在.NET Core 中使用 MVC 之外的 Razor

There's a working example for .NET Core 1.0 at aspnet/Entropy/samples/Mvc.RenderViewToString. Since this might change or go away, I'll detail the approach I'm using in my own applications here.

Tl;dr - Razor works really well outside of MVC! This approach can handle more complex rendering scenarios like partial views and injecting objects into views as well, although I'll just demonstrate a simple example below.

The core service looks like this:

RazorViewToStringRenderer.cs

using System;
using System.IO;
using Microsoft.AspNetCore.Http;
using Microsoft.AspNetCore.Mvc;
using Microsoft.AspNetCore.Mvc.Abstractions;
using Microsoft.AspNetCore.Mvc.ModelBinding;
using Microsoft.AspNetCore.Mvc.Razor;
using Microsoft.AspNetCore.Mvc.Rendering;
using Microsoft.AspNetCore.Mvc.ViewFeatures;
using Microsoft.AspNetCore.Routing;


namespace RenderRazorToString
{
public class RazorViewToStringRenderer
{
private readonly IRazorViewEngine _viewEngine;
private readonly ITempDataProvider _tempDataProvider;
private readonly IServiceProvider _serviceProvider;


public RazorViewToStringRenderer(
IRazorViewEngine viewEngine,
ITempDataProvider tempDataProvider,
IServiceProvider serviceProvider)
{
_viewEngine = viewEngine;
_tempDataProvider = tempDataProvider;
_serviceProvider = serviceProvider;
}


public async Task<string> RenderViewToString<TModel>(string name, TModel model)
{
var actionContext = GetActionContext();


var viewEngineResult = _viewEngine.FindView(actionContext, name, false);


if (!viewEngineResult.Success)
{
throw new InvalidOperationException(string.Format("Couldn't find view '{0}'", name));
}


var view = viewEngineResult.View;


using (var output = new StringWriter())
{
var viewContext = new ViewContext(
actionContext,
view,
new ViewDataDictionary<TModel>(
metadataProvider: new EmptyModelMetadataProvider(),
modelState: new ModelStateDictionary())
{
Model = model
},
new TempDataDictionary(
actionContext.HttpContext,
_tempDataProvider),
output,
new HtmlHelperOptions());


await view.RenderAsync(viewContext);


return output.ToString();
}
}


private ActionContext GetActionContext()
{
var httpContext = new DefaultHttpContext
{
RequestServices = _serviceProvider
};


return new ActionContext(httpContext, new RouteData(), new ActionDescriptor());
}
}
}

A simple test console app just needs to initialize the service (and some supporting services), and call it:

Program.cs

using System;
using System.Diagnostics;
using System.IO;
using Microsoft.AspNetCore.Hosting;
using Microsoft.AspNetCore.Hosting.Internal;
using Microsoft.AspNetCore.Mvc.Razor;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.FileProviders;
using Microsoft.Extensions.ObjectPool;
using Microsoft.Extensions.PlatformAbstractions;


namespace RenderRazorToString
{
public class Program
{
public static void Main()
{
// Initialize the necessary services
var services = new ServiceCollection();
ConfigureDefaultServices(services);
var provider = services.BuildServiceProvider();


var renderer = provider.GetRequiredService<RazorViewToStringRenderer>();


// Build a model and render a view
var model = new EmailViewModel
{
UserName = "User",
SenderName = "Sender"
};
var emailContent = renderer.RenderViewToString("EmailTemplate", model).GetAwaiter().GetResult();


Console.WriteLine(emailContent);
Console.ReadLine();
}


private static void ConfigureDefaultServices(IServiceCollection services)
{
var applicationEnvironment = PlatformServices.Default.Application;
services.AddSingleton(applicationEnvironment);


var appDirectory = Directory.GetCurrentDirectory();


var environment = new HostingEnvironment
{
WebRootFileProvider = new PhysicalFileProvider(appDirectory),
ApplicationName = "RenderRazorToString"
};
services.AddSingleton<IHostingEnvironment>(environment);


services.Configure<RazorViewEngineOptions>(options =>
{
options.FileProviders.Clear();
options.FileProviders.Add(new PhysicalFileProvider(appDirectory));
});


services.AddSingleton<ObjectPoolProvider, DefaultObjectPoolProvider>();


var diagnosticSource = new DiagnosticListener("Microsoft.AspNetCore");
services.AddSingleton<DiagnosticSource>(diagnosticSource);


services.AddLogging();
services.AddMvc();
services.AddSingleton<RazorViewToStringRenderer>();
}
}
}

