code_app/third_party/ocr/tesseract-ocr/windows/include/tesseract/unichar.h

// SPDX-License-Identifier: Apache-2.0
// File:        unichar.h
// Description: Unicode character/ligature class.
// Author:      Ray Smith
//
// (C) Copyright 2006, Google Inc.
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

#ifndef TESSERACT_CCUTIL_UNICHAR_H_
#define TESSERACT_CCUTIL_UNICHAR_H_

#include "export.h"

#include <memory.h>
#include <cstring>
#include <string>
#include <vector>

namespace tesseract {

// Maximum number of characters that can be stored in a UNICHAR. Must be
// at least 4. Must not exceed 31 without changing the coding of length.
#define UNICHAR_LEN 30

// A UNICHAR_ID is the unique id of a unichar.
using UNICHAR_ID = int;

// A variable to indicate an invalid or uninitialized unichar id.
static const int INVALID_UNICHAR_ID = -1;
// A special unichar that corresponds to INVALID_UNICHAR_ID.
static const char INVALID_UNICHAR[] = "__INVALID_UNICHAR__";

enum StrongScriptDirection {
  DIR_NEUTRAL = 0,       // Text contains only neutral characters.
  DIR_LEFT_TO_RIGHT = 1, // Text contains no Right-to-Left characters.
  DIR_RIGHT_TO_LEFT = 2, // Text contains no Left-to-Right characters.
  DIR_MIX = 3,           // Text contains a mixture of left-to-right
                         // and right-to-left characters.
};

using char32 = signed int;

// The UNICHAR class holds a single classification result. This may be
// a single Unicode character (stored as between 1 and 4 utf8 bytes) or
// multiple Unicode characters representing the NFKC expansion of a ligature
// such as fi, ffl etc. These are also stored as utf8.
class TESS_API UNICHAR {
public:
  UNICHAR() {
    memset(chars, 0, UNICHAR_LEN);
  }

  // Construct from a utf8 string. If len<0 then the string is null terminated.
  // If the string is too long to fit in the UNICHAR then it takes only what
  // will fit.
  UNICHAR(const char *utf8_str, int len);

  // Construct from a single UCS4 character.
  explicit UNICHAR(int unicode);

  // Default copy constructor and operator= are OK.

  // Get the first character as UCS-4.
  int first_uni() const;

  // Get the length of the UTF8 string.
  int utf8_len() const {
    int len = chars[UNICHAR_LEN - 1];
    return len >= 0 && len < UNICHAR_LEN ? len : UNICHAR_LEN;
  }

  // Get a UTF8 string, but NOT nullptr terminated.
  const char *utf8() const {
    return chars;
  }

  // Get a terminated UTF8 string: Must delete[] it after use.
  char *utf8_str() const;

  // Get the number of bytes in the first character of the given utf8 string.
  static int utf8_step(const char *utf8_str);

  // A class to simplify iterating over and accessing elements of a UTF8
  // string. Note that unlike the UNICHAR class, const_iterator does NOT COPY or
  // take ownership of the underlying byte array. It also does not permit
  // modification of the array (as the name suggests).
  //
  // Example:
  //   for (UNICHAR::const_iterator it = UNICHAR::begin(str, str_len);
  //        it != UNICHAR::end(str, len);
  //        ++it) {
  //     printf("UCS-4 symbol code = %d\n", *it);
  //     char buf[5];
  //     int char_len = it.get_utf8(buf); buf[char_len] = '\0';
  //     printf("Char = %s\n", buf);
  //   }
  class TESS_API const_iterator {
    using CI = const_iterator;

  public:
    // Step to the next UTF8 character.
    // If the current position is at an illegal UTF8 character, then print an
    // error message and step by one byte. If the current position is at a
    // nullptr value, don't step past it.
    const_iterator &operator++();

    // Return the UCS-4 value at the current position.
    // If the current position is at an illegal UTF8 value, return a single
    // space character.
    int operator*() const;

    // Store the UTF-8 encoding of the current codepoint into buf, which must be
    // at least 4 bytes long. Return the number of bytes written.
    // If the current position is at an illegal UTF8 value, writes a single
    // space character and returns 1.
    // Note that this method does not null-terminate the buffer.
    int get_utf8(char *buf) const;
    // Returns the number of bytes of the current codepoint. Returns 1 if the
    // current position is at an illegal UTF8 value.
    int utf8_len() const;
    // Returns true if the UTF-8 encoding at the current position is legal.
    bool is_legal() const;

