + 1];
const apx = px - ax;
const apy = py - ay;
const dist = Math.abs(apx * dir_nx + apy * dir_ny);
if (dist > EPS && dist > max_dist) {
result = i;
max_dist = dist;
}
}
state.stats.rdp_max_count++;
state.stats.rdp_segments += end - start - 1;
return result;
}
function do_lod_wasm(state, context) {
const clipped_indices = state.wasm.exports.alloc(context.clipped_indices.size * 4);
const stroke_coords_from = state.wasm.exports.alloc(state.coords_from.size * 4);
const stroke_coords_to = state.wasm.exports.alloc(state.coords_to.size * 4);
const line_threshold = state.wasm.exports.alloc(state.line_threshold.size * 4);
const segments_from = state.wasm.exports.alloc((context.clipped_indices.size + 1) * 4);
const segments = state.wasm.exports.alloc(state.segments.capacity * 4);
const coordinates = state.wasm.exports.alloc(state.coordinates.size * 4);
const mem = new Uint8Array(state.wasm.exports.memory.buffer);
mem.set(tv_bytes(context.clipped_indices), clipped_indices);
mem.set(tv_bytes(state.coords_from), stroke_coords_from);
mem.set(tv_bytes(state.coords_to), stroke_coords_to);
mem.set(tv_bytes(state.line_threshold), line_threshold);
mem.set(tv_bytes(state.coordinates), coordinates);
const segment_count = state.wasm.exports.do_lod(
clipped_indices, context.clipped_indices.size, state.canvas.zoom,
stroke_coords_from, stroke_coords_to,
line_threshold, coordinates,
segments_from, segments
);
// copy result back
const wasm_segments = new Uint32Array(state.wasm.exports.memory.buffer, segments, segment_count);
const wasm_segments_from = new Uint32Array(state.wasm.exports.memory.buffer, segments_from, context.clipped_indices.size + 1);
state.segments.data.set(wasm_segments);
state.segments.size = segment_count;
state.segments_from.data.set(wasm_segments_from);
state.segments_from.size = context.clipped_indices.size + 1;
state.wasm.exports.total_free();
return segment_count;
}
function do_lod(state, context) {
if (state.debug.use_wasm) {
return do_lod_wasm(state, context);
}
const zoom = state.canvas.zoom;
const segments_data = state.segments.data;
let segments_head = 0;
for (let i = 0; i < context.clipped_indices.size; ++i) {
const stroke_index = context.clipped_indices.data[i];
const stroke = state.events[stroke_index];
const point_count = (stroke.coords_to - stroke.coords_from) / 2;
const coords_from = stroke.coords_from;
if (point_count > state.rdp_traverse_stack.length) {
//console.size('allocate')
state.rdp_traverse_stack = new Uint32Array(round_to_pow2(point_count, 4096));
}
const stack = state.rdp_traverse_stack;
// Basic CSR crap
state.segments_from.data[i] = segments_head;
if (state.canvas.zoom <= state.line_threshold.data[stroke_index]) {
segments_data[segments_head++] = 0;
segments_data[segments_head++] = point_count - 1;
} else {
let segment_count = 2;
segments_data[segments_head++] = 0;
let head = 0;
// Using stack.push() allocates even if the stack is pre-allocated!
stack[head++] = 0;
stack[head++] = 0;
stack[head++] = point_count - 1;
while (head > 0) {
const end = stack[--head];
const value = start = stack[--head];
const type = stack[--head];
if (type === 1) {
segments_data[segments_head++] = value;
} else {
const max = rdp_find_max(state, zoom, coords_from, start, end);
if (max !== -1) {
segment_count += 1;
stack[head++] = 0;
stack[head++] = max;
stack[head++] = end;
stack[head++] = 1;
stack[head++] = max;
stack[head++] = -1;
stack[head++] = 0;
stack[head++] = start;
stack[head++] = max;
}
}
}
segments_data[segments_head++] = point_count - 1;
if (segment_count === 2 && state.canvas.zoom > state.line_threshold.data[stroke_index]) {
state.line_threshold.data[stroke_index] = state.canvas.zoom;
}
}
}
state.segments_from.data[context.clipped_indices.size] = segments_head;
state.segments_from.size = context.clipped_indices.size + 1;
state.segments.size = segments_head;
return segments_head;
}