protected override void ExecuteCore(RazorCodeDocument codeDocument)
{
var syntaxTree = codeDocument.GetSyntaxTree();
ThrowForMissingDocumentDependency(syntaxTree);
var descriptors = codeDocument.GetTagHelpers();
if (descriptors == null)
{
var feature = Engine.Features.OfType <ITagHelperFeature>().FirstOrDefault();
if (feature == null)
{
// No feature, nothing to do.
return;
}
descriptors = feature.GetDescriptors();
}
// We need to find directives in all of the *imports* as well as in the main razor file
//
// The imports come logically before the main razor file and are in the order they
// should be processed.
var visitor = new DirectiveVisitor(descriptors);
var imports = codeDocument.GetImportSyntaxTrees();
if (imports != null)
{
for (var i = 0; i < imports.Count; i++)
{
var import = imports[i];
visitor.Visit(import.Root);
}
}
visitor.Visit(syntaxTree.Root);
var tagHelperPrefix = visitor.TagHelperPrefix;
descriptors = visitor.Matches.ToArray();
var context = TagHelperDocumentContext.Create(tagHelperPrefix, descriptors);
codeDocument.SetTagHelperContext(context);
if (descriptors.Count == 0)
{
// No descriptors, no-op.
return;
}
var rewrittenSyntaxTree = TagHelperParseTreeRewriter.Rewrite(syntaxTree, tagHelperPrefix, descriptors);
codeDocument.SetSyntaxTree(rewrittenSyntaxTree);
}
protected override void ExecuteCore(RazorCodeDocument codeDocument)
{
var syntaxTree = codeDocument.GetSyntaxTree();
ThrowForMissingDocumentDependency(syntaxTree);
var descriptors = codeDocument.GetTagHelpers();
if (descriptors == null)
{
var feature = Engine.Features.OfType <ITagHelperFeature>().FirstOrDefault();
if (feature == null)
{
// No feature, nothing to do.
return;
}
descriptors = feature.GetDescriptors();
}
// We need to find directives in all of the *imports* as well as in the main razor file
//
// The imports come logically before the main razor file and are in the order they
// should be processed.
DirectiveVisitor visitor = null;
var parserOptions = codeDocument.GetParserOptions();
if (FileKinds.IsComponent(codeDocument.GetFileKind()) &&
(parserOptions == null || parserOptions.FeatureFlags.AllowComponentFileKind))
{
codeDocument.TryComputeNamespace(fallbackToRootNamespace: true, out var currentNamespace);
visitor = new ComponentDirectiveVisitor(codeDocument.Source.FilePath, descriptors, currentNamespace);
}
else
{
visitor = new TagHelperDirectiveVisitor(descriptors);
}
var imports = codeDocument.GetImportSyntaxTrees();
if (imports != null)
{
for (var i = 0; i < imports.Count; i++)
{
var import = imports[i];
visitor.Visit(import);
}
}
visitor.Visit(syntaxTree);
// This will always be null for a component document.
var tagHelperPrefix = visitor.TagHelperPrefix;
descriptors = visitor.Matches.ToArray();
var context = TagHelperDocumentContext.Create(tagHelperPrefix, descriptors);
codeDocument.SetTagHelperContext(context);
if (descriptors.Count == 0)
{
// No descriptors, no-op.
return;
}
var rewrittenSyntaxTree = TagHelperParseTreeRewriter.Rewrite(syntaxTree, tagHelperPrefix, descriptors);
codeDocument.SetSyntaxTree(rewrittenSyntaxTree);
}
protected override void ExecuteCore(RazorCodeDocument codeDocument)
{
var syntaxTree = codeDocument.GetSyntaxTree();
ThrowForMissingDocumentDependency(syntaxTree);
var feature = Engine.Features.OfType <ITagHelperFeature>().FirstOrDefault();
if (feature == null)
{
// No feature, nothing to do.
return;
}
// We need to find directives in all of the *imports* as well as in the main razor file
//
// The imports come logically before the main razor file and are in the order they
// should be processed.
var descriptors = feature.GetDescriptors();
var visitor = new DirectiveVisitor(descriptors);
var imports = codeDocument.GetImportSyntaxTrees();
if (imports != null)
{
for (var i = 0; i < imports.Count; i++)
{
var import = imports[i];
visitor.VisitBlock(import.Root);
}
}
visitor.VisitBlock(syntaxTree.Root);
var tagHelperPrefix = visitor.TagHelperPrefix;
descriptors = visitor.Matches.ToArray();
var context = TagHelperDocumentContext.Create(tagHelperPrefix, descriptors);
codeDocument.SetTagHelperContext(context);
if (descriptors.Count == 0)
{
// No descriptors, no-op.
return;
}
var errorSink = new ErrorSink();
var rewriter = new TagHelperParseTreeRewriter(tagHelperPrefix, descriptors, syntaxTree.Options.FeatureFlags);
var root = syntaxTree.Root;
root = rewriter.Rewrite(root, errorSink);
// Temporary code while we're still using legacy diagnostics in the SyntaxTree.