    // Return the pointer into the string at the current position.
    const char *utf8_data() const {
      return it_;
    }

    // Iterator equality operators.
    friend bool operator==(const CI &lhs, const CI &rhs) {
      return lhs.it_ == rhs.it_;
    }
    friend bool operator!=(const CI &lhs, const CI &rhs) {
      return !(lhs == rhs);
    }

  private:
    friend class UNICHAR;
    explicit const_iterator(const char *it) : it_(it) {}

    const char *it_; // Pointer into the string.
  };

  // Create a start/end iterator pointing to a string. Note that these methods
  // are static and do NOT create a copy or take ownership of the underlying
  // array.
  static const_iterator begin(const char *utf8_str, int byte_length);
  static const_iterator end(const char *utf8_str, int byte_length);

  // Converts a utf-8 string to a vector of unicodes.
  // Returns an empty vector if the input contains invalid UTF-8.
  static std::vector<char32> UTF8ToUTF32(const char *utf8_str);
  // Converts a vector of unicodes to a utf8 string.
  // Returns an empty string if the input contains an invalid unicode.
  static std::string UTF32ToUTF8(const std::vector<char32> &str32);

private:
  // A UTF-8 representation of 1 or more Unicode characters.
  // The last element (chars[UNICHAR_LEN - 1]) is a length if
  // its value < UNICHAR_LEN, otherwise it is a genuine character.
  char chars[UNICHAR_LEN]{};
};

} // namespace tesseract

#endif // TESSERACT_CCUTIL_UNICHAR_H_
HGImgProc库中集成tesseract-ocr 2022-10-22 00:53:11 +00:00			`// SPDX-License-Identifier: Apache-2.0`
			`// File: unichar.h`
			`// Description: Unicode character/ligature class.`
			`// Author: Ray Smith`
			`//`
			`// (C) Copyright 2006, Google Inc.`
			`// Licensed under the Apache License, Version 2.0 (the "License");`
			`// you may not use this file except in compliance with the License.`
			`// You may obtain a copy of the License at`
			`// http://www.apache.org/licenses/LICENSE-2.0`
			`// Unless required by applicable law or agreed to in writing, software`
			`// distributed under the License is distributed on an "AS IS" BASIS,`
			`// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.`
			`// See the License for the specific language governing permissions and`
			`// limitations under the License.`

			`#ifndef TESSERACT_CCUTIL_UNICHAR_H_`
			`#define TESSERACT_CCUTIL_UNICHAR_H_`

			`#include "export.h"`

			`#include <memory.h>`
			`#include <cstring>`
			`#include <string>`
			`#include <vector>`

			`namespace tesseract {`

			`// Maximum number of characters that can be stored in a UNICHAR. Must be`
			`// at least 4. Must not exceed 31 without changing the coding of length.`
			`#define UNICHAR_LEN 30`

			`// A UNICHAR_ID is the unique id of a unichar.`
			`using UNICHAR_ID = int;`

			`// A variable to indicate an invalid or uninitialized unichar id.`
			`static const int INVALID_UNICHAR_ID = -1;`
			`// A special unichar that corresponds to INVALID_UNICHAR_ID.`
			`static const char INVALID_UNICHAR[] = "__INVALID_UNICHAR__";`

			`enum StrongScriptDirection {`
			`DIR_NEUTRAL = 0, // Text contains only neutral characters.`
			`DIR_LEFT_TO_RIGHT = 1, // Text contains no Right-to-Left characters.`
			`DIR_RIGHT_TO_LEFT = 2, // Text contains no Left-to-Right characters.`
			`DIR_MIX = 3, // Text contains a mixture of left-to-right`
			`// and right-to-left characters.`
			`};`

			`using char32 = signed int;`

			`// The UNICHAR class holds a single classification result. This may be`
			`// a single Unicode character (stored as between 1 and 4 utf8 bytes) or`
			`// multiple Unicode characters representing the NFKC expansion of a ligature`
			`// such as fi, ffl etc. These are also stored as utf8.`
			`class TESS_API UNICHAR {`
			`public:`
			`UNICHAR() {`
			`memset(chars, 0, UNICHAR_LEN);`
			`}`

			`// Construct from a utf8 string. If len<0 then the string is null terminated.`
			`// If the string is too long to fit in the UNICHAR then it takes only what`
			`// will fit.`
			`UNICHAR(const char *utf8_str, int len);`

