source/Utility/FileSpecList.cpp - llvm-project/lldb - Git at Google

 //===-- FileSpecList.cpp --------------------------------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #include "lldb/Utility/FileSpecList.h"
 #include "lldb/Utility/ConstString.h"
 #include "lldb/Utility/Stream.h"

 #include <cstdint>
 #include <utility>

 using namespace lldb_private;

 FileSpecList::FileSpecList() : m_files() {}

 FileSpecList::~FileSpecList() = default;

 // Append the "file_spec" to the end of the file spec list.
 void FileSpecList::Append(const FileSpec &file_spec) {
   m_files.push_back(file_spec);
 }

 // Only append the "file_spec" if this list doesn't already contain it.
 //
 // Returns true if "file_spec" was added, false if this list already contained
 // a copy of "file_spec".
 bool FileSpecList::AppendIfUnique(const FileSpec &file_spec) {
   collection::iterator end = m_files.end();
   if (find(m_files.begin(), end, file_spec) == end) {
     m_files.push_back(file_spec);
     return true;
   }
   return false;
 }

 // FIXME: Replace this with a DenseSet at the call site. It is inefficient.
 bool SupportFileList::AppendIfUnique(const FileSpec &file_spec) {
   collection::iterator end = m_files.end();
   if (find_if(m_files.begin(), end,
               [&](const std::shared_ptr<SupportFile> &support_file) {
                 return support_file->GetSpecOnly() == file_spec;
               }) == end) {
     Append(file_spec);
     return true;
   }
   return false;
 }

 // Clears the file list.
 void FileSpecList::Clear() { m_files.clear(); }

 // Dumps the file list to the supplied stream pointer "s".
 void FileSpecList::Dump(Stream *s, const char *separator_cstr) const {
   collection::const_iterator pos, end = m_files.end();
   for (pos = m_files.begin(); pos != end; ++pos) {
     pos->Dump(s->AsRawOstream());
     if (separator_cstr && ((pos + 1) != end))
       s->PutCString(separator_cstr);
   }
 }

 // Find the index of the file in the file spec list that matches "file_spec"
 // starting "start_idx" entries into the file spec list.
 //
 // Returns the valid index of the file that matches "file_spec" if it is found,
 // else std::numeric_limits<uint32_t>::max() is returned.
 static size_t FindFileIndex(size_t start_idx, const FileSpec &file_spec,
                             bool full, size_t num_files,
                             std::function<const FileSpec &(size_t)> get_ith) {
   // When looking for files, we will compare only the filename if the FILE_SPEC
   // argument is empty
   bool compare_filename_only = file_spec.GetDirectory().IsEmpty();

   for (size_t idx = start_idx; idx < num_files; ++idx) {
     const FileSpec &ith = get_ith(idx);
     if (compare_filename_only) {
       if (ConstString::Equals(ith.GetFilename(), file_spec.GetFilename(),
                               file_spec.IsCaseSensitive() ||
                                   ith.IsCaseSensitive()))
         return idx;
     } else {
       if (FileSpec::Equal(ith, file_spec, full))
         return idx;
     }
   }

   // We didn't find the file, return an invalid index
   return UINT32_MAX;
 }

 size_t FileSpecList::FindFileIndex(size_t start_idx, const FileSpec &file_spec,
                                    bool full) const {
   return ::FindFileIndex(
       start_idx, file_spec, full, m_files.size(),
       [&](size_t idx) -> const FileSpec & { return m_files[idx]; });
 }

 size_t SupportFileList::FindFileIndex(size_t start_idx,
                                       const FileSpec &file_spec,
                                       bool full) const {
   return ::FindFileIndex(start_idx, file_spec, full, m_files.size(),
                          [&](size_t idx) -> const FileSpec & {
                            return m_files[idx]->GetSpecOnly();
                          });
 }

 size_t SupportFileList::FindCompatibleIndex(size_t start_idx,
                                             const FileSpec &file_spec) const {
   const size_t num_files = m_files.size();
   if (start_idx >= num_files)
     return UINT32_MAX;

   const bool file_spec_relative = file_spec.IsRelative();
   const bool file_spec_case_sensitive = file_spec.IsCaseSensitive();
   // When looking for files, we will compare only the filename if the directory
   // argument is empty in file_spec
   const bool full = !file_spec.GetDirectory().IsEmpty();

   for (size_t idx = start_idx; idx < num_files; ++idx) {
     const FileSpec &curr_file = m_files[idx]->GetSpecOnly();

     // Always start by matching the filename first
     if (!curr_file.FileEquals(file_spec))
       continue;

     // Only compare the full name if the we were asked to and if the current
     // file entry has the a directory. If it doesn't have a directory then we
     // only compare the filename.
     if (FileSpec::Equal(curr_file, file_spec, full)) {
       return idx;
     } else if (curr_file.IsRelative() || file_spec_relative) {
       llvm::StringRef curr_file_dir = curr_file.GetDirectory().GetStringRef();
       if (curr_file_dir.empty())
         return idx; // Basename match only for this file in the list

