base/strings/pattern.cc - external/github.com/flutter/engine - Git at Google

 // Copyright 2015 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 "base/strings/pattern.h"

 #include "base/third_party/icu/icu_utf.h"

 namespace base {

 namespace {

 static bool IsWildcard(base_icu::UChar32 character) {
   return character == '*' || character == '?';
 }

 // Move the strings pointers to the point where they start to differ.
 template <typename CHAR, typename NEXT>
 static void EatSameChars(const CHAR** pattern, const CHAR* pattern_end,
                          const CHAR** string, const CHAR* string_end,
                          NEXT next) {
   const CHAR* escape = NULL;
   while (*pattern != pattern_end && *string != string_end) {
     if (!escape && IsWildcard(**pattern)) {
       // We don't want to match wildcard here, except if it's escaped.
       return;
     }

     // Check if the escapement char is found. If so, skip it and move to the
     // next character.
     if (!escape && **pattern == '\\') {
       escape = *pattern;
       next(pattern, pattern_end);
       continue;
     }

     // Check if the chars match, if so, increment the ptrs.
     const CHAR* pattern_next = *pattern;
     const CHAR* string_next = *string;
     base_icu::UChar32 pattern_char = next(&pattern_next, pattern_end);
     if (pattern_char == next(&string_next, string_end) &&
         pattern_char != CBU_SENTINEL) {
       *pattern = pattern_next;
       *string = string_next;
     } else {
       // Uh oh, it did not match, we are done. If the last char was an
       // escapement, that means that it was an error to advance the ptr here,
       // let's put it back where it was. This also mean that the MatchPattern
       // function will return false because if we can't match an escape char
       // here, then no one will.
       if (escape) {
         *pattern = escape;
       }
       return;
     }

     escape = NULL;
   }
 }

 template <typename CHAR, typename NEXT>
 static void EatWildcard(const CHAR** pattern, const CHAR* end, NEXT next) {
   while (*pattern != end) {
     if (!IsWildcard(**pattern))
       return;
     next(pattern, end);
   }
 }

 template <typename CHAR, typename NEXT>
 static bool MatchPatternT(const CHAR* eval, const CHAR* eval_end,
                           const CHAR* pattern, const CHAR* pattern_end,
                           int depth,
                           NEXT next) {
   const int kMaxDepth = 16;
   if (depth > kMaxDepth)
     return false;

   // Eat all the matching chars.
   EatSameChars(&pattern, pattern_end, &eval, eval_end, next);

   // If the string is empty, then the pattern must be empty too, or contains
   // only wildcards.
   if (eval == eval_end) {
     EatWildcard(&pattern, pattern_end, next);
     return pattern == pattern_end;
   }

   // Pattern is empty but not string, this is not a match.
   if (pattern == pattern_end)
     return false;

   // If this is a question mark, then we need to compare the rest with
   // the current string or the string with one character eaten.
   const CHAR* next_pattern = pattern;
   next(&next_pattern, pattern_end);
   if (pattern[0] == '?') {
     if (MatchPatternT(eval, eval_end, next_pattern, pattern_end,
                       depth + 1, next))
       return true;
     const CHAR* next_eval = eval;
     next(&next_eval, eval_end);
     if (MatchPatternT(next_eval, eval_end, next_pattern, pattern_end,
                       depth + 1, next))
       return true;
   }

   // This is a *, try to match all the possible substrings with the remainder
   // of the pattern.
   if (pattern[0] == '*') {
     // Collapse duplicate wild cards (********** into *) so that the
     // method does not recurse unnecessarily. http://crbug.com/52839
     EatWildcard(&next_pattern, pattern_end, next);

     while (eval != eval_end) {
       if (MatchPatternT(eval, eval_end, next_pattern, pattern_end,
                         depth + 1, next))
         return true;
       eval++;
     }

     // We reached the end of the string, let see if the pattern contains only
     // wildcards.
     if (eval == eval_end) {
       EatWildcard(&pattern, pattern_end, next);
       if (pattern != pattern_end)
         return false;
       return true;
     }
   }

   return false;
 }

 struct NextCharUTF8 {
   base_icu::UChar32 operator()(const char** p, const char* end) {
     base_icu::UChar32 c;
     int offset = 0;
     CBU8_NEXT(*p, offset, end - *p, c);
     *p += offset;
     return c;
   }
 };

 struct NextCharUTF16 {
   base_icu::UChar32 operator()(const char16** p, const char16* end) {
     base_icu::UChar32 c;
     int offset = 0;
     CBU16_NEXT(*p, offset, end - *p, c);
     *p += offset;
     return c;
   }
 };

 }  // namespace

 bool MatchPattern(const StringPiece& eval, const StringPiece& pattern) {
   return MatchPatternT(eval.data(), eval.data() + eval.size(),
                        pattern.data(), pattern.data() + pattern.size(),
                        0, NextCharUTF8());
 }

 bool MatchPattern(const StringPiece16& eval, const StringPiece16& pattern) {
   return MatchPatternT(eval.data(), eval.data() + eval.size(),
                        pattern.data(), pattern.data() + pattern.size(),
                        0, NextCharUTF16());
 }

