import App from '../../../base' import HumanReadableLogs from '../../human-readable-logs/HumanReadableLogs' import BibLogParser from 'libs/bib-log-parser' import 'ace/ace' const AUTO_COMPILE_MAX_WAIT = 5000 // We add a 1 second debounce to sending user changes to server if they aren't // collaborating with anyone. This needs to be higher than that, and allow for // client to server latency, otherwise we compile before the op reaches the server // and then again on ack. const AUTO_COMPILE_DEBOUNCE = 2000 App.filter('trusted', $sce => url => $sce.trustAsResourceUrl(url)) App.controller('PdfController', function( $scope, $http, ide, $modal, synctex, eventTracking, localStorage ) { let autoCompile = true // pdf.view = uncompiled | pdf | errors $scope.pdf.view = $scope.pdf.url ? 'pdf' : 'uncompiled' $scope.shouldShowLogs = false $scope.wikiEnabled = window.wikiEnabled // view logic to check whether the files dropdown should "drop up" or "drop down" $scope.shouldDropUp = false const logsContainerEl = document.querySelector('.pdf-logs') const filesDropdownEl = logsContainerEl && logsContainerEl.querySelector('.files-dropdown') // get the top coordinate of the files dropdown as a ratio (to the logs container height) // logs container supports scrollable content, so it's possible that ratio > 1. function getFilesDropdownTopCoordAsRatio() { if (filesDropdownEl == null || logsContainerEl == null) { return 0 } return ( filesDropdownEl.getBoundingClientRect().top / logsContainerEl.getBoundingClientRect().height ) } $scope.$watch('shouldShowLogs', shouldShow => { if (shouldShow) { $scope.$applyAsync(() => { $scope.shouldDropUp = getFilesDropdownTopCoordAsRatio() > 0.65 }) } }) $scope.trackLogHintsLearnMore = function() { eventTracking.sendMB('logs-hints-learn-more') } if (ace.require('ace/lib/useragent').isMac) { $scope.modifierKey = 'Cmd' } else { $scope.modifierKey = 'Ctrl' } // utility for making a query string from a hash, could use jquery $.param function createQueryString(args) { const qsArgs = [] for (const k in args) { const v = args[k] qsArgs.push(`${k}=${v}`) } if (qsArgs.length) { return `?${qsArgs.join('&')}` } else { return '' } } $scope.stripHTMLFromString = function(htmlStr) { const tmp = document.createElement('DIV') tmp.innerHTML = htmlStr return tmp.textContent || tmp.innerText || '' } $scope.$on('project:joined', () => { if (!autoCompile) { return } autoCompile = false $scope.recompile({ isAutoCompileOnLoad: true }) $scope.hasPremiumCompile = $scope.project.features.compileGroup === 'priority' }) $scope.$on('pdf:error:display', function() { $scope.pdf.view = 'errors' $scope.pdf.renderingError = true }) let autoCompileInterval = null function autoCompileIfReady() { if ( $scope.pdf.compiling || !$scope.autocompile_enabled || !$scope.pdf.uncompiled ) { return } // Only checking linting if syntaxValidation is on and visible to the user const autoCompileLintingError = ide.$scope.hasLintingError && ide.$scope.settings.syntaxValidation if ($scope.autoCompileLintingError !== autoCompileLintingError) { $scope.$apply(() => { $scope.autoCompileLintingError = autoCompileLintingError // We've likely been waiting a while until the user fixed the linting, but we // don't want to compile as soon as it is fixed, so reset the timeout. $scope.startedTryingAutoCompileAt = Date.now() $scope.docLastChangedAt = Date.now() }) } if (autoCompileLintingError && $scope.stop_on_validation_error) { return } // If there's a longish compile, don't compile immediately after if user is still typing const startedTryingAt = Math.max( $scope.startedTryingAutoCompileAt, $scope.lastFinishedCompileAt || 0 ) const timeSinceStartedTrying = Date.now() - startedTryingAt const timeSinceLastChange = Date.now() - $scope.docLastChangedAt let