       // Check if we have a relative path in our file list, or if "file_spec" is
       // relative, if so, check if either ends with the other.
       llvm::StringRef file_spec_dir = file_spec.GetDirectory().GetStringRef();
       // We have a relative path in our file list, it matches if the
       // specified path ends with this path, but we must ensure the full
       // component matches (we don't want "foo/bar.cpp" to match "oo/bar.cpp").
       auto is_suffix = [](llvm::StringRef a, llvm::StringRef b,
                           bool case_sensitive) -> bool {
         if (case_sensitive ? a.consume_back(b) : a.consume_back_insensitive(b))
           return a.empty() || a.ends_with("/");
         return false;
       };
       const bool case_sensitive =
           file_spec_case_sensitive || curr_file.IsCaseSensitive();
       if (is_suffix(curr_file_dir, file_spec_dir, case_sensitive) ||
           is_suffix(file_spec_dir, curr_file_dir, case_sensitive))
         return idx;
     }
   }

   // We didn't find the file, return an invalid index
   return UINT32_MAX;
 }
 // Returns the FileSpec object at index "idx". If "idx" is out of range, then
 // an empty FileSpec object will be returned.
 const FileSpec &FileSpecList::GetFileSpecAtIndex(size_t idx) const {
   if (idx < m_files.size())
     return m_files[idx];
   static FileSpec g_empty_file_spec;
   return g_empty_file_spec;
 }

 const FileSpec &SupportFileList::GetFileSpecAtIndex(size_t idx) const {
   if (idx < m_files.size())
     return m_files[idx]->Materialize();
   static FileSpec g_empty_file_spec;
   return g_empty_file_spec;
 }

 std::shared_ptr<SupportFile>
 SupportFileList::GetSupportFileAtIndex(size_t idx) const {
   if (idx < m_files.size())
     return m_files[idx];
   return {};
 }

 // Return the size in bytes that this object takes in memory. This returns the
 // size in bytes of this object's member variables and any FileSpec objects its
 // member variables contain, the result doesn't not include the string values
 // for the directories any filenames as those are in shared string pools.
 size_t FileSpecList::MemorySize() const {
   size_t mem_size = sizeof(FileSpecList);
   collection::const_iterator pos, end = m_files.end();
   for (pos = m_files.begin(); pos != end; ++pos) {
     mem_size += pos->MemorySize();
   }

   return mem_size;
 }

 // Return the number of files in the file spec list.
 size_t FileSpecList::GetSize() const { return m_files.size(); }
	//===-- FileSpecList.cpp --------------------------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#include "lldb/Utility/FileSpecList.h"
	#include "lldb/Utility/ConstString.h"
	#include "lldb/Utility/Stream.h"

	#include <cstdint>
	#include <utility>

	using namespace lldb_private;

	FileSpecList::FileSpecList() : m_files() {}

	FileSpecList::~FileSpecList() = default;

	// Append the "file_spec" to the end of the file spec list.
	void FileSpecList::Append(const FileSpec &file_spec) {
	m_files.push_back(file_spec);
	}

	// Only append the "file_spec" if this list doesn't already contain it.
	//
	// Returns true if "file_spec" was added, false if this list already contained
	// a copy of "file_spec".
	bool FileSpecList::AppendIfUnique(const FileSpec &file_spec) {
	collection::iterator end = m_files.end();
	if (find(m_files.begin(), end, file_spec) == end) {
	m_files.push_back(file_spec);
	return true;
	}
	return false;
	}

	// FIXME: Replace this with a DenseSet at the call site. It is inefficient.
	bool SupportFileList::AppendIfUnique(const FileSpec &file_spec) {
	collection::iterator end = m_files.end();
	if (find_if(m_files.begin(), end,
	[&](const std::shared_ptr<SupportFile> &support_file) {
	return support_file->GetSpecOnly() == file_spec;
	}) == end) {
	Append(file_spec);
	return true;
	}
	return false;
	}

	// Clears the file list.
	void FileSpecList::Clear() { m_files.clear(); }

	// Dumps the file list to the supplied stream pointer "s".
	void FileSpecList::Dump(Stream s, const char separator_cstr) const {
	collection::const_iterator pos, end = m_files.end();
	for (pos = m_files.begin(); pos != end; ++pos) {
	pos->Dump(s->AsRawOstream());
	if (separator_cstr && ((pos + 1) != end))
	s->PutCString(separator_cstr);
	}
	}

