tools/gn/c_include_iterator.cc - gn.git - Git at Google

 // Copyright 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "tools/gn/c_include_iterator.h"

 #include "base/logging.h"
 #include "base/macros.h"
 #include "base/strings/string_util.h"
 #include "tools/gn/input_file.h"
 #include "tools/gn/location.h"

 namespace {

 enum IncludeType {
   INCLUDE_NONE,
   INCLUDE_SYSTEM,  // #include <...>
   INCLUDE_USER     // #include "..."
 };

 // Returns a new string piece referencing the same buffer as the argument, but
 // with leading space trimmed. This only checks for space and tab characters
 // since we're dealing with lines in C source files.
 base::StringPiece TrimLeadingWhitespace(const base::StringPiece& str) {
   size_t new_begin = 0;
   while (new_begin < str.size() &&
          (str[new_begin] == ' ' || str[new_begin] == '\t'))
     new_begin++;
   return str.substr(new_begin);
 }

 // We don't want to count comment lines and preprocessor lines toward our
 // "max lines to look at before giving up" since the beginnings of some files
 // may have a lot of comments.
 //
 // We only handle C-style "//" comments since this is the normal commenting
 // style used in Chrome, and do so pretty stupidly. We don't want to write a
 // full C++ parser here, we're just trying to get a good heuristic for checking
 // the file.
 //
 // We assume the line has leading whitespace trimmed. We also assume that empty
 // lines have already been filtered out.
 bool ShouldCountTowardNonIncludeLines(const base::StringPiece& line) {
   if (base::StartsWith(line, "//", base::CompareCase::SENSITIVE))
     return false;  // Don't count comments.
   if (base::StartsWith(line, "/*", base::CompareCase::SENSITIVE) ||
       base::StartsWith(line, " *", base::CompareCase::SENSITIVE))
     return false;  // C-style comment blocks with stars along the left side.
   if (base::StartsWith(line, "#", base::CompareCase::SENSITIVE))
     return false;  // Don't count preprocessor.
   if (base::ContainsOnlyChars(line, base::kWhitespaceASCII))
     return false;  // Don't count whitespace lines.
   return true;     // Count everything else.
 }

 // Given a line, checks to see if it looks like an include or import and
 // extract the path. The type of include is returned. Returns INCLUDE_NONE on
 // error or if this is not an include line.
 //
 // The 1-based character number on the line that the include was found at
 // will be filled into *begin_char.
 IncludeType ExtractInclude(const base::StringPiece& line,
                            base::StringPiece* path,
                            int* begin_char) {
   static const char kInclude[] = "#include";
   static const size_t kIncludeLen = arraysize(kInclude) - 1;  // No null.
   static const char kImport[] = "#import";
   static const size_t kImportLen = arraysize(kImport) - 1;  // No null.

   base::StringPiece trimmed = TrimLeadingWhitespace(line);
   if (trimmed.empty())
     return INCLUDE_NONE;

   base::StringPiece contents;
   if (base::StartsWith(trimmed, base::StringPiece(kInclude, kIncludeLen),
                        base::CompareCase::SENSITIVE))
     contents = TrimLeadingWhitespace(trimmed.substr(kIncludeLen));
   else if (base::StartsWith(trimmed, base::StringPiece(kImport, kImportLen),
                             base::CompareCase::SENSITIVE))
     contents = TrimLeadingWhitespace(trimmed.substr(kImportLen));

   if (contents.empty())
     return INCLUDE_NONE;

   IncludeType type = INCLUDE_NONE;
   char terminating_char = 0;
   if (contents[0] == '"') {
     type = INCLUDE_USER;
     terminating_char = '"';
   } else if (contents[0] == '<') {
     type = INCLUDE_SYSTEM;
     terminating_char = '>';
   } else {
     return INCLUDE_NONE;
   }

   // Count everything to next "/> as the contents.
   size_t terminator_index = contents.find(terminating_char, 1);
   if (terminator_index == base::StringPiece::npos)
     return INCLUDE_NONE;

   *path = contents.substr(1, terminator_index - 1);
   // Note: one based so we do "+ 1".
   *begin_char = static_cast<int>(path->data() - line.data()) + 1;
   return type;
 }

