import HumanReadableLogs from '../../../ide/human-readable-logs/HumanReadableLogs' import BibLogParser from '../../../ide/log-parser/bib-log-parser' import { enablePdfCaching } from './pdf-caching-flags' import { debugConsole } from '@/utils/debugging' import { dirname, findEntityByPath } from '@/features/file-tree/util/path' // Warnings that may disappear after a second LaTeX pass const TRANSIENT_WARNING_REGEX = /^(Reference|Citation).+undefined on input line/ export function handleOutputFiles(outputFiles, projectId, data) { const outputFile = outputFiles.get('output.pdf') if (!outputFile) return null // build the URL for viewing the PDF in the preview UI const params = new URLSearchParams({ compileGroup: data.compileGroup, }) if (data.clsiServerId) { params.set('clsiserverid', data.clsiServerId) } if (enablePdfCaching) { // Tag traffic that uses the pdf caching logic. params.set('enable_pdf_caching', 'true') } outputFile.pdfUrl = `${buildURL( outputFile, data.pdfDownloadDomain )}?${params}` // build the URL for downloading the PDF params.set('popupDownload', 'true') // save PDF download as file outputFile.pdfDownloadUrl = `/download/project/${projectId}/build/${outputFile.build}/output/output.pdf?${params}` return outputFile } let nextEntryId = 1 function generateEntryKey() { return 'compile-log-entry-' + nextEntryId++ } export const handleLogFiles = async (outputFiles, data, signal) => { const result = { log: null, logEntries: { errors: [], warnings: [], typesetting: [], }, } function accumulateResults(newEntries, type) { for (const key in result.logEntries) { if (newEntries[key]) { for (const entry of newEntries[key]) { if (type) { entry.type = newEntries.type } if (entry.file) { entry.file = normalizeFilePath(entry.file) } entry.key = generateEntryKey() } result.logEntries[key].push(...newEntries[key]) } } } const logFile = outputFiles.get('output.log') if (logFile) { try { const response = await fetch(buildURL(logFile, data.pdfDownloadDomain), { signal, }) result.log = await response.text() let { errors, warnings, typesetting } = HumanReadableLogs.parse( result.log, { ignoreDuplicates: true, } ) if (data.status === 'stopped-on-first-error') { // Hide warnings that could disappear after a second pass warnings = warnings.filter(warning => !isTransientWarning(warning)) } accumulateResults({ errors, warnings, typesetting }) } catch (e) { debugConsole.warn(e) // ignore failure to fetch/parse the log file, but log a warning } } const blgFiles = [] for (const [filename, file] of outputFiles) { if (filename.endsWith('.blg')) { blgFiles.push(file) } } for (const blgFile of blgFiles) { try { const response = await fetch(buildURL(blgFile, data.pdfDownloadDomain), { signal, }) const log = await response.text() try { const { errors, warnings } = new BibLogParser(log, { maxErrors: 100, }).parse() accumulateResults({ errors, warnings }, 'BibTeX:') } catch (e) { // BibLog parsing errors are ignored } } catch (e) { debugConsole.warn(e) // ignore failure to fetch/parse the log file, but log a warning } } result.logEntries.all = [ ...result.logEntries.errors, ...result.logEntries.warnings, ...result.logEntries.typesetting, ] return result } export function buildLogEntryAnnotations(entries, fileTreeData, rootDocId) { const rootDocDirname = dirname(fileTreeData, rootDocId) const logEntryAnnotations = {} const seenLine = {} for (const entry of entries) { if (entry.file) { entry.file = normalizeFilePath(entry.file, rootDocDirname) const entity = findEntityByPath(fileTreeData, entry.file)?.entity if (entity) { if (!(entity._id in logEntryAnnotations)) { logEntryAnnotations[entity._id] = [] } const annotation = { id: entry.key, entryIndex: logEntryAnnotations[entity._id].length, // used for maintaining the order of items on the same line row: entry.line - 1, type: entry.level === 'error' ? 'error' : 'warning', text: entry.message, source: 'compile', // NOTE: this is used in Ace for filtering the annotations ruleId: entry.ruleId, } // set firstOnLine for the first non-typesetting annotation on a line if (entry.level !== 'typesetting') { if (!seenLine[entry.line]) { annotation.firstOnLine = true seenLine[entry.line] = true } } logEntryAnnotations[entity._id].push(annotation) } } } return logEntryAnnotations } export const buildRuleCounts = (entries = []) => { const counts = {} for (const entry of entries) { const key = `${entry.level}_${entry.ruleId}` counts[key] = counts[key] ? counts[key] + 1 : 1 } return counts } export const buildRuleDeltas = (ruleCounts, previousRuleCounts) => { const counts = {} // keys that are defined in the current log entries for (const [key, value] of Object.entries(ruleCounts)) { const previousValue = previousRuleCounts[key] ?? 0 counts[`delta_${key}`] = value - previousValue } // keys that are no longer defined in the current log entries for (const [key, value] of Object.entries(previousRuleCounts)) { if (!(key in ruleCounts)) { counts[key] = 0 counts[`delta_${key}`] = -value } } return counts } function buildURL(file, pdfDownloadDomain) { if (file.build && pdfDownloadDomain) { // Downloads from the compiles domain must include a build id. // The build id is used implicitly for access control. return `${pdfDownloadDomain}${file.url}` } // Go through web instead, which uses mongo for checking project access. return `${window.origin}${file.url}` } function normalizeFilePath(path, rootDocDirname) { path = path.replace(/\/\//g, '/') path = path.replace( /^.*\/compiles\/[0-9a-f]{24}(-[0-9a-f]{24})?\/(\.\/)?/, '' ) path = path.replace(/^\/compile\//, '') if (rootDocDirname) { path = path.replace(/^\.\//, rootDocDirname + '/') } return path } function isTransientWarning(warning) { return TRANSIENT_WARNING_REGEX.test(warning.message) }