I have a object that has the result of a query, this object has dateĀ“s fields and i need to deal where the field has the date '01-01-1991'change to null. How can i simplify this if statement?
if(item.date01 == '01-01-1991')
item.date01 = null;
if(item.date02 == '01-01-1991')
item.date02 = null;
if(item.date03 == '01-01-1991')
item.date03 = null;
if(item.date04 == '01-01-1991')
item.date04 = null;
i tried to use foreach, but i didnt know how...
foreach(var item in itens)
{
if(item.obj == '01-01-1991')
item.obj = null;
}
I'm not sure if you have a working example, since the single quotes in `'01-01-1991' are not valid to use in a string or datetime.
Also, you mention that the date01, date02, ... are fields. In that case, you can do the following:
var item = new DataItem();
void CheckAndSet(ref string? date)
{
if (date == "01-01-1900")
{
date = null;
}
}
CheckAndSet(ref item.date01);
CheckAndSet(ref item.date02);
CheckAndSet(ref item.date03);
CheckAndSet(ref item.date04);
public class DataItem
{
public string? date01;
public string? date02;
public string? date03;
public string? date04;
}
To elaborate, you can use the ref keyword to keep the reference to the original variable, which in this case is the date0x field in the DataItem class.
iterate each item of items
foreach(var item in items)
{
this.CheckAndSetDate(ref item.date01,"01-01-1991");
this.CheckAndSetDate(ref item.date02,"01-01-1991");
this.CheckAndSetDate(ref item.date03,"01-01-1991");
this.CheckAndSetDate(ref item.date04,"01-01-1991");
}
then create validate function
public void CheckAndSetDate(ref string date, string value)
{
date = date == value ? null : date;
}
or
foreach(var item in items)
{
item.date01 = this.CheckAndSetDate(item.date01,"01-01-1991");
item.date02 = this.CheckAndSetDate(item.date02,"01-01-1991");
item.date03 = this.CheckAndSetDate(item.date03,"01-01-1991");
item.date04 = this.CheckAndSetDate(item.date04,"01-01-1991");
}
public stringCheckAndSetDate(ref string date, string value)
{
return date == value ? null : date;
}
You can use Reflection.
foreach(var element in (IEnumerable)item)
{
Type type = element.GetType();
PropertyInfo[] properties = type.GetProperties();
foreach(PropertyInfo p in properties)
{
if(p.GetValue(element,null) == "01-01-1991")
{
p.SetValue(item, null, null)
}
}
}
I need help to solve a problem, my problem is as follows, I have the following object
public class Teste
{
public string Descricao { get; set; }
public Time Time { get; set; }
}
.
public class Time
{
public string Nome { get; set; }
public Time (string nome)
{
Nome = nome;
}
}
I would like to be able to obtain the complete path of a certain property.
var teste = new Teste();
teste.Descricao = "bar";
teste.Time = new Time("foo");
var b = GetProperties(teste, "Nome");
//expected return: "Time.Nome"
I was testing something I arrived at the following method
public static IEnumerable<Tuple<string, string>> GetProperties(object obj, string propertyPath)
{
var objType = obj.GetType();
if (objType.IsValueType || objType.Equals(typeof(string)))
return Enumerable.Repeat(Tuple.Create(propertyPath, obj.ToString()), 1);
else
{
if (obj == null)
return Enumerable.Repeat(Tuple.Create(propertyPath, string.Empty), 1);
else
{
return from prop in objType.GetProperties()
where prop.CanRead && !prop.GetIndexParameters().Any()
let propValue = prop.GetValue(obj, null)
let propType = prop.PropertyType
from nameValPair in GetProperties(propValue, string.Format("{0}.{1}", propertyPath, prop.Name))
select nameValPair;
}
}
}
but it returns everything to me and I would like it to return a specific property.
I think there are some issues with searching properties that come from system modules. You have to decide which properties are worth recursively descending and which ones are not. Also, you'll have to maintain a list of objects that you have already visited to ensure that you do not follow cycles. I think a breadth-first search would be best, but for this example, I'll code a depth-first search. Also, I just return the first match, not all matches, you can adjust as needed. Furthermore, it returns a (mostly useless) string version of the path rather than a list of reflected properties that would be needed to actually access it (You'd have to do reflection again to locate the properties by name to retrieve the value from this "path" string.)
