/* Pango * pango-utils.c: Utilities for internal functions and modules * * Copyright (C) 2000 Red Hat Software * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /** * SECTION:pango-version * @short_description:Tools for checking Pango version at compile- and run-time. * @title:Version Checking * * The capital-letter macros defined here can be used to check the version of Pango * at compile-time, and to encode Pango versions into integers. * * The functions can be used to check the version of the linked Pango library at run-time. */ /** * SECTION:utils * @short_description:Various convenience and utility functions * @title: Miscellaneous Utilities * * The functions and utilities in this section are mostly used from Pango * backends and modules, but may be useful for other purposes too. */ #include "config.h" #include #include #include #include #include #include "pango-font.h" #include "pango-features.h" #include "pango-impl-utils.h" #include #ifndef HAVE_FLOCKFILE # define flockfile(f) (void)1 # define funlockfile(f) (void)1 # define getc_unlocked(f) getc(f) #endif /* !HAVE_FLOCKFILE */ #ifdef G_OS_WIN32 #include #define STRICT #include #endif /** * pango_version: * * This is similar to the macro %PANGO_VERSION except that * it returns the encoded version of Pango available at run-time, * as opposed to the version available at compile-time. * * A version number can be encoded into an integer using * PANGO_VERSION_ENCODE(). * * Returns: The encoded version of Pango library * available at run time. * * Since: 1.16 **/ int pango_version (void) { return PANGO_VERSION; } /** * pango_version_string: * * This is similar to the macro %PANGO_VERSION_STRING except that * it returns the version of Pango available at run-time, as opposed to * the version available at compile-time. * * Returns: A string containing the version of Pango library * available at run time. * The returned string is owned by Pango and should not be modified * or freed. * * Since: 1.16 **/ const char * pango_version_string (void) { return PANGO_VERSION_STRING; } /** * pango_version_check: * @required_major: the required major version. * @required_minor: the required minor version. * @required_micro: the required major version. * * Checks that the Pango library in use is compatible with the * given version. Generally you would pass in the constants * %PANGO_VERSION_MAJOR, %PANGO_VERSION_MINOR, %PANGO_VERSION_MICRO * as the three arguments to this function; that produces * a check that the library in use at run-time is compatible with * the version of Pango the application or module was compiled against. * * Compatibility is defined by two things: first the version * of the running library is newer than the version * @required_major.required_minor.@required_micro. Second * the running library must be binary compatible with the * version @required_major.required_minor.@required_micro * (same major version.) * * For compile-time version checking use PANGO_VERSION_CHECK(). * * Return value: %NULL if the Pango library is compatible with the * given version, or a string describing the version mismatch. * The returned string is owned by Pango and should not be modified * or freed. * * Since: 1.16 **/ const gchar* pango_version_check (int required_major, int required_minor, int required_micro) { gint pango_effective_micro = 100 * PANGO_VERSION_MINOR + PANGO_VERSION_MICRO; gint required_effective_micro = 100 * required_minor + required_micro; if (required_major < PANGO_VERSION_MAJOR) return "Pango version too new (major mismatch)"; if (required_effective_micro < pango_effective_micro - PANGO_BINARY_AGE) return "Pango version too new (micro mismatch)"; if (required_effective_micro > pango_effective_micro) return "Pango version too old (micro mismatch)"; return NULL; } /** * pango_trim_string: * @str: a string * * Trims leading and trailing whitespace from a string. * * Return value: A newly-allocated string that must be freed with g_free() **/ char * pango_trim_string (const char *str) { int len; g_return_val_if_fail (str != NULL, NULL); while (*str && g_ascii_isspace (*str)) str++; len = strlen (str); while (len > 0 && g_ascii_isspace (str[len-1])) len--; return g_strndup (str, len); } /** * pango_split_file_list: * @str: a %G_SEARCHPATH_SEPARATOR separated list of filenames * * Splits a %G_SEARCHPATH_SEPARATOR-separated list of files, stripping * white space and substituting ~/ with $HOME/. * * Return value: (transfer full) (array zero-terminated=1): a list of * strings to be freed with g_strfreev() **/ char ** pango_split_file_list (const char *str) { int i = 0; int j; char **files; files = g_strsplit (str, G_SEARCHPATH_SEPARATOR_S, -1); while (files[i]) { char *file = pango_trim_string (files[i]); /* If the resulting file is empty, skip it */ if (file[0] == '\0') { g_free(file); g_free (files[i]); for (j = i + 1; files[j]; j++) files[j - 1] = files[j]; files[j - 1] = NULL; continue; } #ifndef G_OS_WIN32 /* '~' is a quite normal and common character in file names on * Windows, especially in the 8.3 versions of long file names, which * still occur now and then. Also, few Windows user are aware of the * Unix shell convention that '~' stands for the home directory, * even if they happen to have a home directory. */ if (file[0] == '~' && file[1] == G_DIR_SEPARATOR) { char *tmp = g_strconcat (g_get_home_dir(), file + 1, NULL); g_free (file); file = tmp; } else if (file[0] == '~' && file[1] == '\0') { g_free (file); file = g_strdup (g_get_home_dir()); } #endif g_free (files[i]); files[i] = file; i++; } return files; } /** * pango_read_line: * @stream: a stdio stream * @str: (out): #GString buffer into which to write the result * * Reads an entire line from a file into a buffer. Lines may * be delimited with '\n', '\r', '\n\r', or '\r\n'. The delimiter * is not written into the buffer. Text after a '#' character is treated as * a comment and skipped. '\' can be used to escape a # character. * '\' proceeding a line delimiter combines adjacent lines. A '\' proceeding * any other character is ignored and written into the output buffer * unmodified. * * Return value: 0 if the stream was already at an %EOF character, otherwise * the number of lines read (this is useful for maintaining * a line number counter which doesn't combine lines with '\') **/ gint pango_read_line (FILE *stream, GString *str) { gboolean quoted = FALSE; gboolean comment = FALSE; int n_read = 0; int lines = 1; flockfile (stream); g_string_truncate (str, 0); while (1) { int c; c = getc_unlocked (stream); if (c == EOF) { if (quoted) g_string_append_c (str, '\\'); goto done; } else n_read++; if (quoted) { quoted = FALSE; switch (c) { case '#': g_string_append_c (str, '#'); break; case '\r': case '\n': { int next_c = getc_unlocked (stream); if (!(next_c == EOF || (c == '\r' && next_c == '\n') || (c == '\n' && next_c == '\r'))) ungetc (next_c, stream); lines++; break; } default: g_string_append_c (str, '\\'); g_string_append_c (str, c); } } else { switch (c) { case '#': comment = TRUE; break; case '\\': if (!comment) quoted = TRUE; break; case '\n': { int next_c = getc_unlocked (stream); if (!(c == EOF || (c == '\r' && next_c == '\n') || (c == '\n' && next_c == '\r'))) ungetc (next_c, stream); goto done; } default: if (!comment) g_string_append_c (str, c); } } } done: funlockfile (stream); return (n_read > 0) ? lines : 0; } /** * pango_skip_space: * @pos: (inout): in/out string position * * Skips 0 or more characters of white space. * * Return value: %FALSE if skipping the white space leaves * the position at a '\0' character. **/ gboolean pango_skip_space (const char **pos) { const char *p = *pos; while (g_ascii_isspace (*p)) p++; *pos = p; return !