 // Returns true if this line has a "nogncheck" comment associated with it.
 bool HasNoCheckAnnotation(const base::StringPiece& line) {
   return line.find("nogncheck") != base::StringPiece::npos;
 }

 }  // namespace

 const int CIncludeIterator::kMaxNonIncludeLines = 10;

 CIncludeIterator::CIncludeIterator(const InputFile* input)
     : input_file_(input),
       file_(input->contents()),
       offset_(0),
       line_number_(0),
       lines_since_last_include_(0) {}

 CIncludeIterator::~CIncludeIterator() = default;

 bool CIncludeIterator::GetNextIncludeString(base::StringPiece* out,
                                             LocationRange* location) {
   base::StringPiece line;
   int cur_line_number = 0;
   while (lines_since_last_include_ <= kMaxNonIncludeLines &&
          GetNextLine(&line, &cur_line_number)) {
     base::StringPiece include_contents;
     int begin_char;
     IncludeType type = ExtractInclude(line, &include_contents, &begin_char);
     if (type == INCLUDE_USER && !HasNoCheckAnnotation(line)) {
       // Only count user includes for now.
       *out = include_contents;
       *location = LocationRange(
           Location(input_file_, cur_line_number, begin_char,
                    -1 /* TODO(scottmg): Is this important? */),
           Location(input_file_, cur_line_number,
                    begin_char + static_cast<int>(include_contents.size()),
                    -1 /* TODO(scottmg): Is this important? */));

       lines_since_last_include_ = 0;
       return true;
     }

     if (ShouldCountTowardNonIncludeLines(line))
       lines_since_last_include_++;
   }
   return false;
 }

 bool CIncludeIterator::GetNextLine(base::StringPiece* line, int* line_number) {
   if (offset_ == file_.size())
     return false;

   size_t begin = offset_;
   while (offset_ < file_.size() && file_[offset_] != '\n')
     offset_++;
   line_number_++;

   *line = file_.substr(begin, offset_ - begin);
   *line_number = line_number_;

   // If we didn't hit EOF, skip past the newline for the next one.
   if (offset_ < file_.size())
     offset_++;
   return true;
 }
	// Copyright 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "tools/gn/c_include_iterator.h"

	#include "base/logging.h"
	#include "base/macros.h"
	#include "base/strings/string_util.h"
	#include "tools/gn/input_file.h"
	#include "tools/gn/location.h"

	namespace {

	enum IncludeType {
	INCLUDE_NONE,
	INCLUDE_SYSTEM, // #include <...>
	INCLUDE_USER // #include "..."
	};

	// Returns a new string piece referencing the same buffer as the argument, but
	// with leading space trimmed. This only checks for space and tab characters
	// since we're dealing with lines in C source files.
	base::StringPiece TrimLeadingWhitespace(const base::StringPiece& str) {
	size_t new_begin = 0;
	while (new_begin < str.size() &&
	(str[new_begin] == ' ' \|\| str[new_begin] == '\t'))
	new_begin++;
	return str.substr(new_begin);
	}

	// We don't want to count comment lines and preprocessor lines toward our
	// "max lines to look at before giving up" since the beginnings of some files
	// may have a lot of comments.
	//
	// We only handle C-style "//" comments since this is the normal commenting
	// style used in Chrome, and do so pretty stupidly. We don't want to write a
	// full C++ parser here, we're just trying to get a good heuristic for checking
	// the file.
	//
	// We assume the line has leading whitespace trimmed. We also assume that empty
	// lines have already been filtered out.
	bool ShouldCountTowardNonIncludeLines(const base::StringPiece& line) {
	if (base::StartsWith(line, "//", base::CompareCase::SENSITIVE))
	return false; // Don't count comments.
	if (base::StartsWith(line, "/*", base::CompareCase::SENSITIVE) \|\|
	base::StartsWith(line, " *", base::CompareCase::SENSITIVE))
	return false; // C-style comment blocks with stars along the left side.
	if (base::StartsWith(line, "#", base::CompareCase::SENSITIVE))
	return false; // Don't count preprocessor.
	if (base::ContainsOnlyChars(line, base::kWhitespaceASCII))
	return false; // Don't count whitespace lines.
	return true; // Count everything else.
	}

