Files
sure/app/javascript/controllers/sankey_chart_controller.js
Will Wilson d908560ed9 feat(cashflow): deep-link category labels to filtered transactions (#2083)
* feat(cashflow): deep-link category labels to filtered transactions

Clicking a category's text label in the dashboard cashflow Sankey chart
now navigates to the transactions page filtered by that category and the
cashflow's active period date range. The colored node bar keeps its
existing zoom-into-subcategories behavior; structural nodes (Cash Flow,
Surplus) do not navigate.

URL-building lives in a pure, unit-tested utils/transactions_filter_url
module (mirroring utils/sankey_zoom) pinned in the importmap. Period dates
are threaded from the dashboard view into the Stimulus controller via data
values. This matches the existing donut chart's click-to-filter behavior.

* Update app/javascript/controllers/sankey_chart_controller.js

Co-authored-by: Guillem Arias Fauste <gariasf@proton.me>
Signed-off-by: Will Wilson <will@willwilson.uk>

---------

Signed-off-by: Will Wilson <will@willwilson.uk>
Co-authored-by: Guillem Arias Fauste <gariasf@proton.me>
2026-06-11 21:21:56 +02:00

631 lines
18 KiB
JavaScript

import { Controller } from "@hotwired/stimulus";
import * as d3 from "d3";
import { sankey } from "d3-sankey";
import { CHART_TOOLTIP_CLASSES } from "utils/chart_tooltip";
import { sankeyNodeHasChildren, zoomSankeyData } from "utils/sankey_zoom";
import {
buildCategoryTransactionsUrl,
isNavigableCategoryNode,
} from "utils/transactions_filter_url";
// Connects to data-controller="sankey-chart"
export default class extends Controller {
static targets = ["chart", "zoomOutButton"];
static values = {
data: Object,
nodeWidth: { type: Number, default: 15 },
nodePadding: { type: Number, default: 20 },
currencySymbol: { type: String, default: "$" },
startDate: String,
endDate: String,
};
// Visual constants
static HOVER_OPACITY = 0.4;
static HOVER_FILTER = "saturate(1.3) brightness(1.1)";
static EXTENT_MARGIN = 16;
static MIN_NODE_PADDING = 4;
static MAX_PADDING_RATIO = 0.4;
static CORNER_RADIUS = 8;
static ZOOM_TRANSITION_MS = 220;
static DEFAULT_COLOR = "var(--color-gray-400)";
static CSS_VAR_MAP = {
"var(--color-success)": "#10A861",
"var(--color-destructive)": "#EC2222",
"var(--color-gray-400)": "#9E9E9E",
"var(--color-gray-500)": "#737373",
};
static MIN_LABEL_SPACING = 28; // Minimum vertical space needed for labels (2 lines)
connect() {
this.connected = true;
this.zoomRootId = null;
this.resizeObserver = new ResizeObserver(() => this.#draw());
this.resizeObserver.observe(this.#chartElement());
this.tooltip = null;
this.#createTooltip();
this.#syncZoomControls();
this.#draw();
}
dataValueChanged() {
if (!this.connected) return;
this.zoomRootId = null;
this.#syncZoomControls();
this.#draw();
}
disconnect() {
this.connected = false;
this.resizeObserver?.disconnect();
clearTimeout(this.drawTimeout);
this.tooltip?.remove();
this.tooltip = null;
}
zoomOut() {
if (!this.zoomRootId) return;
this.zoomRootId = null;
this.#syncZoomControls();
this.#draw({ animate: true });
}
#draw({ animate = false } = {}) {
const { nodes = [], links = [] } = this.#visibleData();
