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Showing content with the highest reputation since 12/18/2018 in all areas

  1. 7 points
    Back in the mid-90's, my brother created what he called an "action MUD". He called it "Paintball Net". PBN used ANSI text terminal commands to create a combined roll-and-scroll and animated text experience. ! (exclamation points) were trees, _ (underscores) were grass, ^ (up carets) were mountains, and more. Your "avatar" was a "Y" (uppercase y) and enemies were * (asterisks). You used MUD-like commands to move around the world and target your paintball gun and buy and sell and more. I wish I had a screenshot of what the first version looked like, but you'll just have to imagine. 😃 He asked me to create the GUI for the game. That was 1996, and I had just purchased Delphi 2 and wrapped up my first "learn Delphi" project. This sounded like a good next step, and "PBTerm" was born. I *do* have screenshots of that. Oh, yeah. Love those 16-color Windows graphics. 😃 During the years it was online, the game evolved and upgraded to look more like this: We were never going to win any awards, but we had a very devoted player community. 😃 Paintball Net was online from the summer of 1996 through the summer of 2000, when we took it offline to focus on other projects. The game was never huge, but we had thousands of players come through over that period. And since then, every year at least a few of the players have reached out and asked/begged/pleaded/demanded if we were going to put it back online. There really wasn't much chance of the original version going back online. The original server, written in ANSI C for Linux had proven rather fragile, and was a big part of why we took the game offline. It was taking hours every day just to keep it up and running, in addition to time spent managing the community of players. On top of that, a hard drive incident in 2008 had cost me the source code of a number of core third-party/modified components for PBTerm. This past summer, though, I realized I might be able to make the game live again using Smart Mobile Studio. I would do a straight port of the ANSI C server to Smart Pascal using Node.JS and WebSocket, and I would rebuild the PBTerm client as a browser-based client. I'm not going to say it was *easy*, but it has been a lot of fun. ANSI C converts to Pascal without a lot of painful gyrations. And Node.JS seems a LOT more flexible, stable, and powerful than the TCP sockets approach we were using before. Also, game development is a lot easier when you already own all the graphic and audio resources. 😃 This is the server "in action"... Recreating the client has been more complicated. 20+ years of Delphi habits had to be adapted to the new reality of SMS and a browser-based UI. But that's coming together too. It might be obvious, but I'm not targeting this game at mobile. Paintball Net needed a mouse and keyboard in 1996, it's gonna need a mouse and keyboard in 2018. Also, I've made as few modifications to the gameplay as possible. I really wanted to bring back the original as much as I could. Today I got the handful of sound effects integrated, which was easier than I expected. I'm planning to start testing soon. I just need to line up a server to use and find a few volunteers. I'm excited. This would never have happened without Smart Mobile Studio. So I figured I would share. Merry Xmas! -David
  2. 4 points
    lynkfs

