src/encoding.c - platform/external/libvterm - Git at Google

 #include "vterm_internal.h"

 #define UNICODE_INVALID 0xFFFD

 #ifdef DEBUG
 # define DEBUG_PRINT_UTF8
 #endif

 struct UTF8DecoderData {
   // number of bytes remaining in this codepoint
   int bytes_remaining;

   // number of bytes total in this codepoint once it's finished
   // (for detecting overlongs)
   int bytes_total;

   int this_cp;
 };

 static void init_utf8(VTermEncoding *enc, void *data_)
 {
   struct UTF8DecoderData *data = data_;

   data->bytes_remaining = 0;
   data->bytes_total     = 0;
 }

 static void decode_utf8(VTermEncoding *enc, void *data_,
                         uint32_t cp[], int *cpi, int cplen,
                         const char bytes[], size_t *pos, size_t bytelen)
 {
   struct UTF8DecoderData *data = data_;

 #ifdef DEBUG_PRINT_UTF8
   printf("BEGIN UTF-8\n");
 #endif

   for(; *pos < bytelen && *cpi < cplen; (*pos)++) {
     unsigned char c = bytes[*pos];

 #ifdef DEBUG_PRINT_UTF8
     printf(" pos=%zd c=%02x rem=%d\n", *pos, c, data->bytes_remaining);
 #endif

     if(c < 0x20)
       return;

     else if(c >= 0x20 && c < 0x80) {
       if(data->bytes_remaining)
         cp[(*cpi)++] = UNICODE_INVALID;

       cp[(*cpi)++] = c;
 #ifdef DEBUG_PRINT_UTF8
       printf(" UTF-8 char: U+%04x\n", c);
 #endif
       data->bytes_remaining = 0;
     }

     else if(c >= 0x80 && c < 0xc0) {
       if(!data->bytes_remaining) {
         cp[(*cpi)++] = UNICODE_INVALID;
         continue;
       }

       data->this_cp <<= 6;
       data->this_cp |= c & 0x3f;
       data->bytes_remaining--;

       if(!data->bytes_remaining) {
 #ifdef DEBUG_PRINT_UTF8
         printf(" UTF-8 raw char U+%04x bytelen=%d ", data->this_cp, data->bytes_total);
 #endif
         // Check for overlong sequences
         switch(data->bytes_total) {
         case 2:
           if(data->this_cp <  0x0080) data->this_cp = UNICODE_INVALID; break;
         case 3:
           if(data->this_cp <  0x0800) data->this_cp = UNICODE_INVALID; break;
         case 4:
           if(data->this_cp < 0x10000) data->this_cp = UNICODE_INVALID; break;
         case 5:
           if(data->this_cp < 0x200000) data->this_cp = UNICODE_INVALID; break;
         case 6:
           if(data->this_cp < 0x4000000) data->this_cp = UNICODE_INVALID; break;
         }
         // Now look for plain invalid ones
         if((data->this_cp >= 0xD800 && data->this_cp <= 0xDFFF) ||
            data->this_cp == 0xFFFE ||
            data->this_cp == 0xFFFF)
           data->this_cp = UNICODE_INVALID;
 #ifdef DEBUG_PRINT_UTF8
         printf(" char: U+%04x\n", data->this_cp);
 #endif
         cp[(*cpi)++] = data->this_cp;
       }
     }

     else if(c >= 0xc0 && c < 0xe0) {
       if(data->bytes_remaining)
         cp[(*cpi)++] = UNICODE_INVALID;

       data->this_cp = c & 0x1f;
       data->bytes_total = 2;
       data->bytes_remaining = 1;
     }

     else if(c >= 0xe0 && c < 0xf0) {
       if(data->bytes_remaining)
         cp[(*cpi)++] = UNICODE_INVALID;

       data->this_cp = c & 0x0f;
       data->bytes_total = 3;
       data->bytes_remaining = 2;
     }

     else if(c >= 0xf0 && c < 0xf8) {
       if(data->bytes_remaining)
         cp[(*cpi)++] = UNICODE_INVALID;

       data->this_cp = c & 0x07;
       data->bytes_total = 4;
       data->bytes_remaining = 3;
     }

     else if(c >= 0xf8 && c < 0xfc) {
       if(data->bytes_remaining)
         cp[(*cpi)++] = UNICODE_INVALID;

       data->this_cp = c & 0x03;
       data->bytes_total = 5;
       data->bytes_remaining = 4;
     }

     else if(c >= 0xfc && c < 0xfe) {
       if(data->bytes_remaining)
         cp[(*cpi)++] = UNICODE_INVALID;

       data->this_cp = c & 0x01;
       data->bytes_total = 6;
       data->bytes_remaining = 5;
     }