I'll start you off with a basic implementation. Likely someone else can improve upon it.
static string GetPropertyPath(object obj, string name, List<object> visited = null)
{
// does the object have the property?
Type t = obj.GetType();
var properties = t.GetProperties();
foreach (var property in properties) {
if (property.Name == name) {
// that's it!
return name;
}
}
// if we get here, it's because we didn't find the property.
if (visited == null) {
visited = new List<object>();
visited.Add(obj);
}
// Get all the properties of the first object and keep searching,
// keeping track of objects we've visited already.
foreach (var property in properties) {
// Limit which kinds of properties we search
if (object.ReferenceEquals(typeof(Program).Module, property.Module)) {
// get the value of the property
object obj2 = property.GetValue(obj);
// Do not search any previously visited objects
if (!visited.Any(o => object.ReferenceEquals(o, obj2))) {
visited.Add(obj2);
string path = GetPropertyPath(obj2, name, visited);
if (path != null) {
// found it!
return property.Name + "." + path;
}
}
}
}
return null;
}
Example
static void Main(string[] args)
{
var teste = new Teste();
teste.Descricao = "bar";
teste.Time = new Time("foo");
var b = GetPropertyPath(teste, "Nome"); // "Time.Nome"
}
I am trying implement the Data transformation using Reflection1 example in my code.
The GetSourceValue function has a switch comparing various types, but I want to remove these types and properties and have GetSourceValue get the value of the property using only a single string as the parameter. I want to pass a class and property in the string and resolve the value of the property.
Is this possible?
1 Web Archive version of original blog post
public static object GetPropValue(object src, string propName)
{
return src.GetType().GetProperty(propName).GetValue(src, null);
}
Of course, you will want to add validation and whatnot, but that is the gist of it.
How about something like this:
public static Object GetPropValue(this Object obj, String name) {
foreach (String part in name.Split('.')) {
if (obj == null) { return null; }
Type type = obj.GetType();
PropertyInfo info = type.GetProperty(part);
if (info == null) { return null; }
obj = info.GetValue(obj, null);
}
return obj;
}
public static T GetPropValue<T>(this Object obj, String name) {
Object retval = GetPropValue(obj, name);
if (retval == null) { return default(T); }
// throws InvalidCastException if types are incompatible
return (T) retval;
}
This will allow you to descend into properties using a single string, like this:
DateTime now = DateTime.Now;
int min = GetPropValue<int>(now, "TimeOfDay.Minutes");
int hrs = now.GetPropValue<int>("TimeOfDay.Hours");
You can either use these methods as static methods or extensions.
Add to any Class:
public class Foo
{
public object this[string propertyName]
{
get { return this.GetType().GetProperty(propertyName).GetValue(this, null); }
set { this.GetType().GetProperty(propertyName).SetValue(this, value, null); }
}
public string Bar { get; set; }
}
Then, you can use as:
Foo f = new Foo();
// Set
f["Bar"] = "asdf";
// Get
string s = (string)f["Bar"];
What about using the CallByName of the Microsoft.VisualBasic namespace (Microsoft.VisualBasic.dll)? It uses reflection to get properties, fields, and methods of normal objects, COM objects, and even dynamic objects.