    scrolling big numbers

    Got challenged the other day by trying to scroll large numbers of rows in a listbox. Browsers are very good at scrolling, but when row numbers become large and the scroll context becomes complex, scroll behaviour deteriorates. A simple un-optimised scrolling div is, rule of thumb, able to scroll comfortably up to a couple of hundred rows. Depending on browser and complexity. In the native framework I tweaked that a bit by setting all rows outside the visible viewport to 'display:none'. That extends comfortable scrolling somewhat, say to numbers in the low thousands. A better way is to completely separate display from content. Meaning that the content needs to be held in some kind of memory structure, not in visual components, and that scrolling is redefined to re-using a small set of visual rows confined to the scroll-window. A structure to make that happen would be a <div> like component (TW3Panel) on a form with NativeScrolling set to true. Set up 2 child-panels on this component, where the first child-panel has dimensions equal to the maximum scrollable area, and a second childpanel dimensioned equal to this parent. The first child-panel is the scroller, which will always be completely empty. The second child-panel contains the visible rows, which will be refreshed on scroll-events. To keep this panel always in view, set the position attribute to '-webkit-sticky'. This demo shows that Chrome can readily handle 500,000 rows, even on mobile. FF a bit less. The good thing is that the number of rows doesn't really matter, scrolling behaviour stays the same regardless. Would be interesting to see if performance gets even better by pushing scrolling to the GPU, pretty sure Chrome does that by default. Infinite scrolling will be easy to implement using this structure too. Code procedure TForm1.W3Button1Click(Sender: TObject); begin //data var column1 := TVariant.CreateArray; for var i := 0 to 500000 do begin column1.push(inttostr(i)); end; var column2 := TVariant.CreateArray; for var i := 1 to 500001 do begin column2.push(inttostr(i)); end; //column2.sort(); //sorting works too //scrolling setup var rowHeight := 30; W3Panel.NativeScrolling := true; //Parent panel (in visual designer : width 408, height 266) var Panel1 : TW3Panel := TW3Panel.Create(W3Panel); //scroller (always empty!) Panel1.SetBounds (0,0,380,column1.length*rowHeight); //but with large height Panel1.BorderRadius := 0; //set up viewport var Panel2 : TW3Panel := TW3Panel.Create(W3Panel); //viewport, only the visual rows Panel2.SetBounds(0,0,380,262); //dimensions same as grid-parent Panel2.BorderRadius := 0; Panel2.handle.style.position := '-webkit-sticky'; Panel2.handle.style.position := '-moz-sticky'; Panel2.handle.style.position := '-ms-sticky'; Panel2.handle.style.position := '-o-sticky'; Panel2.handle.style.position := 'sticky'; Panel2.handle.style.top := '0px'; //set up columns Var CPanel1 : TW3Panel := TW3Panel.Create(Panel2); //column 1 CPanel1.SetBounds(-2,-2,200,264); CPanel1.BorderRadius := 0; Var CPanel2 : TW3Panel := TW3Panel.Create(Panel2); //column 2 CPanel2.SetBounds(200,-2,200,264); CPanel2.BorderRadius := 0; //initial fill viewport prior to first onscroll event for var j := 0 to 8 do begin //only first couple of rows var x : TW3Panel := TW3Panel.Create(CPanel1); //column 1 x.SetBounds(-2,j*rowHeight-2,200,rowHeight); x.BorderRadius := 0; x.innerHTML := column1[j]; x.onclick := procedure(sender:TObject) begin showmessage((sender as TW3Panel).innerHTML); end; // var y : TW3Panel := TW3Panel.Create(CPanel2); //column 2 y.SetBounds(-2,j*rowHeight-2,190,rowHeight); y.BorderRadius := 0; y.innerHTML := column2[j]; y.onclick := procedure(sender:TObject) begin showmessage((sender as TW3Panel).innerHTML); end; end; //fill viewport while scrolling var c1 := CPanel1.handle.children; var c2 := CPanel2.handle.children; W3Panel.onscroll := procedure(sender:tobject) begin var d : integer := trunc(W3Panel.handle.scrollTop/rowHeight); for var k := 0 to 8 do begin c1[k].innerHTML := column1[d+k]; c2[k].innerHTML := column2[d+k]; end; //fall back : ide chrome browser and iOS don't handle 'sticky' very well, //in that case set viewport position manually if Panel2.handle.style.position <> 'sticky' then if not w3_getIsSafari then Panel2.top := W3Panel.handle.scrollTop; end; end; infinity scroll : add to end of W3Panel.onscroll procedure //infinity scroll : if W3Panel.handle.scrollHeight - W3Panel.handle.scrollTop = W3Panel.handle.clientHeight then W3Panel.handle.scrollTop := 0;
  3. 4 points
    jarto

    Update embedded Chromium

    Hi guys, I've been a busy for a while working on updating the Embedded Chrome we use in the IDE. The one we've used so far has been from Henri Gourvest. Unfortunately it's not been updated for 3 years, but there's a new fork by Salvador Diaz Fau, which is actively updated: https://github.com/salvadordf/CEF4Delphi
  4. 4 points
    warleyalex

    async / await keywords

    look this following procedure: procedure main; begin Sleep(5000); console.log('A'); Sleep(3000); console.log('B'); end; when we run this code, it will immediately output 'A' and 'B' - JS the asyncronous nature. ...but I want our program to log 'A' after 5 seconds then log 'B' after 3 seconds... that why we, we need the async / await native keywords in SMS. In a "synchronous" manner. Await and Async are just syntactic sugar for working with promises. It would be cool if we can declare a method like: procedure main; async; The compiler can check whether the encompassing function has async() in then and emit expectd JS, for instance: (async function(){ })(); Yeah, we need to to wrap it inside an async function and add "await" before the method "Sleep" to work in synchrounous manner.ther await keyword native in SMS would be nice. await Sleep(5000); I found out an ugly workaround for the "Immediately Invoked Function Expression (IIFE) - async function" to work at SMS. { global functions } procedure async(fn: Variant = nil); external '(async function(){' ; procedure &end; external '})'; function await(promise: Variant): JPromise; external 'await '; function Sleep(ms: Integer): JPromise; begin Result := JPromise.Create( procedure(resolve,reject : TCallBack) begin window.setTimeout( procedure() begin console.log('Done waiting'); resolve(ms); end, ms); end); procedure main; begin async; await( Sleep(5000) ); console.log('A after 5s'); await (Sleep(3000)); console.log('B after 3s'); &end; end; end; the compiler will emit expected JS at least: function main() { (async function(){(null); await (Sleep$1(5000)); console.log("A after 5s"); await (Sleep$1(3000)); console.log("B after 3s"); })(); }; but it would super awesome if we could // define procedure as async function procedure main: async; procedure main; begin await Sleep(5000); console.log('A after 5s'); await Sleep(3000); console.log('B after 3s'); end;
  5. 4 points
    jarto