This assumes that you have a view model class:

EmailViewModel.cs

namespace RenderRazorToString
{
public class EmailViewModel
{
public string UserName { get; set; }


public string SenderName { get; set; }
}
}

And layout and view files:

Views/_Layout.cshtml

<!DOCTYPE html>


<html>
<body>
<div>
@RenderBody()
</div>
<footer>
Thanks,<br />
@Model.SenderName
</footer>
</body>
</html>

Views/EmailTemplate.cshtml

@model RenderRazorToString.EmailViewModel
@{
Layout = "_EmailLayout";
}


Hello @Model.UserName,


<p>
This is a generic email about something.<br />
<br />
</p>

Recently I've created a library called RazorLight.

It has no redundant dependencies, like ASP.NET MVC parts and can be used in console applications. For now it only supports .NET Core (NetStandard1.6) - but that's exactly what you need.

Here is a short example:

IRazorLightEngine engine = EngineFactory.CreatePhysical("Path-to-your-views");


// Files and strong models
string resultFromFile = engine.Parse("Test.cshtml", new Model("SomeData"));


// Strings and anonymous models
string stringResult = engine.ParseString("Hello @Model.Name", new { Name = "John" });

Here is a class to get Nate's answer working as a scoped service in an ASP.NET Core 2.0 project.

using System;
using System.IO;
using System.Threading.Tasks;
using Microsoft.AspNetCore.Http;
using Microsoft.AspNetCore.Mvc;
using Microsoft.AspNetCore.Mvc.Abstractions;
using Microsoft.AspNetCore.Mvc.ModelBinding;
using Microsoft.AspNetCore.Mvc.Razor;
using Microsoft.AspNetCore.Mvc.Rendering;
using Microsoft.AspNetCore.Mvc.ViewFeatures;
using Microsoft.AspNetCore.Routing;


namespace YourNamespace.Services
{
public class ViewRender : IViewRender
{
private readonly IRazorViewEngine _viewEngine;
private readonly ITempDataProvider _tempDataProvider;
private readonly IServiceProvider _serviceProvider;


public ViewRender(
IRazorViewEngine viewEngine,
ITempDataProvider tempDataProvider,
IServiceProvider serviceProvider)
{
_viewEngine = viewEngine;
_tempDataProvider = tempDataProvider;
_serviceProvider = serviceProvider;
}


public async Task<string> RenderAsync(string name)
{
return await RenderAsync<object>(name, null);
}


public async Task<string> RenderAsync<TModel>(string name, TModel model)
{
var actionContext = GetActionContext();


var viewEngineResult = _viewEngine.FindView(actionContext, name, false);


if (!viewEngineResult.Success)
{
throw new InvalidOperationException(string.Format("Couldn't find view '{0}'", name));
}


var view = viewEngineResult.View;


using (var output = new StringWriter())
{
var viewContext = new ViewContext(
actionContext,
view,
new ViewDataDictionary<TModel>(
metadataProvider: new EmptyModelMetadataProvider(),
modelState: new ModelStateDictionary())
{
Model = model
},
new TempDataDictionary(
actionContext.HttpContext,
_tempDataProvider),
output,
new HtmlHelperOptions());


await view.RenderAsync(viewContext);


return output.ToString();
}
}


private ActionContext GetActionContext()
{
var httpContext = new DefaultHttpContext {RequestServices = _serviceProvider};
return new ActionContext(httpContext, new RouteData(), new ActionDescriptor());
}
}


public interface IViewRender
{
Task<string> RenderAsync(string name);


Task<string> RenderAsync<TModel>(string name, TModel model);
}
}

In Startup.cs

public void ConfigureServices(IServiceCollection services)
{
services.AddScoped<IViewRender, ViewRender>();
}

In a controller

public class VenuesController : Controller
{
private readonly IViewRender _viewRender;


public VenuesController(IViewRender viewRender)
{
_viewRender = viewRender;
}


public async Task<IActionResult> Edit()
{
string html = await _viewRender.RenderAsync("Emails/VenuePublished", venue.Name);
return Ok();
}
}

Here is a sample code that only depends on Razor (for parsing and C# code generation) and Roslyn (for C# code compilation, but you could use the old CodeDom as well).

