Posted by Charles Maxson, Developer Advocate, Google Cloud
It’s been a little over a decade since Apps Script was introduced as the development platform to automate and extend Google Workspace. Since its inception, tens of millions of solution builders ranging from professional developers, business users, and hobbyists have adopted Apps Script because of its tight integration with Google Workspace, coupled with its relative ease of use, makes building solutions fast and accessible.
Over the course of its history, Apps Script has constantly evolved to keep up with the ever-changing Google Workspace applications themselves, as new features are introduced and existing ones enhanced. Changes to the platform and the development environment itself have been more deliberate, allowing the wide-ranging Apps Script developer audience to rely on a predictable and proven development experience.
Recently, there have been some notable updates. Earlier this year the Apps Script runtime engine went through a major update from the original Rhino runtime to the new V8 version, allowing you to leverage modern JavaScript features in your Apps Script projects. Another milestone launch was the introduction of the Apps Script Dashboard, the ‘homepage’ of Apps Script, where you have access to all your projects and Apps Script platform settings by simply navigating to script.google.com.
But as far as the overall developer experience with Apps Script, the core components of the Apps Script IDE (Integrated Development Environment) where developers spend most of their time writing and debugging code, managing versions and exceptions, deploying projects, etc.; that has been relatively unchanged over App Script’s long storied history—that is until now—and as an Apps Script developer, you are about to get more productive!
The new Apps Script IDE features the same rich integration with Google Workspace as it did before, allowing you to get started building solutions without having to install or configure anything. If you are working on a standalone script project application, you can use the Apps Script Dashboard to launch your project directly, or if you are working on a container bound project in Sheets, Slides or Docs, you can do so from selecting Tools > Script editor from their top menus.
Apps Script Project Dashboard
If you launch your project using the Apps Script Dashboard, you will still start off in the Project Details Overview page. The contents of the Project Details page are relatively unchanged with just a few cosmetic updates where you can still get project info on the numbers of executions and users for your projects, errors, and OAuth scopes in use. On closer inspection, however, the seemingly subtle change to the left hand navigation is actually the first big enhancement of the new Apps Script IDE. Previously, when you launched into a project, you still had the Application Dashboard menus which let you navigate your projects, view all your executions and triggers as well as Apps Script features.
Apps Script Project Details Overview
With the new IDE experience, the prior Apps Script Dashboard menu gives way to a new project-specific menu that lets you focus on your active project. This offers developers a more unified experience of moving between project settings and the code editor without having to navigate menus or bounce back to the applications dashboard. So while it's a subtle change at first glance, it's actually a significant boost for productivity.
If you launch the new IDE as a container bound project, you will immediately enter into the new Apps Script code editor, but the new project menu and developer flow is identical.
One of the more striking updates of the new Apps Script IDE was the work done on the code editor to modernize its look and feel, while also unifying the design with the overall developer experience. More than just aesthetic changes, the new code editor was designed to help developers focus on the most common essential tasks. This includes moving away from the traditional menu elements across the top of the original code editor, to a streamlined set of commands that focus on developer productivity. For example, the new code editor offers a simplified menu system optimized for running and debugging code, while all the other ‘project-related’ functions have been reorganized outside the code editor to the left-hand project navigation bar. This will simplify and set the focus on the core task of writing code, which will assist both new and seasoned Apps Script developers.
Apps Script Code Editor
Behind the fresh new look of the Apps Script code editor, there is a long list of new productivity enhancements that will make any Apps Script developer happy. Some are subtle, some are major. Many are simply delightful. Any combination of them will make you more productive in writing Apps Script code. Here are just some of the highlights:
Code Editor Enhancements
Context Menu Image
Commend Palette Menu Image
Debugger Image
Logging Image
The best way to explore all that awaits is you in the new Apps Script IDE and code editor is by simply diving in and writing some code by visiting script.new. Then you will truly see how the new code editor really does help you be more productive, enabling you to better write code faster, with less errors and with greater readability. The previous version of the Apps Script IDE and code editor served us well, but the jump in productivity and an overall better developer experience awaits you with the new Apps Script IDE.
Go write your best code starting at: script.google.com
To learn more: developers.google.com/apps-script
Posted by Wesley Chun (@wescpy), Developer Advocate, Google Cloud
In the previous episode of our new Google Cloud for Student Developers video series, we introduced G Suite REST APIs, showing how to enhance your applications by integrating with Gmail, Drive, Calendar, Docs, Sheets, and Slides. However, not all developers prefer the lower-level style of programming requiring the use of HTTP, OAuth2, and processing the request-response cycle of API usage. Building apps that access Google technologies is open to everyone at any level, not just advanced software engineers.
Enhancing career readiness of non-engineering majors helps make our services more inclusive and helps democratize API functionality to a broader audience. For the budding data scientist, business analyst, DevOps staff, or other technical professionals who don't code every day as part of their profession, Google Apps Script was made just for you. Rather than thinking about development stacks, HTTP, or authorization, you access Google APIs with objects.
This video blends a standard "Hello World" example with various use cases where Apps Script shines, including cases of automation, add-ons that extend the functionality of G Suite editors like Docs, Sheets, and Slides, accessing other Google or online services, and custom functions for Google Sheets—the ability to add new spreadsheet functions.
