// Regex patterns for ANSI escape sequences (constructed from strings to // satisfy the no-control-regex lint rule). const SGR_PATTERN = "\\x1b\\[[0-9;]*m"; const OSC8_PATTERN = "\\x1b\\]8;;.*?(?:\\x07|\\x1b\\\\)"; const ANSI_RE = new RegExp(`${SGR_PATTERN}|${OSC8_PATTERN}`, "g"); const SGR_START_RE = new RegExp(`^${SGR_PATTERN}`); const OSC8_START_RE = new RegExp(`^${OSC8_PATTERN}`);
/** Wrap text with an OSC 8 terminal hyperlink. */
export function wrapOsc8(url: string, text: string): string { return `\x1b]8;;${url}\x07${text}\x1b]8;;\x07`;
}
/** * Extract all unique URLs from raw markdown text. * Finds both bare URLs and markdown link hrefs [text](url).
*/
export function extractUrls(markdown: string): string[] { const urls = new Set<string>();
// Markdown link hrefs: [text](url), with optional <...> and optional title. const mdLinkRe = /\[(?:[^\]]*)\]\(\s*<?(https?:\/\/[^)\s>]+)>?(?:\s+["'][^"']*["'])?\s*\)/g;
let m: RegExpExecArray | null; while ((m = mdLinkRe.exec(markdown)) !== null) {
urls.add(m[1]);
}
// Bare URLs (remove markdown links first to avoid double-matching) const stripped = markdown.replace(
/\[(?:[^\]]*)\]\(\s*<?https?:\/\/[^)\s>]+>?(?:\s+["'][^"']*["'])?\s*\)/g, "",
); const bareRe = /https?:\/\/[^\s)\]>]+/g; while ((m = bareRe.exec(stripped)) !== null) {
urls.add(m[0]);
}
return [...urls];
}
/** Strip ANSI SGR and OSC 8 sequences to get visible text. */ function stripAnsi(input: string): string { return input.replace(ANSI_RE, "");
}
interface UrlRange {
start: number; // visible text start index
end: number; // visible text end index (exclusive)
url: string; // full URL to link to
}
/** * Find URL ranges in a line's visible text, handling cross-line URL splits.
*/ function findUrlRanges(
visibleText: string,
knownUrls: string[],
pending: { url: string; consumed: number } | null,
): { ranges: UrlRange[]; pending: { url: string; consumed: number } | null } { const ranges: UrlRange[] = [];
let newPending: { url: string; consumed: number } | null = null;
let searchFrom = 0;
// Handle continuation of a URL broken from the previous line if (pending) { const remaining = pending.url.slice(pending.consumed); const trimmed = visibleText.trimStart(); const leadingSpaces = visibleText.length - trimmed.length;
let matchLen = 0; for (let j = 0; j < remaining.length && j < trimmed.length; j++) { if (remaining[j] === trimmed[j]) {
matchLen++;
} else { break;
}
}
// Find new URL starts in visible text const urlRe = /https?:\/\/[^\s)\]>]+/g;
urlRe.lastIndex = searchFrom;
let match: RegExpExecArray | null;
while ((match = urlRe.exec(visibleText)) !== null) { const fragment = match[0]; const start = match.index;
// Resolve fragment to a known URL (exact > prefix > superstring)
let resolvedUrl = fragment;
let found = false;
for (const known of knownUrls) { if (known === fragment) {
resolvedUrl = known;
found = true; break;
}
} if (!found) {
let bestLen = 0; for (const known of knownUrls) { if (known.startsWith(fragment) && known.length > bestLen) {
resolvedUrl = known;
bestLen = known.length;
found = true;
}
}
} if (!found) {
let bestLen = 0; for (const known of knownUrls) { if (fragment.startsWith(known) && known.length > bestLen) {
resolvedUrl = known;
bestLen = known.length;
}
}
}
// If fragment is a strict prefix of the resolved URL, it may be split if (resolvedUrl.length > fragment.length && resolvedUrl.startsWith(fragment)) {
newPending = { url: resolvedUrl, consumed: fragment.length };
}
}
return { ranges, pending: newPending };
}
/** * Apply OSC 8 hyperlink sequences to a line based on visible-text URL ranges. * Walks through the raw string character by character, inserting OSC 8 * open/close sequences at URL range boundaries while preserving ANSI codes.
*/ function applyOsc8Ranges(line: string, ranges: UrlRange[]): string { if (ranges.length === 0) { return line;
}
// Build a lookup: visible position → URL const urlAt = new Map<number, string>(); for (const r of ranges) { for (let p = r.start; p < r.end; p++) {
urlAt.set(p, r.url);
}
}
let result = "";
let visiblePos = 0;
let activeUrl: string | null = null;
let i = 0;
while (i < line.length) { // Fast path: only check for escape sequences when we see ESC if (line.charCodeAt(i) === 0x1b) { // ANSI SGR sequence const sgr = line.slice(i).match(SGR_START_RE); if (sgr) {
result += sgr[0];
i += sgr[0].length; continue;
}
// Existing OSC 8 sequence (pass through) const osc = line.slice(i).match(OSC8_START_RE); if (osc) {
result += osc[0];
i += osc[0].length; continue;
}
}
// Visible character — toggle OSC 8 at range boundaries const targetUrl = urlAt.get(visiblePos) ?? null; if (targetUrl !== activeUrl) { if (activeUrl !== null) {
result += "\x1b]8;;\x07";
} if (targetUrl !== null) {
result += `\x1b]8;;${targetUrl}\x07`;
}
activeUrl = targetUrl;
}
result += line[i];
visiblePos++;
i++;
}
if (activeUrl !== null) {
result += "\x1b]8;;\x07";
}
return result;
}
/** * Add OSC 8 hyperlinks to rendered lines using a pre-extracted URL list. * * For each line, finds URL-like substrings in the visible text, matches them * against known URLs, and wraps each fragment with OSC 8 escape sequences. * Handles URLs broken across multiple lines by pi-tui's word wrapping.
*/
export function addOsc8Hyperlinks(lines: string[], urls: string[]): string[] { if (urls.length === 0) { return lines;
}
let pending: { url: string; consumed: number } | null = null;
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