tools/gn/label_pattern.cc - chromium/src - 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/label_pattern.h"

 #include "base/strings/string_util.h"
 #include "tools/gn/err.h"
 #include "tools/gn/filesystem_utils.h"
 #include "tools/gn/value.h"

 const char kLabelPattern_Help[] =
     "Label patterns\n"
     "\n"
     "  A label pattern is a way of expressing one or more labels in a portion\n"
     "  of the source tree. They are not general regular expressions.\n"
     "\n"
     "  They can take the following forms only:\n"
     "\n"
     "   - Explicit (no wildcard):\n"
     "       \"//foo/bar:baz\"\n"
     "       \":baz\"\n"
     "\n"
     "   - Wildcard target names:\n"
     "       \"//foo/bar:*\" (all targets in the //foo/bar/BUILD.gn file)\n"
     "       \":*\"  (all targets in the current build file)\n"
     "\n"
     "   - Wildcard directory names (\"*\" is only supported at the end)\n"
     "       \"*\"  (all targets)\n"
     "       \"//foo/bar/*\"  (all targets in any subdir of //foo/bar)\n"
     "       \"./*\"  (all targets in the current build file or sub dirs)\n"
     "\n"
     "  Any of the above forms can additionally take an explicit toolchain.\n"
     "  In this case, the toolchain must be fully qualified (no wildcards\n"
     "  are supported in the toolchain name).\n"
     "\n"
     "    \"//foo:bar(//build/toochain:mac)\"\n"
     "        An explicit target in an explicit toolchain.\n"
     "\n"
     "    \":*(//build/toolchain/linux:32bit)\"\n"
     "        All targets in the current build file using the 32-bit Linux\n"
     "        toolchain.\n"
     "\n"
     "    \"//foo/*(//build/toolchain:win)\"\n"
     "        All targets in //foo and any subdirectory using the Windows\n"
     "        toolchain.\n";

 LabelPattern::LabelPattern() : type_(MATCH) {
 }

 LabelPattern::LabelPattern(Type type,
                            const SourceDir& dir,
                            const base::StringPiece& name,
                            const Label& toolchain_label)
     : toolchain_(toolchain_label),
       type_(type),
       dir_(dir) {
   name.CopyToString(&name_);
 }

 LabelPattern::~LabelPattern() {
 }

 // static
 LabelPattern LabelPattern::GetPattern(const SourceDir& current_dir,
                                       const Value& value,
                                       Err* err) {
   if (!value.VerifyTypeIs(Value::STRING, err))
     return LabelPattern();

   base::StringPiece str(value.string_value());
   if (str.empty()) {
     *err = Err(value, "Label pattern must not be empty.");
     return LabelPattern();
   }

   // If there's no wildcard, this is specifying an exact label, use the
   // label resolution code to get all the implicit name stuff.
   size_t star = str.find('*');
   if (star == std::string::npos) {
     Label label = Label::Resolve(current_dir, Label(), value, err);
     if (err->has_error())
       return LabelPattern();

     // Toolchain.
     Label toolchain_label;
     if (!label.toolchain_dir().is_null() || !label.toolchain_name().empty())
       toolchain_label = label.GetToolchainLabel();

     return LabelPattern(MATCH, label.dir(), label.name(), toolchain_label);
   }

   // Wildcard case, need to split apart the label to see what it specifies.
   Label toolchain_label;
   size_t open_paren = str.find('(');
   if (open_paren != std::string::npos) {
     // Has a toolchain definition, extract inside the parens.
     size_t close_paren = str.find(')', open_paren);
     if (close_paren == std::string::npos) {
       *err = Err(value, "No close paren when looking for toolchain name.");
       return LabelPattern();
     }

     std::string toolchain_string =
         str.substr(open_paren + 1, close_paren - open_paren - 1).as_string();
     if (toolchain_string.find('*') != std::string::npos) {
       *err = Err(value, "Can't have a wildcard in the toolchain.");
       return LabelPattern();
     }

     // Parse the inside of the parens as a label for a toolchain.
     Value value_for_toolchain(value.origin(), toolchain_string);
     toolchain_label =
         Label::Resolve(current_dir, Label(), value_for_toolchain, err);
     if (err->has_error())
       return LabelPattern();

     // Trim off the toolchain for the processing below.
     str = str.substr(0, open_paren);
   }