One featured example demonstrates the power to reach multiple Google technologies in an expressive way: lots of work, not much code. What may surprise readers is that this entire app, written by a colleague years ago, is comprised of just 4 lines of code:
function sendMap() { var sheet = SpreadsheetApp.getActiveSheet(); var address = sheet.getRange('A1').getValue(); var map = Maps.newStaticMap().addMarker(address); GmailApp.sendEmail('friend@example.com', 'Map', 'See below.', {attachments:[map]}); }
Apps Script shields its users from the complexities of authorization and "API service endpoints." Developers only need an object to interface with a service; in this case, SpreadsheetApp to access Google Sheets, and similarly, Maps for Google Maps plus GmailApp for Gmail. Viewers can build this sample line-by-line with its corresponding codelab (a self-paced, hands-on tutorial). This example helps student (and professional) developers...
SpreadsheetApp
Maps
GmailApp
For further exploration, check out this video as well as this one which introduces Apps Script and presents the same code sample with more details. (Note the second video emails the map's link, but the app has been updated to attach it instead; the code has been updated everywhere else.) You may also access the code at its open source repository. If that's not enough, learn about other ways you can use Apps Script from its video library. Finally, stay tuned for the next pair of episodes which will cover full sample apps, one with G Suite REST APIs, and another with Apps Script.
We look forward to seeing what you build with Google Cloud.
Editor’s Note: Guest authors Diego Moreno and Sophia Deng (@sophdeng) are from Gigster, a firm that builds dynamic teams made of top global talent who create industry-changing custom software.
Google Cloud provides multiple services for gathering and managing data. Google Forms paired with Google Sheets are quite popular as they require no engineering resources while being incredibly powerful, providing storage of up to 5 million rows of data and built-in analytics for small team projects.
At the other end of the spectrum, to support a high volume of users or data, Google Cloud provides advanced serverless platforms like Google App Engine (web app-hosting) and Google Cloud Functions (function/service-hosting) that can use Google Cloud Firestore for fast and scalable data storage. These are perfect for professional engineering teams that need autoscaling to respond to any level of user traffic and data input. Such apps can also be packaged into a container and deployed serverlessly on Google Cloud Run.
However, it's quite possible your needs are right in-between. Today, we're happy to present the Gigster story and their innovative use of Google Apps Script—a highly-accessible service conventionally relegated to simple macro and add-on development, but which Gigster used to its advantage, building robust systems to transform their internal operations. Apps Script is also serverless, meaning Gigster didn't have to manage any servers for their application nor did they need to find a place to host its source code.
Gigster enables distributed teams of software engineers, product managers and designers to build software applications for enterprise clients. Over the past five years, Gigster has delivered thousands of projects, all with distributed software teams. Our group, the Gigster Staffing Operations Team, is responsible for assembling these teams from Gigster’s network of over 1,000 freelancers.
Two years ago, our team began building custom software to automate the multi-stage and highly manual team staffing process. Building internal software has allowed the same-size Staffing Operations Team (3 members!) to enjoy a 60x reduction in time spent staffing each role.
The Apps Script ecosystem has emerged as the most critical component in our toolkit for building this internal software, due to its versatility and ease of deployment. We want to share how one piece of the staffing process has evolved to become more powerful over time thanks to Apps Script. Ultimately, we hope that sharing this journey enables all types of teams to build their own tools and unlock new possibilities.
Staffing is an operationally intensive procedure. Just finding willing and able candidates requires numerous steps:
To add complexity, many of these steps require working with different third-party applications. For awhile, we performed every step manually, tracking every piece of data generated in one central Sheet (the “Staffing Broadcast Google Sheet”). At a certain point, this back-and-forth work to log data from numerous applications became unsustainable. Although we leveraged Google Sheets features like Data Validation rules and filters, the Staffing Broadcast Sheet could not alleviate the high degree of manual processes that were required of the team.
The centralized Staffing Broadcast Google Sheet provided organization, but required a high degree of manual entry for tracking candidate decisions.
The key transformation was integrating Sheets data with third-party APIs via Apps Script. This enabled us to cut out the most time-consuming operations. We no longer had to flip between applications to message candidates, wait for their replies, and then manually track responses.
To interact with these APIs, we built a user interface directly into the Staffing Broadcast Google Sheet. By introducing an information module, as well as drop-down lists and buttons, we were able to define a small set of manual actions versus the much wider list of tasks the tool would perform automatically across multiple applications.
By integrating Google Apps Script with third-party APIs and creating a user interface, we evolved the Staffing Broadcast Tool to centralize and automate almost every step of the staffing process.
doPost() is the key function in our staffing tool that facilitates third-party services triggering our Apps Script automations. Below is a snippet of how we listened to candidates' responses from a third-party messaging application. In this case, queueing the third-party message in a Google Sheet so it can be processed with improved error-handling.
doPost()
/** * Receive POST requests and record to queue. */ doPost(e) { var payload = e.postData.contents; SpreadsheetApp.openById(SPREADSHEET_ID) .getSheetByName("Unprocessed") .appendRow([payload]); return ContentService.createTextOutput(""); // Return 200 }
Almost all manual work associated with finding candidates was automated through the combination of integrations with third-party APIs and having a user interface to perform a small, defined set of actions. Our team’s day-to-day became shockingly simple: select candidates to receive messages within the Staffing Broadcast Tool, then click the “Send Broadcast” button. That’s it. The tool handled everything else.