    Development updates

    New update available: RTL: New controls: TW3SpinButton, TW3ArrowUpButton, TW3ArrowDownButton, TW3ArrowLeftButton and TW3ArrowRightButton. Add 1px margin to TW3ButtonBorder to prevent the border from being clipped. Bug fixes to Tween.Effects IDE: Bug fixes and changes to renaming of forms: Renaming in Project Manager will not change form class any more. Form class name can be renamed in Object Inspector. Improvements to Project Statistics: Only count Total time when Smart Mobile Studio IDE has focus. Only Count Design time when changes are made in Form Designer. Add clear button. Component Palette: Added new controls New icons for many existing controls
  6. 4 points
    lynkfs

    Quantum computing with Smart

    Is it possible to do a bit of quantum computing using SMS ? The answer looks to be yes, using IBM's quantum computer resources which are partly made available for developers Basics first : IBM has released it's SDK to program these quantum computers using a visual composer, Python, a proprietary assembler QASM format and some run and execute utilities. There is however a second way of using its quantum resources, using the entry-points of is Q-experience REST server. Most if not all of the visual composer functions can be done by ajax-calls ! To demonstrate : the first thing is to acquire an api-token. (Create an account on https://quantumexperience.ng.bluemix.net/qx/experience. Log in and navigate to the Composer. Username > My Account, and then Advanced on the upper right. Then generate API Token. Api Tokens are personal and are not supposed to be shared.) The next thing is to generate a session token (access token). This can be done in code. This screenshot shows a couple of these REST server calls and its results : The first button (get access) generates a session token The second button queries which quantum computers are available, how many qubits can be used, if it is online and what type of system it is. Current results show 3 quantum systems - 2 real ones and 1 simulator The third button (current Temp) gives some processor info of the selected system. In this case the current temperature in Kelvin : the Melbourne processor is cooled to just above the absolute minimum. Next : the next button to implement will be to submit some code to one of the available processors for processing. Below is the project code for these REST calls unit Form1; interface uses System.Types, System.Types.Convert, System.Objects, System.Time, SmartCL.System, SmartCL.Time, SmartCL.Graphics, SmartCL.Components, SmartCL.FileUtils, SmartCL.Forms, SmartCL.Fonts, SmartCL.Theme, SmartCL.Borders, SmartCL.Application, SmartCL.Net.Http, ECMA.Json, SmartCL.Controls.Button, SmartCL.Controls.Label, HTMLTableElement, SmartCL.Controls.ScrollBox, SmartCL.Controls.Panel, SmartCL.Controls.ComboBox; type TForm1 = class(TW3Form) procedure W3Button3Click(Sender: TObject); procedure W3Button2Click(Sender: TObject); procedure W3Button1Click(Sender: TObject); private {$I 'Form1:intf'} protected procedure InitializeForm; override; procedure InitializeObject; override; procedure Resize; override; DBRows : integer := 0; FHttp : TW3HttpRequest; smscursor: variant; procedure GetAccessToken(Sender: TW3HttpRequest); procedure ListAvailableSystems(Sender: TW3HttpRequest); procedure GetTempKelvin(Sender: TW3HttpRequest); AccessToken : string; end; implementation { TForm1 } procedure TForm1.InitializeForm; begin inherited; // this is a good place to initialize components end; procedure TForm1.InitializeObject; begin inherited; {$I 'Form1:impl'} end; { Button1 } procedure TForm1.W3Button1Click(Sender: TObject); begin //Get Access Token var FHttp := TW3HttpRequest.Create; FHttp.OnDataReady := GetAccessToken; FHttp.open("POST",'https://quantumexperience.ng.bluemix.net/api/users/loginWithToken'); FHttp.RequestHeaders.Add("Content-type","application/json"); var api : variant := new JObject; api.apiToken := TString.encodeURIComponent('a59d26ebf........1d6d6d4a28c430b5336aba'); FHttp.send(json.stringify(api)); end; procedure TForm1.GetAccessToken(Sender: TW3HttpRequest); begin smscursor := JSON.parse(Sender.ResponseText); AccessToken := smscursor.id; W3Label1.Caption:= 'Access Token : ' + AccessToken; end; { Button2 } procedure TForm1.W3Button2Click(Sender: TObject); begin //List available Q systems var FHttp := TW3HttpRequest.Create; FHttp.OnDataReady := ListAvailableSystems; FHttp.open("GET",'https://quantumexperience.ng.bluemix.net/api/Backends?access_token=' + AccessToken); FHttp.RequestHeaders.Add("Content-type","application/json"); FHttp.send; end; procedure TForm1.ListAvailableSystems(Sender: TW3HttpRequest); begin var W3TableElement1 : TW3TableElement := TW3TableElement.Create(W3Panel1); //add 5 columns to the grid W3TableElement1.AddColumn('Name',200); //title, width W3TableElement1.AddColumn('Description',200); W3TableElement1.AddColumn('Qubits',50); W3TableElement1.AddColumn('System type',150); W3TableElement1.AddColumn('Status',50); smscursor := JSON.parse(Sender.ResponseText); W3ComboBox1.Clear; for var i := 0 to smscursor.length -1 do begin W3TableElement1.AddCell(i+1,1,smscursor[i].name); W3TableElement1.AddCell(i+1,2,smscursor[i].description); W3TableElement1.AddCell(i+1,3,smscursor[i].nQubits); if smscursor[i].simulator = true then W3TableElement1.AddCell(i+1,4,'quantum simulator') else W3TableElement1.AddCell(i+1,4,'quantum system'); W3TableElement1.AddCell(i+1,5,smscursor[i].status); W3ComboBox1.add(smscursor[i].name); end; W3Panel1.NativeScrolling := true; W3ComboBox1.OnChanged := procedure (Sender: TObject) begin writeln(W3ComboBox1.Items[W3ComboBox1.SelectedIndex]); end; end; { Button3 } procedure TForm1.W3Button3Click(Sender: TObject); begin //Get Temp var FHttp := TW3HttpRequest.Create; FHttp.OnDataReady := GetTempKelvin; //'https://quantumexperience.ng.bluemix.net/api/Backends/NAME/parameters?access_token=ACCESS-TOKEN'; FHttp.open("GET",'https://quantumexperience.ng.bluemix.net/api/Backends/' + W3ComboBox1.Items[W3ComboBox1.SelectedIndex] + '/parameters?access_token=' + AccessToken); FHttp.RequestHeaders.Add("Content-type","application/json"); FHttp.send; end; procedure TForm1.GetTempKelvin(Sender: TW3HttpRequest); begin If Sender.ResponseText = '{}' then begin W3Label3.Caption := 'Simulators are not cooled to (close to) absolute minimum'; end else begin smscursor := JSON.parse(Sender.ResponseText); if smscursor.fridgeParameters.Temperature.value = '' then W3Label3.Caption := 'Processor does not support Temp reading' else W3Label3.Caption:= 'Current Temp : ' + smscursor.fridgeParameters.Temperature.value + ' Kelvin'; end; end; procedure TForm1.Resize; begin inherited; end; initialization Forms.RegisterForm({$I %FILE%}, TForm1); end. In the end hopefully it will be possible to recreate the classic Battleships game using quantum computing, as described here
  7. 4 points
    warleyalex