using Microsoft.VisualBasic;
using Microsoft.VisualBasic.CompilerServices;
and then
Versioned.CallByName(this, "method/function/prop name", CallType.Get).ToString();
Great answer by jheddings. I would like to improve it by allowing referencing of aggregated arrays or collections of objects, so that propertyName could be property1.property2[X].property3:
public static object GetPropertyValue(object srcobj, string propertyName)
{
if (srcobj == null)
return null;
object obj = srcobj;
// Split property name to parts (propertyName could be hierarchical, like obj.subobj.subobj.property
string[] propertyNameParts = propertyName.Split('.');
foreach (string propertyNamePart in propertyNameParts)
{
if (obj == null) return null;
// propertyNamePart could contain reference to specific
// element (by index) inside a collection
if (!propertyNamePart.Contains("["))
{
PropertyInfo pi = obj.GetType().GetProperty(propertyNamePart);
if (pi == null) return null;
obj = pi.GetValue(obj, null);
}
else
{ // propertyNamePart is areference to specific element
// (by index) inside a collection
// like AggregatedCollection[123]
// get collection name and element index
int indexStart = propertyNamePart.IndexOf("[")+1;
string collectionPropertyName = propertyNamePart.Substring(0, indexStart-1);
int collectionElementIndex = Int32.Parse(propertyNamePart.Substring(indexStart, propertyNamePart.Length-indexStart-1));
// get collection object
PropertyInfo pi = obj.GetType().GetProperty(collectionPropertyName);
if (pi == null) return null;
object unknownCollection = pi.GetValue(obj, null);
// try to process the collection as array
if (unknownCollection.GetType().IsArray)
{
object[] collectionAsArray = unknownCollection as object[];
obj = collectionAsArray[collectionElementIndex];
}
else
{
// try to process the collection as IList
System.Collections.IList collectionAsList = unknownCollection as System.Collections.IList;
if (collectionAsList != null)
{
obj = collectionAsList[collectionElementIndex];
}
else
{
// ??? Unsupported collection type
}
}
}
}
return obj;
}
If I use the code from Ed S. I get
'ReflectionExtensions.GetProperty(Type, string)' is inaccessible due to its protection level
It seems that GetProperty() is not available in Xamarin.Forms. TargetFrameworkProfile is Profile7 in my Portable Class Library (.NET Framework 4.5, Windows 8, ASP.NET Core 1.0, Xamarin.Android, Xamarin.iOS, Xamarin.iOS Classic).
Now I found a working solution:
using System.Linq;
using System.Reflection;
public static object GetPropValue(object source, string propertyName)
{
var property = source.GetType().GetRuntimeProperties().FirstOrDefault(p => string.Equals(p.Name, propertyName, StringComparison.OrdinalIgnoreCase));
return property?.GetValue(source);
}
Source
About the nested properties discussion, you can avoid all the reflection stuff if you use the DataBinder.Eval Method (Object, String) as below:
var value = DataBinder.Eval(DateTime.Now, "TimeOfDay.Hours");
Of course, you'll need to add a reference to the System.Web assembly, but this probably isn't a big deal.
The method to call has changed in .NET Standard (as of 1.6). Also we can use C# 6's null conditional operator.
using System.Reflection;
public static object GetPropValue(object src, string propName)
{
return src.GetType().GetRuntimeProperty(propName)?.GetValue(src);
}
The below method works perfect for me:
class MyClass {
public string prop1 { set; get; }
public object this[string propertyName]
{
get { return this.GetType().GetProperty(propertyName).GetValue(this, null); }
set { this.GetType().GetProperty(propertyName).SetValue(this, value, null); }
}
}
To get the property value:
MyClass t1 = new MyClass();
...
string value = t1["prop1"].ToString();
To set the property value:
t1["prop1"] = value;
public static List<KeyValuePair<string, string>> GetProperties(object item) //where T : class
{
var result = new List<KeyValuePair<string, string>>();
if (item != null)
{
var type = item.GetType();
var properties = type.GetProperties(BindingFlags.Public | BindingFlags.Instance);
foreach (var pi in properties)
{
var selfValue = type.GetProperty(pi.Name).GetValue(item, null);
if (selfValue != null)
{
result.Add(new KeyValuePair<string, string>(pi.Name, selfValue.ToString()));
}
else
{
result.Add(new KeyValuePair<string, string>(pi.Name, null));
}
}
}
return result;
}
This is a way to get all properties with their values in a List.
Using PropertyInfo of the System.Reflection namespace. Reflection compiles just fine no matter what property we try to access. The error will come up during run-time.
public static object GetObjProperty(object obj, string property)
{
Type t = obj.GetType();
PropertyInfo p = t.GetProperty("Location");
Point location = (Point)p.GetValue(obj, null);
return location;
}
It works fine to get the Location property of an object
Label1.Text = GetObjProperty(button1, "Location").ToString();
We'll get the Location : {X=71,Y=27}
We can also return location.X or location.Y on the same way.
public class YourClass
{
//Add below line in your class
public object this[string propertyName] => GetType().GetProperty(propertyName)?.GetValue(this, null);
public string SampleProperty { get; set; }
}
//And you can get value of any property like this.
var value = YourClass["SampleProperty"];
The following code is a Recursive method for displaying the entire hierarchy of all of the Property Names and Values contained in an object's instance. This method uses a simplified version of AlexD's GetPropertyValue() answer above in this thread. Thanks to this discussion thread, I was able to figure out how to do this!