Leveraging Sheets as our foundation, we fundamentally transformed our spreadsheet into a custom software application. The spreadsheet went from a partially automated datastore to a tool that provided an end-to-end automated solution, requiring only the click of a few buttons to execute.
While satisfied, we understood that having our application live in Google Sheets had its limitations, namely, it was difficult for multiple team members to simultaneously use the tool. Using doGet(), the sibling to doPost(), we began building an HTML frontend to the Staffing Broadcast Tool. In addition to resolving difficulties related to multiple users being in a spreadsheet, it also allowed us to build an easier-to-use and more responsive tool by leveraging Bootstrap & jQuery.
doGet()
Having multiple users in a single Google Sheet can create conflicts, but Apps Script allowed us to build a responsive web app leveraging common libraries like Bootstrap & jQuery that eliminated those problems while providing an improved user experience.
When other teams at Gigster got wind of what we built, it was easy to grant access to others beyond the Staffing Operations Team. Since Apps Script is part of the G Suite developer ecosystem, we relied on Google’s security policies to help deploy our tools to larger audiences.
While this can be done through Google’s conventional sharing tools, it can also be done with built-in Apps Script functions like Session.getActiveUser() that allow us to restrict access to specific Google users. In our case, those within our organization plus a few select users.
To this day, we continue to use this third version of the Staffing Broadcast Tool in our daily operations as it supports 100% of all client projects at Gigster.
By fundamentally transforming the Staffing Broadcast Tool with Apps Script, Gigster’s Staffing Operations Team increased its efficiency while supporting the growth of our company. Inspired by these business benefits, we applied this application-building approach using Apps Script for multiple tools, including candidate searching, new user onboarding, and countless automations.
Our team’s psychological shift about how we view what we are capable of, especially as a non-engineering team, has been the most valuable part of this journey. By leveraging an already familiar ecosystem to build our own software, we have freed team members to become more self-sufficient and valuable to our customers.
To get started on your Apps Script journey, we recommend you check out the Apps Script Fundamentals playlist and the official documentation. And if you're a freelancer looking to build software applications for clients, we’re always looking for talented software engineers, product managers or designers to join Gigster’s Talent Network.
Thank you to Sandrine Bitton, the third member of the Staffing Operations Team, for all her help in the development of the Staffing Broadcast Tool.
Google Cloud Platform (GCP) provides infrastructure, serverless products, and APIs that help you build, innovate, and scale. G Suite provides a collection of productivity tools, developer APIs, extensibility frameworks and low-code platforms that let you integrate with G Suite applications, data, and users. While each solution is compelling on its own, users can get more power and flexibility by leveraging both together.
In the latest episode of the G Suite Dev Show, I'll show you one example of how you can take advantage of powerful GCP tools right from G Suite applications. BigQuery, for example, can help you surface valuable insight from massive amounts of data. However, regardless of "the tech" you use, you still have to justify and present your findings to management, right? You've already completed the big data analysis part, so why not go that final mile and tap into G Suite for its strengths? In the sample app covered in the video, we show you how to go from big data analysis all the way to an "exec-ready" presentation.
The sample application is meant to give you an idea of what's possible. While the video walks through the code a bit more, let's give all of you a high-level overview here. Google Apps Script is a G Suite serverless development platform that provides straightforward access to G Suite APIs as well as some GCP tools such as BigQuery. The first part of our app, the runQuery() function, issues a query to BigQuery from Apps Script then connects to Google Sheets to store the results into a new Sheet (note we left out CONSTANT variable definitions for brevity):
runQuery()
CONSTANT
function runQuery() { // make BigQuery request var request = {query: BQ_QUERY}; var queryResults = BigQuery.Jobs.query(request, PROJECT_ID); var jobId = queryResults.jobReference.jobId; queryResults = BigQuery.Jobs.getQueryResults(PROJECT_ID, jobId); var rows = queryResults.rows; // put results into a 2D array var data = new Array(rows.length); for (var i = 0; i < rows.length; i++) { var cols = rows[i].f; data[i] = new Array(cols.length); for (var j = 0; j < cols.length; j++) { data[i][j] = cols[j].v; } } // put array data into new Sheet var spreadsheet = SpreadsheetApp.create(QUERY_NAME); var sheet = spreadsheet.getActiveSheet(); var headers = queryResults.schema.fields; sheet.appendRow(headers); // header row sheet.getRange(START_ROW, START_COL, rows.length, headers.length).setValues(data); // return Sheet object for later use return spreadsheet; }
It returns a handle to the new Google Sheet which we can then pass on to the next component: using Google Sheets to generate a Chart from the BigQuery data. Again leaving out the CONSTANTs, we have the 2nd part of our app, the createColumnChart() function:
CONSTANTs
createColumnChart()