    ecma.promise

    The unit ECMA.Promise is broken. I use this definition Using Promises in SMS unit uPromises; interface uses W3C.Console, W3C.DOM, W3C.XMLHttpRequest; type TVariantDynArray = array of Variant; JDeferred = class; TJPromiseCallback = procedure(Value: Variant); TJDeferredObject_fn = function(d: TJPromiseCallback): Variant; TJDeferredObject = procedure(resolve: TJPromiseCallback; reject: TJPromiseCallback); TJPromiseCallback_fn = function(Value: Variant): Variant; TJDeferredEventHandler = function(event: Variant): Variant; JPromise = class external 'Promise' constructor Create(fn: TJDeferredObject_fn { = nil}); overload; constructor Create(resolve: TJDeferredObject_fn; reject: TJDeferredObject_fn); overload; constructor Create(fn: TJDeferredObject); overload; function always(alwaysCallbacks: TVariantDynArray): JPromise; function done(doneCallbacks: TVariantDynArray): JPromise; overload; function done(doneCallbacks: Variant): JPromise; overload; function fail(failCallbacks: TVariantDynArray): JPromise; function progress(progressCallbacks: TVariantDynArray): JPromise; function state(): string; function &then(doneCallbacks: Variant; failCallbacks: Variant{ = undefined}; progressCallbacks: Variant { = undefined}): JPromise; external 'then'; function &then(onFulfilled: TJPromiseCallback_fn = nil): JPromise; overload; external 'then'; function &then(onFulfilled: TJPromiseCallback_fn; onRejected: TJPromiseCallback_fn): JPromise; overload; external 'then'; function &then(onFulfilled: TJPromiseCallback; onRejected: TJPromiseCallback): JPromise; overload; external 'then'; function catch(rejecTJPromiseCallback: Variant = nil): JPromise; overload; function catch(rejecTJPromiseCallback: TJPromiseCallback_fn): JPromise; overload; class function promise(target: Variant): JPromise; end; type JDeferred = class external 'Promise'(JPromise) function notify(args: TVariantDynArray): JDeferred; function notifyWith(context: Variant; args: TVariantDynArray): JDeferred; function reject(args: TVariantDynArray): JDeferred; overload; function reject(args: Variant): JDeferred; overload; function reject(args: TJDeferredEventHandler): JDeferred; overload; function rejectWith(context: Variant; args: TVariantDynArray): JDeferred; function resolve(args: TVariantDynArray): JDeferred; overload; function resolve(value: Variant = nil): JPromise; overload; function resolveWith(context: Variant; args: TVariantDynArray): JDeferred; function all(iterable: TVariantDynArray): JPromise; overload; function race(iterable: TVariantDynArray): JPromise; end; { global external functions } function Promise : JDeferred; external 'Promise' property; function queue: JPromise; external 'Promise.resolve()'; function Error(message: variant): variant; external 'Error'; function document: variant; external "document" property; function window : Variant; external 'window' property; function &typeof(obj:variant): variant; overload; external "typeof"; function wait(ms: Integer): JPromise; function getURI(url: string): Variant; function getFile(url: string): variant; //function myRequire(url: string): Variant; implementation function wait(ms: Integer): JPromise; function setTimeout(ahandler : TJPromiseCallback; aTimeout : Integer): Integer; external 'window.setTimeout'; begin result := JPromise.Create( procedure (resolve, reject: TJPromiseCallback) begin setTimeout(resolve, ms); end); end; function getURI(url: string): Variant; var request: JXMLHttpRequest; procedure p(resolve: TJPromiseCallback; reject: TJPromiseCallback); // Standard XHR to load an image procedure doOnLoad; begin // This is called even on 404 etc // so check the status if (request.status = 200) then begin // If successful, resolve the promise by passing back the request response resolve(request.response); end else begin // Otherwise reject with the status text // which will hopefully be a meaningful error reject(Error('File didn''t load successfully; error code: ' + request.statusText)); end; end; procedure doOnError; begin // Also deal with the case when the entire request fails to begin with // This is probably a network error, so reject the promise with an appropriate message reject(Error('There was a network error.')); end; Begin request := JXMLHttpRequest.Create; request.open('GET', url); // When the request loads, check