/* * Copyright (C) 1996-2002, International Business Machines Corporation and others. All Rights Reserved. ***************************************************************************************** */ #ifndef UBRK_H #define UBRK_H #include "unicode/utypes.h" #include "unicode/parseerr.h" /** * \file * \brief C API: BreakIterator * *
* Line boundary analysis determines where a text string can be broken * when line-wrapping. The mechanism correctly handles punctuation and * hyphenated words. *
* Sentence boundary analysis allows selection with correct * interpretation of periods within numbers and abbreviations, and * trailing punctuation marks such as quotation marks and parentheses. *
* Word boundary analysis is used by search and replace functions, as * well as within text editing applications that allow the user to * select words with a double click. Word selection provides correct * interpretation of punctuation marks within and following * words. Characters that are not part of a word, such as symbols or * punctuation marks, have word-breaks on both sides. *
* Character boundary analysis allows users to interact with * characters as they expect to, for example, when moving the cursor * through a text string. Character boundary analysis provides correct * navigation of through character strings, regardless of how the * character is stored. For example, an accented character might be * stored as a base character and a diacritical mark. What users * consider to be a character can differ between languages. *
* Title boundary analysis locates all positions, * typically starts of words, that should be set to Title Case * when title casing the text. *
* * This is the interface for all text boundaries. *
* Examples: *
* Helper function to output text *
* \code * void printTextRange(UChar* str, int32_t start, int32_t end ) { * UChar* result; * UChar* temp; * const char* res; * temp=(UChar*)malloc(sizeof(UChar) * ((u_strlen(str)-start)+1)); * result=(UChar*)malloc(sizeof(UChar) * ((end-start)+1)); * u_strcpy(temp, &str[start]); * u_strncpy(result, temp, end-start); * res=(char*)malloc(sizeof(char) * (u_strlen(result)+1)); * u_austrcpy(res, result); * printf("%s\n", res); * } * \endcode ** Print each element in order: *
* \code * void printEachForward( UBreakIterator* boundary, UChar* str) { * int32_t end; * int32_t start = ubrk_first(boundary); * for (end = ubrk_next(boundary)); end != UBRK_DONE; start = end, end = ubrk_next(boundary)) { * printTextRange(str, start, end ); * } * } * \endcode ** Print each element in reverse order: *
* \code * void printEachBackward( UBreakIterator* boundary, UChar* str) { * int32_t start; * int32_t end = ubrk_last(boundary); * for (start = ubrk_previous(boundary); start != UBRK_DONE; end = start, start =ubrk_previous(boundary)) { * printTextRange( str, start, end ); * } * } * \endcode ** Print first element *
* \code * void printFirst(UBreakIterator* boundary, UChar* str) { * int32_t end; * int32_t start = ubrk_first(boundary); * end = ubrk_next(boundary); * printTextRange( str, start, end ); * } * \endcode ** Print last element *
* \code * void printLast(UBreakIterator* boundary, UChar* str) { * int32_t start; * int32_t end = ubrk_last(boundary); * start = ubrk_previous(boundary); * printTextRange(str, start, end ); * } * \endcode ** Print the element at a specified position *
* \code * void printAt(UBreakIterator* boundary, int32_t pos , UChar* str) { * int32_t start; * int32_t end = ubrk_following(boundary, pos); * start = ubrk_previous(boundary); * printTextRange(str, start, end ); * } * \endcode ** Creating and using text boundaries *
* \code * void BreakIterator_Example( void ) { * UBreakIterator* boundary; * UChar *stringToExamine; * stringToExamine=(UChar*)malloc(sizeof(UChar) * (strlen("Aaa bbb ccc. Ddd eee fff.")+1) ); * u_uastrcpy(stringToExamine, "Aaa bbb ccc. Ddd eee fff."); * printf("Examining: "Aaa bbb ccc. Ddd eee fff."); * * //print each sentence in forward and reverse order * boundary = ubrk_open(UBRK_SENTENCE, "en_us", stringToExamine, u_strlen(stringToExamine), &status); * printf("----- forward: -----------\n"); * printEachForward(boundary, stringToExamine); * printf("----- backward: ----------\n"); * printEachBackward(boundary, stringToExamine); * ubrk_close(boundary); * * //print each word in order * boundary = ubrk_open(UBRK_WORD, "en_us", stringToExamine, u_strlen(stringToExamine), &status); * printf("----- forward: -----------\n"); * printEachForward(boundary, stringToExamine); * printf("----- backward: ----------\n"); * printEachBackward(boundary, stringToExamine); * //print first element * printf("----- first: -------------\n"); * printFirst(boundary, stringToExamine); * //print