function createColumnChart(spreadsheet) { // create & put chart on 1st Sheet var sheet = spreadsheet.getSheets()[0]; var chart = sheet.newChart() .setChartType(Charts.ChartType.COLUMN) .addRange(sheet.getRange(START_CELL + ':' + END_CELL)) .setPosition(START_ROW, START_COL, OFFSET, OFFSET) .build(); sheet.insertChart(chart); // return Chart object for later use return chart; }
The chart is returned by createColumnChart() so we can use that plus the Sheets object to build the desired slide presentation from Apps Script with Google Slides in the 3rd part of our app, the createSlidePresentation() function:
createSlidePresentation()
function createSlidePresentation(spreadsheet, chart) { // create new deck & add title+subtitle var deck = SlidesApp.create(QUERY_NAME); var [title, subtitle] = deck.getSlides()[0].getPageElements(); title.asShape().getText().setText(QUERY_NAME); subtitle.asShape().getText().setText('via GCP and G Suite APIs:\n' + 'Google Apps Script, BigQuery, Sheets, Slides'); // add new slide and insert empty table var tableSlide = deck.appendSlide(SlidesApp.PredefinedLayout.BLANK); var sheetValues = spreadsheet.getSheets()[0].getRange( START_CELL + ':' + END_CELL).getValues(); var table = tableSlide.insertTable(sheetValues.length, sheetValues[0].length); // populate table with data in Sheets for (var i = 0; i < sheetValues.length; i++) { for (var j = 0; j < sheetValues[0].length; j++) { table.getCell(i, j).getText().setText(String(sheetValues[i][j])); } } // add new slide and add Sheets chart to it var chartSlide = deck.appendSlide(SlidesApp.PredefinedLayout.BLANK); chartSlide.insertSheetsChart(chart); // return Presentation object for later use return deck; }
Finally, we need a driver application that calls all three one after another, the createColumnChart() function:
function createBigQueryPresentation() { var spreadsheet = runQuery(); var chart = createColumnChart(spreadsheet); var deck = createSlidePresentation(spreadsheet, chart); }
We left out some detail in the code above but hope this pseudocode helps kickstart your own project. Seeking a guided tutorial to building this app one step-at-a-time? Do our codelab at g.co/codelabs/bigquery-sheets-slides. Alternatively, go see all the code by hitting our GitHub repo at github.com/googlecodelabs/bigquery-sheets-slides. After executing the app successfully, you'll see the fruits of your big data analysis captured in a presentable way in a Google Slides deck:
This isn't the end of the story as this is just one example of how you can leverage both platforms from Google Cloud. In fact, this was one of two sample apps featured in our Cloud NEXT '18 session this summer exploring interoperability between GCP & G Suite which you can watch here:
Stay tuned as more examples are coming. We hope these videos plus the codelab inspire you to build on your own ideas.
Google Cloud Next '18 is only a few days away, and this year, there are over 500 sessions covering all aspects of cloud computing, from G Suite to the Google Cloud Platform. This is your chance to learn first-hand how to build custom solutions in G Suite alongside other developers from Independent Software Vendors (ISVs), systems integrators (SIs), and industry enterprises.
G Suite's intelligent productivity apps are secure, smart, and simple to use, so why not integrate your apps with them? If you're planning to attend the event and are wondering which sessions you should check out, here are some sessions to consider:
I look forward to meeting you in person at Next '18. In the meantime, check out the entire session schedule to find out everything it has to offer. Don't forget to swing by our "Meet the Experts" office hours (Tue-Thu), G Suite "Collaboration & Productivity" showcase demos (Tue-Thu), the G Suite Birds-of-a-Feather meetup (Wed), and the Google Apps Script & G Suite Add-ons meetup (just after the BoF on Wed). I'm excited at how we can use "all the tech" to change the world. See you soon!
Posted by Wesley Chun (@wescpy), Developer Advocate, G Suite
While most chatbots respond to user requests in a synchronous way, there are scenarios when bots don't perform actions based on an explicit user request, such as for alerts or notifications. In today's DevByte video, I'm going to show you how to send messages asynchronously to rooms or direct messages (DMs) in Hangouts Chat, the team collaboration and communication tool in G Suite.
What comes to mind when you think of a bot in a chat room? Perhaps a user wants the last quarter's European sales numbers, or maybe, they want to look up local weather or the next movie showtime. Assuming there's a bot for whatever the request is, a user will either send a direct message (DM) to that bot or @mention the bot from within a chat room. The bot then fields the request (sent to it by the Hangouts Chat service), performs any necessary magic, and responds back to the user in that "space," the generic nomenclature for a room or DM.
Our previous DevByte video for the Hangouts Chat bot framework shows developers what bots and the framework are all about as well as how to build one of these types of bots, in both Python and JavaScript. However, recognize that these bots are responding synchronously to a user request. This doesn't suffice when users want to be notified when a long-running background job has completed, when a late bus or train will be arriving soon, or when one of their servers has just gone down. Recognize that such alerts can come from a bot but also perhaps a monitoring application. In the latest episode of the G Suite Dev Show, learn how to integrate this functionality in either type of application.
From the video, you can see that alerts and notifications are "out-of-band" messages, meaning they can come in at any time. The Hangouts Chat bot framework provides several ways to send asynchronous messages to a room or DM, generically referred to as a "space." The first is the HTTP-based REST API. The other way is using what are known as "incoming webhooks."