whether it was successful request.addEventListener('load', @doOnLoad); // Handle network errors request.addEventListener('abort', @doOnError); // Send the request request.send(); End; begin // Create new promise with the Promise() constructor; // This has as its argument a function // with two parameters, resolve and reject Result := JPromise.Create(@p); end; function getFile(url: string): variant; begin // Create new promise with the Promise() constructor; // This has as its argument a function // with two parameters, resolve and reject Result := JPromise.create( procedure(resolve: TJPromiseCallback; reject: TJPromiseCallback) // Standard XHR to load an image var request: JXMLHttpRequest; begin request := new JXMLHttpRequest(); request.open('GET', url); // When the request loads, check whether it was successful request.onload := lambda begin // This is called even on 404 etc // so check the status if (request.status = 200) then begin // If successful, resolve the promise by passing back the request response resolve(request.response); end else begin // Otherwise reject with the status text // which will hopefully be a meaningful error reject(Error("File didn't load successfully; error code: " + request.statusText)); end; end; end; // Handle network errors request.onerror := lambda // Also deal with the case when the entire request fails to begin with // This is probably a network error, so reject the promise with an appropriate message reject(Error('There was a network error.')); end; // Send the request request.send(); end); end; /* function myRequire( url: string): Variant; function ev(win: Variant; arr: array of Variant): Variant; external 'eval.apply'; var ajax: JXMLHttpRequest; function onReady(event: JEvent): Variant; var script: Variant; begin script := ajax.response; // ?? ajax.responseText; if (ajax.readyState = 4) then begin case( (ajax.status)) of 200: begin //eval.apply( window, [script] ); ev( window, [script] ); console.log('script loaded: '+ url); end else console.log('ERROR: script not loaded: '+ url); end; end; end; begin ajax := JXMLHttpRequest.Create; ajax.open( 'GET', url, false ); // <-- the 'false' makes it synchronous ajax.onreadystatechange := @onReady; ajax.send(null); end;*/ end.
  8. 3 points
    lynkfs

    visual processing

    A while ago I posted some ideas and a demo on the subject of 'nocode' or 'locode' development. The idea was to do a domain modelling exercise, and extract or generate an application from that with no or minimal coding required. The demo put a couple of the proposed models through its paces. After that post I put the subject back in the incubator for a bit. Sort of recently I realised that having an rtl with visual components and an ide with a form painter is a good thing to have, but only covers part of what is necessary if we need to cover process logic, or business rules, without having to resort to coding. Various computing packages (datamining, visual analytics etc) model business logic by providing specialised components, which can be strung together and parametrised. I tried this approach out (using KNIME) with the following (nonsensical) example process : "from the NorthWind database get all companies, and from the FishFacts database extract all species, collate only those entries from both datasources where the name starts with the letter 'L' and list them. Also produce a pie-chart of all fish species showing their length in cm." This (nonsense) process translates to the node structure above. Nodes typically can be selected from a list of available nodes and right-clicking gives parametrisation forms, f.i. the MYSQL connector asks for a host, database name, credentials etc. Stringing these components together is a simple process in itself, and the output produces something like Not too bad. I've coded a couple of these type of components in Smart, which works really well. For the technical architecture I've based these on the principles of FBP (flow based programming) where every node is a webworker, and the connectors between these nodes/webworkers are defined by channel-objects. Data transfer between these nodes/channels is done by messaging. See post here. It would be nice to extend the rtl with these types of components, including a process painter
  9. 3 points
    jarto