	// Given a line, checks to see if it looks like an include or import and
	// extract the path. The type of include is returned. Returns INCLUDE_NONE on
	// error or if this is not an include line.
	//
	// The 1-based character number on the line that the include was found at
	// will be filled into *begin_char.
	IncludeType ExtractInclude(const base::StringPiece& line,
	base::StringPiece* path,
	int* begin_char) {
	static const char kInclude[] = "#include";
	static const size_t kIncludeLen = arraysize(kInclude) - 1; // No null.
	static const char kImport[] = "#import";
	static const size_t kImportLen = arraysize(kImport) - 1; // No null.

	base::StringPiece trimmed = TrimLeadingWhitespace(line);
	if (trimmed.empty())
	return INCLUDE_NONE;

	base::StringPiece contents;
	if (base::StartsWith(trimmed, base::StringPiece(kInclude, kIncludeLen),
	base::CompareCase::SENSITIVE))
	contents = TrimLeadingWhitespace(trimmed.substr(kIncludeLen));
	else if (base::StartsWith(trimmed, base::StringPiece(kImport, kImportLen),
	base::CompareCase::SENSITIVE))
	contents = TrimLeadingWhitespace(trimmed.substr(kImportLen));

	if (contents.empty())
	return INCLUDE_NONE;

	IncludeType type = INCLUDE_NONE;
	char terminating_char = 0;
	if (contents[0] == '"') {
	type = INCLUDE_USER;
	terminating_char = '"';
	} else if (contents[0] == '<') {
	type = INCLUDE_SYSTEM;
	terminating_char = '>';
	} else {
	return INCLUDE_NONE;
	}

	// Count everything to next "/> as the contents.
	size_t terminator_index = contents.find(terminating_char, 1);
	if (terminator_index == base::StringPiece::npos)
	return INCLUDE_NONE;

	*path = contents.substr(1, terminator_index - 1);
	// Note: one based so we do "+ 1".
	*begin_char = static_cast<int>(path->data() - line.data()) + 1;
	return type;
	}

	// Returns true if this line has a "nogncheck" comment associated with it.
	bool HasNoCheckAnnotation(const base::StringPiece& line) {
	return line.find("nogncheck") != base::StringPiece::npos;
	}

	} // namespace

	const int CIncludeIterator::kMaxNonIncludeLines = 10;

	CIncludeIterator::CIncludeIterator(const InputFile* input)
	: input_file_(input),
	file_(input->contents()),
	offset_(0),
	line_number_(0),
	lines_since_last_include_(0) {}

	CIncludeIterator::~CIncludeIterator() = default;

	bool CIncludeIterator::GetNextIncludeString(base::StringPiece* out,
	LocationRange* location) {
	base::StringPiece line;
	int cur_line_number = 0;
	while (lines_since_last_include_ <= kMaxNonIncludeLines &&
	GetNextLine(&line, &cur_line_number)) {
	base::StringPiece include_contents;
	int begin_char;
	IncludeType type = ExtractInclude(line, &include_contents, &begin_char);
	if (type == INCLUDE_USER && !HasNoCheckAnnotation(line)) {
	// Only count user includes for now.
	*out = include_contents;
	*location = LocationRange(
	Location(input_file_, cur_line_number, begin_char,
	-1 /* TODO(scottmg): Is this important? */),
	Location(input_file_, cur_line_number,
	begin_char + static_cast<int>(include_contents.size()),
	-1 /* TODO(scottmg): Is this important? */));

	lines_since_last_include_ = 0;
	return true;
	}

	if (ShouldCountTowardNonIncludeLines(line))
	lines_since_last_include_++;
	}
	return false;
	}

	bool CIncludeIterator::GetNextLine(base::StringPiece* line, int* line_number) {
	if (offset_ == file_.size())
	return false;

	size_t begin = offset_;
	while (offset_ < file_.size() && file_[offset_] != '\n')
	offset_++;
	line_number_++;

	*line = file_.substr(begin, offset_ - begin);
	*line_number = line_number_;

	// If we didn't hit EOF, skip past the newline for the next one.
	if (offset_ < file_.size())
	offset_++;
	return true;
	}