The REST API is used by bots to send messages into a space. Since a bot will never be a human user, a Google service account is required. Once you create a service account for your Hangouts Chat bot in the developers console, you can download its credentials needed to communicate with the API. Below is a short Python sample snippet that uses the API to send a message asynchronously to a space.
from apiclient import discovery from httplib2 import Http from oauth2client.service_account import ServiceAccountCredentials SCOPES = 'https://www.googleapis.com/auth/chat.bot' creds = ServiceAccountCredentials.from_json_keyfile_name( 'svc_acct.json', SCOPES) CHAT = discovery.build('chat', 'v1', http=creds.authorize(Http())) room = 'spaces/<ROOM-or-DM>' message = {'text': 'Hello world!'} CHAT.spaces().messages().create(parent=room, body=message).execute()
The alternative to using the API with service accounts is the concept of incoming webhooks. Webhooks are a quick and easy way to send messages into any room or DM without configuring a full bot, i.e., monitoring apps. Webhooks also allow you to integrate your custom workflows, such as when a new customer is added to the corporate CRM (customer relationship management system), as well as others mentioned above. Below is a Python snippet that uses an incoming webhook to communicate into a space asynchronously.
import requests import json URL = 'https://chat.googleapis.com/...&thread_key=T12345' message = {'text': 'Hello world!'} requests.post(URL, data=json.dumps(message))
Since incoming webhooks are merely endpoints you HTTP POST to, you can even use curl to send a message to a Hangouts Chat space from the command-line:
curl
curl \ -X POST \ -H 'Content-Type: application/json' \ 'https://chat.googleapis.com/...&thread_key=T12345' \ -d '{"text": "Hello!"}'
To get started, take a look at the Hangouts Chat developer documentation, especially the specific pages linked to above. We hope this video helps you take your bot development skills to the next level by showing you how to send messages to the Hangouts Chat service asynchronously.
Data Studio is Google's free next gen business intelligence and data visualization platform. Community Connectors for Data Studio let you build connectors to any internet-accessible data source using Google Apps Script. You can build Community Connectors for commercial, enterprise, and personal use. Learn how to build Community Connectors using the Data Studio Community Connector Codelab.
The Community Connector Codelab explains how Community Connectors work and provides a step by step tutorial for creating your first Community Connector. You can get started if you have a basic understanding of Javascript and web APIs. You should be able to build your first connector in 30 mins using the Codelab.
If you have previously imported data into Google Sheets using Apps Script, you can use this Codelab to get familiar with the Community Connectors and quickly port your code to fetch your data directly into Data Studio.
Community Connectors can help you to quickly deliver an end-to-end visualization solution that is user-friendly and delivers high user value with low development efforts. Community Connectors can help you build a reporting solution for personal, public, enterprise, or commercial data, and also do explanatory visualizations.
By building a Community Connector, you can go from scratch to a push button customized dashboard solution for your service in a matter of hours.
The following dashboard uses Community Connectors to fetch data from Stack Overflow, GitHub, and Twitter. Try using the date filter to view changes across all sources:
This dashboard uses the following Community Connectors:
You can build your own connector to any preferred service and publish it in the Community Connector gallery. The Community Connector gallery now has over 90 Partner Connectors connecting to more than 450 data sources.
Once you have completed the Codelab, view the Community Connector documentation and sample code on the Data Studio open source repository to build your own connector.
We recently introduced Hangouts Chat to general availability. This next-generation messaging platform gives G Suite users a new place to communicate and to collaborate in teams. It features archive & search, tighter G Suite integration, and the ability to create separate, threaded chat rooms. The key new feature for developers is a bot framework and API. Whether it's to automate common tasks, query for information, or perform other heavy-lifting, bots can really transform the way we work.
In addition to plain text replies, Hangouts Chat can also display bot responses with richer user interfaces (UIs) called cards which can render header information, structured data, images, links, buttons, etc. Furthermore, users can interact with these components, potentially updating the displayed information. In this latest episode of the G Suite Dev Show, developers learn how to create a bot that features an updating interactive card.
As you can see in the video, the most important thing when bots receive a message is to determine the event type and take the appropriate action. For example, a bot will perform any desired "paperwork" when it is added to or removed from a room or direct message (DM), generically referred to as a "space" in the vernacular.
Receiving an ordinary message sent by users is the most likely scenario; most bots do "their thing" here in serving the request. The last event type occurs when a user clicks on an interactive card. Similar to receiving a standard message, a bot performs its requisite work, including possibly updating the card itself. Below is some pseudocode summarizing these four event types and represents what a bot would likely do depending on the event type:
function processEvent(req, rsp) { var event = req.body; // event type received var message; // JSON response message if (event.type == 'REMOVED_FROM_SPACE') { // no response as bot removed from room return; } else if (event.type == 'ADDED_TO_SPACE') { // bot added to room; send welcome message message = {text: 'Thanks for adding me!'}; } else if (event.type == 'MESSAGE') { // message received during normal operation message = responseForMsg(event.message.text); } else if (event.type == 'CARD_CLICKED') { // user-click on card UI var action = event.action; message = responseForClick( action.actionMethodName, action.parameters); } rsp.send(message); };
The bot pseudocode as well as the bot featured in the video respond synchronously. Bots performing more time-consuming operations or those issuing out-of-band notifications, can send messages to spaces in an asynchronous way. This includes messages such as job-completed notifications, alerts if a server goes down, and pings to the Sales team when a new lead is added to the CRM (Customer Relationship Management) system.
