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WILLR
essegisolutions edited this page Jan 13, 2018
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This API returns the Williams' %R (WILLR) values. The related REST API documentation is here
The very first thing to do before diving into WILLR calls is to include the right namespace.
using Avapi.AvapiWILLR
The WILLR object is retrieved from the Connection object.
The snippet below shows how to get the Connection object:
...
IAvapiConnection connection = AvapiConnection.Instance
connection.Connect("Your Alpha Vantage API Key !!!!");
...
Once you got the Connection object you can extract the WILLR from it.
...
Int_WILLR willr =
connection.GetQueryObject_WILLR();
To perform a WILLR request you have 2 options:
- The request with constants:
IAvapiResponse_WILLR Query(string symbol,
WILLR_interval interval,
int time_period);
- The request without constants:
IAvapiResponse_WILLR QueryPrimitive(string symbol,
string interval,
string time_period);
To perform an WILLR asynchronous request you have 2 options:
- The request with constants:
async Task<IAvapiResponse_WILLR> QueryAsync(string symbol,
WILLR_interval interval,
int time_period);
- The request without constants:
async Task<IAvapiResponse_WILLR> QueryAsync(string symbol,
string interval,
string time_period);
The parameters below are needed to perform the WILLR request.
- symbol: The name of the equity
- interval: The time interval between two consecutive data points in the time series.
- time_period: Number of data points used to calculate each WILLR value.
Please notice that the info above are copied from the official alphavantage documentation, that you can find here.
The request with constants implies the use of different enums:
- WILLR_interval
WILLR_interval: The time interval between two consecutive data points in the time series.
public enum WILLR_interval
{
none,
n_1min,
n_5min,
n_15min,
n_30min,
n_60min,
daily,
weekly,
monthly
}
The response of a WILLR request is an object that implements the IAvapiResponse_WILLR interface.
public interface IAvapiResponse_WILLR
{
string RawData
{
get;
}
IAvapiResponse_WILLR_Content Data
{
get;
}
}
The IAvapiResponse_WILLR interface has two members: RawData and Data.
- RawData: represents the json response in string format.
- Data: It represents the parsed response in an object implementing the interface IAvapiResponse_WILLR_Content.
Complete Example of a Console App: Display the result of a WILLR request by using the method Query (synchronous request)
using System;
using System.IO;
using Avapi.AvapiWILLR;
namespace Avapi
{
public class Example
{
static void Main()
{
// Creating the connection object
IAvapiConnection connection = AvapiConnection.Instance;
// Set up the connection and pass the API_KEY provided by alphavantage.co
connection.Connect("Your Alpha Vantage API Key !!!!");
// Get the WILLR query object
Int_WILLR willr =
connection.GetQueryObject_WILLR();
// Perform the WILLR request and get the result
IAvapiResponse_WILLR willrResponse =
willr.Query(
"MSFT",
Const_WILLR.WILLR_interval.n_1min,
10);
// Printout the results
Console.WriteLine("******** RAW DATA WILLR ********");
Console.WriteLine(willrResponse.RawData);
Console.WriteLine("******** STRUCTURED DATA WILLR ********");
var data = willrResponse.Data;
if (data.Error)
{
Console.WriteLine(data.ErrorMessage);
}
else
{
Console.WriteLine("Symbol: " + data.MetaData.Symbol);
Console.WriteLine("Indicator: " + data.MetaData.Indicator);
Console.WriteLine("LastRefreshed: " + data.MetaData.LastRefreshed);
Console.WriteLine("Interval: " + data.MetaData.Interval);
Console.WriteLine("TimePeriod: " + data.MetaData.TimePeriod);
Console.WriteLine("TimeZone: " + data.MetaData.TimeZone);
Console.WriteLine("========================");
Console.WriteLine("========================");
foreach (var technical in data.TechnicalIndicator)
{
Console.WriteLine("WILLR: " + technical.WILLR);
Console.WriteLine("DateTime: " + technical.DateTime);
Console.WriteLine("========================");
}
}
}
}
}
Complete Example of a Windows Form App: Display the result of a WILLR request by using the method QueryAsync (asynchronous request)
using Avapi;
using Avapi.AvapiWILLR
using System;
using System.Windows.Forms;
namespace WindowsFormsApp1
{
public partial class Form1 : Form
{
private IAvapiConnection m_connection = AvapiConnection.Instance;
private Int_WILLR m_willr;
private IAvapiResponse_WILLR m_willrResponse;
public Form1()
{
InitializeComponent();
}
protected override void OnLoad(EventArgs e)
{
// Set up the connection and pass the API_KEY provided by alphavantage.co
m_connection.Connect("Your Alpha Vantage Key");
// Get the WILLR query object
m_willr = m_connection.GetQueryObject_WILLR();
base.OnLoad(e);
}
private async void WILLRAsyncButton_Click(object sender, EventArgs e)
{
// Perform the WILLR request and get the result
m_willrResponse =
await m_willr.QueryAsync(
"MSFT",
Const_WILLR.WILLR_interval.n_1min,
10);
// Show the results
resultTextBox.AppendText("******** RAW DATA WILLR ********" + "\n");
resultTextBox.AppendText(m_willrResponse.RawData + "\n");
resultTextBox.AppendText("******** STRUCTURED DATA WILLR ********" + "\n");
var data = m_willrResponse.Data;
if (data.Error)
{
resultTextBox.AppendText(data.ErrorMessage + "\n");
}
else
{
resultTextBox.AppendText("Symbol: " + data.MetaData.Symbol + "\n");
resultTextBox.AppendText("Indicator: " + data.MetaData.Indicator + "\n");
resultTextBox.AppendText("LastRefreshed: " + data.MetaData.LastRefreshed + "\n");
resultTextBox.AppendText("Interval: " + data.MetaData.Interval + "\n");
resultTextBox.AppendText("TimePeriod: " + data.MetaData.TimePeriod + "\n");
resultTextBox.AppendText("TimeZone: " + data.MetaData.TimeZone + "\n");
resultTextBox.AppendText("========================" + "\n");
resultTextBox.AppendText("========================" + "\n");
foreach (var technical in data.TechnicalIndicator)
{
resultTextBox.AppendText("WILLR: " + technical.WILLR + "\n");
resultTextBox.AppendText("DateTime: " + technical.DateTime + "\n");
resultTextBox.AppendText("========================" + "\n");
}
}
}
}
}