var errorList = new List <RazorDiagnostic>();
errorList.AddRange(errorSink.Errors.Select(error => RazorDiagnostic.Create(error)));
errorList.AddRange(descriptors.SelectMany(d => d.GetAllDiagnostics()));
var diagnostics = CombineErrors(syntaxTree.Diagnostics, errorList);
var newSyntaxTree = RazorSyntaxTree.Create(root, syntaxTree.Source, diagnostics, syntaxTree.Options);
codeDocument.SetSyntaxTree(newSyntaxTree);
}
protected override void ExecuteCore(RazorCodeDocument codeDocument)
{
var syntaxTree = codeDocument.GetSyntaxTree();
ThrowForMissingDocumentDependency(syntaxTree);
// This might not have been set if there are no tag helpers.
var tagHelperContext = codeDocument.GetTagHelperContext();
var document = new DocumentIntermediateNode();
var builder = IntermediateNodeBuilder.Create(document);
document.Options = _optionsFeature.GetOptions();
var namespaces = new Dictionary <string, SourceSpan?>(StringComparer.Ordinal);
// The import documents should be inserted logically before the main document.
var imports = codeDocument.GetImportSyntaxTrees();
if (imports != null)
{
var importsVisitor = new ImportsVisitor(document, builder, namespaces);
for (var j = 0; j < imports.Count; j++)
{
var import = imports[j];
importsVisitor.FilePath = import.Source.FilePath;
importsVisitor.VisitBlock(import.Root);
}
}
var tagHelperPrefix = tagHelperContext?.Prefix;
var visitor = new MainSourceVisitor(document, builder, namespaces, tagHelperPrefix)
{
FilePath = syntaxTree.Source.FilePath,
};
visitor.VisitBlock(syntaxTree.Root);
// In each lowering piece above, namespaces were tracked. We render them here to ensure every
// lowering action has a chance to add a source location to a namespace. Ultimately, closest wins.
var i = 0;
foreach (var @namespace in namespaces)
{
var @using = new UsingDirectiveIntermediateNode()
{
Content = @namespace.Key,
Source = @namespace.Value,
};
builder.Insert(i++, @using);
}
ImportDirectives(document);
// The document should contain all errors that currently exist in the system. This involves
// adding the errors from the primary and imported syntax trees.
for (i = 0; i < syntaxTree.Diagnostics.Count; i++)
{
document.Diagnostics.Add(syntaxTree.Diagnostics[i]);
}
if (imports != null)
{
for (i = 0; i < imports.Count; i++)
{
var import = imports[i];
for (var j = 0; j < import.Diagnostics.Count; j++)
{
document.Diagnostics.Add(import.Diagnostics[j]);
}
}
}
codeDocument.SetDocumentIntermediateNode(document);
}
protected override void ExecuteCore(RazorCodeDocument codeDocument)
{
var syntaxTree = codeDocument.GetSyntaxTree();
ThrowForMissingDocumentDependency(syntaxTree);
// This might not have been set if there are no tag helpers.
var tagHelperContext = codeDocument.GetTagHelperContext();
var document = new DocumentIntermediateNode();
var builder = IntermediateNodeBuilder.Create(document);
document.Options = codeDocument.GetCodeGenerationOptions() ?? _optionsFeature.GetOptions();
IReadOnlyList <UsingReference> importedUsings = Array.Empty <UsingReference>();
// The import documents should be inserted logically before the main document.
var imports = codeDocument.GetImportSyntaxTrees();
if (imports != null)
{
var importsVisitor = new ImportsVisitor(document, builder, syntaxTree.Options.FeatureFlags);
for (var j = 0; j < imports.Count; j++)
{
var import = imports[j];
importsVisitor.FilePath = import.Source.FilePath;
importsVisitor.VisitBlock(import.Root);
}
importedUsings = importsVisitor.Usings;
}
var tagHelperPrefix = tagHelperContext?.Prefix;
var visitor = new MainSourceVisitor(document, builder, tagHelperPrefix, syntaxTree.Options.FeatureFlags)
{
FilePath = syntaxTree.Source.FilePath,
};
visitor.VisitBlock(syntaxTree.Root);
// 1. Prioritize non-imported usings over imported ones.
// 2. Don't import usings that already exist in primary document.
// 3. Allow duplicate usings in primary document (C# warning).
var usingReferences = new List <UsingReference>(visitor.Usings);
for (var j = importedUsings.Count - 1; j >= 0; j--)
{
if (!usingReferences.Contains(importedUsings[j]))
{
usingReferences.Insert(0, importedUsings[j]);
}
}
// In each lowering piece above, namespaces were tracked. We render them here to ensure every
// lowering action has a chance to add a source location to a namespace. Ultimately, closest wins.
var i = 0;
foreach (var reference in usingReferences)
{
var @using = new UsingDirectiveIntermediateNode()
{
Content = reference.Namespace,
Source = reference.Source,
};
builder.Insert(i++, @using);
}
ImportDirectives(document);
// The document should contain all errors that currently exist in the system. This involves
// adding the errors from the primary and imported syntax trees.
for (i = 0; i < syntaxTree.Diagnostics.Count; i++)
{
document.Diagnostics.Add(syntaxTree.Diagnostics[i]);
}
if (imports != null)
{
for (i = 0; i < imports.Count; i++)
{
var import = imports[i];
for (var j = 0; j < import.Diagnostics.Count; j++)
{
document.Diagnostics.Add(import.Diagnostics[j]);
}
}
}
codeDocument.SetDocumentIntermediateNode(document);
}
// In general documents will have a relative path (relative to the project root).