For example, I use this method to show an explosion or dump of all of the properties in a WebService response by calling the method as follows:
PropertyValues_byRecursion("Response", response, false);
public static object GetPropertyValue(object srcObj, string propertyName)
{
if (srcObj == null)
{
return null;
}
PropertyInfo pi = srcObj.GetType().GetProperty(propertyName.Replace("[]", ""));
if (pi == null)
{
return null;
}
return pi.GetValue(srcObj);
}
public static void PropertyValues_byRecursion(string parentPath, object parentObj, bool showNullValues)
{
/// Processes all of the objects contained in the parent object.
/// If an object has a Property Value, then the value is written to the Console
/// Else if the object is a container, then this method is called recursively
/// using the current path and current object as parameters
// Note: If you do not want to see null values, set showNullValues = false
foreach (PropertyInfo pi in parentObj.GetType().GetTypeInfo().GetProperties())
{
// Build the current object property's namespace path.
// Recursion extends this to be the property's full namespace path.
string currentPath = parentPath + "." + pi.Name;
// Get the selected property's value as an object
object myPropertyValue = GetPropertyValue(parentObj, pi.Name);
if (myPropertyValue == null)
{
// Instance of Property does not exist
if (showNullValues)
{
Console.WriteLine(currentPath + " = null");
// Note: If you are replacing these Console.Write... methods callback methods,
// consider passing DBNull.Value instead of null in any method object parameters.
}
}
else if (myPropertyValue.GetType().IsArray)
{
// myPropertyValue is an object instance of an Array of business objects.
// Initialize an array index variable so we can show NamespacePath[idx] in the results.
int idx = 0;
foreach (object business in (Array)myPropertyValue)
{
if (business == null)
{
// Instance of Property does not exist
// Not sure if this is possible in this context.
if (showNullValues)
{
Console.WriteLine(currentPath + "[" + idx.ToString() + "]" + " = null");
}
}
else if (business.GetType().IsArray)
{
// myPropertyValue[idx] is another Array!
// Let recursion process it.
PropertyValues_byRecursion(currentPath + "[" + idx.ToString() + "]", business, showNullValues);
}
else if (business.GetType().IsSealed)
{
// Display the Full Property Path and its Value
Console.WriteLine(currentPath + "[" + idx.ToString() + "] = " + business.ToString());
}
else
{
// Unsealed Type Properties can contain child objects.
// Recurse into my property value object to process its properties and child objects.
PropertyValues_byRecursion(currentPath + "[" + idx.ToString() + "]", business, showNullValues);
}
idx++;
}
}
else if (myPropertyValue.GetType().IsSealed)
{
// myPropertyValue is a simple value
Console.WriteLine(currentPath + " = " + myPropertyValue.ToString());
}
else
{
// Unsealed Type Properties can contain child objects.
// Recurse into my property value object to process its properties and child objects.
PropertyValues_byRecursion(currentPath, myPropertyValue, showNullValues);
}
}
}
public static TValue GetFieldValue<TValue>(this object instance, string name)
{
var type = instance.GetType();
var field = type.GetFields(BindingFlags.NonPublic | BindingFlags.Static | BindingFlags.Instance).FirstOrDefault(e => typeof(TValue).IsAssignableFrom(e.FieldType) && e.Name == name);
return (TValue)field?.GetValue(instance);
}
public static TValue GetPropertyValue<TValue>(this object instance, string name)
{
var type = instance.GetType();
var field = type.GetProperties(BindingFlags.NonPublic | BindingFlags.Static | BindingFlags.Instance).FirstOrDefault(e => typeof(TValue).IsAssignableFrom(e.PropertyType) && e.Name == name);
return (TValue)field?.GetValue(instance);
}
Dim NewHandle As YourType = CType(Microsoft.VisualBasic.CallByName(ObjectThatContainsYourVariable, "YourVariableName", CallType), YourType)
Here is another way to find a nested property that doesn't require the string to tell you the nesting path. Credit to Ed S. for the single property method.
