2016-11-26 13:51:50 +03:00
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Note: There is currently no maintainer for NRefactory.
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If you need a C# parser / compiler frontend, use Microsoft.CodeAnalysis (Roslyn)
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instead.
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The refactorings in NRefactory have been ported to Roslyn:
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https://github.com/icsharpcode/RefactoringEssentials/
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------------------------------------------------------------------------------
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Overview of the NRefactory library:
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2010-10-20 19:58:20 +04:00
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2012-08-11 18:37:42 +04:00
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Introductory documentation:
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http://www.codeproject.com/Articles/408663/Using-NRefactory-for-analyzing-Csharp-code
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2011-06-05 21:25:24 +04:00
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2012-03-12 00:03:06 +04:00
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How to download:
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- Binaries are provided as a NuGet package (http://nuget.org/packages/ICSharpCode.NRefactory)
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- Sourcecode is available on GitHub (https://github.com/icsharpcode/NRefactory)
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2010-10-20 19:58:20 +04:00
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2011-10-29 04:21:46 +04:00
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How to compile:
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2016-11-22 21:01:25 +03:00
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1. Get Mono.Cecil 0.9.6
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2013-01-07 17:20:43 +04:00
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Get Cecil from https://github.com/jbevain/cecil ('git clone git://github.com/jbevain/cecil.git')
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or download Cecil from https://github.com/jbevain/cecil/ and unzip it into a directory named "cecil"
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2011-10-29 04:21:46 +04:00
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next to the directory containing NRefactory.
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2013-06-18 17:20:28 +04:00
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2. If you need the IKVM binding get it from https://github.com/mono/ikvm-fork and put it next to the NRefactory directory
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2013-07-02 09:44:48 +04:00
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like Mono.Cecil - name it "ikvm".
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2013-06-18 17:20:28 +04:00
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3. Open NRefactory.sln in your favorite .NET IDE and compile.
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2011-06-05 21:25:24 +04:00
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2012-08-11 18:37:42 +04:00
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Features:
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- C# Parser
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- Abstract Syntax Tree with pattern-matching support
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2015-04-22 23:13:42 +03:00
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- Semantic Analysis for C# (supports C# 5.0)
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2012-08-11 18:37:42 +04:00
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- Code Completion for C#
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- Pretty Printer for C#
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- Lots of C# refactorings
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Non-Features:
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2016-11-26 13:51:50 +03:00
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- C# 6 is not supported.
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- VB support is not implemented.
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2013-01-05 06:18:47 +04:00
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- NRefactory cannot generate IL code -- it's a compiler frontend, not a full compiler
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2011-06-05 21:25:24 +04:00
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2012-03-12 00:03:06 +04:00
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Dependencies:
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.NET 4.0
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2016-11-26 13:51:50 +03:00
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Mono.Cecil 0.9.6
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2012-03-12 00:03:06 +04:00
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NRefactory contains a modified copy of mcs (Mono's C# compiler) for the C# parser.
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2011-10-29 04:21:46 +04:00
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Namespace overview:
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2011-06-05 21:25:24 +04:00
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2011-10-29 04:21:46 +04:00
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ICSharpCode.NRefactory assembly
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ICSharpCode.NRefactory.Editor:
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Interfaces that abstract from the text editor control used.
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Maybe future AvalonEdit versions will directly implement these interfaces, but you could also write adapters for other editors.
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ICSharpCode.NRefactory.TypeSystem:
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Contains a language-independent representation of the .NET type system.
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The type system is divided into two portions: unresolved and resolved type systems.
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ICSharpCode.NRefactory.TypeSystem.Implementation:
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Contains default implementations for the type system interfaces.
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ICSharpCode.NRefactory.Semantics:
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2012-03-12 00:03:06 +04:00
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Contains classes (ResolveResults) used to represent the semantics of a language element.
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ResolveResults can have child results, thus forming semantic trees.
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2011-10-29 04:21:46 +04:00
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ICSharpCode.NRefactory.Documentation:
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Classes for working with .xml documentation files.
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2012-02-19 03:53:20 +04:00
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See "doc/XML Documentation.html" for details.
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2011-10-29 04:21:46 +04:00
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ICSharpCode.NRefactory.PatternMatching:
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Provides classes for pattern matching over the C# and VB ASTs.