last element * printf("----- last: --------------\n"); * printLast(boundary, stringToExamine); * //print word at charpos 10 * printf("----- at pos 10: ---------\n"); * printAt(boundary, 10 , stringToExamine); * * ubrk_close(boundary); * } * \endcode **/ /** * A text-break iterator. * For usage in C programs. */ #ifndef UBRK_TYPEDEF_UBREAK_ITERATOR # define UBRK_TYPEDEF_UBREAK_ITERATOR typedef void UBreakIterator; #endif /** The possible types of text boundaries. */ typedef enum UBreakIteratorType { /** Character breaks */ UBRK_CHARACTER, /** Word breaks */ UBRK_WORD, /** Line breaks */ UBRK_LINE, /** Sentence breaks */ UBRK_SENTENCE, /** Title Case breaks */ UBRK_TITLE } UBreakIteratorType; /** Value indicating all text boundaries have been returned. * */ #define UBRK_DONE ((int32_t) -1) /** * Enum constants for the word break tags returned by * getRuleStatus(). A range of values is defined for each category of * word, to allow for further subdivisions of a category in future releases. * Applications should check for tag values falling within the range, rather * than for single individual values. */ typedef enum UWordBreak { /** Tag value for "words" that do not fit into any of other categories. * Includes spaces and most punctuation. */ UBRK_WORD_NONE = 0, /** Upper bound for tags for uncategorized words. */ UBRK_WORD_NONE_LIMIT = 100, /** Tag value for words that appear to be numbers, lower limit. */ UBRK_WORD_NUMBER = 100, /** Tag value for words that appear to be numbers, upper limit. */ UBRK_WORD_NUMBER_LIMIT = 200, /** Tag value for words that contain letters, excluding * hiragana, katakana or ideographic characters, lower limit. */ UBRK_WORD_LETTER = 200, /** Tag value for words containing letters, upper limit */ UBRK_WORD_LETTER_LIMIT = 300, /** Tag value for words containing kana characters, lower limit */ UBRK_WORD_KANA = 300, /** Tag value for words containing kana characters, upper limit */ UBRK_WORD_KANA_LIMIT = 400, /** Tag value for words containing ideographic characters, lower limit */ UBRK_WORD_IDEO = 400, /** Tag value for words containing ideographic characters, upper limit */ UBRK_WORD_IDEO_LIMIT = 500 } UWordBreak; /** * Open a new UBreakIterator for locating text boundaries for a specified locale. * A UBreakIterator may be used for detecting character, line, word, * and sentence breaks in text. * @param type The type of UBreakIterator to open: one of UBRK_CHARACTER, UBRK_WORD, * UBRK_LINE, UBRK_SENTENCE * @param locale The locale specifying the text-breaking conventions. * @param text The text to be iterated over. * @param textLength The number of characters in text, or -1 if null-terminated. * @param status A UErrorCode to receive any errors. * @return A UBreakIterator for the specified locale. * @see ubrk_openRules * @stable */ U_CAPI UBreakIterator* U_EXPORT2 ubrk_open(UBreakIteratorType type, const char *locale, const UChar *text, int32_t textLength, UErrorCode *status); /** * Open a new UBreakIterator for locating text boundaries using specified breaking rules. * The rule syntax is ... (TBD) * @param rules A set of rules specifying the text breaking conventions. * @param rulesLength The number of characters in rules, or -1 if null-terminated. * @param text The text to be iterated over. May be null, in which case ubrk_setText() is * used to specify the text to be iterated. * @param textLength The number of characters in text, or -1 if null-terminated. * @param parseErr Receives position and context information for any syntax errors * detected while parsing the rules. * @param status A UErrorCode to receive any errors. * @return A UBreakIterator for the specified rules. * @see ubrk_open * @draft ICU 2.2 */ U_CAPI UBreakIterator* U_EXPORT2 ubrk_openRules(const UChar *rules, int32_t rulesLength, const UChar *text, int32_t textLength, UParseError *parseErr, UErrorCode *status); /** * Thread safe cloning operation * @param bi iterator to be cloned * @param stackBuffer user allocated space for the new clone. If NULL new memory will be allocated. * If buffer is not large enough, new memory will be allocated. * Clients can use the U_BRK_SAFECLONE_BUFFERSIZE. This will probably be enough to avoid memory allocations. * @param pBufferSize pointer to size of allocated space. * If *pBufferSize == 0, a sufficient size for use in cloning will * be returned ('pre-flighting') * If *pBufferSize is not enough for a stack-based safe clone, * new memory will be allocated. * @param status to indicate whether the operation went on smoothly or there were errors * An informational status value, U_SAFECLONE_ALLOCATED_ERROR, is used if any allocations were necessary. * @return pointer to the new clone * @stable */ U_CAPI