(*p == '\0'); } /** * pango_scan_word: * @pos: (inout): in/out string position * @out: (out): a #GString into which to write the result * * Scans a word into a #GString buffer. A word consists * of [A-Za-z_] followed by zero or more [A-Za-z_0-9] * Leading white space is skipped. * * Return value: %FALSE if a parse error occurred. **/ gboolean pango_scan_word (const char **pos, GString *out) { const char *p = *pos; while (g_ascii_isspace (*p)) p++; if (!((*p >= 'A' && *p <= 'Z') || (*p >= 'a' && *p <= 'z') || *p == '_')) return FALSE; g_string_truncate (out, 0); g_string_append_c (out, *p); p++; while ((*p >= 'A' && *p <= 'Z') || (*p >= 'a' && *p <= 'z') || (*p >= '0' && *p <= '9') || *p == '_') { g_string_append_c (out, *p); p++; } *pos = p; return TRUE; } /** * pango_scan_string: * @pos: (inout): in/out string position * @out: (out): a #GString into which to write the result * * Scans a string into a #GString buffer. The string may either * be a sequence of non-white-space characters, or a quoted * string with '"'. Instead a quoted string, '\"' represents * a literal quote. Leading white space outside of quotes is skipped. * * Return value: %FALSE if a parse error occurred. **/ gboolean pango_scan_string (const char **pos, GString *out) { const char *p = *pos; while (g_ascii_isspace (*p)) p++; if (G_UNLIKELY (!*p)) return FALSE; else if (*p == '"') { gboolean quoted = FALSE; g_string_truncate (out, 0); p++; while (TRUE) { if (quoted) { int c = *p; switch (c) { case '\0': return FALSE; case 'n': c = '\n'; break; case 't': c = '\t'; break; default: break; } quoted = FALSE; g_string_append_c (out, c); } else { switch (*p) { case '\0': return FALSE; case '\\': quoted = TRUE; break; case '"': p++; goto done; default: g_string_append_c (out, *p); break; } } p++; } done: ; } else { g_string_truncate (out, 0); while (*p && !g_ascii_isspace (*p)) { g_string_append_c (out, *p); p++; } } *pos = p; return TRUE; } /** * pango_scan_int: * @pos: (inout): in/out string position * @out: (out): an int into which to write the result * * Scans an integer. * Leading white space is skipped. * * Return value: %FALSE if a parse error occurred. **/ gboolean pango_scan_int (const char **pos, int *out) { char *end; long temp; errno = 0; temp = strtol (*pos, &end, 10); if (errno == ERANGE) { errno = 0; return FALSE; } *out = (int)temp; if ((long)(*out) != temp) { return FALSE; } *pos = end; return TRUE; } static void read_config_file (const char *filename, gboolean enoent_error, GHashTable *ht) { GKeyFile *key_file = g_key_file_new(); GError *key_file_error = NULL; gchar **groups; gsize groups_count = 0; guint group_index; if (!g_key_file_load_from_file(key_file,filename, 0, &key_file_error)) { if (key_file_error) { if (key_file_error->domain != G_FILE_ERROR || key_file_error->code != G_FILE_ERROR_NOENT || enoent_error) { g_warning ("error opening config file '%s': %s\n", filename, key_file_error->message); } g_error_free(key_file_error); } g_key_file_free(key_file); return; } groups = g_key_file_get_groups (key_file, &groups_count); for (group_index = 0; group_index < groups_count; group_index++) { gsize keys_count = 0; const gchar *group = groups[group_index]; GError *keys_error = NULL; gchar **keys; keys = g_key_file_get_keys(key_file, group, &keys_count, &keys_error); if (keys) { guint key_index; for (key_index = 0; key_index < keys_count; key_index++) { const gchar *key = keys[key_index]; GError *key_error = NULL; gchar *value = g_key_file_get_value(key_file, group, key, &key_error); if (value != NULL) { g_hash_table_insert (ht, g_strdup_printf ("%s/%s", group, key), value); } if (key_error) { g_warning ("error getting key '%s/%s' in config file '%s'\n", group, key, filename); g_error_free(key_error); } } g_strfreev(keys); } if (keys_error) { g_warning ("error getting keys in group '%s' of config file '%s'\n", filename, group); g_error_free(keys_error); } } g_strfreev(groups); g_key_file_free(key_file); } static GHashTable * read_config_system (void) { char *filename; GHashTable *config_hash; config_hash = g_hash_table_new_full (g_str_hash, g_str_equal, (GDestroyNotify)g_free, (GDestroyNotify)g_free); filename = g_build_filename (pango_get_sysconf_subdirectory (), "pangorc", NULL); read_config_file (filename, FALSE, config_hash); g_free (filename); return config_hash; } static GHashTable * read_config (void) { static GHashTable *config_hash = NULL; if (g_once_init_enter (&config_hash)) { GHashTable *tmp_hash; char *filename; const char *envvar; tmp_hash = read_config_system (); filename = g_build_filename (g_get_user_config_dir (), "pango", "pangorc", NULL); read_config_file (filename, FALSE, tmp_hash); g_free (filename); envvar = g_getenv ("PANGO_RC_FILE"); if (envvar) read_config_file (envvar, TRUE, tmp_hash); g_once_init_leave (&config_hash, tmp_hash); } return config_hash; } /** * pango_config_key_get_system: * @key: Key to look up, in the form "SECTION/KEY". * * Looks up a key, consulting only the Pango system config database * in $sysconfdir/pango/pangorc. * * Return value: the value, if found, otherwise %NULL. The value is a * newly-allocated string and must be freed with g_free(). **/ char * pango_config_key_get_system (const char *key) { GHashTable *config_hash; gchar *ret; g_return_val_if_fail (key != NULL, NULL); config_hash = read_config_system (); ret = g_strdup (g_hash_table_lookup (config_hash, key)); g_hash_table_unref (config_hash); return ret; } /** * pango_config_key_get: * @key: Key to look up, in the form "SECTION/KEY". * * Looks up a key in the Pango config database * (pseudo-win.ini style, read from $sysconfdir/pango/pangorc, * $XDG_CONFIG_HOME/pango/pangorc, and getenv (PANGO_RC_FILE).) * * Return value: the value, if found, otherwise %NULL. The value is a * newly-allocated string and must be freed with g_free(). **/ char * pango_config_key_get (const char *key) { GHashTable *config_hash; g_return_val_if_fail (key != NULL, NULL); config_hash = read_config (); return g_strdup (g_hash_table_lookup (config_hash, key)); } #ifdef G_OS_WIN32 /* DllMain function needed to tuck away the DLL handle */ static HMODULE pango_dll; /* MT-safe */ BOOL WINAPI DllMain (HINSTANCE hinstDLL, DWORD fdwReason, LPVOID lpvReserved) { switch (fdwReason) { case DLL_PROCESS_ATTACH: pango_dll = (HMODULE) hinstDLL; break; } return TRUE; } #endif /** * pango_get_sysconf_subdirectory: * * On Unix, returns the name of the "pango" subdirectory of SYSCONFDIR * (which is set at compile time). On Windows, returns the etc\pango * subdirectory of the Pango installation directory (which is deduced * at run time from the DLL's location). * * Return value: the Pango sysconf directory. The returned string should * not be freed. */ const char * pango_get_sysconf_subdirectory (void) { static const gchar *result = NULL; /* MT-safe */ if (g_once_init_enter (&result)) { const char *tmp_result = NULL; #ifdef G_OS_WIN32 gchar *root = g_win32_get_package_installation_directory_of_module (pango_dll); tmp_result = g_build_filename (root, "etc\\pango", NULL); g_free (root); #else const char *sysconfdir = g_getenv ("PANGO_SYSCONFDIR"); if (sysconfdir != NULL) tmp_result = g_build_filename (sysconfdir, "pango", NULL); else tmp_result = SYSCONFDIR "/pango"; #endif g_once_init_leave(&result, tmp_result); } return result; } /** * pango_get_lib_subdirectory: * * On Unix, returns the name of the "pango" subdirectory of LIBDIR * (which is set at compile time). On Windows, returns the lib\pango * subdirectory of the Pango installation directory (which is deduced * at run time from the DLL's location). * * Return value: the Pango lib directory. The returned string should * not be freed. */ const char * pango_get_lib_subdirectory (void) { static const gchar *result = NULL; /* MT-safe */ if (g_once_init_enter (&result)) { const gchar *tmp_result = NULL; #ifdef G_OS_WIN32 gchar *root = g_win32_get_package_installation_directory_of_module (pango_dll); /* If we are running against an uninstalled copy of the Pango DLL, * use the compile-time installation prefix. */ if (g_str_has_suffix (root, "\\.libs")) tmp_result = g_strdup (LIBDIR "/pango"); else tmp_result = g_build_filename (root, "lib\\pango", NULL); g_free (root); #else const char *libdir = g_getenv ("PANGO_LIBDIR"); if (libdir != NULL) tmp_result = g_build_filename (libdir, "pango", NULL); else tmp_result = LIBDIR "/pango"; #endif g_once_init_leave(&result, tmp_result); } return result; } static gboolean parse_int (const char *word, int *out) { char *end; long val; int i; if (word == NULL) return FALSE; val = strtol (word, &end, 10); i = val; if (end != word && *end == '\0' && val >= 0 && val == i) { if (out) *out = i; return TRUE; } return FALSE; } /** * pango_parse_enum: * @type: enum type to parse, eg. %PANGO_TYPE_ELLIPSIZE_MODE. * @str: (allow-none): string to parse. May be %NULL. * @value: (out) (allow-none): integer to store the result in, or %NULL. * @warn: if %TRUE, issue a g_warning() on bad input. * @possible_values: (out) (allow-none): place to store list of possible values on failure, or %NULL. * * Parses an enum type and stores the result in @value. * * If @str does not match the nick name of any of the possible values for the * enum and is not an integer, %FALSE is returned, a warning is issued * if @warn is %TRUE, and a * string representing the list of possible values is stored in * @possible_values. The list is slash-separated, eg. * "none/start/middle/end". If failed and @possible_values is not %NULL, * returned string should be freed using g_free(). * * Return value: %TRUE if @str was successfully parsed. * * Since: 1.16 **/ gboolean pango_parse_enum (GType type, const char *str, int *value, gboolean warn, char **possible_values) { GEnumClass *class = NULL; gboolean ret = TRUE; GEnumValue *v = NULL; class = g_type_class_ref (type); if (G_LIKELY (str)) v = g_enum_get_value_by_nick (class, str); if (v) { if (G_LIKELY (value)) *value = v->value; } else if (!parse_int (str, value)) { ret = FALSE; if (G_LIKELY (warn || possible_values)) { int i; GString *s = g_string_new (NULL); for (i = 0, v = g_enum_get_value (class, i); v; i++ , v = g_enum_get_value (class, i)) { if (i) g_string_append_c (s, '/'); g_string_append (s, v->value_nick); } if (warn) g_warning ("%s must be one of %s", G_ENUM_CLASS_TYPE_NAME(class), s->str); if (possible_values) *possible_values = s->str; g_string_free (s, possible_values ? FALSE : TRUE); } } g_type_class_unref (class); return ret; } /** * pango_lookup_aliases: * @fontname: an ascii string * @families: (out) (array length=n_families): will be set to an array of font family names. * this array is owned by pango and should not be freed. * @n_families: (out): will be set to the length of the @families array. * * Look up all user defined aliases for the alias @fontname. * The resulting font family names will be stored in @families, * and the number of families in @n_families. * * Deprecated: 1.32: This function is not thread-safe. */ void pango_lookup_aliases (const char *fontname, char ***families, int *n_families) { *families = NULL; *n_families = 0; } /** * pango_find_base_dir: * @text: the text to process * @length: length of @text in bytes (may be -1 if @text is nul-terminated) * * Searches a string the first character that has a strong * direction, according to the Unicode bidirectional algorithm. * * Return value: The direction corresponding to the first strong character. * If no such character is found, then %PANGO_DIRECTION_NEUTRAL is returned. * * Since: 1.4 */ PangoDirection pango_find_base_dir (const gchar *text, gint length) { PangoDirection dir = PANGO_DIRECTION_NEUTRAL; const gchar *p; g_return_val_if_fail (text != NULL || length == 0, PANGO_DIRECTION_NEUTRAL); p = text; while ((length < 0 || p < text + length) && *p) { gunichar wc = g_utf8_get_char (p); dir = pango_unichar_direction (wc); if (dir != PANGO_DIRECTION_NEUTRAL) break; p = g_utf8_next_char (p); } return dir; } /** * pango_is_zero_width: * @ch: a Unicode character * * Checks @ch to see if it is a character that should not be * normally rendered on the screen. This includes all Unicode characters * with "ZERO WIDTH" in their name, as well as bidi formatting characters, and * a few other ones. This is totally different from g_unichar_iszerowidth() * and is at best misnamed. * * Return value: %TRUE if @ch is a zero-width character, %FALSE otherwise * * Since: 1.10 */ gboolean pango_is_zero_width (gunichar ch) { /* Zero Width characters: * * 00AD SOFT HYPHEN * 034F COMBINING GRAPHEME JOINER * * 200B ZERO WIDTH SPACE * 200C ZERO WIDTH NON-JOINER * 200D ZERO WIDTH JOINER * 200E LEFT-TO-RIGHT MARK * 200F RIGHT-TO-LEFT MARK * * 2028 LINE SEPARATOR * * 202A LEFT-TO-RIGHT EMBEDDING * 202B RIGHT-TO-LEFT EMBEDDING * 202C POP DIRECTIONAL FORMATTING * 202D LEFT-TO-RIGHT OVERRIDE * 202E RIGHT-TO-LEFT OVERRIDE * * 2060 WORD JOINER * 2061 FUNCTION APPLICATION * 2062 INVISIBLE TIMES * 2063 INVISIBLE SEPARATOR * * FEFF ZERO WIDTH NO-BREAK SPACE */ return ((ch & ~(gunichar)0x007F) == 0x2000 && ( (ch >= 0x200B && ch <= 0x200F) || (ch >= 0x202A && ch <= 0x202E) || (ch >= 0x2060 && ch <= 0x2063) || (ch == 0x2028) )) || G_UNLIKELY (ch == 0x00AD || ch == 0x034F || ch == 0xFEFF); } /** * pango_quantize_line_geometry: * @thickness: (inout): pointer to the thickness of a line, in Pango units * @position: (inout): corresponding position * * Quantizes the thickness and position of a line, typically an * underline or strikethrough, to whole device pixels, that is integer * multiples of %PANGO_SCALE. The purpose of this function is to avoid * such lines looking blurry. * * Care is taken to make sure @thickness is at least one pixel when this * function returns, but returned @position may become zero as a result * of rounding. * * Since: 1.12 */ void pango_quantize_line_geometry (int *thickness, int *position) { int thickness_pixels = (*thickness + PANGO_SCALE / 2) / PANGO_SCALE; if (thickness_pixels == 0) thickness_pixels = 1; if (thickness_pixels & 1) { int new_center = ((*position - *thickness / 2) & ~(PANGO_SCALE - 1)) + PANGO_SCALE / 2; *position = new_center + (PANGO_SCALE * thickness_pixels) / 2; } else { int new_center = ((*position - *thickness / 2 + PANGO_SCALE / 2) & ~(PANGO_SCALE - 1)); *position = new_center + (PANGO_SCALE * thickness_pixels) / 2; } *thickness = thickness_pixels * PANGO_SCALE; } /** * pango_units_from_double: * @d: double floating-point value * * Converts a floating-point number to Pango units: multiplies * it by %PANGO_SCALE and rounds to nearest integer. * * Return value: the value in Pango units. * * Since: 1.16 */ int pango_units_from_double (double d) { return (int)floor (d * PANGO_SCALE + 0.5); } /** * pango_units_to_double: * @i: value in Pango units * * Converts a number in Pango units to floating-point: divides * it by %PANGO_SCALE. * * Return value: the double value. * * Since: 1.16 */ double pango_units_to_double (int i) { return (double)i / PANGO_SCALE; } /** * pango_extents_to_pixels: * @inclusive: (allow-none): rectangle to round to pixels inclusively, or %NULL. * @nearest: (allow-none): rectangle to round to nearest pixels, or %NULL. * * Converts extents from Pango units to device units, dividing by the * %PANGO_SCALE factor and performing rounding. * * The @inclusive rectangle is converted by flooring the x/y coordinates and extending * width/height, such that the final rectangle completely includes the original * rectangle. * * The @nearest rectangle is converted by rounding the coordinates * of the rectangle to the nearest device unit (pixel). * * The rule to which argument to use is: if you want the resulting device-space * rectangle to completely contain the original rectangle, pass it in as @inclusive. * If you want two touching-but-not-overlapping rectangles stay * touching-but-not-overlapping after rounding to device units, pass them in * as @nearest. * * Since: 1.16 **/ void pango_extents_to_pixels (PangoRectangle *inclusive, PangoRectangle *nearest) { if (inclusive) { int orig_x = inclusive->x; int orig_y = inclusive->y; inclusive->x = PANGO_PIXELS_FLOOR (inclusive->x); inclusive->y = PANGO_PIXELS_FLOOR (inclusive->y); inclusive->width = PANGO_PIXELS_CEIL (orig_x + inclusive->width ) - inclusive->x; inclusive->height = PANGO_PIXELS_CEIL (orig_y + inclusive->height) - inclusive->y; } if (nearest) { int orig_x = nearest->x; int orig_y = nearest->y; nearest->x = PANGO_PIXELS (nearest->x); nearest->y = PANGO_PIXELS (nearest->y); nearest->width = PANGO_PIXELS (orig_x + nearest->width ) - nearest->x; nearest->height = PANGO_PIXELS (orig_y + nearest->height) - nearest->y; } } /********************************************************* * Some internal functions for handling PANGO_ATTR_SHAPE * ********************************************************/ void _pango_shape_shape (const char *text, unsigned int n_chars, PangoRectangle *shape_ink G_GNUC_UNUSED, PangoRectangle *shape_logical, PangoGlyphString *glyphs) { int i; const char *p; pango_glyph_string_set_size (glyphs, n_chars); for (i=0, p = text; i < n_chars; i++, p = g_utf8_next_char (p)) { glyphs->glyphs[i].glyph = PANGO_GLYPH_EMPTY; glyphs->glyphs[i].geometry.x_offset = 0; glyphs->glyphs[i].geometry.y_offset = 0; glyphs->glyphs[i].geometry.width = shape_logical->width; glyphs->glyphs[i].attr.is_cluster_start = 1; glyphs->log_clusters[i] = p - text; } } void _pango_shape_get_extents (gint n_chars, PangoRectangle *shape_ink, PangoRectangle *shape_logical, PangoRectangle *ink_rect, PangoRectangle *logical_rect) { if (n_chars > 0) { if (ink_rect) { ink_rect->x = MIN (shape_ink->x, shape_ink->x + shape_logical->width * (n_chars - 1)); ink_rect->width = MAX (shape_ink->width, shape_ink->width + shape_logical->width * (n_chars - 1)); ink_rect->y = shape_ink->y; ink_rect->height = shape_ink->height; } if (logical_rect) { logical_rect->x = MIN (shape_logical->x, shape_logical->x + shape_logical->width * (n_chars - 1)); logical_rect->width = MAX (shape_logical->width, shape_logical->width + shape_logical->width * (n_chars - 1)); logical_rect->y = shape_logical->y; logical_rect->height = shape_logical->height; } } else { if (ink_rect) { ink_rect->x = 0; ink_rect->y = 0; ink_rect->width = 0; ink_rect->height = 0; } if (logical_rect) { logical_rect->x = 0; logical_rect->y = 0; logical_rect->width = 0; logical_rect->height = 0; } } }