swift-mirror/tools/SourceKit/lib/SwiftLang/SwiftConformingMethodList.cpp

//===--- SwiftConformingMethodList.cpp ------------------------------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2019 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//

#include "SwiftASTManager.h"
#include "SwiftEditorDiagConsumer.h"
#include "SwiftLangSupport.h"
#include "swift/Frontend/Frontend.h"
#include "swift/Frontend/PrintingDiagnosticConsumer.h"
#include "swift/IDE/ConformingMethodList.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/Comment.h"
#include "clang/AST/Decl.h"
#include "clang/AST/Type.h"

using namespace SourceKit;
using namespace swift;
using namespace ide;

static bool swiftConformingMethodListImpl(
    SwiftLangSupport &Lang, llvm::MemoryBuffer *UnresolvedInputFile,
    unsigned Offset, ArrayRef<const char *> Args,
    ArrayRef<const char *> ExpectedTypeNames,
    ide::ConformingMethodListConsumer &Consumer, std::string &Error) {
  auto bufferIdentifier =
      Lang.resolvePathSymlinks(UnresolvedInputFile->getBufferIdentifier());

  auto origOffset = Offset;
  auto newBuffer = SwiftLangSupport::makeCodeCompletionMemoryBuffer(
      UnresolvedInputFile, Offset, bufferIdentifier);

  CompilerInstance CI;
  PrintingDiagnosticConsumer PrintDiags;
  CI.addDiagnosticConsumer(&PrintDiags);

  EditorDiagConsumer TraceDiags;
  trace::TracedOperation TracedOp(trace::OperationKind::CodeCompletion);
  if (TracedOp.enabled()) {
    CI.addDiagnosticConsumer(&TraceDiags);
    trace::SwiftInvocation SwiftArgs;
    trace::initTraceInfo(SwiftArgs, bufferIdentifier, Args);
    TracedOp.setDiagnosticProvider(
        [&TraceDiags](SmallVectorImpl<DiagnosticEntryInfo> &diags) {
          TraceDiags.getAllDiagnostics(diags);
        });
    TracedOp.start(
        SwiftArgs,
        {std::make_pair("OriginalOffset", std::to_string(origOffset)),
         std::make_pair("Offset", std::to_string(Offset))});
  }

  CompilerInvocation Invocation;
  bool Failed = Lang.getASTManager()->initCompilerInvocation(
      Invocation, Args, CI.getDiags(), bufferIdentifier, Error);
  if (Failed)
    return false;
  if (!Invocation.getFrontendOptions().InputsAndOutputs.hasInputs()) {
    Error = "no input filenames specified";
    return false;
  }

  // Disable source location resolutions from .swiftsourceinfo file because
  // they are somewhat heavy operations and are not needed for completions.
  Invocation.getFrontendOptions().IgnoreSwiftSourceInfo = true;

  Invocation.setCodeCompletionPoint(newBuffer.get(), Offset);

  // Create a factory for code completion callbacks that will feed the
  // Consumer.
  std::unique_ptr<CodeCompletionCallbacksFactory> callbacksFactory(
      ide::makeConformingMethodListCallbacksFactory(ExpectedTypeNames,
                                                    Consumer));

  Invocation.setCodeCompletionFactory(callbacksFactory.get());

  if (CI.setup(Invocation)) {
    // FIXME: error?
    return true;
  }
  registerIDERequestFunctions(CI.getASTContext().evaluator);
  CI.performParseAndResolveImportsOnly();

  return true;
}

void SwiftLangSupport::getConformingMethodList(
    llvm::MemoryBuffer *UnresolvedInputFile, unsigned Offset,
    ArrayRef<const char *> Args, ArrayRef<const char *> ExpectedTypeNames,
    SourceKit::ConformingMethodListConsumer &SKConsumer) {

  class Consumer : public ide::ConformingMethodListConsumer {
    SourceKit::ConformingMethodListConsumer &SKConsumer;

  public:
    Consumer(SourceKit::ConformingMethodListConsumer &SKConsumer)
        : SKConsumer(SKConsumer) {}