			`// Construct from a single UCS4 character.`
			`explicit UNICHAR(int unicode);`

			`// Default copy constructor and operator= are OK.`

			`// Get the first character as UCS-4.`
			`int first_uni() const;`

			`// Get the length of the UTF8 string.`
			`int utf8_len() const {`
			`int len = chars[UNICHAR_LEN - 1];`
			`return len >= 0 && len < UNICHAR_LEN ? len : UNICHAR_LEN;`
			`}`

			`// Get a UTF8 string, but NOT nullptr terminated.`
			`const char *utf8() const {`
			`return chars;`
			`}`

			`// Get a terminated UTF8 string: Must delete[] it after use.`
			`char *utf8_str() const;`

			`// Get the number of bytes in the first character of the given utf8 string.`
			`static int utf8_step(const char *utf8_str);`

			`// A class to simplify iterating over and accessing elements of a UTF8`
			`// string. Note that unlike the UNICHAR class, const_iterator does NOT COPY or`
			`// take ownership of the underlying byte array. It also does not permit`
			`// modification of the array (as the name suggests).`
			`//`
			`// Example:`
			`// for (UNICHAR::const_iterator it = UNICHAR::begin(str, str_len);`
			`// it != UNICHAR::end(str, len);`
			`// ++it) {`
			`// printf("UCS-4 symbol code = %d\n", *it);`
			`// char buf[5];`
			`// int char_len = it.get_utf8(buf); buf[char_len] = '\0';`
			`// printf("Char = %s\n", buf);`
			`// }`
			`class TESS_API const_iterator {`
			`using CI = const_iterator;`

			`public:`
			`// Step to the next UTF8 character.`
			`// If the current position is at an illegal UTF8 character, then print an`
			`// error message and step by one byte. If the current position is at a`
			`// nullptr value, don't step past it.`
			`const_iterator &operator++();`

			`// Return the UCS-4 value at the current position.`
			`// If the current position is at an illegal UTF8 value, return a single`
			`// space character.`
			`int operator*() const;`

			`// Store the UTF-8 encoding of the current codepoint into buf, which must be`
			`// at least 4 bytes long. Return the number of bytes written.`
			`// If the current position is at an illegal UTF8 value, writes a single`
			`// space character and returns 1.`
			`// Note that this method does not null-terminate the buffer.`
			`int get_utf8(char *buf) const;`
			`// Returns the number of bytes of the current codepoint. Returns 1 if the`
			`// current position is at an illegal UTF8 value.`
			`int utf8_len() const;`
			`// Returns true if the UTF-8 encoding at the current position is legal.`
			`bool is_legal() const;`

			`// Return the pointer into the string at the current position.`
			`const char *utf8_data() const {`
			`return it_;`
			`}`

			`// Iterator equality operators.`
			`friend bool operator==(const CI &lhs, const CI &rhs) {`
			`return lhs.it_ == rhs.it_;`
			`}`
			`friend bool operator!=(const CI &lhs, const CI &rhs) {`
			`return !(lhs == rhs);`
			`}`

			`private:`
			`friend class UNICHAR;`
			`explicit const_iterator(const char *it) : it_(it) {}`

			`const char *it_; // Pointer into the string.`
			`};`

			`// Create a start/end iterator pointing to a string. Note that these methods`
			`// are static and do NOT create a copy or take ownership of the underlying`
			`// array.`
			`static const_iterator begin(const char *utf8_str, int byte_length);`
			`static const_iterator end(const char *utf8_str, int byte_length);`

			`// Converts a utf-8 string to a vector of unicodes.`
			`// Returns an empty vector if the input contains invalid UTF-8.`
			`static std::vector<char32> UTF8ToUTF32(const char *utf8_str);`
			`// Converts a vector of unicodes to a utf8 string.`
			`// Returns an empty string if the input contains an invalid unicode.`
			`static std::string UTF32ToUTF8(const std::vector<char32> &str32);`

			`private:`
			`// A UTF-8 representation of 1 or more Unicode characters.`
			`// The last element (chars[UNICHAR_LEN - 1]) is a length if`
			`// its value < UNICHAR_LEN, otherwise it is a genuine character.`
			`char chars[UNICHAR_LEN]{};`
			`};`

			`} // namespace tesseract`

			`#endif // TESSERACT_CCUTIL_UNICHAR_H_`