if (!nodes.length || !links.length) return;
// Hide tooltip and reset any hover states before redrawing
this.#hideTooltip();
const chartElement = this.#chartElement();
const chart = d3.select(chartElement);
clearTimeout(this.drawTimeout);
chart.selectAll("svg").interrupt();
if (animate) {
chart
.selectAll("svg")
.transition()
.duration(this.constructor.ZOOM_TRANSITION_MS / 2)
.style("opacity", 0)
.remove();
this.drawTimeout = setTimeout(() => {
this.#render(nodes, links, true);
}, this.constructor.ZOOM_TRANSITION_MS / 2);
} else {
chart.selectAll("svg").remove();
this.#render(nodes, links, false);
}
}
#render(nodes, links, animate) {
const chartElement = this.#chartElement();
const chart = d3.select(chartElement);
const width = chartElement.clientWidth || 600;
const height = chartElement.clientHeight || 400;
const svg = chart
.append("svg")
.attr("width", width)
.attr("height", height)
.style("opacity", animate ? 0 : 1);
const effectivePadding = this.#calculateNodePadding(nodes.length, height);
const sankeyData = this.#generateSankeyData(
nodes,
links,
width,
height,
effectivePadding,
);
this.#createGradients(svg, sankeyData.links);
const linkPaths = this.#drawLinks(svg, sankeyData.links);
const { nodeGroups, hiddenLabels } = this.#drawNodes(
svg,
sankeyData.nodes,
width,
);
this.#attachHoverEvents(linkPaths, nodeGroups, sankeyData, hiddenLabels);
if (animate) {
svg
.transition()
.duration(this.constructor.ZOOM_TRANSITION_MS / 2)
.style("opacity", 1);
}
}
#chartElement() {
return this.hasChartTarget ? this.chartTarget : this.element;
}
#visibleData() {
if (!this.zoomRootId) return this.dataValue || {};
return zoomSankeyData(this.dataValue, this.zoomRootId);
}
#syncZoomControls() {
this.zoomOutButtonTargets.forEach((button) => {
button.hidden = !this.zoomRootId;
});
}
#zoomIn(node) {
if (!node.id || !sankeyNodeHasChildren(this.#visibleData(), node.id))
return;
this.zoomRootId = node.id;
this.#syncZoomControls();
this.#draw({ animate: true });
}
#navigateToTransactions(d) {
if (!isNavigableCategoryNode(d.id)) {
// Structural node (Cash Flow / Surplus): keep current zoom behavior.
this.#zoomIn(d);
return;
}
Turbo.visit(
buildCategoryTransactionsUrl({
name: d.name,
startDate: this.startDateValue,
endDate: this.endDateValue,
}),
);
}
// Dynamic padding prevents padding from dominating when there are many nodes
#calculateNodePadding(nodeCount, height) {
const margin = this.constructor.EXTENT_MARGIN;
const availableHeight = height - margin * 2;
const maxPaddingTotal =
availableHeight * this.constructor.MAX_PADDING_RATIO;
const gaps = Math.max(nodeCount - 1, 1);
const dynamicPadding = Math.min(
this.nodePaddingValue,
Math.floor(maxPaddingTotal / gaps),
);
return Math.max(this.constructor.MIN_NODE_PADDING, dynamicPadding);
}
#generateSankeyData(nodes, links, width, height, nodePadding) {
const margin = this.constructor.EXTENT_MARGIN;
const sankeyGenerator = sankey()
.nodeWidth(this.nodeWidthValue)
.nodePadding(nodePadding)
.extent([
[margin, margin],
[width - margin, height - margin],
]);
return sankeyGenerator({
nodes: nodes.map((d) => ({ ...d })),
links: links.map((d) => ({ ...d })),