    Development updates

    New update is available: Bug fixes and improvements to the IDE: BringToFront and SendToBack will now affect component creation order Opening files from Project Search Path is fixed
  10. 3 points
    to match/map the JSON fieldname, you have to declare the record definition is type TFishRecord = record Category: String; external 'Category'; Common_Name: String; external 'Common_Name'; Length_Cm: String; external 'Length_Cm'; Length_In: String; external 'Length_In'; Notes: String; external 'Notes'; Species_Name: String; external 'Species_Name'; Species_No: String; external 'Species_No'; end; to emit this JS Object, for instance: { Category : "Snapper", Common_Name : "Red Emperor", Length_Cm : "60", Length_In : "23.6220472440945", Notes : "Called seaperch in Australia.", Species_Name : "Lutjanus sebae", Species_No : "90030" }
  11. 3 points
    warleyalex

    SMS 3 + mORMot = Error

    I download the mORMot_and_Open_Source_friends_234301_06b24ae728 today and patched some needed SynCrossPlatform units and mORMotWrappers (generate mORMot cross-platform clients code from the server). and some changes at the project 27 and 29, Now, it compiles and works in both SMS 2.2.2.04694 (lastest WinXP compatible) and SMS 3.1.0.80 (development version)! download link: mORMot with SMS 2x and 3x
  12. 3 points
    jarto

    Endpoints & Resources ?

    Well, you should always take what Jon says or writes with a grain of salt.
  13. 3 points
    lynkfs

    printing

    Working on a component which involves printing. I've used external libraries like jsPDF, which generate printable content and they generally work fine. They also have some drawbacks though. So this component is going to rely on the browsers native 'print' command to print a complete page/form, or part thereof. 1) The print command is tied to a window object (window.print), so the possible implementations are limited to manipulating either the current window an iFrame element, which encapsulates a window object a new pop-up window (or new tab) Just to try these out, button 1-3 in the code below correspond to these possible implementations. var Button1 : TW3Button := TW3Button.Create(self); Button1.SetBounds(20,470,120,30); Button1.Caption := 'this window'; Button1.OnClick := procedure(sender:TObject) begin var originalContents := browserapi.document.body.innerHTML; browserapi.document.body.innerHTML := SrcDoc; browserapi.window.print(); browserapi.document.body.innerHTML = originalContents; end; var Button2 : TW3Button := TW3Button.Create(self); Button2.SetBounds(150,470,120,30); Button2.Caption := 'iframe window'; var IFrame1 := TW3IFrameHtmlElement.Create(self); IFrame1.SetBounds(20,20,400,400); Button2.OnClick := procedure(sender:TObject) begin IFrame1.handle.srcdoc := SrcDoc; IFrame1.handle.contentWindow.print(); end; var Button3 : TW3Button := TW3Button.Create(self); Button3.SetBounds(280,470,120,30); Button3.Caption := 'other window'; Button3.OnClick := procedure(sender:TObject) begin asm var mywindow = window.open('', 'PRINT', 'height=400,width=600'); mywindow.document.write(@SrcDoc); mywindow.setTimeout(function(){ mywindow.print(); mywindow.close(); }, 1000); //mywindow.print(); //mywindow.close(); end; end; //SrcDoc content : see below All of these approaches work. However if printable content contains images or other sizable resources, the actual printing must be delayed until all these resources have been downloaded - so either preload or set an appropriate Timeout, as in Button3 2) Screen and print layout differ in a couple of aspects : screens are continuous, paper is not and some elements like tables and images should not be cut in half over page breaks readability of fonts is different on screens and print output hints like blue links on webpages don't translate well to printing many web page elements like menus should not appear on print and more. A good overview is given in this article A separate print stylesheet can handle some/most/all of these concerns. A generic print stylesheet based on @media print is included below. Probably not the solution for each and every situation, but it handles most of the aspects above var SrcDoc : string := #' <!DOCTYPE html> <HTML> <HEAD> <style> @media print { @page { margin: 2cm } body { font: 13pt Georgia, "Times New Roman", Times, serif; line-height: 1.3; background: #fff !important; color: #000; } h1 { font-size: 24pt; } h2, h3, h4 { font-size: 14pt; margin-top: 25px; } a { page-break-inside:avoid } blockquote { page-break-inside: avoid; } h1, h2, h3, h4, h5, h6 { page-break-after:avoid; page-break-inside:avoid } img { page-break-inside:avoid; page-break-after:avoid; } table, pre { page-break-inside:avoid } ul, ol, dl { page-break-before:avoid } a:link, a:visited, a { background: transparent; color: #520; font-weight: bold; text-decoration: underline; text-align: left; } a { page-break-inside:avoid } a[href^=http]:after { content:" <" attr(href) "> "; } $a:after > img { content: ""; } article a[href^="#"]:after { content: ""; } a:not(:local-link):after { content:" <" attr(href) "> "; } nav, .sidebar, .heading { display: none; } p, address, li, dt, dd, blockquote { font-size: 100% } code, pre { font-family: "Courier New", Courier, mono} ul, ol { list-style: square; margin-left: 18pt; margin-bottom: 20pt; } li { line-height: 1.6em; } } </style> </HEAD> <BODY BGCOLOR="FFFFFF"> <CENTER><IMG SRC="res/logo.png"> </CENTER> <HR> <H1>Header H1</H1> <H2>Header H2</H2> <P>Paragraph <P><B>Bold paragraph</B> <BR><BR><B><I>This is a sentence with some length, longer than the iframe width, in bold italic.</I></B> <HR> </BODY> </HTML>'; This generates a print preview in all major browsers, with options to set paper size, select printer, orientation etc. see https://www.lynkfs.com/Experiments/ReportWriter/www/reportwriter.html Next thing to tackle is scaling.
  14. 3 points
    DavidRM