shouldCompile = false if (timeSinceLastChange > AUTO_COMPILE_DEBOUNCE) { // Don't compile in the middle of the user typing shouldCompile = true } else if (timeSinceStartedTrying > AUTO_COMPILE_MAX_WAIT) { // Unless they type for a long time shouldCompile = true } else if (timeSinceStartedTrying < 0 || timeSinceLastChange < 0) { // If time is non-monotonic, assume that the user's system clock has been // changed and continue with compile shouldCompile = true } if (shouldCompile) { return triggerAutoCompile() } } function triggerAutoCompile() { $scope.recompile({ isAutoCompileOnChange: true }) } function startTryingAutoCompile() { if (autoCompileInterval != null) { return } $scope.startedTryingAutoCompileAt = Date.now() autoCompileInterval = setInterval(autoCompileIfReady, 200) } function stopTryingAutoCompile() { clearInterval(autoCompileInterval) autoCompileInterval = null } $scope.changesToAutoCompile = false $scope.$watch('pdf.uncompiled', uncompiledChanges => { // don't autocompile if disabled or the pdf is not visible if ( $scope.pdf.uncompiled && $scope.autocompile_enabled && !$scope.ui.pdfHidden ) { $scope.changesToAutoCompile = true startTryingAutoCompile() } else { $scope.changesToAutoCompile = false stopTryingAutoCompile() } }) function recalculateUncompiledChanges() { if ($scope.docLastChangedAt == null) { $scope.pdf.uncompiled = false } else if ( $scope.lastStartedCompileAt == null || $scope.docLastChangedAt > $scope.lastStartedCompileAt ) { $scope.pdf.uncompiled = true } else { $scope.pdf.uncompiled = false } } function _updateDocLastChangedAt() { $scope.docLastChangedAt = Date.now() recalculateUncompiledChanges() } function onDocChanged() { $scope.autoCompileLintingError = false _updateDocLastChangedAt() } function onDocSaved() { // We use the save as a trigger too, to account for the delay between the client // and server. Otherwise, we might have compiled after the user made // the change on the client, but before the server had it. _updateDocLastChangedAt() } function onCompilingStateChanged(compiling) { recalculateUncompiledChanges() } ide.$scope.$on('doc:changed', onDocChanged) ide.$scope.$on('doc:saved', onDocSaved) $scope.$watch('pdf.compiling', onCompilingStateChanged) $scope.autocompile_enabled = localStorage(`autocompile_enabled:${$scope.project_id}`) || false $scope.$watch('autocompile_enabled', (newValue, oldValue) => { if (newValue != null && oldValue !== newValue) { if (newValue === true) { autoCompileIfReady() } localStorage(`autocompile_enabled:${$scope.project_id}`, newValue) eventTracking.sendMB('autocompile-setting-changed', { value: newValue }) } }) // abort compile if syntax checks fail $scope.stop_on_validation_error = localStorage( `stop_on_validation_error:${$scope.project_id}` ) if ($scope.stop_on_validation_error == null) { $scope.stop_on_validation_error = true } // turn on for all users by default $scope.$watch('stop_on_validation_error', (newValue, oldValue) => { if (newValue != null && oldValue !== newValue) { localStorage(`stop_on_validation_error:${$scope.project_id}`, newValue) } }) $scope.draft = localStorage(`draft:${$scope.project_id}`) || false $scope.$watch('draft', (newValue, oldValue) => { if (newValue != null && oldValue !