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/* * Phusion Passenger - https://www.phusionpassenger.com/ * Copyright (c) 2013-2018 Phusion Holding B.V. * * "Passenger", "Phusion Passenger" and "Union Station" are registered * trademarks of Phusion Holding B.V. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #ifndef _PASSENGER_STR_INT_TOOLS_STRING_SCANNING_H_ #define _PASSENGER_STR_INT_TOOLS_STRING_SCANNING_H_ #include <cstring> #include <cstdlib> #include <string> #include <StaticString.h> #include <StrIntTools/StrIntUtils.h> /** * Utility functions for scanning strings. Given a pointer to string data, * these functions can read or skip parts of it and advance the pointer. * Especially useful for parsing the output of command line tools. * * const char *data = "hello world 1234"; * * readNextWord(&data); // => "hello" * printf("%s\n", data); // => " world 1234" * * readNextWord(&data); // => "world" * printf("%s\n", data); // => " 1234" * * readNextWordAsInt(&data); // => 1234 * printf("%s\n", data); // => "" * * readNextWord(&data); // => ParseException, * // because end has been reached */ namespace Passenger { using namespace std; struct ParseException {}; /** * Scan the given data for the first word that appears on the first line. * Leading whitespaces (but not newlines) are ignored. If a word is found * then the word is returned and the data pointer is moved to the end of * the word. * * If the first line only contains whitespaces, or if the first line is empty, * then a ParseException is thrown. * * @post result.size() > 0 */ inline StaticString readNextWord(const char **data) { skipLeadingWhitespaces(data); if (**data == '\n' || **data == '\0') { throw ParseException(); } // Find end of word and extract the word. const char *endOfWord = *data; while (*endOfWord != ' ' && *endOfWord != '\n' && *endOfWord != '\0') { endOfWord++; } StaticString result(*data, endOfWord - *data); // Move data pointer to the end of this word. *data = endOfWord; return result; } inline long long _processNextWordAsLongLong(const StaticString &word, char *nullTerminatedWord) { memcpy(nullTerminatedWord, word.c_str(), word.size()); nullTerminatedWord[word.size()] = '\0'; if (*nullTerminatedWord == '\0') { throw ParseException(); } else { return atoll(nullTerminatedWord); } } /** * Scan the given data for the first word that appears on the first line. * Leading whitespaces (but not newlines) are ignored. If a word is found * then the word is parsed as a 'long long' number and returned, and the * data pointer is moved to the end of the word. * * If the first line only contains whitespaces, or if the first line is empty, * then a ParseException is thrown. */ inline long long readNextWordAsLongLong(const char **data) { StaticString word = readNextWord(data); if (word.size() < 50) { char nullTerminatedWord[50]; return _processNextWordAsLongLong(word, nullTerminatedWord); } else { string nullTerminatedWord(word.size() + 1, '\0'); return _processNextWordAsLongLong(word, &nullTerminatedWord[0]); } } inline int _processNextWordAsInt(const StaticString &word, char *nullTerminatedWord) { memcpy(nullTerminatedWord, word.c_str(), word.size()); nullTerminatedWord[word.size()] = '\0'; if (*nullTerminatedWord == '\0') { throw ParseException(); } else { return atoi(nullTerminatedWord); } } /** * Scan the given data for the first word that appears on the first line. * Leading whitespaces (but not newlines) are ignored. If a word is found * then the word is parsed as an 'int' number and returned, and the * data pointer is moved to the end of the word. * * If the first line only contains whitespaces, or if the first line is empty, * then a ParseException is thrown. */ inline int readNextWordAsInt(const char **data) { StaticString word = readNextWord(data); if (word.size() < 50) { char nullTerminatedWord[50]; return _processNextWordAsInt(word, nullTerminatedWord); } else { string nullTerminatedWord(word.size() + 1, '\0'); return _processNextWordAsInt(word, &nullTerminatedWord[0]); } } inline double _processNextWordAsDouble(const StaticString &word, char *nullTerminatedWord) { memcpy(nullTerminatedWord, word.c_str(), word.size()); nullTerminatedWord[word.size()] = '\0'; if (*nullTerminatedWord == '\0') { throw ParseException(); } else { return atof(nullTerminatedWord); } } /** * Scan the given data for the first word that appears on the first line. * Leading whitespaces (but not newlines) are ignored. If a word is found * then the word is parsed as an 'double' number and returned, and the * data pointer is moved to the end of the word. * * If the first line only contains whitespaces, or if the first line is empty, * then a ParseException is thrown. */ inline double readNextWordAsDouble(const char **data) { StaticString word = readNextWord(data); if (word.size() < 50) { char nullTerminatedWord[50]; return _processNextWordAsDouble(word, nullTerminatedWord); } else { string nullTerminatedWord(word.size() + 1, '\0'); return _processNextWordAsDouble(word, &nullTerminatedWord[0]); } } /** * Return the first line in the given data, excluding leading and trailing * whitespaces, and excluding newline. If the first line only contains * whitespaces or if the first line is empty, then the empty string is * returned. * * If the data does not contain a newline, then a ParseException is thrown. */ inline string readRestOfLine(const char *data) { skipLeadingWhitespaces(&data); // Rest of line is allowed to be empty. if (*data == '\n' || *data == '\0') { return ""; } // Look for newline character. From there, scan back until we've // found a non-whitespace character. const char *endOfLine = strchr(data, '\n'); if (endOfLine == NULL) { throw ParseException(); } while (*(endOfLine - 1) == ' ') { endOfLine--; } return string(data, endOfLine - data); } inline bool skipToNextLine(const char **data) { const char *pos = strchr(*data, '\n'); if (pos != NULL) { pos++; *data = pos; return true; } else { return false; } } /** * Extract the first sentence from the first line in the data, where the end * of the sentence is dictated by the `terminator` argument. * Leading whitespaces (but not newlines) are ignored. The sentence is returned * and the data pointer is moved to 1 character past the terminator. * * The terminator may not be '\n' or '\0'. * * A ParseException is thrown if one of the following conditions are encountered: * * * The first line only contains whitespaces. * * The first line is empty. * * The read sentence is empty. * * The terminator character is not found. * * @post result.size() > 0 */ inline StaticString readNextSentence(const char **data, char terminator) { skipLeadingWhitespaces(data); if (**data == '\n' || **data == '\0' || **data == terminator) { throw ParseException(); } // Find end of sentence and extract the sentence. const char *endOfSentence = *data; do { endOfSentence++; } while (*endOfSentence != terminator && *endOfSentence != '\n' && *endOfSentence != '\0'); if (*endOfSentence == terminator) { StaticString result(*data, endOfSentence - *data); // Move data pointer 1 character past the terminator. *data = endOfSentence + 1; return result; } else { throw ParseException(); } } } // namespace Passenger #endif /* _PASSENGER_STR_INT_TOOLS_TEMPLATE_H_ */