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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ---------------------------------------------------------------------- */ /** @file ParsingUtils.h * @brief Defines helper functions for text parsing */ #pragma once #ifndef AI_PARSING_UTILS_H_INC #define AI_PARSING_UTILS_H_INC #ifdef __GNUC__ #pragma GCC system_header #endif #include #include #include #include #include namespace Assimp { /// NOTE: the functions below are mostly intended as replacement for /// std::upper, std::lower, std::isupper, std::islower, std::isspace. /// we don't bother of locales. We don't want them. We want reliable /// (i.e. identical) results across all locales, because we had a lot /// of issues in the past . /// The functions below accept any character type, but know only /// about ASCII. However, UTF-32 is the only safe ASCII superset to /// use since it doesn't have multi-byte sequences. static constexpr unsigned int BufferSize = 4096; // --------------------------------------------------------------------------------- /// @brief Returns true, if the character is upper-case. /// @param in The character to test. /// @return true if upper-case, false if not. template AI_FORCE_INLINE bool IsUpper(char_t in) { return (in >= (char_t)'A' && in <= (char_t)'Z'); } // --------------------------------------------------------------------------------- /// @brief Returns true, if the character is lower-case. /// @param in The character to test. /// @return true if lower-case, false if not. template AI_FORCE_INLINE bool IsLower(char_t in) { return (in >= (char_t)'a' && in <= (char_t)'z'); } // --------------------------------------------------------------------------------- /// @brief Returns true, if the character is a space. /// @param in The character to test. /// @return true if a space, false if not. template AI_FORCE_INLINE bool IsSpace(char_t in) { return (in == (char_t)' ' || in == (char_t)'\t'); } // --------------------------------------------------------------------------------- /// @brief Returns true, if the character is a line end. /// @param in The character to test. /// @return true if a line end, false if not. template AI_FORCE_INLINE bool IsLineEnd(char_t in) { return (in == (char_t)'\r' || in == (char_t)'\n' || in == (char_t)'\0' || in == (char_t)'\f'); } // --------------------------------------------------------------------------------- /// @brief Returns true, if the character is a space or a line end. /// @param in The character to test. /// @return true if a space or a line end, false if not. template AI_FORCE_INLINE bool IsSpaceOrNewLine(char_t in) { return IsSpace(in) || IsLineEnd(in); } // --------------------------------------------------------------------------------- /// @brief Will skip all spaces in a buffer. /// @param in The incoming buffer. /// @param out The buffer with skipped data. /// @param end The end of the buffer. /// @return true if valid. template AI_FORCE_INLINE bool SkipSpaces(const char_t *in, const char_t **out, const char_t *end) { while ((*in == (char_t)' ' || *in == (char_t)'\t') && in != end) { ++in; } *out = in; return !IsLineEnd(*in); } // --------------------------------------------------------------------------------- /// @brief Will skip all spaces in a buffer in-situ. /// @param inout The in/out buffer. /// @param end The end of the buffer. /// @return true if valid. template AI_FORCE_INLINE bool SkipSpaces(const char_t **inout, const char_t *end) { return SkipSpaces(*inout, inout, end); } // --------------------------------------------------------------------------------- /// @brief Will skip a line. /// @param in The incoming buffer. /// @param out The buffer with skipped data. /// @param end The end of the buffer. /// @return true if valid. template AI_FORCE_INLINE bool SkipLine(const char_t *in, const char_t **out, const char_t *end) { while ((*in != (char_t)'\r' && *in != (char_t)'\n' && *in != (char_t)'\0') && *in != (char_t)'#' && in != end) { ++in; } // files are opened in binary mode. Ergo there are both NL and CR while ((*in == (char_t)'\r' || *in == (char_t)'\n') && in != end) { ++in; } *out = in; return *in != (char_t)'\0'; } // --------------------------------------------------------------------------------- /// @brief Will skip a line in-situ. /// @param in The in/out buffer. /// @param end The end of the buffer. /// @return true if valid. template AI_FORCE_INLINE bool SkipLine(const char_t **inout, const char_t *end) { return SkipLine(*inout, inout, end); } // --------------------------------------------------------------------------------- /// @brief Returns true, if the character is a space or a line end. /// @param in The character to test. /// @param out The buffer with the skipped data. /// @return true if valid. template AI_FORCE_INLINE bool SkipSpacesAndLineEnd(const char_t *in, const char_t **out, const char_t *end) { while ((*in == (char_t)' ' || *in == (char_t)'\t' || *in == (char_t)'\r' || *in == (char_t)'\n') && in != end) { ++in; } *out = in; return *in != '\0'; } // --------------------------------------------------------------------------------- /// @brief Returns true, if the character is a space or a line end. /// @param in The character to test. /// @param out The buffer with the skipped data. /// @return true if valid. template AI_FORCE_INLINE bool SkipSpacesAndLineEnd(const char_t **inout, const char_t *end) { return SkipSpacesAndLineEnd(*inout, inout, end); } // --------------------------------------------------------------------------------- /// @brief Will return point showing to the next line. /// @param buffer The in buffer. /// @param out The next line. /// @return true if a new lne was found, else false. template AI_FORCE_INLINE bool GetNextLine(const char_t *&buffer, char_t out[BufferSize]) { if ((char_t)'\0' == *buffer) { return false; } char *_out = out; char *const end = _out + BufferSize - 1; while (!IsLineEnd(*buffer) && _out < end) { *_out++ = *buffer++; } *_out = (char_t)'\0'; while (IsLineEnd(*buffer) && '\0' != *buffer && buffer != end) { ++buffer; } return true; } // --------------------------------------------------------------------------------- /// @brief Returns true, if the character is a number. /// @param in The character to test. /// @return true if a number, false if not. template AI_FORCE_INLINE bool IsNumeric(char_t in) { return (in >= '0' && in <= '9') || '-' == in || '+' == in; } // --------------------------------------------------------------------------------- /// @brief Will check an incoming buffer for a given token. /// @param in The incoming buffer. /// @param token The token to check for. /// @param len the buffer length. /// @return true if token was found, false if not. template AI_FORCE_INLINE bool TokenMatch(char_t *&in, const char *token, unsigned int len) { if (!::strncmp(token, in, len) && IsSpaceOrNewLine(in[len])) { if (in[len] != '\0') { in += len + 1; } else { // If EOF after the token make sure we don't go past end of buffer in += len; } return true; } return false; } // --------------------------------------------------------------------------------- /// @brief Case-ignoring version of TokenMatch /// @param in Input /// @param token Token to check for /// @param len Number of characters to check /// @return true if token was found, false if not. AI_FORCE_INLINE bool TokenMatchI(const char *&in, const char *token, unsigned int len) { if (!ASSIMP_strincmp(token, in, len) && IsSpaceOrNewLine(in[len])) { in += len + 1; return true; } return false; } // --------------------------------------------------------------------------------- /// @brief Will skip the next token. /// @param in The incoming buffer. /// @param end The end marker of the buffer. AI_FORCE_INLINE void SkipToken(const char *&in, const char *end) { SkipSpaces(&in, end); while (!IsSpaceOrNewLine(*in)) { ++in; } } // --------------------------------------------------------------------------------- /// @brief Will return the next token as a string. /// @param in The incoming buffer. /// @param end The end marker of the buffer. /// @return The next token. AI_FORCE_INLINE std::string GetNextToken(const char *&in, const char *end) { SkipSpacesAndLineEnd(&in, end); const char *cur = in; while (!IsSpaceOrNewLine(*in)) { ++in; } return std::string(cur, (size_t)(in - cur)); } // --------------------------------------------------------------------------------- /// @brief Will perform a simple tokenize. /// @param str String to tokenize. /// @param tokens Array with tokens, will be empty if no token was found. /// @param delimiters Delimiter for tokenize. /// @return Number of found token. template AI_FORCE_INLINE unsigned int tokenize(const string_type &str, std::vector &tokens, const string_type &delimiters) { // Skip delimiters at beginning. typename string_type::size_type lastPos = str.find_first_not_of(delimiters, 0); // Find first "non-delimiter". typename string_type::size_type pos = str.find_first_of(delimiters, lastPos); while (string_type::npos != pos || string_type::npos != lastPos) { // Found a token, add it to the vector. string_type tmp = str.substr(lastPos, pos - lastPos); if (!tmp.empty() && ' ' != tmp[0]) tokens.push_back(tmp); // Skip delimiters. Note the "not_of" lastPos = str.find_first_not_of(delimiters, pos); // Find next "non-delimiter" pos = str.find_first_of(delimiters, lastPos); } return static_cast(tokens.size()); } // --------------------------------------------------------------------------------- /// @brief Will convert the given string to lowercase with stl-strings. /// @param str The stl-string to convert. /// @return The lowercase string as a stl-string. inline std::string ai_stdStrToLower(const std::string &str) { std::string out(str); for (size_t i = 0; i < str.size(); ++i) { out[i] = (char) tolower((unsigned char)out[i]); } return out; } } // namespace Assimp #endif // ! AI_PARSING_UTILS_H_INC