public static T FindNestedPropertyValue<T, N>(N model, string propName) {
T retVal = default(T);
bool found = false;
PropertyInfo[] properties = typeof(N).GetProperties();
foreach (PropertyInfo property in properties) {
var currentProperty = property.GetValue(model, null);
if (!found) {
try {
retVal = GetPropValue<T>(currentProperty, propName);
found = true;
} catch { }
}
}
if (!found) {
throw new Exception("Unable to find property: " + propName);
}
return retVal;
}
public static T GetPropValue<T>(object srcObject, string propName) {
return (T)srcObject.GetType().GetProperty(propName).GetValue(srcObject, null);
}
You never mention what object you are inspecting, and since you are rejecting ones that reference a given object, I will assume you mean a static one.
using System.Reflection;
public object GetPropValue(string prop)
{
int splitPoint = prop.LastIndexOf('.');
Type type = Assembly.GetEntryAssembly().GetType(prop.Substring(0, splitPoint));
object obj = null;
return type.GetProperty(prop.Substring(splitPoint + 1)).GetValue(obj, null);
}
Note that I marked the object that is being inspected with the local variable obj. null means static, otherwise set it to what you want. Also note that the GetEntryAssembly() is one of a few available methods to get the "running" assembly, you may want to play around with it if you are having a hard time loading the type.
Have a look at the Heleonix.Reflection library. You can get/set/invoke members by paths, or create a getter/setter (lambda compiled into a delegate) which is faster than reflection. For example:
var success = Reflector.Get(DateTime.Now, null, "Date.Year", out int value);
Or create a getter once and cache for reuse (this is more performant but might throw NullReferenceException if an intermediate member is null):
var getter = Reflector.CreateGetter<DateTime, int>("Date.Year", typeof(DateTime));
getter(DateTime.Now);
Or if you want to create a List<Action<object, object>> of different getters, just specify base types for compiled delegates (type conversions will be added into compiled lambdas):
var getter = Reflector.CreateGetter<object, object>("Date.Year", typeof(DateTime));
getter(DateTime.Now);
Although the original question was about how to get the value of the property using only a single string as the parameter, it makes a lot of sense here to use an Expression rather than simply a string to ensure that the caller never uses a hard coded property name. Here is a one line version with usage:
public static class Utils
...
public static TVal GetPropertyValue<T, TVal>(T t, Expression<Func<T, TVal>> x)
=> (TVal)((x.Body as MemberExpression)?.Member as PropertyInfo)!.GetValue(t);
...
var val = Utils.GetPropertyValue(foo, p => p.Bar);
Here is a slightly better version in terms of readability a error handling:
public static TVal GetPropertyValue<T, TVal>(T t, Expression<Func<T, TVal>> x)
{
var m = (x.Body as MemberExpression)?.Member;
var p = m as PropertyInfo;
if (null == p)
throw new ArgumentException($"Unknown property: {typeof(T).Name}.{(m?.Name??"???")}");
return (TVal)p.GetValue(t);
}
In short you pass in a lambda expression reading a property. The body of the lambda - the part on the right of the fat arrow - is a member expression from which you can get the member name and which you can cast to a PropertyInfo, provided the member is actually a Property and not, for instance, a method.
In the short version, the null forgiving operator - the ! in the expression - tells the compiler that the PropertyInfo will not be null. This is a big lie and you will get a NullReferenceException at runtime. The longer version gives you the name of the property if it manages to get it.
PS: Thanks to Oleg G. for the initial version of this code :)
shorter way ....
var a = new Test { Id = 1 , Name = "A" , date = DateTime.Now};
var b = new Test { Id = 1 , Name = "AXXX", date = DateTime.Now };
var compare = string.Join("",a.GetType().GetProperties().Select(x => x.GetValue(a)).ToArray())==
string.Join("",b.GetType().GetProperties().Select(x => x.GetValue(b)).ToArray());
jheddings and AlexD both wrote excellent answers on how to resolve property strings. I'd like to throw mine in the mix, since I wrote a dedicated library exactly for that purpose.
Pather.CSharp's main class is Resolver. Per default it can resolve properties, array and dictionary entries.