    NodeJS file utils and native app

    Here's my example: Files := TW3NodeStorageDevice.Create(nil); Files.Mount(nil, procedure (Sender: TW3StorageDevice; Success: boolean) begin if Success then Writeln(PBNRS_FILE_SYSTEM_MOUNTED) else Writeln(Format(PBNRS_ERROR_MOUNTING_FILE_SYSTEM, [Files.LastError])); end ); And reading a file: Files.Load(PBNConfig.HelpFile, procedure (Sender: TW3StorageDevice; Filename: string; Data: TStream; Success: boolean) begin if Success then begin ... end else ... end
  15. 3 points
    lynkfs

    inter-tab processing

    Would it be possible to implement a 'client-server' architecture where both the client and the server are executed locally (but in separate spaces). Or just divide an app up in different parts where each part is executed in its own environment and communicates with the other parts as necessary. And all this pure locally. The answer is yes: use separate browser tabs. Surprisingly there are multiple ways of doing this, and the candidate technologies enabling inter-tab communication are : local storage (really) shared web workers broadcast channelling webrtc The demo in this post is based on using localStorage and consists of two separate but standard Smart projects, dubbed 'server' and 'client'. The server-project is just a form with an embedded anchor html element (<a>). When clicked the href-attribute is set to the output of the client-project ('client.html') and the target-attribute to '_blank'. This has the effect of opening up a new browser-tab which runs the client-project. So now there are two browser tabs open, each running its own project. Communication between these tabs is possible using localStorage : mutations in localStorage generate storage-events and these events can be captured and used for communication purposes. This url (https://www.lynkfs.com/Experiments/webrtc/localstorage/server.html) opens up both tabs at once (you might have to allow pop-ups in Chrome or FireFox), and mimics a login process. Server-code and Client-code (native framework but you'll get the idea) Login form : button.OnClick := procedure(sender:TObject) begin //this sends 2 events to the server, which can then validate name and password window.localStorage.setItem('name',name.handle.value); window.localStorage.setItem('pw', pw.handle.value); end; window.onstorage := procedure(e:variant) begin //after validation the server sends a new event with the results console.log(e.key); console.log(e.oldValue); console.log(e.newValue); footer.SetBounds(100,300,200,30); if (e.key = 'result') and (e.newValue = 'ok') then footer.setInnerHTML('login successful'); end; happy holidays
  16. 3 points
    jarto

    Smart Mobile Studio 3.0.2 is released!

    Smart Mobile Studio 3.0.2 is released. This version contains all the fixes and improvements from the development-channel. There are lots of bug fixes and improvements to the IDE thanks to all the help from our users here. The Smart Mobile Studio team wants to with everybody a Merry Christmas and Happy New Year. Release notes: https://smartmobilestudio.com/2018/12/21/smart-mobile-studio-3-0-2-released/
  17. 3 points
    jarto

    Development updates

    New update available: RTL: TW3TabControl: AnimateTabs-property to control how tabs are changed. TW3ListBox: Prevent an exception if TW3Image is used as a line control and OnShowItem is not set. TW3ListMenu, TW3HeaderControl and TW3SimpleLabel: Don't set default caption to classname during initialization. DWScript: Capitalize day and month names correctly (January instead of january, Sunday instead of sunday) IDE: Improvements to the way the IDE reacts to a changed external file. Use caption while drawing generic controls instead of component name.
  18. 2 points
    Hi Tim, I assume you are trying to log in with your email address. Try using your screen name instead, ie "Tim Koscielski" without the quotes. It's a known issue
  19. 2 points
    jarto

    Enable User Selection of Text

    I don't know. Maybe because text in Delphi apps is not selectable as default? Anyway, I'd propose changing this so, that we don't prevent ContentSelectionMode even if cfAllowSelections is missing. And if cfAllowSelection is in creation flags, we could set ContentSelectionMode automatically to tmsAuto. What do you guys think?
  20. 2 points
    IgorSavkic

    Renaming form in ObjectInspector

    > Through Project manager: Through Property Inspector I think SMS in this should behave as Delphi. Project manager operates on units, so it will display unit name (for example MainForm.pas) and renaming there, renames unit. Object/Property inspector operates on components, so changing form name just does that, changes form name and class, unit is unaffected. For forms units I do like to have a different unit name and a different form name, for example I prefix all controls with it's type abbreviation, something like: Unit: SettingsForm.pas FormControl: frmSettings Panel: pnlMain ListBox: lbItems Panel: pnlRight ListBox: lbCategories Panel: pnlBottom Button: btnOK Button: btnCancel
  21. 2 points
    lynkfs

