// Copyright 2013 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. #ifndef URL_URL_PARSE_INTERNAL_H_ #define URL_URL_PARSE_INTERNAL_H_ // Contains common inline helper functions used by the URL parsing routines. #include "url/url_parse.h" namespace url_parse { // We treat slashes and backslashes the same for IE compatability. inline bool IsURLSlash(base::char16 ch) { return ch == '/' || ch == '\\'; } // Returns true if we should trim this character from the URL because it is a // space or a control character. inline bool ShouldTrimFromURL(base::char16 ch) { return ch <= ' '; } // Given an already-initialized begin index and length, this shrinks the range // to eliminate "should-be-trimmed" characters. Note that the length does *not* // indicate the length of untrimmed data from |*begin|, but rather the position // in the input string (so the string starts at character |*begin| in the spec, // and goes until |*len|). template<typename CHAR> inline void TrimURL(const CHAR* spec, int* begin, int* len, bool trim_path_end = true) { // Strip leading whitespace and control characters. while (*begin < *len && ShouldTrimFromURL(spec[*begin])) (*begin)++; if (trim_path_end) { // Strip trailing whitespace and control characters. We need the >i test // for when the input string is all blanks; we don't want to back past the // input. while (*len > *begin && ShouldTrimFromURL(spec[*len - 1])) (*len)--; } } // Counts the number of consecutive slashes starting at the given offset // in the given string of the given length. template<typename CHAR> inline int CountConsecutiveSlashes(const CHAR *str, int begin_offset, int str_len) { int count = 0; while (begin_offset + count < str_len && IsURLSlash(str[begin_offset + count])) ++count; return count; } // Internal functions in url_parse.cc that parse the path, that is, everything // following the authority section. The input is the range of everything // following the authority section, and the output is the identified ranges. // // This is designed for the file URL parser or other consumers who may do // special stuff at the beginning, but want regular path parsing, it just // maps to the internal parsing function for paths. void ParsePathInternal(const char* spec, const Component& path, Component* filepath, Component* query, Component* ref); void ParsePathInternal(const base::char16* spec, const Component& path, Component* filepath, Component* query, Component* ref); // Given a spec and a pointer to the character after the colon following the // scheme, this parses it and fills in the structure, Every item in the parsed // structure is filled EXCEPT for the scheme, which is untouched. void ParseAfterScheme(const char* spec, int spec_len, int after_scheme, Parsed* parsed); void ParseAfterScheme(const base::char16* spec, int spec_len, int after_scheme, Parsed* parsed); } // namespace url_parse #endif // URL_URL_PARSE_INTERNAL_H_