So, for example, if you have an object like this
var o = new { Property1 = new { Property2 = "value" } };
and want to get Property2, you can do it like this:
IResolver resolver = new Resolver();
var path = "Property1.Property2";
object result = r.Resolve(o, path);
//=> "value"
This is the most basic example of the paths it can resolve. If you want to see what else it can, or how you can extend it, just head to its Github page.
Here's what I got based on other answers. A little overkill on getting so specific with the error handling.
public static T GetPropertyValue<T>(object sourceInstance, string targetPropertyName, bool throwExceptionIfNotExists = false)
{
string errorMsg = null;
try
{
if (sourceInstance == null || string.IsNullOrWhiteSpace(targetPropertyName))
{
errorMsg = $"Source object is null or property name is null or whitespace. '{targetPropertyName}'";
Log.Warn(errorMsg);
if (throwExceptionIfNotExists)
throw new ArgumentException(errorMsg);
else
return default(T);
}
Type returnType = typeof(T);
Type sourceType = sourceInstance.GetType();
PropertyInfo propertyInfo = sourceType.GetProperty(targetPropertyName, returnType);
if (propertyInfo == null)
{
errorMsg = $"Property name '{targetPropertyName}' of type '{returnType}' not found for source object of type '{sourceType}'";
Log.Warn(errorMsg);
if (throwExceptionIfNotExists)
throw new ArgumentException(errorMsg);
else
return default(T);
}
return (T)propertyInfo.GetValue(sourceInstance, null);
}
catch(Exception ex)
{
errorMsg = $"Problem getting property name '{targetPropertyName}' from source instance.";
Log.Error(errorMsg, ex);
if (throwExceptionIfNotExists)
throw;
}
return default(T);
}
Here is my solution. It works also with COM objects and allows to access collection/array items from COM objects.
public static object GetPropValue(this object obj, string name)
{
foreach (string part in name.Split('.'))
{
if (obj == null) { return null; }
Type type = obj.GetType();
if (type.Name == "__ComObject")
{
if (part.Contains('['))
{
string partWithoundIndex = part;
int index = ParseIndexFromPropertyName(ref partWithoundIndex);
obj = Versioned.CallByName(obj, partWithoundIndex, CallType.Get, index);
}
else
{
obj = Versioned.CallByName(obj, part, CallType.Get);
}
}
else
{
PropertyInfo info = type.GetProperty(part);
if (info == null) { return null; }
obj = info.GetValue(obj, null);
}
}
return obj;
}
private static int ParseIndexFromPropertyName(ref string name)
{
int index = -1;
int s = name.IndexOf('[') + 1;
int e = name.IndexOf(']');
if (e < s)
{
throw new ArgumentException();
}
string tmp = name.Substring(s, e - s);
index = Convert.ToInt32(tmp);
name = name.Substring(0, s - 1);
return index;
}
Whenever you want to loop over all properties in on an object and then use each value of the property must use this piece of code:
foreach (var property in request.GetType().GetProperties())
{
var valueOfProperty = property.GetValue(properties, null);
}
This question already has answers here:
Get property value from string using reflection
(24 answers)
Closed 4 years ago.
What I'm trying to do is setting the value of the property in a class using a string. For example, my class has the following properties:
myClass.Name
myClass.Address
myClass.PhoneNumber
myClass.FaxNumber
All the fields are of string type so I know ahead of time that it's always a string. Now, I want to be able to set the properties using a string as you could do with a DataSet object. Something like this:
myClass["Name"] = "John"
myClass["Address"] = "1112 River St., Boulder, CO"
Ideally, I want to just assign a variable and then set the property using that string name from the variable:
string propName = "Name"
myClass[propName] = "John"
I was reading about reflection and maybe it's the way to do it but I'm not sure how to go about setting that up while keeping the property access intact in the class. I want to still be able to use:
myClass.Name = "John"
Any code examples would be really great.