});
}
#createGradients(svg, links) {
const defs = svg.append("defs");
links.forEach((link, i) => {
const gradientId = this.#gradientId(link, i);
const gradient = defs
.append("linearGradient")
.attr("id", gradientId)
.attr("gradientUnits", "userSpaceOnUse")
.attr("x1", link.source.x1)
.attr("x2", link.target.x0);
gradient
.append("stop")
.attr("offset", "0%")
.attr("stop-color", this.#colorWithOpacity(link.source.color));
gradient
.append("stop")
.attr("offset", "100%")
.attr("stop-color", this.#colorWithOpacity(link.target.color));
});
}
#gradientId(link, index) {
return `link-gradient-${link.source.index}-${link.target.index}-${index}`;
}
#colorWithOpacity(nodeColor, opacity = 0.1) {
const defaultColor = this.constructor.DEFAULT_COLOR;
let colorStr = nodeColor || defaultColor;
// Map CSS variables to hex values for d3 color manipulation
colorStr = this.constructor.CSS_VAR_MAP[colorStr] || colorStr;
// Unmapped CSS vars cannot be manipulated, return as-is
if (colorStr.startsWith("var(--")) return colorStr;
const d3Color = d3.color(colorStr);
return d3Color ? d3Color.copy({ opacity }) : defaultColor;
}
#drawLinks(svg, links) {
return svg
.append("g")
.attr("fill", "none")
.selectAll("path")
.data(links)
.join("path")
.attr("class", "sankey-link")
.attr("d", (d) =>
d3.linkHorizontal()({
source: [d.source.x1, d.y0],
target: [d.target.x0, d.y1],
}),
)
.attr("stroke", (d, i) => `url(#${this.#gradientId(d, i)})`)
.attr("stroke-width", (d) => Math.max(1, d.width))
.style("transition", "opacity 0.3s ease");
}
#drawNodes(svg, nodes, width) {
const nodeGroups = svg
.append("g")
.selectAll("g")
.data(nodes)
.join("g")
.style("transition", "opacity 0.3s ease");
nodeGroups
.append("path")
.attr("d", (d) => this.#nodePath(d))
.attr("fill", (d) => d.color || this.constructor.DEFAULT_COLOR)
.attr("stroke", (d) => (d.color ? "none" : "var(--color-gray-500)"));
const hiddenLabels = this.#addNodeLabels(nodeGroups, width, nodes);
return { nodeGroups, hiddenLabels };
}
#nodePath(node) {
const { x0, y0, x1, y1 } = node;
const height = y1 - y0;
const radius = Math.max(
0,
Math.min(this.constructor.CORNER_RADIUS, height / 2),
);
const isSourceNode =
node.sourceLinks?.length > 0 && !node.targetLinks?.length;
const isTargetNode =
node.targetLinks?.length > 0 && !node.sourceLinks?.length;
// Too small for rounded corners
if (height < radius * 2) {
return this.#rectPath(x0, y0, x1, y1);
}
if (isSourceNode) {
return this.#roundedLeftPath(x0, y0, x1, y1, radius);
}
if (isTargetNode) {
return this.#roundedRightPath(x0, y0, x1, y1, radius);
}
return this.#rectPath(x0, y0, x1, y1);
}
#rectPath(x0, y0, x1, y1) {
return `M ${x0},${y0} L ${x1},${y0} L ${x1},${y1} L ${x0},${y1} Z`;
}
#roundedLeftPath(x0, y0, x1, y1, r) {
return `M ${x0 + r},${y0}
L ${x1},${y0}
L ${x1},${y1}
L ${x0 + r},${y1}
Q ${x0},${y1} ${x0},${y1 - r}
L ${x0},${y0 + r}
Q ${x0},${y0} ${x0 + r},${y0} Z`;
}
#roundedRightPath(x0, y0, x1, y1, r) {
return `M ${x0},${y0}
L ${x1 - r},${y0}
Q ${x1},${y0} ${x1},${y0 + r}
L ${x1},${y1 - r}
Q ${x1},${y1} ${x1 - r},${y1}
L ${x0},${y1} Z`;
}
#addNodeLabels(nodeGroups, width, nodes) {
const controller = this;