Hangouts Chat supports more than JavaScript or Python and Google Apps Script or Google App Engine. While using JavaScript running on Apps Script is one of the quickest and simplest ways to get a bot online within your organization, it can easily be ported to Node.js for a wider variety of hosting options. Similarly, App Engine allows for more scalability and supports additional languages (Java, PHP, Go, and more) beyond Python. The bot can also be ported to Flask for more hosting options. One key takeaway is the flexibility of the platform: developers can use any language, any stack, or any cloud to create and host their bot implementations. Bots only need to be able to accept HTTP POST requests coming from the Hangouts Chat service to function.
At Google I/O 2018 last week, the Hangouts Chat team leads and I delivered a longer, higher-level overview of the bot framework. This comprehensive tour of the framework includes numerous live demos of sample bots as well as in a variety of languages and platforms. Check out our ~40-minute session below.
To help you get started, check out the bot framework launch post. Also take a look at this post for a deeper dive into the Python App Engine version of the vote bot featured in the video. To learn more about developing bots for Hangouts Chat, review the concepts guides as well as the "how to" for creating bots. You can build bots for your organization, your customers, or for the world. We look forward to all the exciting bots you're going to build!
We recently introduced Google Slides Add-ons so developers can add functionality from their apps to ours. Here are examples of Slides Add-ons that some of our partners have already built—remember, you can also add functionality to other apps outside of Slides, like Docs, Sheets, Gmail and more.
When it comes to Slides, if your users are delivering a presentation or watching one, sometimes it's good to know how far along you are in the deck. Wouldn't it be great if Slides featured progress bars?
In the latest episode of the G Suite Dev Show, G Suite engineer Grant Timmerman and I show you how to do exactly that—implement simple progress bars using a Slides Add-on.
Using Google Apps Script, we craft this add-on which lets users turn on or hide progress bars in their presentations. The progress bars are represented as appropriately-sized rectangles at the bottom of slide pages. Here's a snippet of code for createBars(), which adds the rectangle for each slide.
createBars()
var BAR_ID = 'PROGRESS_BAR_ID'; var BAR_HEIGHT = 10; // px var presentation = SlidesApp.getActivePresentation(); function createBars() { var slides = presentation.getSlides(); deleteBars(); for (var i = 0; i < slides.length; ++i) { var ratioComplete = (i / (slides.length - 1)); var x = 0; var y = presentation.getPageHeight() - BAR_HEIGHT; var barWidth = presentation.getPageWidth() * ratioComplete; if (barWidth > 0) { var bar = slides[i].insertShape(SlidesApp.ShapeType.RECTANGLE, x, y, barWidth, BAR_HEIGHT); bar.getBorder().setTransparent(); bar.setLinkUrl(BAR_ID); } } }
To learn more about this sample and see all of the code, check out the Google Slides Add-on Quickstart. This is just one example of what you can build using Apps Script and add-ons; here's another example where you can create a slide presentation from a collection of images using a Slides Add-on.
If you want to learn more about Apps Script, check out the video library or view more examples of programmatically accessing Google Slides here. To learn about using Apps Script to create other add-ons, check out this page in the docs.
You might have seen that we announced new features in G Suite to help teams transform how they work, including Hangouts Chat, a new messaging platform for enterprise collaboration on web and mobile. Perhaps more interesting is that starting today you'll be able to craft your own bot integrations using the Hangouts Chat developer platform and API.
Now, you can create bots to streamline work—automate manual tasks or give your users new ways to connect with your application, all with commands issued from chat rooms or direct messages (DMs). Here are some ideas you might consider:
For example, a bot can take a location from a user, look it up using the Google Maps API, and display the resulting map right within the same message thread in Hangouts Chat. The bot output you see in the image below is generated from the Apps Script bot integration. It returns the JSON payload just below the same image shown on this page in the documentation.
When messages are sent to an Apps Script bot, the onMessage() function is called and passed an event object. The code below extracts the bot name as well as the location requested by the user. The location is then passed to Google Maps to create the static map as well as an openLink URL that takes the user directly to Google Maps if either the map or "Open in Google Maps" link is clicked.
onMessage()
openLink
function onMessage(e) { var bot = e.message.annotations[0].userMention.user.displayName; var loc = encodeURI(e.message.text.substring(bot.length+2)); var mapClick = { "openLink": { "url": "https://google.com/maps/search/?api=1&query=" + loc } }; return { // see JSON payload in the documentation link above }; }
Finally, this function returns everything Hangouts Chat needs to render a UI card assuming the appropriate links, data and Google Maps API key were added to the response JSON payload. It may be surprising, but this is the entire bot and follows this common formula: get the user request, collate the results and respond back to the user.
When results are returned immediately like this, it's known as a synchronous bot. Using the API isn't necessary because you're just responding to the HTTP request. If your bot requires additional processing time or must execute a workflow out-of-band, return immediately then post an asynchronous response when the background jobs have completed with data to return. Learn more about bot implementation, its workflow, as well as synchronous vs. asynchronous responses.