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2012-02-19 03:53:20 +04:00
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See "doc/Pattern Matching.html" for details.
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2011-10-29 04:21:46 +04:00
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ICSharpCode.NRefactory.Util:
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Various helper classes.
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2011-06-05 21:25:24 +04:00
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2011-03-01 02:51:59 +03:00
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2011-10-29 04:21:46 +04:00
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ICSharpCode.NRefactory.CSharp assembly
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ICSharpCode.NRefactory.CSharp:
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Abstract Syntax Tree for C#
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ICSharpCode.NRefactory.CSharp.Completion:
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Code completion (IntelliSense) for C#
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ICSharpCode.NRefactory.CSharp.Resolver:
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Semantic analysis for C# (resolving the meaning of expressions)
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ICSharpCode.NRefactory.CSharp.Analysis:
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Semantic analysis for C# (additional analysis functionality)
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2012-03-12 00:03:06 +04:00
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2011-10-29 04:21:46 +04:00
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ICSharpCode.NRefactory.CSharp.TypeSystem:
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Contains type system implementations specific to C#.
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2012-03-12 00:03:06 +04:00
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ICSharpCode.NRefactory.CSharp.Refactoring:
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Infrastructure for refactorings; and several built-in refactorings.
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2011-10-29 04:21:46 +04:00
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ICSharpCode.NRefactory.VB assembly
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ICSharpCode.NRefactory.VB:
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Abstract Syntax Tree for VB
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2010-10-20 19:58:20 +04:00
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2012-03-12 00:03:06 +04:00
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ICSharpCode.NRefactory.Xml assembly
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ICSharpCode.NRefactory.Xml:
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Error-tolerant XML parser. Supports incremental parsing.
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When tags don't match correctly, the parser uses a heuristic to guess the parse tree.
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The heuristic tries to minimize the edit distance from the erroneous document to
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the fixed document, and it also considers the indentation.
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2011-03-01 02:51:59 +03:00
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2010-10-20 19:58:20 +04:00
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Null-Object pattern:
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The NRefactory library makes extensive use of the null object pattern.
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As a result, NullReferenceExceptions should be very rare when working with this library.
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2011-10-29 04:21:46 +04:00
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In the type system, both ITypeReference and IType use SpecialType.UnknownType to represent
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2010-10-20 19:58:20 +04:00
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unknown types.
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2011-10-29 04:21:46 +04:00
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Unless the XML documentation says otherwise, no method or property returning a ITypeReference
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or IType will return null.
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2010-10-20 19:58:20 +04:00
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Note that the null object pattern is not used for ITypeDefinition:
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IProjectContent.GetClass() returns null when a type is not found. Take care to abort your
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operation or substitute UnknownType instead of passing the null to code expecting an IType.
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The pattern also extends to the C# resolver, which always produces a ResolveResult, even in
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error cases. Use ResolveResult.IsError to detect resolver errors.
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Also note that many resolver errors still have a meaningful type attached, this allows code
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completion to work in the presence of minor semantic errors.
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2011-03-01 02:51:59 +03:00
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The C# AST makes use of special null nodes when accessing the getter of an AST property and no
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child node with that role exists. Check the IsNull property to test whether a node is a null node.
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Null nodes are not considered to be part of the AST (e.g. they don't have a parent).
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2010-10-20 19:58:20 +04:00
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FAQ:
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2012-06-23 16:55:02 +04:00
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Q: What is the difference between NRefactory and Roslyn?
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- NRefactory is ready and stable, Roslyn is only a CTP at this point of time.
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- NRefactory does not have VB support.
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- NRefactory cannot compile code to IL; it's not a full compiler, just a frontend.
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- NRefactory C# AST is mutable and supports pattern matching; Roslyn is immutable and does not have built-in pattern matching.
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2010-10-20 19:58:20 +04:00
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Q: What is the difference between types and type definitions?
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A: Basically, a type (IType) is any type in the .NET type system:
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- an array (ArrayType)
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- a pointer (PointerType)
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- a managed reference (ByReferenceType)
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- a parameterized type (ParameterizedType, e.g. List<int>)
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- a type parameter (ITypeParameter, e.g. T)
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- or a type definition (ITypeDefiniton)
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Type definitions are only classes, structs, enums and delegates.
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Every type definition is a type, but not every type is a type definition.