   // Extract path and name.
   base::StringPiece path;
   base::StringPiece name;
   size_t offset = 0;
 #if defined(OS_WIN)
   if (IsPathAbsolute(str)) {
     if (str[0] != '/') {
       *err = Err(value, "Bad absolute path.",
                  "Absolute paths must be of the form /C:\\ but this is \"" +
                      str.as_string() + "\".");
       return LabelPattern();
     }
     if (str.size() > 3 && str[2] == ':' && IsSlash(str[3]) &&
         base::IsAsciiAlpha(str[1])) {
       // Skip over the drive letter colon.
       offset = 3;
     }
   }
 #endif
   size_t colon = str.find(':', offset);
   if (colon == std::string::npos) {
     path = base::StringPiece(str);
   } else {
     path = str.substr(0, colon);
     name = str.substr(colon + 1);
   }

   // The path can have these forms:
   //   1. <empty>  (use current dir)
   //   2. <non wildcard stuff>  (send through directory resolution)
   //   3. <non wildcard stuff>*  (send stuff through dir resolution, note star)
   //   4. *  (matches anything)
   SourceDir dir;
   bool has_path_star = false;
   if (path.empty()) {
     // Looks like ":foo".
     dir = current_dir;
   } else if (path[path.size() - 1] == '*') {
     // Case 3 or 4 above.
     has_path_star = true;

     // Adjust path to contain everything but the star.
     path = path.substr(0, path.size() - 1);

     if (!path.empty() && path[path.size() - 1] != '/') {
       // The input was "foo*" which is invalid.
       *err = Err(value, "'*' must match full directories in a label pattern.",
           "You did \"foo*\" but this thing doesn't do general pattern\n"
           "matching. Instead, you have to add a slash: \"foo/*\" to match\n"
           "all targets in a directory hierarchy.");
       return LabelPattern();
     }
   }

   // Resolve the part of the path that's not the wildcard.
   if (!path.empty()) {
     // The non-wildcard stuff better not have a wildcard.
     if (path.find('*') != base::StringPiece::npos) {
       *err = Err(value, "Label patterns only support wildcard suffixes.",
           "The pattern contained a '*' that wasn't at the end.");
       return LabelPattern();
     }

     // Resolve the non-wildcard stuff.
     dir = current_dir.ResolveRelativeDir(value, path, err);
     if (err->has_error())
       return LabelPattern();
   }

   // Resolve the name. At this point, we're doing wildcard matches so the
   // name should either be empty ("foo/*") or a wildcard ("foo:*");
   if (colon != std::string::npos && name != "*") {
     *err = Err(value, "Invalid label pattern.",
         "You seem to be using the wildcard more generally that is supported.\n"
         "Did you mean \"foo:*\" to match everything in the file, or\n"
         "\"./*\" to recursively match everything in the currend subtree.");
     return LabelPattern();
   }

   Type type;
   if (has_path_star) {
     // We know there's a wildcard, so if the name is empty it looks like
     // "foo/*".
     type = RECURSIVE_DIRECTORY;
   } else {
     // Everything else should be of the form "foo:*".
     type = DIRECTORY;
   }

   // When we're doing wildcard matching, the name is always empty.
   return LabelPattern(type, dir, base::StringPiece(), toolchain_label);
 }

 bool LabelPattern::HasWildcard(const std::string& str) {
   // Just look for a star. In the future, we may want to handle escaping or
   // other types of patterns.
   return str.find('*') != std::string::npos;
 }

 bool LabelPattern::Matches(const Label& label) const {
   if (!toolchain_.is_null()) {
     // Toolchain must match exactly.
     if (toolchain_.dir() != label.toolchain_dir() ||
         toolchain_.name() != label.toolchain_name())
       return false;
   }

   switch (type_) {
     case MATCH:
       return label.name() == name_ && label.dir() == dir_;
     case DIRECTORY:
       // The directories must match exactly.
       return label.dir() == dir_;
     case RECURSIVE_DIRECTORY:
       // Our directory must be a prefix of the input label for recursive.
       return label.dir().value().compare(0, dir_.value().size(), dir_.value())
           == 0;
     default:
       NOTREACHED();
       return false;
   }
 }

 std::string LabelPattern::Describe() const {
   std::string result;

   switch (type()) {
     case MATCH:
       result = DirectoryWithNoLastSlash(dir()) + ":" + name();
       break;
     case DIRECTORY:
       result = DirectoryWithNoLastSlash(dir()) + ":*";
       break;
     case RECURSIVE_DIRECTORY:
       result = dir().value() + "*";
       break;
   }

   if (!toolchain_.is_null()) {
     result.push_back('(');
     result.append(toolchain_.GetUserVisibleName(false));
     result.push_back(')');
   }
   return result;
 }
	// 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/label_pattern.h"