== newValue) { localStorage(`draft:${$scope.project_id}`, newValue) } }) function sendCompileRequest(options) { if (options == null) { options = {} } const url = `/project/${$scope.project_id}/compile` const params = {} if (options.isAutoCompileOnLoad || options.isAutoCompileOnChange) { params['auto_compile'] = true } // if the previous run was a check, clear the error logs if ($scope.check) { $scope.pdf.logEntries = [] } // keep track of whether this is a compile or check $scope.check = !!options.check if (options.check) { eventTracking.sendMB('syntax-check-request') } // send appropriate check type to clsi let checkType if ($scope.check) { checkType = 'validate' // validate only } else if (options.try) { checkType = 'silent' // allow use to try compile once } else if ($scope.stop_on_validation_error) { checkType = 'error' // try to compile } else { checkType = 'silent' // ignore errors } // FIXME: Temporarily disable syntax checking as it is causing // excessive support requests for projects migrated from v1 // https://github.com/overleaf/sharelatex/issues/911 if (checkType === 'error') { checkType = 'silent' } return $http.post( url, { rootDoc_id: options.rootDocOverride_id || null, draft: $scope.draft, check: checkType, // use incremental compile for all users but revert to a full // compile if there is a server error incrementalCompilesEnabled: !$scope.pdf.error, _csrf: window.csrfToken }, { params } ) } function buildPdfDownloadUrl(pdfDownloadDomain, path) { // we only download builds from compiles server for security reasons if ( pdfDownloadDomain != null && path != null && path.indexOf('build') !== -1 ) { return `${pdfDownloadDomain}${path}` } else { return path } } function parseCompileResponse(response) { // keep last url const lastPdfUrl = $scope.pdf.url const { pdfDownloadDomain } = response // Reset everything $scope.pdf.error = false $scope.pdf.timedout = false $scope.pdf.failure = false $scope.pdf.url = null $scope.pdf.clsiMaintenance = false $scope.pdf.tooRecentlyCompiled = false $scope.pdf.renderingError = false $scope.pdf.projectTooLarge = false $scope.pdf.compileTerminated = false $scope.pdf.compileExited = false $scope.pdf.failedCheck = false $scope.pdf.compileInProgress = false $scope.pdf.autoCompileDisabled = false // make a cache to look up files by name const fileByPath = {} if (response.outputFiles != null) { for (const file of response.outputFiles) { fileByPath[file.path] = file } } // prepare query string let qs = {} // add a query string parameter for the compile group if (response.compileGroup != null) { ide.compileGroup = qs.compileGroup = response.compileGroup } // add a query string parameter for the clsi server id if (response.clsiServerId != null) { ide.clsiServerId = qs.clsiserverid = response.clsiServerId } if (response.status === 'success') { $scope.pdf.view = 'pdf' $scope.shouldShowLogs = false // define the base url. if the pdf file has a build number, pass it to the clsi in the url if (fileByPath['output.pdf'] && fileByPath['output.pdf'].url) { $scope.pdf.url = buildPdfDownloadUrl( pdfDownloadDomain, fileByPath['output.pdf'].url ) } else if (fileByPath['output.pdf'] && fileByPath['output.pdf'].build) { const { build } = fileByPath['output.pdf'] $scope.pdf.url = buildPdfDownloadUrl( pdfDownloadDomain, `/project/${$scope.project_id}/build/${build}/output/output.pdf` ) } else { $scope.pdf.url = buildPdfDownloadUrl( pdfDownloadDomain, `/project/${$scope.project_id}/output/output.pdf` ) } // check if we need to bust cache (build id is unique so don't need it in that case) if (!(fileByPath['output.pdf'] && fileByPath['output.pdf'].build)) { qs.cache_bust = `${Date.now()}` } // convert the qs hash into a query string and append it $scope.pdf.url += createQueryString(qs) // Save all downloads as files qs.popupDownload = true // Pass build id to download if we have it let buildId = null if (fileByPath['output.pdf'] && fileByPath['output.pdf'].build) { buildId = fileByPath['output.pdf'].build } $scope.pdf.downloadUrl = `/download/project/${$scope.project_id}${ buildId ? '/build/' + buildId : '' }/output/output.pdf` + createQueryString(qs) fetchLogs(fileByPath, { pdfDownloadDomain }) } else if (response.status === 'timedout') { $scope.pdf.view = 'errors' $scope.pdf.timedout = true fetchLogs(fileByPath, { pdfDownloadDomain }) if ( !