	// Find the index of the file in the file spec list that matches "file_spec"
	// starting "start_idx" entries into the file spec list.
	//
	// Returns the valid index of the file that matches "file_spec" if it is found,
	// else std::numeric_limits<uint32_t>::max() is returned.
	static size_t FindFileIndex(size_t start_idx, const FileSpec &file_spec,
	bool full, size_t num_files,
	std::function<const FileSpec &(size_t)> get_ith) {
	// When looking for files, we will compare only the filename if the FILE_SPEC
	// argument is empty
	bool compare_filename_only = file_spec.GetDirectory().IsEmpty();

	for (size_t idx = start_idx; idx < num_files; ++idx) {
	const FileSpec &ith = get_ith(idx);
	if (compare_filename_only) {
	if (ConstString::Equals(ith.GetFilename(), file_spec.GetFilename(),
	file_spec.IsCaseSensitive() \|\|
	ith.IsCaseSensitive()))
	return idx;
	} else {
	if (FileSpec::Equal(ith, file_spec, full))
	return idx;
	}
	}

	// We didn't find the file, return an invalid index
	return UINT32_MAX;
	}

	size_t FileSpecList::FindFileIndex(size_t start_idx, const FileSpec &file_spec,
	bool full) const {
	return ::FindFileIndex(
	start_idx, file_spec, full, m_files.size(),
	[&](size_t idx) -> const FileSpec & { return m_files[idx]; });
	}

	size_t SupportFileList::FindFileIndex(size_t start_idx,
	const FileSpec &file_spec,
	bool full) const {
	return ::FindFileIndex(start_idx, file_spec, full, m_files.size(),
	[&](size_t idx) -> const FileSpec & {
	return m_files[idx]->GetSpecOnly();
	});
	}

	size_t SupportFileList::FindCompatibleIndex(size_t start_idx,
	const FileSpec &file_spec) const {
	const size_t num_files = m_files.size();
	if (start_idx >= num_files)
	return UINT32_MAX;

	const bool file_spec_relative = file_spec.IsRelative();
	const bool file_spec_case_sensitive = file_spec.IsCaseSensitive();
	// When looking for files, we will compare only the filename if the directory
	// argument is empty in file_spec
	const bool full = !file_spec.GetDirectory().IsEmpty();

	for (size_t idx = start_idx; idx < num_files; ++idx) {
	const FileSpec &curr_file = m_files[idx]->GetSpecOnly();

	// Always start by matching the filename first
	if (!curr_file.FileEquals(file_spec))
	continue;

	// Only compare the full name if the we were asked to and if the current
	// file entry has the a directory. If it doesn't have a directory then we
	// only compare the filename.
	if (FileSpec::Equal(curr_file, file_spec, full)) {
	return idx;
	} else if (curr_file.IsRelative() \|\| file_spec_relative) {
	llvm::StringRef curr_file_dir = curr_file.GetDirectory().GetStringRef();
	if (curr_file_dir.empty())
	return idx; // Basename match only for this file in the list

	// Check if we have a relative path in our file list, or if "file_spec" is
	// relative, if so, check if either ends with the other.
	llvm::StringRef file_spec_dir = file_spec.GetDirectory().GetStringRef();
	// We have a relative path in our file list, it matches if the
	// specified path ends with this path, but we must ensure the full
	// component matches (we don't want "foo/bar.cpp" to match "oo/bar.cpp").
	auto is_suffix = [](llvm::StringRef a, llvm::StringRef b,
	bool case_sensitive) -> bool {
	if (case_sensitive ? a.consume_back(b) : a.consume_back_insensitive(b))
	return a.empty() \|\| a.ends_with("/");
	return false;
	};
	const bool case_sensitive =
	file_spec_case_sensitive \|\| curr_file.IsCaseSensitive();
	if (is_suffix(curr_file_dir, file_spec_dir, case_sensitive) \|\|
	is_suffix(file_spec_dir, curr_file_dir, case_sensitive))
	return idx;
	}
	}

	// We didn't find the file, return an invalid index
	return UINT32_MAX;
	}
	// Returns the FileSpec object at index "idx". If "idx" is out of range, then
	// an empty FileSpec object will be returned.
	const FileSpec &FileSpecList::GetFileSpecAtIndex(size_t idx) const {
	if (idx < m_files.size())
	return m_files[idx];
	static FileSpec g_empty_file_spec;
	return g_empty_file_spec;
	}

	const FileSpec &SupportFileList::GetFileSpecAtIndex(size_t idx) const {
	if (idx < m_files.size())
	return m_files[idx]->Materialize();
	static FileSpec g_empty_file_spec;
	return g_empty_file_spec;
	}

	std::shared_ptr<SupportFile>
	SupportFileList::GetSupportFileAtIndex(size_t idx) const {
	if (idx < m_files.size())
	return m_files[idx];
	return {};
	}

	// Return the size in bytes that this object takes in memory. This returns the
	// size in bytes of this object's member variables and any FileSpec objects its
	// member variables contain, the result doesn't not include the string values
	// for the directories any filenames as those are in shared string pools.
	size_t FileSpecList::MemorySize() const {
	size_t mem_size = sizeof(FileSpecList);
	collection::const_iterator pos, end = m_files.end();
	for (pos = m_files.begin(); pos != end; ++pos) {
	mem_size += pos->MemorySize();
	}

	return mem_size;
	}

	// Return the number of files in the file spec list.
	size_t FileSpecList::GetSize() const { return m_files.size(); }