	#include "base/strings/string_util.h"
	#include "tools/gn/err.h"
	#include "tools/gn/filesystem_utils.h"
	#include "tools/gn/value.h"

	const char kLabelPattern_Help[] =
	"Label patterns\n"
	"\n"
	" A label pattern is a way of expressing one or more labels in a portion\n"
	" of the source tree. They are not general regular expressions.\n"
	"\n"
	" They can take the following forms only:\n"
	"\n"
	" - Explicit (no wildcard):\n"
	" \"//foo/bar:baz\"\n"
	" \":baz\"\n"
	"\n"
	" - Wildcard target names:\n"
	" \"//foo/bar:*\" (all targets in the //foo/bar/BUILD.gn file)\n"
	" \":*\" (all targets in the current build file)\n"
	"\n"
	" - Wildcard directory names (\"*\" is only supported at the end)\n"
	" \"*\" (all targets)\n"
	" \"//foo/bar/*\" (all targets in any subdir of //foo/bar)\n"
	" \"./*\" (all targets in the current build file or sub dirs)\n"
	"\n"
	" Any of the above forms can additionally take an explicit toolchain.\n"
	" In this case, the toolchain must be fully qualified (no wildcards\n"
	" are supported in the toolchain name).\n"
	"\n"
	" \"//foo:bar(//build/toochain:mac)\"\n"
	" An explicit target in an explicit toolchain.\n"
	"\n"
	" \":*(//build/toolchain/linux:32bit)\"\n"
	" All targets in the current build file using the 32-bit Linux\n"
	" toolchain.\n"
	"\n"
	" \"//foo/*(//build/toolchain:win)\"\n"
	" All targets in //foo and any subdirectory using the Windows\n"
	" toolchain.\n";

	LabelPattern::LabelPattern() : type_(MATCH) {
	}

	LabelPattern::LabelPattern(Type type,
	const SourceDir& dir,
	const base::StringPiece& name,
	const Label& toolchain_label)
	: toolchain_(toolchain_label),
	type_(type),
	dir_(dir) {
	name.CopyToString(&name_);
	}

	LabelPattern::~LabelPattern() {
	}

	// static
	LabelPattern LabelPattern::GetPattern(const SourceDir& current_dir,
	const Value& value,
	Err* err) {
	if (!value.VerifyTypeIs(Value::STRING, err))
	return LabelPattern();

	base::StringPiece str(value.string_value());
	if (str.empty()) {
	*err = Err(value, "Label pattern must not be empty.");
	return LabelPattern();
	}

	// If there's no wildcard, this is specifying an exact label, use the
	// label resolution code to get all the implicit name stuff.
	size_t star = str.find('*');
	if (star == std::string::npos) {
	Label label = Label::Resolve(current_dir, Label(), value, err);
	if (err->has_error())
	return LabelPattern();

	// Toolchain.
	Label toolchain_label;
	if (!label.toolchain_dir().is_null() \|\| !label.toolchain_name().empty())
	toolchain_label = label.GetToolchainLabel();

	return LabelPattern(MATCH, label.dir(), label.name(), toolchain_label);
	}

	// Wildcard case, need to split apart the label to see what it specifies.
	Label toolchain_label;
	size_t open_paren = str.find('(');
	if (open_paren != std::string::npos) {
	// Has a toolchain definition, extract inside the parens.
	size_t close_paren = str.find(')', open_paren);
	if (close_paren == std::string::npos) {
	*err = Err(value, "No close paren when looking for toolchain name.");
	return LabelPattern();
	}

	std::string toolchain_string =
	str.substr(open_paren + 1, close_paren - open_paren - 1).as_string();
	if (toolchain_string.find('*') != std::string::npos) {
	*err = Err(value, "Can't have a wildcard in the toolchain.");
	return LabelPattern();
	}

	// Parse the inside of the parens as a label for a toolchain.
	Value value_for_toolchain(value.origin(), toolchain_string);
	toolchain_label =
	Label::Resolve(current_dir, Label(), value_for_toolchain, err);
	if (err->has_error())
	return LabelPattern();

	// Trim off the toolchain for the processing below.
	str = str.substr(0, open_paren);
	}