$scope.hasPremiumCompile && ide.$scope.project.owner._id === ide.$scope.user.id ) { eventTracking.send( 'subscription-funnel', 'editor-click-feature', 'compile-timeout' ) } } else if (response.status === 'terminated') { $scope.pdf.view = 'errors' $scope.pdf.compileTerminated = true fetchLogs(fileByPath, { pdfDownloadDomain }) } else if ( ['validation-fail', 'validation-pass'].includes(response.status) ) { $scope.pdf.view = 'pdf' $scope.pdf.url = buildPdfDownloadUrl(pdfDownloadDomain, lastPdfUrl) $scope.shouldShowLogs = true if (response.status === 'validation-fail') { $scope.pdf.failedCheck = true } eventTracking.sendMB(`syntax-check-${response.status}`) fetchLogs(fileByPath, { validation: true, pdfDownloadDomain }) } else if (response.status === 'exited') { $scope.pdf.view = 'pdf' $scope.pdf.compileExited = true $scope.pdf.url = buildPdfDownloadUrl(pdfDownloadDomain, lastPdfUrl) $scope.shouldShowLogs = true fetchLogs(fileByPath, { pdfDownloadDomain }) } else if (response.status === 'autocompile-backoff') { if ($scope.pdf.isAutoCompileOnLoad) { // initial autocompile $scope.pdf.view = 'uncompiled' } else { // background autocompile from typing $scope.pdf.view = 'errors' $scope.pdf.autoCompileDisabled = true $scope.autocompile_enabled = false // disable any further autocompiles eventTracking.sendMB('autocompile-rate-limited', { hasPremiumCompile: $scope.hasPremiumCompile }) } } else if (response.status === 'project-too-large') { $scope.pdf.view = 'errors' $scope.pdf.projectTooLarge = true } else if (response.status === 'failure') { $scope.pdf.view = 'errors' $scope.pdf.failure = true $scope.shouldShowLogs = true fetchLogs(fileByPath, { pdfDownloadDomain }) } else if (response.status === 'clsi-maintenance') { $scope.pdf.view = 'errors' $scope.pdf.clsiMaintenance = true } else if (response.status === 'unavailable') { $scope.pdf.view = 'errors' $scope.pdf.clsiUnavailable = true } else if (response.status === 'too-recently-compiled') { $scope.pdf.view = 'errors' $scope.pdf.tooRecentlyCompiled = true } else if (response.status === 'validation-problems') { $scope.pdf.view = 'validation-problems' $scope.pdf.validation = response.validationProblems $scope.shouldShowLogs = false } else if (response.status === 'compile-in-progress') { $scope.pdf.view = 'errors' $scope.pdf.compileInProgress = true } else { // fall back to displaying an error $scope.pdf.view = 'errors' $scope.pdf.error = true } const IGNORE_FILES = ['output.fls', 'output.fdb_latexmk'] $scope.pdf.outputFiles = [] if (response.outputFiles == null) { return } // prepare list of output files for download dropdown qs = {} if (response.clsiServerId != null) { qs.clsiserverid = response.clsiServerId } for (const file of response.outputFiles) { if (IGNORE_FILES.indexOf(file.path) === -1) { const isOutputFile = /^output\./.test(file.path) $scope.pdf.outputFiles.push({ // Turn 'output.blg' into 'blg file'. name: isOutputFile ? `${file.path.replace(/^output\./, '')} file` : file.path, url: `/project/${$scope.project_id}/output/${file.path}` + createQueryString(qs), main: !!isOutputFile }) } } // sort the output files into order, main files first, then others $scope.pdf.outputFiles.sort( (a, b) => b.main - a.main || a.name.localeCompare(b.name) ) } function fetchLogs(fileByPath, options) { let blgFile, chktexFile, logFile if (options != null ? options.validation : undefined) { chktexFile = fileByPath['output.chktex'] } else { logFile = fileByPath['output.log'] blgFile = fileByPath['output.blg'] } function getFile(name, file) { const opts = { method: 'GET', params: { compileGroup: ide.compileGroup, clsiserverid: ide.clsiServerId } } if (file && file.url) { // FIXME clean this up when we have file.urls out consistently opts.url = file.url } else if (file && file.build) { opts.url = `/project/${$scope.project_id}/build/${ file.build }/output/${name}` } else { opts.url = `/project/${$scope.project_id}/output/${name}` } // check if we need to bust cache (build id is unique so don't need it in that case) if (!