Representation.cpp
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///===-- Representation.cpp - ClangDoc Representation -----------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file defines the merging of different types of infos. The data in the
// calling Info is preserved during a merge unless that field is empty or
// default. In that case, the data from the parameter Info is used to replace
// the empty or default data.
//
// For most fields, the first decl seen provides the data. Exceptions to this
// include the location and description fields, which are collections of data on
// all decls related to a given definition. All other fields are ignored in new
// decls unless the first seen decl didn't, for whatever reason, incorporate
// data on that field (e.g. a forward declared class wouldn't have information
// on members on the forward declaration, but would have the class name).
//
//===----------------------------------------------------------------------===//
#include "Representation.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/Path.h"
namespace clang {
namespace doc {
namespace {
const SymbolID EmptySID = SymbolID();
template <typename T>
llvm::Expected<std::unique_ptr<Info>>
reduce(std::vector<std::unique_ptr<Info>> &Values) {
if (Values.empty())
return llvm::createStringError(llvm::inconvertibleErrorCode(),
"no value to reduce");
std::unique_ptr<Info> Merged = std::make_unique<T>(Values[0]->USR);
T *Tmp = static_cast<T *>(Merged.get());
for (auto &I : Values)
Tmp->merge(std::move(*static_cast<T *>(I.get())));
return std::move(Merged);
}
// Return the index of the matching child in the vector, or -1 if merge is not
// necessary.
template <typename T>
int getChildIndexIfExists(std::vector<T> &Children, T &ChildToMerge) {
for (unsigned long I = 0; I < Children.size(); I++) {
if (ChildToMerge.USR == Children[I].USR)
return I;
}
return -1;
}
void reduceChildren(std::vector<Reference> &Children,
std::vector<Reference> &&ChildrenToMerge) {
for (auto &ChildToMerge : ChildrenToMerge) {
int mergeIdx = getChildIndexIfExists(Children, ChildToMerge);
if (mergeIdx == -1) {
Children.push_back(std::move(ChildToMerge));
continue;
}
Children[mergeIdx].merge(std::move(ChildToMerge));
}
}
void reduceChildren(std::vector<FunctionInfo> &Children,
std::vector<FunctionInfo> &&ChildrenToMerge) {
for (auto &ChildToMerge : ChildrenToMerge) {
int mergeIdx = getChildIndexIfExists(Children, ChildToMerge);
if (mergeIdx == -1) {
Children.push_back(std::move(ChildToMerge));
continue;
}
Children[mergeIdx].merge(std::move(ChildToMerge));
}
}
void reduceChildren(std::vector<EnumInfo> &Children,
std::vector<EnumInfo> &&ChildrenToMerge) {
for (auto &ChildToMerge : ChildrenToMerge) {
int mergeIdx = getChildIndexIfExists(Children, ChildToMerge);
if (mergeIdx == -1) {
Children.push_back(std::move(ChildToMerge));
continue;
}
Children[mergeIdx].merge(std::move(ChildToMerge));
}
}
} // namespace
// Dispatch function.
llvm::Expected<std::unique_ptr<Info>>
mergeInfos(std::vector<std::unique_ptr<Info>> &Values) {
if (Values.empty())
return llvm::createStringError(llvm::inconvertibleErrorCode(),
"no info values to merge");
switch (Values[0]->IT) {
case InfoType::IT_namespace:
return reduce<NamespaceInfo>(Values);
case InfoType::IT_record:
return reduce<RecordInfo>(Values);
case InfoType::IT_enum:
return reduce<EnumInfo>(Values);
case InfoType::IT_function:
return reduce<FunctionInfo>(Values);
default:
return llvm::createStringError(llvm::inconvertibleErrorCode(),
"unexpected info type");
}
}
bool Reference::mergeable(const Reference &Other) {
return RefType == Other.RefType && USR == Other.USR;
}
void Reference::merge(Reference &&Other) {
assert(mergeable(Other));
if (Name.empty())
Name = Other.Name;
if (Path.empty())
Path = Other.Path;
if (!IsInGlobalNamespace)
IsInGlobalNamespace = Other.IsInGlobalNamespace;
}
void Info::mergeBase(Info &&Other) {
assert(mergeable(Other));
if (USR == EmptySID)
USR = Other.USR;
if (Name == "")
Name = Other.Name;
if (Path == "")
Path = Other.Path;
if (Namespace.empty())
Namespace = std::move(Other.Namespace);
// Unconditionally extend the description, since each decl may have a comment.
std::move(Other.Description.begin(), Other.Description.end(),
std::back_inserter(Description));
std::sort(Description.begin(), Description.end());
auto Last = std::unique(Description.begin(), Description.end());
Description.erase(Last, Description.end());
}
bool Info::mergeable(const Info &Other) {
return IT == Other.IT && USR == Other.USR;
}
void SymbolInfo::merge(SymbolInfo &&Other) {
assert(mergeable(Other));
if (!DefLoc)
DefLoc = std::move(Other.DefLoc);
// Unconditionally extend the list of locations, since we want all of them.
std::move(Other.Loc.begin(), Other.Loc.end(), std::back_inserter(Loc));
std::sort(Loc.begin(), Loc.end());
auto Last = std::unique(Loc.begin(), Loc.end());
Loc.erase(Last, Loc.end());
mergeBase(std::move(Other));
}
void NamespaceInfo::merge(NamespaceInfo &&Other) {
assert(mergeable(Other));
// Reduce children if necessary.