UBreakIterator * U_EXPORT2 ubrk_safeClone( const UBreakIterator *bi, void *stackBuffer, int32_t *pBufferSize, UErrorCode *status); #define U_BRK_SAFECLONE_BUFFERSIZE 512 /** * Close a UBreakIterator. * Once closed, a UBreakIterator may no longer be used. * @param bi The break iterator to close. * @stable */ U_CAPI void U_EXPORT2 ubrk_close(UBreakIterator *bi); /** * Sets an existing iterator to point to a new piece of text * @param bi The iterator to use * @param text The text to be set * @param textLength The length of the text * @param status The error code * @stable */ U_CAPI void U_EXPORT2 ubrk_setText(UBreakIterator* bi, const UChar* text, int32_t textLength, UErrorCode* status); /** * Determine the most recently-returned text boundary. * * @param bi The break iterator to use. * @return The character index most recently returned by \Ref{ubrk_next}, \Ref{ubrk_previous}, * \Ref{ubrk_first}, or \Ref{ubrk_last}. * @stable */ U_CAPI int32_t U_EXPORT2 ubrk_current(const UBreakIterator *bi); /** * Determine the text boundary following the current text boundary. * * @param bi The break iterator to use. * @return The character index of the next text boundary, or UBRK_DONE * if all text boundaries have been returned. * @see ubrk_previous * @stable */ U_CAPI int32_t U_EXPORT2 ubrk_next(UBreakIterator *bi); /** * Determine the text boundary preceding the current text boundary. * * @param bi The break iterator to use. * @return The character index of the preceding text boundary, or UBRK_DONE * if all text boundaries have been returned. * @see ubrk_next * @stable */ U_CAPI int32_t U_EXPORT2 ubrk_previous(UBreakIterator *bi); /** * Determine the index of the first character in the text being scanned. * This is not always the same as index 0 of the text. * @param bi The break iterator to use. * @return The character index of the first character in the text being scanned. * @see ubrk_last * @stable */ U_CAPI int32_t U_EXPORT2 ubrk_first(UBreakIterator *bi); /** * Determine the index immediately beyond the last character in the text being * scanned. * This is not the same as the last character. * @param bi The break iterator to use. * @return The character offset immediately beyond the last character in the * text being scanned. * @see ubrk_first * @stable */ U_CAPI int32_t U_EXPORT2 ubrk_last(UBreakIterator *bi); /** * Determine the text boundary preceding the specified offset. * The value returned is always smaller than offset, or UBRK_DONE. * @param bi The break iterator to use. * @param offset The offset to begin scanning. * @return The text boundary preceding offset, or UBRK_DONE. * @see ubrk_following * @stable */ U_CAPI int32_t U_EXPORT2 ubrk_preceding(UBreakIterator *bi, int32_t offset); /** * Determine the text boundary following the specified offset. * The value returned is always greater than offset, or UBRK_DONE. * @param bi The break iterator to use. * @param offset The offset to begin scanning. * @return The text boundary following offset, or UBRK_DONE. * @see ubrk_preceding * @stable */ U_CAPI int32_t U_EXPORT2 ubrk_following(UBreakIterator *bi, int32_t offset); /** * Get a locale for which text breaking information is available. * A UBreakIterator in a locale returned by this function will perform the correct * text breaking for the locale. * @param index The index of the desired locale. * @return A locale for which number text breaking information is available, or 0 if none. * @see ubrk_countAvailable * @stable */ U_CAPI const char* U_EXPORT2 ubrk_getAvailable(int32_t index); /** * Determine how many locales have text breaking information available. * This function is most useful as determining the loop ending condition for * calls to \Ref{ubrk_getAvailable}. * @return The number of locales for which text breaking information is available. * @see ubrk_getAvailable * @stable */ U_CAPI int32_t U_EXPORT2 ubrk_countAvailable(void); /** * Returns true if the specfied position is a boundary position. As a side * effect, leaves the iterator pointing to the first boundary position at * or after "offset". * @param bi The break iterator to use. * @param offset the offset to check. * @return True if "offset" is a boundary position. * @stable */ U_CAPI UBool U_EXPORT2 ubrk_isBoundary(UBreakIterator *bi, int32_t offset); /** * Return the status from the break rule that determined the most recently * returned break position. The values appear in the rule source * within brackets, {123}, for example. For rules that do not specify a * status, a default value of 0 is returned. *
* For word break iterators, the possible values are defined in enum UWordBreak. * @draft ICU 2.2 */ U_CAPI int32_t U_EXPORT2 ubrk_getRuleStatus(UBreakIterator *bi); #endif