You can add indexer property, a pseudocode:
public class MyClass
{
public object this[string propertyName]
{
get
{
// probably faster without reflection:
// like: return Properties.Settings.Default.PropertyValues[propertyName]
// instead of the following
Type myType = typeof(MyClass);
PropertyInfo myPropInfo = myType.GetProperty(propertyName);
return myPropInfo.GetValue(this, null);
}
set
{
Type myType = typeof(MyClass);
PropertyInfo myPropInfo = myType.GetProperty(propertyName);
myPropInfo.SetValue(this, value, null);
}
}
}
You can add an indexer to your class and use reflection to aces the properties:
using System.Reflection;
public class MyClass {
public object this[string name]
{
get
{
var properties = typeof(MyClass)
.GetProperties(BindingFlags.Public | BindingFlags.Instance);
foreach (var property in properties)
{
if (property.Name == name && property.CanRead)
return property.GetValue(this, null);
}
throw new ArgumentException("Can't find property");
}
set {
return;
}
}
}
May be something like this?
public class PropertyExample
{
private readonly Dictionary<string, string> _properties;
public string FirstName
{
get { return _properties["FirstName"]; }
set { _properties["FirstName"] = value; }
}
public string LastName
{
get { return _properties["LastName"]; }
set { _properties["LastName"] = value; }
}
public string this[string propertyName]
{
get { return _properties[propertyName]; }
set { _properties[propertyName] = value; }
}
public PropertyExample()
{
_properties = new Dictionary<string, string>();
}
}
This question already has answers here:
Closed 11 years ago.
Possible Duplicate:
How can I code a C# function to accept a variable number of parameters?
I have the following class:
public class Product : AuditableTable
{
public string Position { get; set; }
public string Quantity { get; set; }
public double Location { get; set; }
}
What I need is to be able to update fields in the class with the following function.
Parameters:
ac and pr define the keys and enable me to get an instance of the class.
fld is the field name of the class to update. It could be "Position", "Quantity" or "Location" or ??
val is the value. It could be something like "London" or "1.234"
How can I arrange for the field name to be set dynamically without using a case statement to
check each value of fld and many different setters. Also if there's some way of setting the field
dynamically how do I deal with casting it to the correct object type for that field?
public void Update(string ac, string pr, string fld, string val)
{
try
{
vm.Product = _product.Get(ac, pr);
vm.Product. xxx = fld
}
catch (Exception e) { log(e); }
}
Update
Here's the solution proposed by Pieter:
public void Update(string ac, string pr, string fld, string val) {
try {
vm.Product = _product.Get("0000" + ac, pr);
if (vm.Product != null)
{
var property = vm.Product.GetType().GetProperty(fld);
var type = Nullable.GetUnderlyingType(property.PropertyType) ?? property.PropertyType;
val = Convert.ChangeType(val, type);
property.SetValue(vm.Product, val, null);
}
_product.AddOrUpdate(vm.Product);
}
catch (Exception e) { log(e); }
}
You can use reflection:
vm.Product.GetType().GetProperty(field).SetValue(vm.Product, val, null);
SetValue requires that the value is of the correct type. If this isn't the case, you can convert it with the following:
var property = vm.Product.GetType().GetProperty(field);
// Convert.ChangeType does not work with nullable types, so we need
// to get the underlying type.
var type = Nullable.GetUnderlyingType(property.PropertyType) ?? property.PropertyType;
object convertedValue = Convert.ChangeType(val, type);
property.SetValue(vm.Product, convertedValue, null);
This automatically converts val to the type of the property before assigning it.
Note however that both using reflection and Convert.ChangeType are horribly slow. If you do this a lot, you should have a look at DynamicMethod.
Reflection is what you can use.
Type myType = Vm.Product.GetType();
PropertyInfo pinfo = myType.GetProperty(fld);
//get property type
Type convertType = pinfo.PropertyType;
//convert it to the required type before setting the property value
var newValue = Convert.ChangeType(val, convertType);
// Use the SetValue method to change the caption.
pinfo.SetValue(vm.Product, newValue , null);
The only thing that you have to keep in mind that if the property is double, then the string that is being passed should be such that it could be converted to double, other wise you would have a runtime exception
more info here : http://msdn.microsoft.com/en-us/library/axt1ctd9.aspx
Use Reflection in c#
public void Update(string ac, string pr, string fld, string val) {
try
{
vm.Product = _product.Get(ac, pr);
if( vm.Product != null)
{
Type type = vm.Product.GetType();
PropertyInfo pIn = type.GetProperty(fld);
if(pIn != null)
pIn.SetValue(vm.Product, val, null);
}
}
catch (Exception e) { log(e); }
}