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<script>
import { onMount, onDestroy } from 'svelte';
import { SVGManager } from './core/svg-manager.js';
import { GridRenderer } from './core/grid-renderer.js';
import { PathRenderer } from './core/path-renderer.js';
import { InteractionManager } from './core/interaction-manager.js';
import { ChartTransforms } from './utils/chart-transforms.js';
import { trackioSampler } from '../core/adaptive-sampler.js';
// Props - same as original ChartRenderer
export let metricData = {};
export let rawMetricData = {};
export let colorForRun = (name) => '#999';
export let variant = 'classic';
export let logScaleX = false;
export let smoothing = false;
export let normalizeLoss = true;
export let metricKey = '';
export let titleText = '';
export let hostEl = null;
export let width = 800;
export let height = 150;
export let margin = { top: 10, right: 12, bottom: 46, left: 44 };
export let onHover = null;
export let onLeave = null;
// Internal state
let container;
let svgManager;
let gridRenderer;
let pathRenderer;
let interactionManager;
let cleanup;
// Sampling state
let sampledData = {};
let samplingInfo = {};
let needsSampling = false;
// Computed values
$: innerHeight = height - margin.top - margin.bottom;
// Reactive rendering when data or props change
$: {
if (container && svgManager) {
// List all dependencies to trigger render when any change
void metricData;
void metricKey;
void variant;
void logScaleX;
void normalizeLoss;
void smoothing;
render();
}
}
/**
* Initialize all managers and renderers
*/
function initializeManagers() {
if (!container) return;
// Create SVG manager with configuration
svgManager = new SVGManager(container, { width, height, margin });
svgManager.ensureSvg();
svgManager.initializeScales(logScaleX);
// Create specialized renderers
gridRenderer = new GridRenderer(svgManager);
pathRenderer = new PathRenderer(svgManager);
interactionManager = new InteractionManager(svgManager, pathRenderer);
console.log('π Chart managers initialized');
}
/**
* Apply adaptive sampling to large datasets
*/
function applySampling() {
// Check if any run has more than 400 points
const runSizes = Object.keys(metricData).map(run => (metricData[run] || []).length);
const maxSize = Math.max(0, ...runSizes);
needsSampling = maxSize > 400;
if (needsSampling) {
console.log(`π― Large dataset detected (${maxSize} points), applying adaptive sampling`);
const result = trackioSampler.sampleMetricData(metricData, 'smart');
sampledData = result.sampledData;
samplingInfo = result.samplingInfo;
// Log sampling stats
Object.keys(samplingInfo).forEach(run => {
const info = samplingInfo[run];
console.log(`π ${run}: ${info.originalLength} β ${info.sampledLength} points (${(info.compressionRatio * 100).toFixed(1)}% retained)`);
});
} else {
sampledData = metricData;
samplingInfo = {};
}
}
/**
* Main render function - orchestrates all rendering
*/
function render() {
if (!svgManager) return;
// Apply sampling if needed
applySampling();
// Use sampled data for rendering
const dataToRender = needsSampling ? sampledData : metricData;
// Validate and clean data
const cleanedData = ChartTransforms.validateData(dataToRender);
const processedData = ChartTransforms.processMetricData(cleanedData, metricKey, normalizeLoss);
if (!processedData.hasData) {
const { root } = svgManager.getGroups();
root.style('display', 'none');
return;
}
const { root } = svgManager.getGroups();
root.style('display', null);
// Update scales based on log scale setting
svgManager.initializeScales(logScaleX);
// Setup scales and domains
const { stepIndex } = ChartTransforms.setupScales(svgManager, processedData, logScaleX);
const normalizeY = ChartTransforms.createNormalizeFunction(processedData, normalizeLoss);
// Update lineGen with normalization
const { line: lineGen, y: yScale } = svgManager.getScales();
lineGen.y(d => yScale(normalizeY(d.value)));
// Update layout and render axes
const { innerWidth, xTicksForced, yTicksForced } = svgManager.updateLayout(processedData.hoverSteps, logScaleX);
// Render grid
gridRenderer.renderGrid(xTicksForced, yTicksForced, processedData.hoverSteps, variant);
// Render data series
pathRenderer.renderSeries(
processedData.runs,
cleanedData,
rawMetricData,
colorForRun,
smoothing,
logScaleX,
stepIndex,
normalizeY
);
// Setup interactions
interactionManager.setupHoverInteractions(
processedData.hoverSteps,
stepIndex,
processedData.runs.map(r => ({
run: r,
color: colorForRun(r),
values: (cleanedData[r] || []).slice().sort((a, b) => a.step - b.step)
})),
normalizeY,
processedData.isAccuracy,
innerWidth,
logScaleX,
onHover,
onLeave
);
}
/**
* Public API: Show hover line at specific step
*/
export function showHoverLine(step) {
if (!interactionManager) return;
// Use sampled data for interactions as well
const dataToRender = needsSampling ? sampledData : metricData;
const cleanedData = ChartTransforms.validateData(dataToRender);
const processedData = ChartTransforms.processMetricData(cleanedData, metricKey, normalizeLoss);
const { stepIndex } = ChartTransforms.setupScales(svgManager, processedData, logScaleX);
interactionManager.showHoverLine(step, processedData.hoverSteps, stepIndex, logScaleX);
}
/**
* Public API: Hide hover line
*/
export function hideHoverLine() {
if (interactionManager) {
interactionManager.hideHoverLine();
}
}
/**
* Setup resize observer and lifecycle
*/
onMount(() => {
initializeManagers();
render();
// Debounced resize handling for better mobile performance
let resizeTimeout;
const debouncedRender = () => {
if (resizeTimeout) clearTimeout(resizeTimeout);
resizeTimeout = setTimeout(() => {
render();
}, 100);
};
const ro = window.ResizeObserver ? new ResizeObserver(debouncedRender) : null;
if (ro && container) ro.observe(container);
// Listen for orientation changes on mobile
const handleOrientationChange = () => {
setTimeout(() => {
render();
}, 300);
};
window.addEventListener('orientationchange', handleOrientationChange);
window.addEventListener('resize', debouncedRender);
cleanup = () => {
if (ro) ro.disconnect();
if (resizeTimeout) clearTimeout(resizeTimeout);
window.removeEventListener('orientationchange', handleOrientationChange);
window.removeEventListener('resize', debouncedRender);
if (svgManager) svgManager.destroy();
if (interactionManager) interactionManager.destroy();
};
});
onDestroy(() => {
cleanup && cleanup();
});
</script>
<div bind:this={container} style="width: 100%; height: 100%; min-width: 200px; overflow: hidden;"></div>
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