// We can only really compute a nice namespace when we know a relative path.
//
// However all kinds of thing are possible in tools. We shouldn't barf here if the document isn't
// set up correctly.
public static bool TryComputeNamespace(this RazorCodeDocument document, bool fallbackToRootNamespace, out string @namespace)
{
if (document == null)
{
throw new ArgumentNullException(nameof(document));
}
var filePath = document.Source.FilePath;
if (filePath == null || document.Source.RelativePath == null || filePath.Length < document.Source.RelativePath.Length)
{
@namespace = null;
return(false);
}
// If the document or it's imports contains a @namespace directive, we want to use that over the root namespace.
var baseNamespace = string.Empty;
var appendSuffix = true;
var lastNamespaceContent = string.Empty;
var lastNamespaceLocation = SourceSpan.Undefined;
var importSyntaxTrees = document.GetImportSyntaxTrees();
if (importSyntaxTrees != null)
{
// ImportSyntaxTrees is usually set. Just being defensive.
foreach (var importSyntaxTree in importSyntaxTrees)
{
if (importSyntaxTree != null && NamespaceVisitor.TryGetLastNamespaceDirective(importSyntaxTree, out var importNamespaceContent, out var importNamespaceLocation))
{
lastNamespaceContent = importNamespaceContent;
lastNamespaceLocation = importNamespaceLocation;
}
}
}
var syntaxTree = document.GetSyntaxTree();
if (syntaxTree != null && NamespaceVisitor.TryGetLastNamespaceDirective(syntaxTree, out var namespaceContent, out var namespaceLocation))
{
lastNamespaceContent = namespaceContent;
lastNamespaceLocation = namespaceLocation;
}
StringSegment relativePath = document.Source.RelativePath;
// If there are multiple @namespace directives in the heirarchy,
// we want to pick the closest one to the current document.
if (!string.IsNullOrEmpty(lastNamespaceContent))
{
baseNamespace = lastNamespaceContent;
var directiveLocationDirectory = NormalizeDirectory(lastNamespaceLocation.FilePath);
var sourceFilePath = new StringSegment(document.Source.FilePath);
// We're specifically using OrdinalIgnoreCase here because Razor treats all paths as case-insensitive.
if (!sourceFilePath.StartsWith(directiveLocationDirectory, StringComparison.OrdinalIgnoreCase) ||
sourceFilePath.Length <= directiveLocationDirectory.Length)
{
// The most relevant directive is not from the directory hierarchy, can't compute a suffix.
appendSuffix = false;
}
else
{
// We know that the document containing the namespace directive is in the current document's heirarchy.
// Let's compute the actual relative path that we'll use to compute the namespace suffix.
relativePath = sourceFilePath.Subsegment(directiveLocationDirectory.Length);
}
}
else if (fallbackToRootNamespace)
{
var options = document.GetCodeGenerationOptions() ?? document.GetDocumentIntermediateNode()?.Options;
baseNamespace = options?.RootNamespace;
appendSuffix = true;
}
if (string.IsNullOrEmpty(baseNamespace))
{
// There was no valid @namespace directive and we couldn't compute the RootNamespace.
@namespace = null;
return(false);
}
var builder = new StringBuilder();
// Sanitize the base namespace, but leave the dots.
var segments = new StringTokenizer(baseNamespace, NamespaceSeparators);
var first = true;
foreach (var token in segments)
{
if (token.IsEmpty)
{
continue;
}
if (first)
{
first = false;
}
else
{
builder.Append('.');
}
CSharpIdentifier.AppendSanitized(builder, token);
}
if (appendSuffix)
{
// If we get here, we already have a base namespace and the relative path that should be used as the namespace suffix.
segments = new StringTokenizer(relativePath, PathSeparators);
var previousLength = builder.Length;
foreach (var token in segments)
{
if (token.IsEmpty)
{
continue;
}
previousLength = builder.Length;
builder.Append('.');
CSharpIdentifier.AppendSanitized(builder, token);
}
// Trim the last segment because it's the FileName.
builder.Length = previousLength;
}
@namespace = builder.ToString();
return(true);
// We want to normalize the path of the file containing the '@namespace' directive to just the containing
// directory with a trailing separator.
//
// Not using Path.GetDirectoryName here because it doesn't meet these requirements, and we want to handle
// both 'view engine' style paths and absolute paths.
//
// We also don't normalize the separators here. We expect that all documents are using a consistent style of path.
//
// If we can't normalize the path, we just return null so it will be ignored.
StringSegment NormalizeDirectory(string path)
{
if (string.IsNullOrEmpty(path))
{
return(default);