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NRefactory's ITypeDefinition derives from IType, so you can directly use any type definition
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as a type.
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In the other direction, you could try to cast a type to ITypeDefinition, or you can call the
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GetDefinition() method. The GetDefinition() method will also return the underlying
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ITypeDefinition if given a parameterized type, so "List<int>".GetDefinition() is "List<T>".
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Q: What is the difference between types and type references?
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I've seen lots of duplicated classes (ArrayType vs. ArrayTypeReference, etc.)
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A: If you've previously used the .NET Reflection API, the concept of type references will be new
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to you.
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2011-10-29 04:21:46 +04:00
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NRefactory has the concept of the "unresolved type system": every assembly/project is stored
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in unresolved form.
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2010-10-20 19:58:20 +04:00
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It is possible to load some source code into a project which contains the type reference
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"int[]" without having to load mscorlib into NRefactory.
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So inside the entities stored for the project, the array type is only referenced using an
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ITypeReference.
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This interface has a single method:
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interface ITypeReference {
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IType Resolve(ITypeResolutionContext context);
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}
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By calling the Resolve()-method, you will get back the actual ArrayType.
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2011-10-29 04:21:46 +04:00
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Not only type references are split up this way; pretty much every class in the type system
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comes in unresolved and resolved forms.
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Q: What is a compilation (ICompilation)?
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A: A compilation serves as the root object of the resolved type system.
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It consists of a main assembly and multiple referenced assemblies,
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and may also contain additional information like compiler options.
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2010-10-20 19:58:20 +04:00
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Q: What's in an ITypeResolveContext?
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A: An ITypeResolveContext is an environment for looking up namespaces and types.
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2011-10-29 04:21:46 +04:00
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It consists of the current compilation, the current type definition,
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and language-specific implementations may add additional information (e.g. the list of usings).
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2010-10-20 19:58:20 +04:00
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2011-10-29 04:21:46 +04:00
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Generally, you cannot resolve a type reference without knowing what kind of context is expected.
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2010-10-20 19:58:20 +04:00
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Q: How do I get the IType or ITypeReference for a primitive type such as string or int?
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2011-10-29 04:21:46 +04:00
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A: To get an IType for a primitive type, use:
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compilation.FindType(KnownTypeCode.Int32)
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2010-10-20 19:58:20 +04:00
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2011-10-29 04:21:46 +04:00
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To get an ITypeReference, use:
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KnownTypeReference.Int32
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2010-10-20 19:58:20 +04:00
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2011-10-29 04:21:46 +04:00
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It is also possible to use a System.Type for retrieving a type:
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compilation.FindType(typeof(int))
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or
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typeof(int).ToTypeReference().
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2010-10-20 19:58:20 +04:00
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Q: Is it thread-safe?
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A: This question is a bit difficult to answer.
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NRefactory was designed to be usable in a multi-threaded IDE.
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But of course, this does not mean that everything is thread-safe.
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First off, there's no hidden static state, so any two operations working on independent data
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can be executed concurrently.
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[Actually, sometimes static state is used for caches, but those uses are thread-safe.]
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TODO: what about the C# parser? gmcs is full of static state...
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2011-10-29 04:21:46 +04:00
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-> this is being worked on; for the time being, NRefactory uses a global lock during parsing;
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so it's thread-safe but slow.
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2010-10-20 19:58:20 +04:00
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2013-01-05 06:18:47 +04:00
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Some instance methods may use hidden instance state, so it is not safe to e.g. use an instance
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2012-03-12 00:03:06 +04:00
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of the CSharp.Resolver.TypeInference class concurrently.
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2010-10-20 19:58:20 +04:00
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Instead, you need to create an instance on every thread.
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2011-10-29 04:21:46 +04:00
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The type system itself is thread-safe. Both the unresolved and the resolved type systems are
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immutable.
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When you add to an IProjectContent, the existing project content isn't modified,
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but a new project content is created instead. All implementations of the type system interfaces
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are either immutable or freezable.
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And on the resolved type system side, ICompilation is immutable as well.
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Internally, the resolved type system will resolve elements only on demand, but this is done
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in a thread-safe manner.
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2010-10-20 19:58:20 +04:00
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Q: What format do the .ToString() methods use?
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A: They don't use any particular format. They're merely intended as a debugging aid.
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Currently .ToString() usually matches .ReflectionName, but that may change in the future.
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