(file && file.build)) { opts.params.cache_bust = `${Date.now()}` } opts.url = buildPdfDownloadUrl(options.pdfDownloadDomain, opts.url) return $http(opts) } // accumulate the log entries const logEntries = { all: [], errors: [], warnings: [] } function accumulateResults(newEntries) { for (let key of ['all', 'errors', 'warnings']) { if (newEntries.type != null) { for (let entry of newEntries[key]) { entry.type = newEntries.type } } logEntries[key] = logEntries[key].concat(newEntries[key]) } } // use the parsers for each file type function processLog(log) { $scope.pdf.rawLog = log const { errors, warnings, typesetting } = HumanReadableLogs.parse(log, { ignoreDuplicates: true }) const all = [].concat(errors, warnings, typesetting) accumulateResults({ all, errors, warnings }) } function processChkTex(log) { const errors = [] const warnings = [] for (let line of log.split('\n')) { var m if ((m = line.match(/^(\S+):(\d+):(\d+): (Error|Warning): (.*)/))) { const result = { file: m[1], line: m[2], column: m[3], level: m[4].toLowerCase(), message: `${m[4]}: ${m[5]}` } if (result.level === 'error') { errors.push(result) } else { warnings.push(result) } } } const all = [].concat(errors, warnings) const logHints = HumanReadableLogs.parse({ type: 'Syntax', all, errors, warnings }) eventTracking.sendMB('syntax-check-return-count', { errors: errors.length, warnings: warnings.length }) accumulateResults(logHints) } function processBiber(log) { const { errors, warnings } = BibLogParser.parse(log, {}) const all = [].concat(errors, warnings) accumulateResults({ type: 'BibTeX', all, errors, warnings }) } // output the results function handleError() { $scope.pdf.logEntries = [] $scope.pdf.rawLog = '' } function annotateFiles() { $scope.pdf.logEntries = logEntries $scope.pdf.logEntryAnnotations = {} for (const entry of logEntries.all) { if (entry.file != null) { entry.file = normalizeFilePath(entry.file) const entity = ide.fileTreeManager.findEntityByPath(entry.file) if (entity != null) { if (!$scope.pdf.logEntryAnnotations[entity.id]) { $scope.pdf.logEntryAnnotations[entity.id] = [] } $scope.pdf.logEntryAnnotations[entity.id].push({ row: entry.line - 1, type: entry.level === 'error' ? 'error' : 'warning', text: entry.message }) } } } } // retrieve the logfile and process it let response if (logFile != null) { response = getFile('output.log', logFile).then(response => processLog(response.data) ) if (blgFile != null) { // retrieve the blg file if present response = response.then(() => getFile('output.blg', blgFile).then( response => processBiber(response.data), () => true ) ) } } if (response != null) { response.catch(handleError) } else { handleError() } if (chktexFile != null) { const getChkTex = () => getFile('output.chktex', chktexFile).then(response => processChkTex(response.data) ) // always retrieve the chktex file if present if (response != null) { response = response.then(getChkTex, getChkTex) } else { response = getChkTex() } } // display the combined result if (response != null) { response.finally(annotateFiles) } } function getRootDocOverrideId() { const doc = ide.editorManager.getCurrentDocValue() if (doc == null) { return null } for (let line of doc.split('\n')) { if (/^[^%]*\\documentclass/.test(line)) { return ide.editorManager.getCurrentDocId() } } return null } function normalizeFilePath(path) { path = path.replace( /^(.*)\/compiles\/[0-9a-f]{24}(-[0-9a-f]{24})?\/(\.\/)?/, '' ) path = path.replace(/^\/compile\//, '') const rootDocDirname = ide.fileTreeManager.getRootDocDirname() if (rootDocDirname != null) { path = path.replace(/^\.