     else {
       cp[(*cpi)++] = UNICODE_INVALID;
     }
   }
 }

 static VTermEncoding encoding_utf8 = {
   .init   = &init_utf8,
   .decode = &decode_utf8,
 };

 static void decode_usascii(VTermEncoding *enc, void *data,
                            uint32_t cp[], int *cpi, int cplen,
                            const char bytes[], size_t *pos, size_t bytelen)
 {
   int is_gr = bytes[*pos] & 0x80;

   for(; *pos < bytelen && *cpi < cplen; (*pos)++) {
     unsigned char c = bytes[*pos] ^ is_gr;

     if(c < 0x20 || c >= 0x80)
       return;

     cp[(*cpi)++] = c;
   }
 }

 static VTermEncoding encoding_usascii = {
   .decode = &decode_usascii,
 };

 struct StaticTableEncoding {
   const VTermEncoding enc;
   const uint32_t chars[128];
 };

 static void decode_table(VTermEncoding *enc, void *data,
                          uint32_t cp[], int *cpi, int cplen,
                          const char bytes[], size_t *pos, size_t bytelen)
 {
   struct StaticTableEncoding *table = (struct StaticTableEncoding *)enc;
   int is_gr = bytes[*pos] & 0x80;

   for(; *pos < bytelen && *cpi < cplen; (*pos)++) {
     unsigned char c = bytes[*pos] ^ is_gr;

     if(c < 0x20 || c >= 0x80)
       return;

     if(table->chars[c])
       cp[(*cpi)++] = table->chars[c];
     else
       cp[(*cpi)++] = c;
   }
 }

 #include "encoding/DECdrawing.inc"
 #include "encoding/uk.inc"

 static struct {
   VTermEncodingType type;
   char designation;
   VTermEncoding *enc;
 }
 encodings[] = {
   { ENC_UTF8,      'u', &encoding_utf8 },
   { ENC_SINGLE_94, '0', (VTermEncoding*)&encoding_DECdrawing },
   { ENC_SINGLE_94, 'A', (VTermEncoding*)&encoding_uk },
   { ENC_SINGLE_94, 'B', &encoding_usascii },
   { 0 },
 };

 VTermEncoding *vterm_lookup_encoding(VTermEncodingType type, char designation)
 {
   for(int i = 0; encodings[i].designation; i++)
     if(encodings[i].type == type && encodings[i].designation == designation)
       return encodings[i].enc;
   return NULL;
 }
	#include "vterm_internal.h"

	#define UNICODE_INVALID 0xFFFD

	#ifdef DEBUG
	# define DEBUG_PRINT_UTF8
	#endif

	struct UTF8DecoderData {
	// number of bytes remaining in this codepoint
	int bytes_remaining;

	// number of bytes total in this codepoint once it's finished
	// (for detecting overlongs)
	int bytes_total;

	int this_cp;
	};

	static void init_utf8(VTermEncoding enc, void data_)
	{
	struct UTF8DecoderData *data = data_;

	data->bytes_remaining = 0;
	data->bytes_total = 0;
	}

	static void decode_utf8(VTermEncoding enc, void data_,
	uint32_t cp[], int *cpi, int cplen,
	const char bytes[], size_t *pos, size_t bytelen)
	{
	struct UTF8DecoderData *data = data_;

	#ifdef DEBUG_PRINT_UTF8
	printf("BEGIN UTF-8\n");
	#endif

	for(; pos < bytelen && cpi < cplen; (*pos)++) {
	unsigned char c = bytes[*pos];

	#ifdef DEBUG_PRINT_UTF8
	printf(" pos=%zd c=%02x rem=%d\n", *pos, c, data->bytes_remaining);
	#endif

	if(c < 0x20)
	return;

	else if(c >= 0x20 && c < 0x80) {
	if(data->bytes_remaining)
	cp[(*cpi)++] = UNICODE_INVALID;

	cp[(*cpi)++] = c;
	#ifdef DEBUG_PRINT_UTF8
	printf(" UTF-8 char: U+%04x\n", c);
	#endif
	data->bytes_remaining = 0;
	}

	else if(c >= 0x80 && c < 0xc0) {
	if(!data->bytes_remaining) {
	cp[(*cpi)++] = UNICODE_INVALID;
	continue;
	}

	data->this_cp <<= 6;
	data->this_cp \|= c & 0x3f;
	data->bytes_remaining--;