There is no MVC in that piece of code, so, no View, no .cshtml files, no Controller, just Razor source parsing and compiled runtime execution. There is still the notion of Model though.

You will only need to add following nuget packages: Microsoft.AspNetCore.Razor.Language (tested with v5.0.5), Microsoft.AspNetCore.Razor.Runtime (tested with v2.2.0) and Microsoft.CodeAnalysis.CSharp (tested with v3.9.0) nugets.

This C# source code is compatible with .NET 5, NETCore 3.1 (for older versions check this answer's history), NETStandard 2 and .NET Framework. To test it just create a .NET framework or .NET core console app, paste it, add the nugets, and create the hello.txt file by hand (it must be located aside the executables).

using System;
using System.IO;
using System.Reflection;
using System.Threading.Tasks;
using Microsoft.AspNetCore.Razor.Hosting;
using Microsoft.AspNetCore.Razor.Language;
using Microsoft.AspNetCore.Razor.Language.Extensions; // needed or not depends on .NET version
using Microsoft.CodeAnalysis;
using Microsoft.CodeAnalysis.CSharp;


namespace RazorTemplate
{
class Program
{
static void Main(string[] args)
{
// points to the local path
var fs = RazorProjectFileSystem.Create(".");


// customize the default engine a little bit
var engine = RazorProjectEngine.Create(RazorConfiguration.Default, fs, (builder) =>
{
// InheritsDirective.Register(builder); // in .NET core 3.1, compatibility has been broken (again), and this is not needed anymore...
builder.SetNamespace("MyNamespace"); // define a namespace for the Template class
});


// get a razor-templated file. My "hello.txt" template file is defined like this:
//
// @inherits RazorTemplate.MyTemplate
// Hello @Model.Name, welcome to Razor World!
//


var item = fs.GetItem("hello.txt", null);


// parse and generate C# code
var codeDocument = engine.Process(item);
var cs = codeDocument.GetCSharpDocument();


// outputs it on the console
//Console.WriteLine(cs.GeneratedCode);


// now, use roslyn, parse the C# code
var tree = CSharpSyntaxTree.ParseText(cs.GeneratedCode);


// define the dll
const string dllName = "hello";
var compilation = CSharpCompilation.Create(dllName, new[] { tree },
new[]
{
MetadataReference.CreateFromFile(typeof(object).Assembly.Location), // include corlib
MetadataReference.CreateFromFile(typeof(RazorCompiledItemAttribute).Assembly.Location), // include Microsoft.AspNetCore.Razor.Runtime
MetadataReference.CreateFromFile(Assembly.GetExecutingAssembly().Location), // this file (that contains the MyTemplate base class)


// for some reason on .NET core, I need to add this... this is not needed with .NET framework
MetadataReference.CreateFromFile(Path.Combine(Path.GetDirectoryName(typeof(object).Assembly.Location), "System.Runtime.dll")),


// as found out by @Isantipov, for some other reason on .NET Core for Mac and Linux, we need to add this... this is not needed with .NET framework
MetadataReference.CreateFromFile(Path.Combine(Path.GetDirectoryName(typeof(object).Assembly.Location), "netstandard.dll"))
},
new CSharpCompilationOptions(OutputKind.DynamicallyLinkedLibrary)); // we want a dll




// compile the dll
string path = Path.Combine(Path.GetFullPath("."), dllName + ".dll");
var result = compilation.Emit(path);
if (!result.Success)
{
Console.WriteLine(string.Join(Environment.NewLine, result.Diagnostics));
return;
}


// load the built dll
Console.WriteLine(path);
var asm = Assembly.LoadFile(path);


// the generated type is defined in our custom namespace, as we asked. "Template" is the type name that razor uses by default.
var template = (MyTemplate)Activator.CreateInstance(asm.GetType("MyNamespace.Template"));


// run the code.
// should display "Hello Killroy, welcome to Razor World!"
template.ExecuteAsync().Wait();
}
}