    /// Convert an IDE result to a SK result and send it to \c SKConsumer .
    void handleResult(const ide::ConformingMethodListResult &Result) {
      SmallString<512> SS;
      llvm::raw_svector_ostream OS(SS);

      unsigned TypeNameBegin = SS.size();
      Result.ExprType.print(OS);
      unsigned TypeNameLength = SS.size() - TypeNameBegin;

      unsigned TypeUSRBegin = SS.size();
      SwiftLangSupport::printTypeUSR(Result.ExprType, OS);
      unsigned TypeUSRLength = SS.size() - TypeUSRBegin;

      struct MemberInfo {
        size_t DeclNameBegin = 0;
        size_t DeclNameLength = 0;
        size_t TypeNameBegin = 0;
        size_t TypeNameLength = 0;
        size_t TypeUSRBegin = 0;
        size_t TypeUSRLength = 0;
        size_t DescriptionBegin = 0;
        size_t DescriptionLength = 0;
        size_t SourceTextBegin = 0;
        size_t SourceTextLength = 0;
        StringRef BriefComment;

        MemberInfo() {}
      };
      SmallVector<MemberInfo, 8> Members;

      for (auto member : Result.Members) {
        Members.emplace_back();
        auto &memberElem = Members.back();

        auto funcTy = cast<FuncDecl>(member)->getMethodInterfaceType();
        funcTy = Result.ExprType->getTypeOfMember(Result.DC->getParentModule(),
                                                  member, funcTy);
        auto resultTy = funcTy->castTo<FunctionType>()->getResult();

        // Name.
        memberElem.DeclNameBegin = SS.size();
        member->getFullName().print(OS);
        memberElem.DeclNameLength = SS.size() - memberElem.DeclNameBegin;

        // Type name.
        memberElem.TypeNameBegin = SS.size();
        resultTy.print(OS);
        memberElem.TypeNameLength = SS.size() - memberElem.TypeNameBegin;

        // Type USR.
        memberElem.TypeUSRBegin = SS.size();
        SwiftLangSupport::printTypeUSR(resultTy, OS);
        memberElem.TypeUSRLength = SS.size() - memberElem.TypeUSRBegin;

        // Description.
        memberElem.DescriptionBegin = SS.size();
        SwiftLangSupport::printMemberDeclDescription(
            member, Result.ExprType, /*usePlaceholder=*/false, OS);
        memberElem.DescriptionLength =
            SS.size() - memberElem.DescriptionBegin;

        // Sourcetext.
        memberElem.SourceTextBegin = SS.size();
        SwiftLangSupport::printMemberDeclDescription(
            member, Result.ExprType, /*usePlaceholder=*/true, OS);
        memberElem.SourceTextLength =
            SS.size() - memberElem.SourceTextBegin;

        // DocBrief.
        auto MaybeClangNode = member->getClangNode();
        if (MaybeClangNode) {
          if (auto *D = MaybeClangNode.getAsDecl()) {
            const auto &ClangContext = D->getASTContext();
            if (const clang::RawComment *RC =
                    ClangContext.getRawCommentForAnyRedecl(D))
              memberElem.BriefComment = RC->getBriefText(ClangContext);
          }
        } else {
          memberElem.BriefComment = member->getBriefComment();
        }
      }

      SourceKit::ConformingMethodListResult SKResult;
      SmallVector<SourceKit::ConformingMethodListResult::Member, 8>
          SKMembers;

      for (auto info : Members) {
        StringRef Name(SS.begin() + info.DeclNameBegin, info.DeclNameLength);
        StringRef TypeName(SS.begin() + info.TypeNameBegin,
                           info.TypeNameLength);
        StringRef TypeUSR(SS.begin() + info.TypeUSRBegin, info.TypeUSRLength);
        StringRef Description(SS.begin() + info.DescriptionBegin,
                              info.DescriptionLength);
        StringRef SourceText(SS.begin() + info.SourceTextBegin,
                             info.SourceTextLength);
        SKMembers.push_back({Name, TypeName, TypeUSR, Description, SourceText,
                               info.BriefComment});
      }

      SKResult.TypeName = StringRef(SS.begin() + TypeNameBegin, TypeNameLength);
      SKResult.TypeUSR = StringRef(SS.begin() + TypeUSRBegin, TypeUSRLength);
      SKResult.Members = SKMembers;

      SKConsumer.handleResult(SKResult);
    }
  } Consumer(SKConsumer);

  std::string Error;
  if (!swiftConformingMethodListImpl(*this, UnresolvedInputFile, Offset, Args,
                                     ExpectedTypeNames, Consumer, Error)) {
    SKConsumer.failed(Error);
  }
}