这是一个旧版本的UtfC于2009-01-06 05:32:51.
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一种对汉字更环保的 Unicode 编码方案 的实现。/* 接口如下: utf*_encode 把 utf-8/utf-16 的字符串(is 为长度),转换为 utf-c 格式。 os 为 buffer 的大小,如果转换后的结果不足以放到 buffer 中,返回 -1 ;否则,返回转换后的长度。 utf*_decode 把 utf-c 的字符串,转换为 utf-8 或 utf-16 格式。 is/os 以及返回值的含义同上。 */ int utf8_encode(const char *utf8,size_t is,unsigned char *utfc,size_t os); int utf8_decode(const unsigned char *utfc,size_t is,char *utf8,size_t os); int utf16_encode(const wchar_t *utf16,size_t is,unsigned char *utfc,size_t os); int utf16_decode(const unsigned char *utfc,size_t is,wchar_t *utf16,size_t os);
#include <stddef.h> #include <wchar.h> int utf8_encode(const char *utf8,size_t is,unsigned char *utfc,size_t os) { const unsigned char *input=(const unsigned char *)utf8; unsigned char *output=utfc; while ((*input & 0xc0) == 0x80 && is!=0) { ++input; --is; } if (is==0) { return 0; } do { if (os==0) { return -1; } if (*input < 128) { *output++ = *input++; --is; --os; } else { unsigned char b=*input++; int c=(int)(b&(0x0f | (~(b>>1) &0x1f))); --is; while (is!=0 && (*input & 0xc0)==0x80) { c=c<<6 | (*input & 0x3f); ++input; --is; } unsigned char hi = (unsigned char)(c >> 8); unsigned char low = (unsigned char)(c&0xff); if (hi>=0x20 && hi<=0x9f && hi!=0x2f) { if (os<2) { return -1; } *output++ = (unsigned char)(hi + 0x60); *output++ = low; os-=2; } else { if (os<3) { return -1; } *output++ = 0x9f; *output++ = hi; *output++ = low; os-=3; } } } while (is!=0); return output-utfc; } int utf8_decode(const unsigned char *utfc,size_t is,char *utf8,size_t os) { const unsigned char *input=utfc; unsigned char *output=(unsigned char *)utf8; if (is==0) { return 0; } do { if (os==0) { return -1; } if (*input < 128) { *output++ = *input++; --is; --os; } else { int c; if (*input==0x9f) { if (is<3) { c=0xffff; is=0; } else { c=input[1]<<8 | input[2]; is-=3; input+=3; } } else { if (is<2) { c=0xffff; is=0; } else { c=(input[0] - 0x60)<<8 | input[1]; is-=2; input+=2; } } if (c<=0x7ff) { if (os<2) { return -1; } *output++ =(unsigned char)((c>>6) | 0xc0); os-=2; } else { if (os<3) { return -1; } *output++ =(unsigned char)((c>>12) | 0xe0); *output++ =(unsigned char)(((c>>6) & 0x3f) | 0x80); os-=3; } *output++ =(unsigned char)((c&0x3f) | 0x80); } } while (is!=0); return output-(unsigned char *)utf8; } int utf16_encode(const wchar_t *utf16,size_t is,unsigned char *utfc,size_t os) { const wchar_t *input=utf16; unsigned char *output=utfc; if (is==0) { return 0; } do { if (os==0) { return -1; } if ((unsigned)*input < 128) { *output++ = (unsigned char)*input++; --is; --os; } else { int c=(unsigned)*input++; --is; unsigned char hi = (unsigned char)(c >> 8); unsigned char low = (unsigned char)(c&0xff); if (hi>=0x20 && hi<=0x9f && hi!=0x2f) { if (os<2) { return -1; } *output++ = (unsigned char)(hi + 0x60); *output++ = low; os-=2; } else { if (os<3) { return -1; } *output++ = 0x9f; *output++ = hi; *output++ = low; os-=3; } } } while (is!=0); return output-utfc; } int utf16_decode(const unsigned char *utfc,size_t is,wchar_t *utf16,size_t os) { const unsigned char *input=utfc; wchar_t *output=utf16; if (is==0) { return 0; } do { if (os==0) { return -1; } if (*input < 128) { *output++ = (wchar_t)*input++; --is; --os; } else { int c; if (*input==0x9f) { if (is<3) { c=0xffff; is=0; } else { c=input[1]<<8 | input[2]; is-=3; input+=3; } } else { if (is<2) { c=0xffff; is=0; } else { c=(input[0] - 0x60)<<8 | input[1]; is-=2; input+=2; } } *output++ =(wchar_t)c; } } while (is!=0); return output-utf16; }
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