reduceChildren(ChildNamespaces, std::move(Other.ChildNamespaces));
reduceChildren(ChildRecords, std::move(Other.ChildRecords));
reduceChildren(ChildFunctions, std::move(Other.ChildFunctions));
reduceChildren(ChildEnums, std::move(Other.ChildEnums));
mergeBase(std::move(Other));
}
void RecordInfo::merge(RecordInfo &&Other) {
assert(mergeable(Other));
if (!TagType)
TagType = Other.TagType;
if (Members.empty())
Members = std::move(Other.Members);
if (Bases.empty())
Bases = std::move(Other.Bases);
if (Parents.empty())
Parents = std::move(Other.Parents);
if (VirtualParents.empty())
VirtualParents = std::move(Other.VirtualParents);
// Reduce children if necessary.
reduceChildren(ChildRecords, std::move(Other.ChildRecords));
reduceChildren(ChildFunctions, std::move(Other.ChildFunctions));
reduceChildren(ChildEnums, std::move(Other.ChildEnums));
SymbolInfo::merge(std::move(Other));
}
void EnumInfo::merge(EnumInfo &&Other) {
assert(mergeable(Other));
if (!Scoped)
Scoped = Other.Scoped;
if (Members.empty())
Members = std::move(Other.Members);
SymbolInfo::merge(std::move(Other));
}
void FunctionInfo::merge(FunctionInfo &&Other) {
assert(mergeable(Other));
if (!IsMethod)
IsMethod = Other.IsMethod;
if (!Access)
Access = Other.Access;
if (ReturnType.Type.USR == EmptySID && ReturnType.Type.Name == "")
ReturnType = std::move(Other.ReturnType);
if (Parent.USR == EmptySID && Parent.Name == "")
Parent = std::move(Other.Parent);
if (Params.empty())
Params = std::move(Other.Params);
SymbolInfo::merge(std::move(Other));
}
llvm::SmallString<16> Info::extractName() const {
if (!Name.empty())
return Name;
switch (IT) {
case InfoType::IT_namespace:
// Cover the case where the project contains a base namespace called
// 'GlobalNamespace' (i.e. a namespace at the same level as the global
// namespace, which would conflict with the hard-coded global namespace name
// below.)
if (Name == "GlobalNamespace" && Namespace.empty())
return llvm::SmallString<16>("@GlobalNamespace");
// The case of anonymous namespaces is taken care of in serialization,
// so here we can safely assume an unnamed namespace is the global
// one.
return llvm::SmallString<16>("GlobalNamespace");
case InfoType::IT_record:
return llvm::SmallString<16>("@nonymous_record_" +
toHex(llvm::toStringRef(USR)));
case InfoType::IT_enum:
return llvm::SmallString<16>("@nonymous_enum_" +
toHex(llvm::toStringRef(USR)));
case InfoType::IT_function:
return llvm::SmallString<16>("@nonymous_function_" +
toHex(llvm::toStringRef(USR)));
case InfoType::IT_default:
return llvm::SmallString<16>("@nonymous_" + toHex(llvm::toStringRef(USR)));
}
llvm_unreachable("Invalid InfoType.");
return llvm::SmallString<16>("");
}
// Order is based on the Name attribute: case insensitive order
bool Index::operator<(const Index &Other) const {
// Loop through each character of both strings
for (unsigned I = 0; I < Name.size() && I < Other.Name.size(); ++I) {
// Compare them after converting both to lower case
int D = tolower(Name[I]) - tolower(Other.Name[I]);
if (D == 0)
continue;
return D < 0;
}
// If both strings have the size it means they would be equal if changed to
// lower case. In here, lower case will be smaller than upper case
// Example: string < stRing = true
// This is the opposite of how operator < handles strings
if (Name.size() == Other.Name.size())
return Name > Other.Name;
// If they are not the same size; the shorter string is smaller
return Name.size() < Other.Name.size();
}
void Index::sort() {
std::sort(Children.begin(), Children.end());
for (auto &C : Children)
C.sort();
}
ClangDocContext::ClangDocContext(tooling::ExecutionContext *ECtx,
StringRef ProjectName, bool PublicOnly,
StringRef OutDirectory, StringRef SourceRoot,
StringRef RepositoryUrl,
std::vector<std::string> UserStylesheets,
std::vector<std::string> JsScripts)
: ECtx(ECtx), ProjectName(ProjectName), PublicOnly(PublicOnly),
OutDirectory(OutDirectory), UserStylesheets(UserStylesheets),
JsScripts(JsScripts) {
llvm::SmallString<128> SourceRootDir(SourceRoot);
if (SourceRoot.empty())
// If no SourceRoot was provided the current path is used as the default
llvm::sys::fs::current_path(SourceRootDir);
this->SourceRoot = SourceRootDir.str();
if (!RepositoryUrl.empty()) {
this->RepositoryUrl = RepositoryUrl;
if (!RepositoryUrl.empty() && RepositoryUrl.find("http://") != 0 &&
RepositoryUrl.find("https://") != 0)
this->RepositoryUrl->insert(0, "https://");
}
}
} // namespace doc
} // namespace clang