\//, rootDocDirname + '/') } return path } $scope.recompile = function(options) { if (options == null) { options = {} } if ($scope.pdf.compiling) { return } eventTracking.sendMBSampled('editor-recompile-sampled', options) $scope.lastStartedCompileAt = Date.now() $scope.pdf.compiling = true $scope.pdf.isAutoCompileOnLoad = options != null ? options.isAutoCompileOnLoad : undefined // initial autocompile if (options != null ? options.force : undefined) { // for forced compile, turn off validation check and ignore errors $scope.stop_on_validation_error = false $scope.shouldShowLogs = false // hide the logs while compiling eventTracking.sendMB('syntax-check-turn-off-checking') } if (options != null ? options.try : undefined) { $scope.shouldShowLogs = false // hide the logs while compiling eventTracking.sendMB('syntax-check-try-compile-anyway') } ide.$scope.$broadcast('flush-changes') options.rootDocOverride_id = getRootDocOverrideId() sendCompileRequest(options) .then(function(response) { const { data } = response $scope.pdf.view = 'pdf' $scope.pdf.compiling = false parseCompileResponse(data) }) .catch(function(response) { const { status } = response if (status === 429) { $scope.pdf.rateLimited = true } $scope.pdf.compiling = false $scope.pdf.renderingError = false $scope.pdf.error = true $scope.pdf.view = 'errors' }) .finally(() => { $scope.lastFinishedCompileAt = Date.now() }) } // This needs to be public. ide.$scope.recompile = $scope.recompile // This method is a simply wrapper and exists only for tracking purposes. ide.$scope.recompileViaKey = function() { $scope.recompile({ keyShortcut: true }) } $scope.stop = function() { if (!$scope.pdf.compiling) { return } return $http({ url: `/project/${$scope.project_id}/compile/stop`, method: 'POST', params: { clsiserverid: ide.clsiServerId }, headers: { 'X-Csrf-Token': window.csrfToken } }) } $scope.clearCache = function() { return $http({ url: `/project/${$scope.project_id}/output`, method: 'DELETE', params: { clsiserverid: ide.clsiServerId }, headers: { 'X-Csrf-Token': window.csrfToken } }) } $scope.toggleLogs = function() { $scope.shouldShowLogs = !$scope.shouldShowLogs if ($scope.shouldShowLogs) { eventTracking.sendMBOnce('ide-open-logs-once') } } $scope.showPdf = function() { $scope.pdf.view = 'pdf' $scope.shouldShowLogs = false } $scope.toggleRawLog = function() { $scope.pdf.showRawLog = !$scope.pdf.showRawLog if ($scope.pdf.showRawLog) { eventTracking.sendMB('logs-view-raw') } } $scope.openClearCacheModal = function() { $modal.open({ templateUrl: 'clearCacheModalTemplate', controller: 'ClearCacheModalController', scope: $scope }) } $scope.syncToCode = function(position) { synctex.syncToCode(position).then(function(data) { const { doc, line } = data ide.editorManager.openDoc(doc, { gotoLine: line }) }) } }) App.factory('synctex', function(ide, $http, $q) { const synctex = { syncToPdf(cursorPosition) { const deferred = $q.defer() const docId = ide.editorManager.getCurrentDocId() if (docId == null) { deferred.reject() return deferred.promise } const doc = ide.fileTreeManager.findEntityById(docId) if (doc == null) { deferred.reject() return deferred.promise } let path = ide.fileTreeManager.getEntityPath(doc) if (path == null) { deferred.reject() return deferred.promise } // If the root file is folder/main.tex, then synctex sees the // path as folder/./main.tex const rootDocDirname = ide.fileTreeManager.getRootDocDirname() if (rootDocDirname != null && rootDocDirname !== '') { path = path.replace(RegExp(`^${rootDocDirname}`), `${rootDocDirname}/.