// the model class. this is 100% specific to your context
public class MyModel
{
// this will map to @Model.Name
public string Name => "Killroy";
}


// the sample base template class. It's not mandatory but I think it's much easier.
public abstract class MyTemplate
{
// this will map to @Model (property name)
public MyModel Model => new MyModel();


public void WriteLiteral(string literal)
{
// replace that by a text writer for example
Console.Write(literal);
}


public void Write(object obj)
{
// replace that by a text writer for example
Console.Write(obj);
}


public async virtual Task ExecuteAsync()
{
await Task.Yield(); // whatever, we just need something that compiles...
}
}
}

I spent several days fiddling with razor light, but it has a number of deficiencies such as not having html helpers (@Html.*) or url helpers, and other quirks.

Here is a solution that is encapsulated for usage outside of an mvc app. It does require package references to aspnet core and mvc, but those are easy to add to a service or console application. No controllers or web server are needed. RenderToStringAsync is the method to call to render a view to a string.

The advantage is that you can write your views the same way you would in a .net core web project. You can use the same @Html and other helper functions and methods.

You can replace or add to the physical file provider in the razor view options setup with your own custom provider to load views from database, web service call, etc. Tested with .net core 2.2 on Windows and Linux.

Please note that your .csproj file must have this as the top line:

<Project Sdk="Microsoft.NET.Sdk.Web">

using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Dynamic;
using System.IO;
using System.Linq;
using System.Threading.Tasks;


using Microsoft.AspNetCore.Hosting;
using Microsoft.AspNetCore.Hosting.Internal;
using Microsoft.AspNetCore.Mvc.Razor;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.FileProviders;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.ObjectPool;


namespace RazorRendererNamespace
{
/// <summary>
/// Renders razor pages with the absolute minimum setup of MVC, easy to use in console application, does not require any other classes or setup.
/// </summary>
public class RazorRenderer : ILoggerFactory, ILogger
{
private class ViewRenderService : IDisposable, ITempDataProvider, IServiceProvider
{
private static readonly System.Net.IPAddress localIPAddress = System.Net.IPAddress.Parse("127.0.0.1");


private readonly Dictionary<string, object> tempData = new Dictionary<string, object>(StringComparer.OrdinalIgnoreCase);
private readonly IRazorViewEngine _viewEngine;
private readonly ITempDataProvider _tempDataProvider;
private readonly IServiceProvider _serviceProvider;
private readonly IHttpContextAccessor _httpContextAccessor;


public ViewRenderService(IRazorViewEngine viewEngine,
IHttpContextAccessor httpContextAccessor,
ITempDataProvider tempDataProvider,
IServiceProvider serviceProvider)
{
_viewEngine = viewEngine;
_httpContextAccessor = httpContextAccessor;
_tempDataProvider = tempDataProvider ?? this;
_serviceProvider = serviceProvider ?? this;
}


public void Dispose()
{


}


public async Task<string> RenderToStringAsync<TModel>(string viewName, TModel model, ExpandoObject viewBag = null, bool isMainPage = false)
{
HttpContext httpContext;
if (_httpContextAccessor?.HttpContext != null)
{
httpContext = _httpContextAccessor.HttpContext;
}
else
{
DefaultHttpContext defaultContext = new DefaultHttpContext { RequestServices = _serviceProvider };
defaultContext.Connection.RemoteIpAddress = localIPAddress;
httpContext = defaultContext;
}
var actionContext = new ActionContext(httpContext, new RouteData(), new ActionDescriptor());
using (var sw = new StringWriter())
{
var viewResult = _viewEngine.FindView(actionContext, viewName, isMainPage);


if (viewResult.View == null)
{
viewResult = _viewEngine.GetView("~/", viewName, isMainPage);
}


if (viewResult.View == null)
{
return null;
}


var viewDictionary = new ViewDataDictionary(new EmptyModelMetadataProvider(), new ModelStateDictionary())
{
Model = model
};
if (viewBag != null)
{
foreach (KeyValuePair<string, object> kv in (viewBag as IDictionary<string, object>))
{
viewDictionary.Add(kv.Key, kv.Value);
}
}
var viewContext = new ViewContext(
actionContext,
viewResult.View,
viewDictionary,
new TempDataDictionary(actionContext.HttpContext, _tempDataProvider),
sw,
new HtmlHelperOptions()
);