Developers are not constrained to using Apps Script, although it is perhaps one of the easiest ways to create and deploy bots. Overall, you can write and host bots on a variety of platforms:
No longer are chat rooms just for conversations. With feature-rich, intelligent bots, users can automate tasks, get critical information or do other heavy-lifting with a simple message. We're excited at the possibilities that await both developers and G Suite users on the new Hangouts Chat platform and API.
Google Data Studio lets users build live, interactive dashboards with beautiful data visualizations, for free. Users can fetch their data from a variety of sources and create unlimited reports in Data Studio, with full editing and sharing capabilities.
Community Connectors is a new feature for Data Studio that lets you use Apps Script to build connectors to any internet accessible data source. You can share Community Connectors with other people so they can access their own data from within Data Studio.
For example, if you are providing a web-based service to your customers, you can create a Community Connector with a template dashboard to fetch data from your API. In just 3 to 4 clicks, your customers can log into your web app, authenticate with Data Studio, and see their individualized data displayed in a beautiful interactive dashboard.
Here's an example Data Studio dashboard that uses a Community Connector to show live data using the Stack Overflow API:
Try out this Stack Overflow Community Connector yourself or view the code.
Leverage Data Studio as a reporting platform for your customers. Provide significant value to your customers by providing them with a ready-made reporting platform. With a minimal development investment, you can rely on Data Studio as a free and powerful dashboarding and analysis solution for your customers.
Reach a larger audience and also monetize your connector. Publish and promote your Community Connector in the Data Studio Community Connector gallery that is visible to all Data Studio users. Published connectors are also directly accessible from the public Community Connector Gallery. There are also multiple approaches if you want to monetize your connector.
Develop customized enterprise solutions for your business. Fetch your business data from a variety of sources (e.g. BigQuery, CloudSQL, web API etc.) and create a customized solution specifically for your business. By providing templates with your connectors, you can significantly cut down dashboard building time.
Benefit from Apps Script features and use your existing code. Since Community Connectors are developed using Google Apps Script, you can benefit from features such as caching, storage, translation, authentication etc. If you already have a Google Sheets connector, it is easy to reuse that same code for a Community Connector.
Did we mention it's free? Data Studio is completely free to use. And there is no cost for developing or publishing Community Connectors.
The Get Started Guide can help you to build your first Community Connector. Since Apps Script is a subset of Javascript, you can easily build a connector even if you have not worked with Apps Script before.
You can also jump ahead and view specific steps of the typical development life cycle of a Community Connector:
You can keep your connector private or share them with other users. You also have the option to publish your connector. Publishing will feature your connector both in Data Studio as well as in the public Community Connector gallery. This enables you to reach all Data Studio users and showcase your service. Furthermore, we encourage you to submit your connector to our Open Source repo so that the community can benefit from it.
If you have any interesting connector stories, ideas, or if you'd like to share some amazing reports you've created using Community Connectors, give us a shout or send us your story at community-connector-feedback@google.com.
Email remains at the heart of how companies operate. That's why earlier this year, we previewed Gmail Add-ons—a way to help businesses speed up workflows. Since then, we've seen partners build awesome applications, and beginning today, we're extending the Gmail add-on preview to include all developers. Now anyone can start building a Gmail add-on.
Gmail Add-ons let you integrate your app into Gmail and extend Gmail to handle quick actions.
They are built using native UI context cards that can include simple text dialogs, images, links, buttons and forms. The add-on appears when relevant, and the user is just a click away from your app's rich and integrated functionality.
Gmail Add-ons are easy to create. You only have to write code once for your add-on to work on both web and mobile, and you can choose from a rich palette of widgets to craft a custom UI. Create an add-on that contextually surfaces cards based on the content of a message. Check out this video to see how we created an add-on to collate email receipts and expedite expense reporting.
Per the video, you can see that there are three components to the app's core functionality. The first component is getContextualAddOn()—this is the entry point for all Gmail Add-ons where data is compiled to build the card and render it within the Gmail UI. Since the add-on is processing expense reports from email receipts in your inbox, the createExpensesCard() parses the relevant data from the message and presents them in a form so your users can confirm or update values before submitting. Finally, submitForm()takes the data and writes a new row in an "expenses" spreadsheet in Google Sheets, which you can edit and tweak, and submit for approval to your boss.
getContextualAddOn()
createExpensesCard()
submitForm()
Check out the documentation to get started with Gmail Add-ons, or if you want to see what it's like to build an add-on, go to the codelab to build ExpenseIt step-by-step. While you can't publish your add-on just yet, you can fill out this form to get notified when publishing is opened. We can't wait to see what Gmail Add-ons you build!
Originally posted by Paul McReynolds, Product Manager (@pauljmcr), Apps Script and Wesley Chun (@wescpy), Developer Advocate, G Suite on the G Suite Developers Blog
Apps Script is just as popular inside Google as it is among external users and developers. In fact, there are more than 70,000 weekly active scripts written by thousands of Googlers. One of our many uses for Apps Script at Google is to automate and monitor our internal issue tracker.
In spring of this year, we migrated our G Suite issue trackers to a new system based on our internal tracker. This carries a lot of benefits, including improving our ability to track how issues reported from outside of Google relate to bugs and features we're working on internally. We also have an internal Apps Script API that talks to our issue tracker, which we can now use to work with issues reported from outside of Google.