	if(!data->bytes_remaining) {
	#ifdef DEBUG_PRINT_UTF8
	printf(" UTF-8 raw char U+%04x bytelen=%d ", data->this_cp, data->bytes_total);
	#endif
	// Check for overlong sequences
	switch(data->bytes_total) {
	case 2:
	if(data->this_cp < 0x0080) data->this_cp = UNICODE_INVALID; break;
	case 3:
	if(data->this_cp < 0x0800) data->this_cp = UNICODE_INVALID; break;
	case 4:
	if(data->this_cp < 0x10000) data->this_cp = UNICODE_INVALID; break;
	case 5:
	if(data->this_cp < 0x200000) data->this_cp = UNICODE_INVALID; break;
	case 6:
	if(data->this_cp < 0x4000000) data->this_cp = UNICODE_INVALID; break;
	}
	// Now look for plain invalid ones
	if((data->this_cp >= 0xD800 && data->this_cp <= 0xDFFF) \|\|
	data->this_cp == 0xFFFE \|\|
	data->this_cp == 0xFFFF)
	data->this_cp = UNICODE_INVALID;
	#ifdef DEBUG_PRINT_UTF8
	printf(" char: U+%04x\n", data->this_cp);
	#endif
	cp[(*cpi)++] = data->this_cp;
	}
	}

	else if(c >= 0xc0 && c < 0xe0) {
	if(data->bytes_remaining)
	cp[(*cpi)++] = UNICODE_INVALID;

	data->this_cp = c & 0x1f;
	data->bytes_total = 2;
	data->bytes_remaining = 1;
	}

	else if(c >= 0xe0 && c < 0xf0) {
	if(data->bytes_remaining)
	cp[(*cpi)++] = UNICODE_INVALID;

	data->this_cp = c & 0x0f;
	data->bytes_total = 3;
	data->bytes_remaining = 2;
	}

	else if(c >= 0xf0 && c < 0xf8) {
	if(data->bytes_remaining)
	cp[(*cpi)++] = UNICODE_INVALID;

	data->this_cp = c & 0x07;
	data->bytes_total = 4;
	data->bytes_remaining = 3;
	}

	else if(c >= 0xf8 && c < 0xfc) {
	if(data->bytes_remaining)
	cp[(*cpi)++] = UNICODE_INVALID;

	data->this_cp = c & 0x03;
	data->bytes_total = 5;
	data->bytes_remaining = 4;
	}

	else if(c >= 0xfc && c < 0xfe) {
	if(data->bytes_remaining)
	cp[(*cpi)++] = UNICODE_INVALID;

	data->this_cp = c & 0x01;
	data->bytes_total = 6;
	data->bytes_remaining = 5;
	}

	else {
	cp[(*cpi)++] = UNICODE_INVALID;
	}
	}
	}

	static VTermEncoding encoding_utf8 = {
	.init = &init_utf8,
	.decode = &decode_utf8,
	};

	static void decode_usascii(VTermEncoding enc, void data,
	uint32_t cp[], int *cpi, int cplen,
	const char bytes[], size_t *pos, size_t bytelen)
	{
	int is_gr = bytes[*pos] & 0x80;

	for(; pos < bytelen && cpi < cplen; (*pos)++) {
	unsigned char c = bytes[*pos] ^ is_gr;

	if(c < 0x20 \|\| c >= 0x80)
	return;

	cp[(*cpi)++] = c;
	}
	}

	static VTermEncoding encoding_usascii = {
	.decode = &decode_usascii,
	};

	struct StaticTableEncoding {
	const VTermEncoding enc;
	const uint32_t chars[128];
	};

	static void decode_table(VTermEncoding enc, void data,
	uint32_t cp[], int *cpi, int cplen,
	const char bytes[], size_t *pos, size_t bytelen)
	{
	struct StaticTableEncoding table = (struct StaticTableEncoding )enc;
	int is_gr = bytes[*pos] & 0x80;

	for(; pos < bytelen && cpi < cplen; (*pos)++) {
	unsigned char c = bytes[*pos] ^ is_gr;

	if(c < 0x20 \|\| c >= 0x80)
	return;

	if(table->chars[c])
	cp[(*cpi)++] = table->chars[c];
	else
	cp[(*cpi)++] = c;
	}
	}

	#include "encoding/DECdrawing.inc"
	#include "encoding/uk.inc"

	static struct {
	VTermEncodingType type;
	char designation;
	VTermEncoding *enc;
	}
	encodings[] = {
	{ ENC_UTF8, 'u', &encoding_utf8 },
	{ ENC_SINGLE_94, '0', (VTermEncoding*)&encoding_DECdrawing },
	{ ENC_SINGLE_94, 'A', (VTermEncoding*)&encoding_uk },
	{ ENC_SINGLE_94, 'B', &encoding_usascii },
	{ 0 },
	};

	VTermEncoding *vterm_lookup_encoding(VTermEncodingType type, char designation)
	{
	for(int i = 0; encodings[i].designation; i++)
	if(encodings[i].type == type && encodings[i].designation == designation)
	return encodings[i].enc;
	return NULL;
	}