When building a Windows Console App in C#, is it possible to write to the console without having to extend a current line or go to a new line? For example, if I want to sho
The SetCursorPosition
method works in multi-threading scenario, where the other two methods don't
If you want update one line, but the information is too long to show on one line, it may need some new lines. I've encountered this problem, and below is one way to solve this.
public class DumpOutPutInforInSameLine
{
//content show in how many lines
int TotalLine = 0;
//start cursor line
int cursorTop = 0;
// use to set character number show in one line
int OneLineCharNum = 75;
public void DumpInformation(string content)
{
OutPutInSameLine(content);
SetBackSpace();
}
static void backspace(int n)
{
for (var i = 0; i < n; ++i)
Console.Write("\b \b");
}
public void SetBackSpace()
{
if (TotalLine == 0)
{
backspace(OneLineCharNum);
}
else
{
TotalLine--;
while (TotalLine >= 0)
{
backspace(OneLineCharNum);
TotalLine--;
if (TotalLine >= 0)
{
Console.SetCursorPosition(OneLineCharNum, cursorTop + TotalLine);
}
}
}
}
private void OutPutInSameLine(string content)
{
//Console.WriteLine(TotalNum);
cursorTop = Console.CursorTop;
TotalLine = content.Length / OneLineCharNum;
if (content.Length % OneLineCharNum > 0)
{
TotalLine++;
}
if (TotalLine == 0)
{
Console.Write("{0}", content);
return;
}
int i = 0;
while (i < TotalLine)
{
int cNum = i * OneLineCharNum;
if (i < TotalLine - 1)
{
Console.WriteLine("{0}", content.Substring(cNum, OneLineCharNum));
}
else
{
Console.Write("{0}", content.Substring(cNum, content.Length - cNum));
}
i++;
}
}
}
class Program
{
static void Main(string[] args)
{
DumpOutPutInforInSameLine outPutInSameLine = new DumpOutPutInforInSameLine();
outPutInSameLine.DumpInformation("");
outPutInSameLine.DumpInformation("bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb");
outPutInSameLine.DumpInformation("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa");
outPutInSameLine.DumpInformation("bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb");
//need several lines
outPutInSameLine.DumpInformation("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa");
outPutInSameLine.DumpInformation("bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb");
outPutInSameLine.DumpInformation("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa");
outPutInSameLine.DumpInformation("bbbbbbbbbbbbbbbbbbbbbbbbbbb");
}
}
Here is my take on s soosh's and 0xA3's answers. It can update the console with user messages while updating the spinner and has an elapsed time indicator aswell.
public class ConsoleSpiner : IDisposable
{
private static readonly string INDICATOR = "/-\\|";
private static readonly string MASK = "\r{0} {1:c} {2}";
int counter;
Timer timer;
string message;
public ConsoleSpiner() {
counter = 0;
timer = new Timer(200);
timer.Elapsed += TimerTick;
}
public void Start() {
timer.Start();
}
public void Stop() {
timer.Stop();
counter = 0;
}
public string Message {
get { return message; }
set { message = value; }
}
private void TimerTick(object sender, ElapsedEventArgs e) {
Turn();
}
private void Turn() {
counter++;
var elapsed = TimeSpan.FromMilliseconds(counter * 200);
Console.Write(MASK, INDICATOR[counter % 4], elapsed, this.Message);
}
public void Dispose() {
Stop();
timer.Elapsed -= TimerTick;
this.timer.Dispose();
}
}
usage is something like this:
class Program
{
static void Main(string[] args)
{
using (var spinner = new ConsoleSpiner())
{
spinner.Start();
spinner.Message = "About to do some heavy staff :-)"
DoWork();
spinner.Message = "Now processing other staff".
OtherWork();
spinner.Stop();
}
Console.WriteLine("COMPLETED!!!!!\nPress any key to exit.");
}
}
I just had to play with the divo's ConsoleSpinner
class. Mine is nowhere near as concise, but it just didn't sit well with me that users of that class have to write their own while(true)
loop. I'm shooting for an experience more like this:
static void Main(string[] args)
{
Console.Write("Working....");
ConsoleSpinner spin = new ConsoleSpinner();
spin.Start();
// Do some work...
spin.Stop();
}
And I realized it with the code below. Since I don't want my Start()
method to block, I don't want the user to have to worry about writing a while(spinFlag)
-like loop, and I want to allow multiple spinners at the same time I had to spawn a separate thread to handle the spinning. And that means the code has to be a lot more complicated.
Also, I haven't done that much multi-threading so it's possible (likely even) that I've left a subtle bug or three in there. But it seems to work pretty well so far:
public class ConsoleSpinner : IDisposable
{
public ConsoleSpinner()
{
CursorLeft = Console.CursorLeft;
CursorTop = Console.CursorTop;
}
public ConsoleSpinner(bool start)
: this()
{
if (start) Start();
}
public void Start()
{
// prevent two conflicting Start() calls ot the same instance
lock (instanceLocker)
{
if (!running )
{
running = true;
turner = new Thread(Turn);
turner.Start();
}
}
}
public void StartHere()
{
SetPosition();
Start();
}
public void Stop()
{
lock (instanceLocker)
{
if (!running) return;
running = false;
if (! turner.Join(250))
turner.Abort();
}
}
public void SetPosition()
{
SetPosition(Console.CursorLeft, Console.CursorTop);
}
public void SetPosition(int left, int top)
{
bool wasRunning;
//prevent other start/stops during move
lock (instanceLocker)
{
wasRunning = running;
Stop();
CursorLeft = left;
CursorTop = top;
if (wasRunning) Start();
}
}
public bool IsSpinning { get { return running;} }
/* --- PRIVATE --- */
private int counter=-1;
private Thread turner;
private bool running = false;
private int rate = 100;
private int CursorLeft;
private int CursorTop;
private Object instanceLocker = new Object();
private static Object console = new Object();
private void Turn()
{
while (running)
{
counter++;
// prevent two instances from overlapping cursor position updates
// weird things can still happen if the main ui thread moves the cursor during an update and context switch
lock (console)
{
int OldLeft = Console.CursorLeft;
int OldTop = Console.CursorTop;
Console.SetCursorPosition(CursorLeft, CursorTop);
switch (counter)
{
case 0: Console.Write("/"); break;
case 1: Console.Write("-"); break;
case 2: Console.Write("\\"); break;
case 3: Console.Write("|"); counter = -1; break;
}
Console.SetCursorPosition(OldLeft, OldTop);
}
Thread.Sleep(rate);
}
lock (console)
{ // clean up
int OldLeft = Console.CursorLeft;
int OldTop = Console.CursorTop;
Console.SetCursorPosition(CursorLeft, CursorTop);
Console.Write(' ');
Console.SetCursorPosition(OldLeft, OldTop);
}
}
public void Dispose()
{
Stop();
}
}
\r
is used for these scenarios.
\r
represents a carriage return which means the cursor returns to the start of the line.
That's why Windows uses \n\r
as its new line marker.
\n
moves you down a line, and \r
returns you to the start of the line.