As soon as the migration was finished, we put Apps Script to work monitoring…itself. Now we have a script in place that monitors Apps Script issues as they are reported and upvoted on the public tracker. When we see an issue that's having widespread or sudden impact, the script generates an alert that we can then investigate. With the help of our large, active community of developers, and leveraging Apps Script, we're now able to identify and respond to issues more quickly.
There's no substitute for independent monitoring, and our Apps Script-based approach isn't the first or the last line of defense. Instead, this new script helps us catch anything that our monitoring systems miss by listening to what developers are saying on the tracker.
Please help us keep Apps Script humming! When you notice a problem, search the issue tracker for it and file an issue if it's new. Click the star to let us know you're affected and leave a comment with instructions to reproduce, along with any other relevant details. Those instructions and other details help us respond to the issues more effectively, so please be sure to include them.
Happy scripting!
Posted by Michael Winser, Product Lead, Google Apps and Wesley Chun, Developer Advocate, Google Apps
Last week, we clarified the expectations and responsibilities when accessing Google user data via OAuth 2.0. Today, we’re announcing that in order to better protect users, we are increasing account security for enterprise Gmail users effective October 5, 2016. At this time, a new policy will take effect whereby users in a Google Apps domain, while changing their passwords on or after this date, will result in the revocation of the OAuth 2.0 tokens of apps that access their mailboxes using Gmail-based authorization scopes. Please note that users will not notice any specific changes on this date and their applications will continue to work. It is only when a user changes their password from that point moving forward that their Gmail-related tokens become invalid.
Developers should modify their applications to handle HTTP 400 or 401 error codes resulting from revoked tokens and prompt their users to go through the OAuth flow again to re-authorize those apps, such that they can access the user’s mailbox again (additional details below). Late last year, we announced a similar, planned change to our security policy that impacted a broader set of authorization scopes. We later decided not to move forward with that change for Apps customers and began working on a less impactful update as described above.
What is a revoked token?
A revoked OAuth 2.0 token no longer provides access to a user’s resources. Any attempt to use a revoked token in API calls will result in an error. Any existing token strings will no longer have any value and should be discarded. Applications accessing Google APIs should be modified to handle failed API calls.
Token revocation itself is not a new feature. Users have always been able to revoke access to applications in Security Checkup, and Google Apps admins have the ability to do the same in the Admin console. In addition, tokens that were not used for extended periods of time have always been subject to expiration or revocation. This change in our security policy will likely increase the rate of revoked tokens that applications see, since in some cases the process will now take place automatically.
What APIs and scopes are impacted?
To achieve the security benefits of this policy change with minimal admin confusion and end-user disruption, we’ve decided to limit its application to mail scopes only and to exclude Apps Script tokens. Apps installed via the Google Apps Marketplace are also not subject to the token revocation. Once this change is in effect, third-party mail apps like Apple Mail and Thunderbird―as well as other applications that use multiple scopes that include at least one mail scope―will stop accessing data upon password reset until a new OAuth 2.0 token has been granted. Your application will need to detect this scenario, notify the user that your application has lost access to their account data, and prompt them to go through the OAuth 2.0 flow again.
Mobile mail applications are also included in this policy change. For example, users who use the native mail application on iOS will have to re-authorize with their Google account credentials when their password has been changed. This new behavior for third-party mail apps on mobile aligns with the current behavior of the Gmail apps on iOS and Android, which also require re-authorization upon password reset.
How can I determine if my token was revoked?
Both short-lived access tokens and long-lived refresh tokens will be revoked when a user changes their password. Using a revoked access token to access an API or to generate a new access token will result in either HTTP 400 or 401 errors. If your application uses a library to access the API or handle the OAuth flow, then these errors will likely be thrown as exceptions. Consult the library’s documentation for information on how to catch these exceptions. NOTE: because HTTP 400 errors may be caused by a variety of reasons, expect the payload from a 400 due to a revoked token to be similar to the following:
{ "error_description": "Token has been revoked.", "error": "invalid_grant" }
How should my application handle revoked tokens?
This change emphasizes that token revocation should be considered a normal condition, not an error scenario. Your application should expect and detect the condition, and your UI should be optimized for restoring tokens.
To ensure that your application works correctly, we recommend doing the following:
If your application uses incremental authorization to accrue multiple scopes in the same token, you should track which features and scopes a given user has enabled. The end result is that if your app requested and obtained authorization for multiple scopes, and at least one of them is a mail scope, that token will be revoked, meaning you will need to prompt your user to re-authorize for all scopes originally granted.
Many applications use tokens to perform background or server-to-server API calls. Users expect this background activity to continue reliably. Since this policy change also affects those apps, this makes prompt notification requesting re-authorization even more important.
What is the timeline for this change?
To summarize, properly configured applications should be expected to handle invalid tokens in general, whether they be from expiration, non-existence, and revocation as normal conditions. We encourage developers to make any necessary changes to give their users the best experience possible. The policy change is planned to take effect on October 5, 2016.
Please see this Help Center article and FAQ for more details and the full list of mail scopes. Moving forward, any additional scopes to be added to the policy will be communicated in advance. We will provide those details as they become available.