const hiddenLabels = this.#calculateHiddenLabels(nodes);
nodeGroups
.append("text")
.attr("x", (d) => (d.x0 < width / 2 ? d.x1 + 6 : d.x0 - 6))
.attr("y", (d) => (d.y1 + d.y0) / 2)
.attr("dy", "-0.2em")
.attr("text-anchor", (d) => (d.x0 < width / 2 ? "start" : "end"))
.attr(
"class",
"text-xs font-medium text-primary fill-current select-none",
)
.style("cursor", "default")
.style("opacity", (d) => (hiddenLabels.has(d.index) ? 0 : 1))
.style("transition", "opacity 0.2s ease")
.each(function (d) {
const textEl = d3.select(this);
textEl.selectAll("tspan").remove();
textEl.append("tspan").text(d.name);
textEl
.append("tspan")
.attr("x", textEl.attr("x"))
.attr("dy", "1.2em")
.attr("class", "font-mono text-secondary")
.style("font-size", "0.65rem")
.text(controller.#formatCurrency(d.value));
});
return hiddenLabels;
}
// Calculate which labels should be hidden to prevent overlap
#calculateHiddenLabels(nodes) {
const hiddenLabels = new Set();
const height = this.#chartElement().clientHeight || 400;
const isLargeGraph = height > 600;
const minSpacing = isLargeGraph
? this.constructor.MIN_LABEL_SPACING * 0.7
: this.constructor.MIN_LABEL_SPACING;
// Group nodes by column (using depth which d3-sankey assigns)
const columns = new Map();
nodes.forEach((node) => {
const depth = node.depth;
if (!columns.has(depth)) columns.set(depth, []);
columns.get(depth).push(node);
});
// For each column, check for overlapping labels
columns.forEach((columnNodes) => {
// Sort by vertical position
columnNodes.sort((a, b) => (a.y0 + a.y1) / 2 - (b.y0 + b.y1) / 2);
let lastVisibleY = Number.NEGATIVE_INFINITY;
columnNodes.forEach((node) => {
const nodeY = (node.y0 + node.y1) / 2;
const nodeHeight = node.y1 - node.y0;
if (isLargeGraph && nodeHeight > minSpacing * 1.5) {
lastVisibleY = nodeY;
} else if (nodeY - lastVisibleY < minSpacing) {
// Too close to previous visible label, hide this one
hiddenLabels.add(node.index);
} else {
lastVisibleY = nodeY;
}
});
});
return hiddenLabels;
}
#attachHoverEvents(linkPaths, nodeGroups, sankeyData, hiddenLabels) {
const applyHover = (targetLinks) => {
const targetSet = new Set(targetLinks);
const connectedNodes = new Set(
targetLinks.flatMap((l) => [l.source, l.target]),
);
linkPaths
.style("opacity", (d) =>
targetSet.has(d) ? 1 : this.constructor.HOVER_OPACITY,
)
.style("filter", (d) =>
targetSet.has(d) ? this.constructor.HOVER_FILTER : "none",
);
nodeGroups.style("opacity", (d) =>
connectedNodes.has(d) ? 1 : this.constructor.HOVER_OPACITY,
);
// Show labels for connected nodes (even if normally hidden)
nodeGroups
.selectAll("text")
.style("opacity", (d) =>
connectedNodes.has(d)
? 1
: hiddenLabels.has(d.index)
? 0
: this.constructor.HOVER_OPACITY,
);
};
const resetHover = () => {
linkPaths.style("opacity", 1).style("filter", "none");
nodeGroups.style("opacity", 1);
// Restore hidden labels to hidden state
nodeGroups
.selectAll("text")
.style("opacity", (d) => (hiddenLabels.has(d.index) ? 0 : 1));
};
linkPaths
.on("mouseenter", (event, d) => {
applyHover([d]);
// A link is a flow between two named nodes — without the names the
// value floats context-free (the old tooltip showed only "$X (Y%)").