    NodeJS file utils and native app

    yes to a node server with a back-end mysql db, no to a node server accessing the native file system I have these links on my system : node socket server with mysql db https://forums.smartmobilestudio.com/topic/4652-node-ground-zero/?tab=comments#comment-23125 file enumeration https://jonlennartaasenden.wordpress.com/?s=node.js I've done some conversions using nativefier, works ok I'm racking my brains what the name is of this other native library I've used once, but it eludes me at present
  22. 2 points
    jarto

    Working with Emoji data

    Phew, that took some digging, but I found a solution: function ConvertFromUCS16(Value: String): String; begin //Make sure any " are escaped for var i:=Length(Value) downto 1 do if (Value[i]='"') and ((i=1) or (Value[i-1]<>'\')) then Insert('\',Value,i); result:=TString.DecodeURIComponent(JSON.parse('"'+Value+'"')); end; Solution from: https://stackoverflow.com/questions/7885096/how-do-i-decode-a-string-with-escaped-unicode Edit: Whoops, fixed a bug in the escaping Edit2: Add System.JSON to uses clause.
  23. 2 points
    lynkfs

    serviceWorkers (fetch)

    WebWorkers are a way of off-loading tasks from the main browser into a separate thread. ServiceWorkers sit between the browser and the network and extend these capabilities by a couple of powerful features : offline detection and interception possibilities of network requests (fetch api) resource caching under program control (new cacheStorage api) background syncing saving browser apps as icons on the homescreen serving push notifications ServiceWorkers are integral to Progressive Web Apps Architecturally a serviceWorker is just a separate js file, which means that 2 Smart projects are needed (one for the main program, one for the serviceWorker). For normal webWorkers there is a workaround in that it is possible to generate an in-memory js-file using the blob: protocol (see forum post here), so the webWorker can be generated from the main program. For serviceWorkers this approach should work as well, however all modern browsers have closed this avenue (see here, here and here). Not sure if this is temporary or permanent. ServiceWorkers are created in the main program, a bit differently then normal. No 'new' object constructor but instead a call to a registration function, returning a promise. var navigator external 'navigator': variant; if navigator.serviceWorker then begin navigator.serviceWorker.register('sw-v1.js') .then(procedure(registration:variant) begin console.log('Service Worker registered with scope: ', registration.scope); end) .catch(procedure(err:variant) begin console.log('Service worker registration failed: ', err); end) end; (Adding the link to the external navigator object in the first line means no asm blocks are required. The above could be wrapped up in a TServiceWorker object). 1) network request interceptions (fetch) For the serviceworker : start a new project and delete all pre-generated forms and units. Set output to js file (linker) and unclick 'use main body' in code generation. Replace contents of root-unit with var sw : variant; asm @sw = self; end; sw.addEventListener("fetch", procedure(event:variant) begin if (event.request.url.includes("res/app.css")) then begin event.respondWith( fetch("res/appmodified.css"); ) ); end end); Soon as the request to load the standard Smart resource-file 'res/app.css' is detected, it is intercepted and replaced with another resourcefile. Usually communication between worker and main is done through messaging. There is however a short-cut where the worker can modify the calling main page directly : add a Response object to the event.responseWith method with appropriate headers asm event.respondWith( new Response( "body {background: green !important;}", {headers: {"Content-Type": "text/css" }} ) ); end; this will change the backgroundcolor of the form to green. Change the Content-Type to "text/html" and the preceding string to valid html and the form will be replaced with the rendered html content. demo (click button and do refresh) and projects (main and worker)
  24. 2 points
    jarto

    Packing Observation

    For deployment, you can also add extra complexity against preying eyes by using Google's closure-compiler. Download the latest binary from: https://github.com/google/closure-compiler/wiki/Binary-Downloads Uncheck "Embed Javascripg into HTML file" in Project options Select both Code packing and Code obfuscation Build Run closure-compiler on the generated main.js: java -jar closure-compiler.jar --js main.js --js_output_file mainp.js And then replace main.js with mainp.js. The compiler will give some warnings about unreachable code but they are safe to ignore.
  25. 2 points
    Here is an example: else if ((aPlayer.TeamNum = 1) and (((team[0] = 0) and (team[1] <> 0)) or (((team[1] <> 0) or (team[0] = 0)) and (Game.Team1Splats < Game.Team2Splats)))) or ((aPlayer.TeamNum = 2) and (((team[1] = 0) and (team[0] <> 0)) or (((team[0] <> 0) or (team[1] = 0)) and (Game.Team2Splats < Game.Team1Splats)))) then Clicking on the opening parenthesis of a "block" correctly highlights the closing parenthesis. The reverse isn't true. Clicking on the closing parenthesis (for example, the one before the "then") highlights about halfway back to the opening. After spotting this a few times, I figured I'd report it. ? -David
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