	// Extract path and name.
	base::StringPiece path;
	base::StringPiece name;
	size_t offset = 0;
	#if defined(OS_WIN)
	if (IsPathAbsolute(str)) {
	if (str[0] != '/') {
	*err = Err(value, "Bad absolute path.",
	"Absolute paths must be of the form /C:\\ but this is \"" +
	str.as_string() + "\".");
	return LabelPattern();
	}
	if (str.size() > 3 && str[2] == ':' && IsSlash(str[3]) &&
	base::IsAsciiAlpha(str[1])) {
	// Skip over the drive letter colon.
	offset = 3;
	}
	}
	#endif
	size_t colon = str.find(':', offset);
	if (colon == std::string::npos) {
	path = base::StringPiece(str);
	} else {
	path = str.substr(0, colon);
	name = str.substr(colon + 1);
	}

	// The path can have these forms:
	// 1. <empty> (use current dir)
	// 2. <non wildcard stuff> (send through directory resolution)
	// 3. <non wildcard stuff>* (send stuff through dir resolution, note star)
	// 4. * (matches anything)
	SourceDir dir;
	bool has_path_star = false;
	if (path.empty()) {
	// Looks like ":foo".
	dir = current_dir;
	} else if (path[path.size() - 1] == '*') {
	// Case 3 or 4 above.
	has_path_star = true;

	// Adjust path to contain everything but the star.
	path = path.substr(0, path.size() - 1);

	if (!path.empty() && path[path.size() - 1] != '/') {
	// The input was "foo*" which is invalid.
	err = Err(value, "'' must match full directories in a label pattern.",
	"You did \"foo*\" but this thing doesn't do general pattern\n"
	"matching. Instead, you have to add a slash: \"foo/*\" to match\n"
	"all targets in a directory hierarchy.");
	return LabelPattern();
	}
	}

	// Resolve the part of the path that's not the wildcard.
	if (!path.empty()) {
	// The non-wildcard stuff better not have a wildcard.
	if (path.find('*') != base::StringPiece::npos) {
	*err = Err(value, "Label patterns only support wildcard suffixes.",
	"The pattern contained a '*' that wasn't at the end.");
	return LabelPattern();
	}

	// Resolve the non-wildcard stuff.
	dir = current_dir.ResolveRelativeDir(value, path, err);
	if (err->has_error())
	return LabelPattern();
	}

	// Resolve the name. At this point, we're doing wildcard matches so the
	// name should either be empty ("foo/") or a wildcard ("foo:");
	if (colon != std::string::npos && name != "*") {
	*err = Err(value, "Invalid label pattern.",
	"You seem to be using the wildcard more generally that is supported.\n"
	"Did you mean \"foo:*\" to match everything in the file, or\n"
	"\"./*\" to recursively match everything in the currend subtree.");
	return LabelPattern();
	}

	Type type;
	if (has_path_star) {
	// We know there's a wildcard, so if the name is empty it looks like
	// "foo/*".
	type = RECURSIVE_DIRECTORY;
	} else {
	// Everything else should be of the form "foo:*".
	type = DIRECTORY;
	}

	// When we're doing wildcard matching, the name is always empty.
	return LabelPattern(type, dir, base::StringPiece(), toolchain_label);
	}

	bool LabelPattern::HasWildcard(const std::string& str) {
	// Just look for a star. In the future, we may want to handle escaping or
	// other types of patterns.
	return str.find('*') != std::string::npos;
	}

	bool LabelPattern::Matches(const Label& label) const {
	if (!toolchain_.is_null()) {
	// Toolchain must match exactly.
	if (toolchain_.dir() != label.toolchain_dir() \|\|
	toolchain_.name() != label.toolchain_name())
	return false;
	}

	switch (type_) {
	case MATCH:
	return label.name() == name_ && label.dir() == dir_;
	case DIRECTORY:
	// The directories must match exactly.
	return label.dir() == dir_;
	case RECURSIVE_DIRECTORY:
	// Our directory must be a prefix of the input label for recursive.
	return label.dir().value().compare(0, dir_.value().size(), dir_.value())
	== 0;
	default:
	NOTREACHED();
	return false;
	}
	}

	std::string LabelPattern::Describe() const {
	std::string result;

	switch (type()) {
	case MATCH:
	result = DirectoryWithNoLastSlash(dir()) + ":" + name();
	break;
	case DIRECTORY:
	result = DirectoryWithNoLastSlash(dir()) + ":*";
	break;
	case RECURSIVE_DIRECTORY:
	result = dir().value() + "*";
	break;
	}

	if (!toolchain_.is_null()) {
	result.push_back('(');
	result.append(toolchain_.GetUserVisibleName(false));
	result.push_back(')');
	}
	return result;
	}