this.#showTooltip(
event,
d.value,
d.percentage,
this.#tooltipContext(
`${this.#esc(d.source.name)}${this.#esc(d.target.name)}`,
),
);
})
.on("mousemove", (event) => this.#updateTooltipPosition(event))
.on("mouseleave", () => {
resetHover();
this.#hideTooltip();
});
// Hover on node rectangles (not just text)
nodeGroups
.selectAll("path")
.style("cursor", (d) =>
sankeyNodeHasChildren(this.#visibleData(), d.id)
? "pointer"
: "default",
)
.on("mouseenter", (event, d) => {
const connectedLinks = sankeyData.links.filter(
(l) => l.source === d || l.target === d,
);
applyHover(connectedLinks);
this.#showTooltip(
event,
d.value,
d.percentage,
this.#tooltipContext(this.#esc(d.name)),
);
})
.on("mousemove", (event) => this.#updateTooltipPosition(event))
.on("click", (event, d) => {
event.stopPropagation();
this.#zoomIn(d);
})
.on("mouseleave", () => {
resetHover();
this.#hideTooltip();
});
nodeGroups
.selectAll("text")
.style("cursor", (d) =>
isNavigableCategoryNode(d.id) ||
sankeyNodeHasChildren(this.#visibleData(), d.id)
? "pointer"
: "default",
)
.on("mouseenter", (event, d) => {
const connectedLinks = sankeyData.links.filter(
(l) => l.source === d || l.target === d,
);
applyHover(connectedLinks);
this.#showTooltip(
event,
d.value,
d.percentage,
this.#tooltipContext(this.#esc(d.name)),
);
})
.on("mousemove", (event) => this.#updateTooltipPosition(event))
.on("click", (event, d) => {
event.stopPropagation();
this.#navigateToTransactions(d);
})
.on("mouseleave", () => {
resetHover();
this.#hideTooltip();
});
}
// Tooltip methods
#createTooltip() {
const dialog = this.element.closest("dialog");
this.tooltip = d3
.select(dialog || document.body)
.append("div")
// Shared visual contract + this chart's positioning class; opacity is
// toggled via inline style below.
.attr("class", `${CHART_TOOLTIP_CLASSES} top-0`)
.style("opacity", 0)
.style("pointer-events", "none");
}
// Node names are user-named categories; escape anything interpolated into
// .html() (the previous code injected them raw).
#esc(s) {
return String(s).replace(
/[&<>"']/g,
(c) =>
({ "&": "&amp;", "<": "&lt;", ">": "&gt;", '"': "&quot;", "'": "&#39;" })[c],
);
}
// Context line shared by node and link tooltips: the (escaped) name(s) of
// what's hovered. No color swatch — the hover highlight on the diagram
// itself already says which ribbon the card belongs to.
#tooltipContext(label) {
// max-w-64 gives truncate a constraint to fire against — an absolute
// tooltip otherwise grows to fit and never ellipsizes deep flows.
return `<div class="max-w-64 text-xs text-secondary mb-1 truncate">${label}</div>`;
}
#showTooltip(event, value, percentage, contextHtml = null) {
if (!this.tooltip) this.#createTooltip();
const valueLine = `<span class="font-medium tabular-nums">${this.#formatCurrency(value)}</span> <span class="text-secondary">(${percentage || 0}%)</span>`;
const content = contextHtml
? `${contextHtml}<div>${valueLine}</div>`
: valueLine;
const isInDialog = !!this.element.closest("dialog");
const x = isInDialog ? event.clientX : event.pageX;
const y = isInDialog ? event.clientY : event.pageY;
this.tooltip
.html(content)
.style("position", isInDialog ? "fixed" : "absolute")
.style("left", `${x + 10}px`)
.style("top", `${y - 10}px`)
.transition()
.duration(100)
.style("opacity", 1);
}
#updateTooltipPosition(event) {
if (this.tooltip) {
const isInDialog = !!this.element.closest("dialog");
const x = isInDialog ? event.clientX : event.pageX;
const y = isInDialog ? event.clientY : event.pageY;
this.tooltip?.style("left", `${x + 10}px`).style("top", `${y - 10}px`);
}
}
#hideTooltip() {
if (this.tooltip) {
this.tooltip
?.transition()
.duration(100)
.style("opacity", 0)
.style("pointer-events", "none");
}
}
#formatCurrency(value) {
const formatted = Number.parseFloat(value).toLocaleString(undefined, {
minimumFractionDigits: 2,
maximumFractionDigits: 2,
});
return this.currencySymbolValue + formatted;
}
}