await viewResult.View.RenderAsync(viewContext);
return sw.ToString();
}
}


object IServiceProvider.GetService(Type serviceType)
{
return null;
}


IDictionary<string, object> ITempDataProvider.LoadTempData(HttpContext context)
{
return tempData;
}


void ITempDataProvider.SaveTempData(HttpContext context, IDictionary<string, object> values)
{
}
}


private readonly string rootPath;
private readonly ServiceCollection services;
private readonly ServiceProvider serviceProvider;
private readonly ViewRenderService viewRenderer;


public RazorRenderer(string rootPath)
{
this.rootPath = rootPath;
services = new ServiceCollection();
ConfigureDefaultServices(services);
serviceProvider = services.BuildServiceProvider();
viewRenderer = new ViewRenderService(serviceProvider.GetRequiredService<IRazorViewEngine>(), null, null, serviceProvider);
}


private void ConfigureDefaultServices(IServiceCollection services)
{
var environment = new HostingEnvironment
{
WebRootFileProvider = new PhysicalFileProvider(rootPath),
ApplicationName = typeof(RazorRenderer).Assembly.GetName().Name,
ContentRootPath = rootPath,
WebRootPath = rootPath,
EnvironmentName = "DEVELOPMENT",
ContentRootFileProvider = new PhysicalFileProvider(rootPath)
};
services.AddSingleton<IHostingEnvironment>(environment);
services.Configure<RazorViewEngineOptions>(options =>
{
options.FileProviders.Clear();
options.FileProviders.Add(new PhysicalFileProvider(rootPath));
});
services.AddSingleton<ObjectPoolProvider, DefaultObjectPoolProvider>();
services.AddSingleton<ILoggerFactory>(this);
var diagnosticSource = new DiagnosticListener(environment.ApplicationName);
services.AddSingleton<DiagnosticSource>(diagnosticSource);
services.AddMvc();
}


public void Dispose()
{
}


public Task<string> RenderToStringAsync<TModel>(string viewName, TModel model, ExpandoObject viewBag = null, bool isMainPage = false)
{
return viewRenderer.RenderToStringAsync(viewName, model, viewBag, isMainPage);
}


void ILoggerFactory.AddProvider(ILoggerProvider provider)
{


}


IDisposable ILogger.BeginScope<TState>(TState state)
{
throw new NotImplementedException();
}


ILogger ILoggerFactory.CreateLogger(string categoryName)
{
return this;
}


bool ILogger.IsEnabled(Microsoft.Extensions.Logging.LogLevel logLevel)
{
return false;
}


void ILogger.Log<TState>(Microsoft.Extensions.Logging.LogLevel logLevel, EventId eventId, TState state, Exception exception, Func<TState, Exception, string> formatter)
{
}
}
}

For anyone in 2021+ here: I've started https://github.com/adoconnection/RazorEngineCore

It has latest ASP.NET Core 5 Razor and it's syntax features.

Usage is quite the same as RazorEngine:

RazorEngine razorEngine = new RazorEngine();
RazorEngineCompiledTemplate template = razorEngine.Compile("Hello @Model.Name");


string result = template.Run(new
{
Name = "Alex"
});


Console.WriteLine(result);

Fast saving and loading

// save to file
template.SaveToFile("myTemplate.dll");


//save to stream
MemoryStream memoryStream = new MemoryStream();
template.SaveToStream(memoryStream);

var template1 = RazorEngineCompiledTemplate.LoadFromFile("myTemplate.dll");
var template2 = RazorEngineCompiledTemplate.LoadFromStream(myStream);

If you are in 2022, there's an easy to use library called Razor.Templating.Core.

• It works out of the box for MVC, API, Console and many other types of applications.
• Supports .NET Core 3.1, .NET 5, .NET 6
• Supports most of Razor features like ViewModel, ViewBag, ViewData, TagHelpers, Partial Views, ViewComponents and more
• Supports Single File Publish, ReadyToRun

Usage is much simpler:

var htmlString = await RazorTemplateEngine.RenderAsync("/Views/ExampleView.cshtml", model, viewData);

Refer documentation here

P.S: I'm the author of this library.