`) } const { row, column } = cursorPosition $http({ url: `/project/${ide.project_id}/sync/code`, method: 'GET', params: { file: path, line: row + 1, column, clsiserverid: ide.clsiServerId } }) .then(function(response) { const { data } = response return deferred.resolve(data.pdf || []) }) .catch(function(response) { const error = response.data return deferred.reject(error) }) return deferred.promise }, syncToCode(position, options) { if (options == null) { options = {} } const deferred = $q.defer() if (position == null) { deferred.reject() return deferred.promise } // FIXME: this actually works better if it's halfway across the // page (or the visible part of the page). Synctex doesn't // always find the right place in the file when the point is at // the edge of the page, it sometimes returns the start of the // next paragraph instead. const h = position.offset.left // Compute the vertical position to pass to synctex, which // works with coordinates increasing from the top of the page // down. This matches the browser's DOM coordinate of the // click point, but the pdf position is measured from the // bottom of the page so we need to invert it. let v if ( options.fromPdfPosition && (position.pageSize != null ? position.pageSize.height : undefined) != null ) { v = position.pageSize.height - position.offset.top || 0 // measure from pdf point (inverted) } else { v = position.offset.top || 0 // measure from html click position } // It's not clear exactly where we should sync to if it wasn't directly // clicked on, but a little bit down from the very top seems best. if (options.includeVisualOffset) { v += 72 // use the same value as in pdfViewer highlighting visual offset } $http({ url: `/project/${ide.project_id}/sync/pdf`, method: 'GET', params: { page: position.page + 1, h: h.toFixed(2), v: v.toFixed(2), clsiserverid: ide.clsiServerId } }) .then(function(response) { const { data } = response if ( data.code != null && data.code.length > 0 && data.code[0].file !== '' ) { const doc = ide.fileTreeManager.findEntityByPath(data.code[0].file) if (doc == null) { return } return deferred.resolve({ doc, line: data.code[0].line }) } else if (data.code[0].file === '') { ide.$scope.sync_tex_error = true setTimeout(() => (ide.$scope.sync_tex_error = false), 4000) } }) .catch(function(response) { const error = response.data return deferred.reject(error) }) return deferred.promise } } return synctex }) App.controller('PdfSynctexController', function($scope, synctex, ide) { this.cursorPosition = null ide.$scope.$on('cursor:editor:update', (event, cursorPosition) => { this.cursorPosition = cursorPosition }) $scope.syncToPdf = () => { if (this.cursorPosition == null) { return } synctex.syncToPdf(this.cursorPosition).then(highlights => { $scope.pdf.highlights = highlights }) } ide.$scope.$on('cursor:editor:syncToPdf', $scope.syncToPdf) $scope.syncToCode = function() { synctex .syncToCode($scope.pdf.position, { includeVisualOffset: true, fromPdfPosition: true }) .then(function(data) { const { doc, line } = data ide.editorManager.openDoc(doc, { gotoLine: line }) }) } }) App.controller('PdfLogEntryController', function($scope, ide, eventTracking) { $scope.openInEditor = function(entry) { let column, line eventTracking.sendMBOnce('logs-jump-to-location-once') const entity = ide.fileTreeManager.findEntityByPath(entry.file) if (entity == null || entity.type !== 'doc') { return } if (entry.line != null) { line = entry.line } if (entry.column != null) { column = entry.column } ide.editorManager.openDoc(entity, { gotoLine: line, gotoColumn: column }) } }) App.controller('ClearCacheModalController', function($scope, $modalInstance) { $scope.state = { inflight: false } $scope.clear = function() { $scope.state.inflight = true $scope.clearCache().then(function() { $scope.state.inflight = false $modalInstance.close() }) } $scope.cancel = () => $modalInstance.dismiss('cancel') })