#include <SDL_image.h>
#include <physfs.h>
-#include "physfs/physfs_sdl.hpp"
-
-#include "util/file_system.hpp"
-
#include "lisp/list_iterator.hpp"
#include "lisp/parser.hpp"
+#include "physfs/physfs_sdl.hpp"
#include "supertux/screen.hpp"
+#include "util/file_system.hpp"
#include "util/log.hpp"
+#include "util/utf8_iterator.hpp"
#include "video/drawing_context.hpp"
#include "video/font.hpp"
#include "video/renderer.hpp"
namespace {
-bool has_multibyte_mark(unsigned char c);
-uint32_t decode_utf8(const std::string& text, size_t& p);
-std::string encode_utf8(uint32_t code);
-
-struct UTF8Iterator
-{
- const std::string& text;
- std::string::size_type pos;
- uint32_t chr;
-
- UTF8Iterator(const std::string& text_) :
- text(text_),
- pos(0),
- chr()
- {
- try {
- chr = decode_utf8(text, pos);
- } catch (std::exception) {
- log_debug << "Malformed utf-8 sequence beginning with " << *((uint32_t*)(text.c_str() + pos)) << " found " << std::endl;
- chr = 0;
- }
- }
-
- bool done() const
- {
- return pos > text.size();
- }
-
- UTF8Iterator& operator++() {
- try {
- chr = decode_utf8(text, pos);
- } catch (std::exception) {
- log_debug << "Malformed utf-8 sequence beginning with " << *((uint32_t*)(text.c_str() + pos)) << " found " << std::endl;
- chr = 0;
- ++pos;
- }
-
- return *this;
- }
-
- uint32_t operator*() const {
- return chr;
- }
-};
bool vline_empty(SDL_Surface* surface, int x, int start_y, int end_y, Uint8 threshold)
{
}
return true;
}
+
} // namespace
Font::Font(GlyphWidth glyph_width_,
}
}
-namespace {
-
-/**
- * returns true if this byte matches a bitmask of 10xx.xxxx, i.e. it is the 2nd, 3rd or 4th byte of a multibyte utf8 string
- */
-bool has_multibyte_mark(unsigned char c) {
- return ((c & 0300) == 0200);
-}
-
-/**
- * gets unicode character at byte position @a p of UTF-8 encoded @a
- * text, then advances @a p to the next character.
- *
- * @throws std::runtime_error if decoding fails.
- * See unicode standard section 3.10 table 3-5 and 3-6 for details.
- */
-uint32_t decode_utf8(const std::string& text, size_t& p)
-{
- uint32_t c1 = (unsigned char) text[p+0];
-
- if (has_multibyte_mark(c1)) std::runtime_error("Malformed utf-8 sequence");
-
- if ((c1 & 0200) == 0000) {
- // 0xxx.xxxx: 1 byte sequence
- p+=1;
- return c1;
- }
- else if ((c1 & 0340) == 0300) {
- // 110x.xxxx: 2 byte sequence
- if(p+1 >= text.size()) throw std::range_error("Malformed utf-8 sequence");
- uint32_t c2 = (unsigned char) text[p+1];
- if (!has_multibyte_mark(c2)) throw std::runtime_error("Malformed utf-8 sequence");
- p+=2;
- return (c1 & 0037) << 6 | (c2 & 0077);
- }
- else if ((c1 & 0360) == 0340) {
- // 1110.xxxx: 3 byte sequence
- if(p+2 >= text.size()) throw std::range_error("Malformed utf-8 sequence");
- uint32_t c2 = (unsigned char) text[p+1];
- uint32_t c3 = (unsigned char) text[p+2];
- if (!has_multibyte_mark(c2)) throw std::runtime_error("Malformed utf-8 sequence");
- if (!has_multibyte_mark(c3)) throw std::runtime_error("Malformed utf-8 sequence");
- p+=3;
- return (c1 & 0017) << 12 | (c2 & 0077) << 6 | (c3 & 0077);
- }
- else if ((c1 & 0370) == 0360) {
- // 1111.0xxx: 4 byte sequence
- if(p+3 >= text.size()) throw std::range_error("Malformed utf-8 sequence");
- uint32_t c2 = (unsigned char) text[p+1];
- uint32_t c3 = (unsigned char) text[p+2];
- uint32_t c4 = (unsigned char) text[p+4];
- if (!has_multibyte_mark(c2)) throw std::runtime_error("Malformed utf-8 sequence");
- if (!has_multibyte_mark(c3)) throw std::runtime_error("Malformed utf-8 sequence");
- if (!has_multibyte_mark(c4)) throw std::runtime_error("Malformed utf-8 sequence");
- p+=4;
- return (c1 & 0007) << 18 | (c2 & 0077) << 12 | (c3 & 0077) << 6 | (c4 & 0077);
- }
- throw std::runtime_error("Malformed utf-8 sequence");
-}
-
-} // namespace
-
/* EOF */