 }  // namespace base
	// Copyright 2015 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 "base/strings/pattern.h"

	#include "base/third_party/icu/icu_utf.h"

	namespace base {

	namespace {

	static bool IsWildcard(base_icu::UChar32 character) {
	return character == '*' \|\| character == '?';
	}

	// Move the strings pointers to the point where they start to differ.
	template <typename CHAR, typename NEXT>
	static void EatSameChars(const CHAR** pattern, const CHAR* pattern_end,
	const CHAR** string, const CHAR* string_end,
	NEXT next) {
	const CHAR* escape = NULL;
	while (pattern != pattern_end && string != string_end) {
	if (!escape && IsWildcard(**pattern)) {
	// We don't want to match wildcard here, except if it's escaped.
	return;
	}

	// Check if the escapement char is found. If so, skip it and move to the
	// next character.
	if (!escape && **pattern == '\\') {
	escape = *pattern;
	next(pattern, pattern_end);
	continue;
	}

	// Check if the chars match, if so, increment the ptrs.
	const CHAR* pattern_next = *pattern;
	const CHAR* string_next = *string;
	base_icu::UChar32 pattern_char = next(&pattern_next, pattern_end);
	if (pattern_char == next(&string_next, string_end) &&
	pattern_char != CBU_SENTINEL) {
	*pattern = pattern_next;
	*string = string_next;
	} else {
	// Uh oh, it did not match, we are done. If the last char was an
	// escapement, that means that it was an error to advance the ptr here,
	// let's put it back where it was. This also mean that the MatchPattern
	// function will return false because if we can't match an escape char
	// here, then no one will.
	if (escape) {
	*pattern = escape;
	}
	return;
	}

	escape = NULL;
	}
	}

	template <typename CHAR, typename NEXT>
	static void EatWildcard(const CHAR** pattern, const CHAR* end, NEXT next) {
	while (*pattern != end) {
	if (!IsWildcard(**pattern))
	return;
	next(pattern, end);
	}
	}

	template <typename CHAR, typename NEXT>
	static bool MatchPatternT(const CHAR* eval, const CHAR* eval_end,
	const CHAR* pattern, const CHAR* pattern_end,
	int depth,
	NEXT next) {
	const int kMaxDepth = 16;
	if (depth > kMaxDepth)
	return false;

	// Eat all the matching chars.
	EatSameChars(&pattern, pattern_end, &eval, eval_end, next);

	// If the string is empty, then the pattern must be empty too, or contains
	// only wildcards.
	if (eval == eval_end) {
	EatWildcard(&pattern, pattern_end, next);
	return pattern == pattern_end;
	}

	// Pattern is empty but not string, this is not a match.
	if (pattern == pattern_end)
	return false;

	// If this is a question mark, then we need to compare the rest with
	// the current string or the string with one character eaten.
	const CHAR* next_pattern = pattern;
	next(&next_pattern, pattern_end);
	if (pattern[0] == '?') {
	if (MatchPatternT(eval, eval_end, next_pattern, pattern_end,
	depth + 1, next))
	return true;
	const CHAR* next_eval = eval;
	next(&next_eval, eval_end);
	if (MatchPatternT(next_eval, eval_end, next_pattern, pattern_end,
	depth + 1, next))
	return true;
	}

	// This is a *, try to match all the possible substrings with the remainder
	// of the pattern.
	if (pattern[0] == '*') {
	// Collapse duplicate wild cards (********** into *) so that the
	// method does not recurse unnecessarily. http://crbug.com/52839
	EatWildcard(&next_pattern, pattern_end, next);

	while (eval != eval_end) {
	if (MatchPatternT(eval, eval_end, next_pattern, pattern_end,
	depth + 1, next))
	return true;
	eval++;
	}

	// We reached the end of the string, let see if the pattern contains only
	// wildcards.
	if (eval == eval_end) {
	EatWildcard(&pattern, pattern_end, next);
	if (pattern != pattern_end)
	return false;
	return true;
	}
	}

	return false;
	}

	struct NextCharUTF8 {
	base_icu::UChar32 operator()(const char** p, const char* end) {
	base_icu::UChar32 c;
	int offset = 0;
	CBU8_NEXT(p, offset, end - p, c);
	*p += offset;
	return c;
	}
	};

	struct NextCharUTF16 {
	base_icu::UChar32 operator()(const char16** p, const char16* end) {
	base_icu::UChar32 c;
	int offset = 0;
	CBU16_NEXT(p, offset, end - p, c);
	*p += offset;
	return c;
	}
	};

	} // namespace

	bool MatchPattern(const StringPiece& eval, const StringPiece& pattern) {
	return MatchPatternT(eval.data(), eval.data() + eval.size(),
	pattern.data(), pattern.data() + pattern.size(),
	0, NextCharUTF8());
	}

	bool MatchPattern(const StringPiece16& eval, const StringPiece16& pattern) {
	return MatchPatternT(eval.data(), eval.data() + eval.size(),
	pattern.data(), pattern.data() + pattern.size(),
	0, NextCharUTF16());
	}

	} // namespace base