/* Plain text object HTWrite.c ** ================= ** ** This version of the stream object just writes to a socket. ** The socket is assumed open and left open. ** ** Bugs: ** strings written must be less than buffer size. */ #include "HTUtils.h" #include "HTPlain.h" #define BUFFER_SIZE 4096; /* Tradeoff */ #include "HText.h" #include "HTStyle.h" #include "HTMLDTD.h" #include "HTCJK.h" #ifdef EXP_CHARTRANS #include "UCMap.h" #include "UCDefs.h" #include "UCAux.h" #endif /* EXP_CHARTRANS */ #include "LYLeaks.h" #define FREE(x) if (x) {free(x); x = NULL;} extern HTStyleSheet * styleSheet; extern int current_char_set; extern char * LYchar_set_names[]; extern CONST char **LYCharSets[]; #ifdef EXP_CHARTRANS extern int LYlowest_eightbit[]; #endif /* EXP_CHARTRANS */ extern CONST char * HTMLGetEntityName PARAMS((int i)); extern BOOL HTPassEightBitRaw; extern BOOL HTPassHighCtrlRaw; extern HTCJKlang HTCJK; PUBLIC int HTPlain_lastraw = -1; /* HTML Object ** ----------- */ struct _HTStream { CONST HTStreamClass * isa; HText * text; #ifdef EXP_CHARTRANS LYUCcharset * UCI; /* pointer to node_anchor's UCInfo */ int in_char_set; /* tells us what charset we are fed */ int htext_char_set; /* what charset feed to HText */ char utf_count; long utf_char; char utf_buf[7]; char * utf_buf_p; UCTransParams T; #endif /* EXP_CHARTRANS */ }; #ifdef EXP_CHARTRANS PRIVATE char replace_buf [61]; /* buffer for replacement strings */ PRIVATE void htplain_get_chartrans_info ARGS2(HTStream *, me, HTParentAnchor *, anchor) { if (me->in_char_set < 0) { HTAnchor_copyUCInfoStage(anchor, UCT_STAGE_PARSER, UCT_STAGE_MIME, UCT_SETBY_PARSER); me->in_char_set = HTAnchor_getUCLYhndl(anchor,UCT_STAGE_PARSER); } if (me->htext_char_set < 0) { int chndl = HTAnchor_getUCLYhndl(anchor, UCT_STAGE_HTEXT); if (chndl < 0) { chndl = current_char_set; HTAnchor_setUCInfoStage(anchor, chndl, UCT_STAGE_HTEXT, UCT_SETBY_DEFAULT); } HTAnchor_setUCInfoStage(anchor, chndl, UCT_STAGE_HTEXT, UCT_SETBY_DEFAULT); me->htext_char_set = HTAnchor_getUCLYhndl(anchor, UCT_STAGE_HTEXT); } me->UCI = HTAnchor_getUCInfoStage(anchor,UCT_STAGE_PARSER); } #endif /* EXP_CHARTRANS */ /* Write the buffer out to the socket ** ---------------------------------- */ /*_________________________________________________________________________ ** ** A C T I O N R O U T I N E S */ #ifdef EXP_CHARTRANS /* for forward reference to HTPlain_write - kw */ #ifdef _WINDOWS PRIVATE void HTPlain_write (HTStream * me, CONST char* s, int l); #else PRIVATE void HTPlain_write PARAMS((HTStream * me, CONST char* s, int l)); #endif /* _WINDOWS */ #endif /* EXP_CHARTRANS */ /* Character handling ** ------------------ */ PRIVATE void HTPlain_put_character ARGS2(HTStream *, me, char, c) { #ifdef REMOVE_CR_ONLY /* throw away \r's */ if (c != '\r') { HText_appendCharacter(me->text, c); } #else /* ** See HTPlain_write() for explanations of the following code ** (we've been called via HTPlain_put_string() to do for each ** character of a terminated string what HTPlain_write() does ** via a while loop for each character in a stream of given ** length). - FM */ if ((HTPlain_lastraw == '\r') && c == '\n') { HTPlain_lastraw = -1; return; } HTPlain_lastraw = c; if (c == '\r') { HText_appendCharacter(me->text, '\n'); #ifdef EXP_CHARTRANS /* for now don't repeat everything here that has been done below - kw*/ } else if ((unsigned char)c >= 127) { HTPlain_write(me, &c, 1); #endif } else if (HTCJK != NOCJK) { HText_appendCharacter(me->text, c); } else if ((unsigned char)c >= 127 && (unsigned char)c < 161 && HTPassHighCtrlRaw) { HText_appendCharacter(me->text, c); } else if ((unsigned char)c == 160) { HText_appendCharacter(me->text, ' '); } else if ((unsigned char)c == 173) { return; } else if (((unsigned char)c >= 32 && (unsigned char)c < 127) || c == '\n' || c == '\t') { HText_appendCharacter(me->text, c); } else if ((unsigned char)c > 160) { if (!HTPassEightBitRaw && strncmp(LYchar_set_names[current_char_set], "ISO Latin 1", 11)) { int len, high, low, i, diff=1; CONST char * name; int value = (int)((unsigned char)c - 160); name = HTMLGetEntityName(value); len = strlen(name); for(low=0, high = HTML_dtd.number_of_entities; high > low; diff < 0 ? (low = i+1) : (high = i)) { /* Binary search */ i = (low + (high-low)/2); diff = strncmp(HTML_dtd.entity_names[i], name, len); if (diff==0) { HText_appendText(me->text, LYCharSets[current_char_set][i]); break; } } if (diff) { HText_appendCharacter(me->text, c); } } else { HText_appendCharacter(me->text, c); } } #endif /* REMOVE_CR_ONLY */ } /* String handling ** --------------- ** */ PRIVATE void HTPlain_put_string ARGS2(HTStream *, me, CONST char*, s) { #ifdef REMOVE_CR_ONLY HText_appendText(me->text, s); #else CONST char * p; if (s == NULL) return; for (p = s; *p; p++) { HTPlain_put_character(me, *p); } #endif /* REMOVE_CR_ONLY */ } /* ** Entry function for displayed text/plain and WWW_SOURCE strings. - FM ** --------------------------------------------------------------- */ PRIVATE void HTPlain_write ARGS3(HTStream *, me, CONST char*, s, int, l) { CONST char * p; CONST char * e = s+l; #ifdef EXP_CHARTRANS BOOL chk; long unsign_c, uck; char c_p; #endif /* EXP_CHARTRANS */ for (p = s; p < e; p++) { #ifdef REMOVE_CR_ONLY /* ** Append the whole string, but remove any \r's. - FM */ if (*p != '\r') { HText_appendCharacter(me->text, *p); } #else /* ** Try to handle lone LFs, CRLFs and lone CRs ** as newline, and to deal with control, ASCII, ** and 8-bit characters based on best guesses ** of what's appropriate. - FM */ if ((HTPlain_lastraw == '\r') && *p == '\n') { HTPlain_lastraw = -1; continue; } HTPlain_lastraw = *p; if (*p == '\r') { HText_appendCharacter(me->text, '\n'); continue; } #ifdef EXP_CHARTRANS unsign_c = (unsigned char)(*p); c_p = *p; if (me->T.decode_utf8) { /* Combine UTF-8 into Unicode */ /* Incomplete characters silently ignored */ /* from Linux kernel's console.c */ if((unsigned char)(*p) > 0x7f) { if (me->utf_count > 0 && (*p & 0xc0) == 0x80) { me->utf_char = (me->utf_char << 6) | (*p & 0x3f); me->utf_count--; *(me->utf_buf_p++) = *p; if (me->utf_count == 0) { *(me->utf_buf_p) = '\0'; unsign_c = me->utf_char; if (unsign_c<256) c_p = (char)unsign_c; } else continue; /* iterate for more */ } else { me->utf_buf_p = me->utf_buf; *(me->utf_buf_p++) = *p; if ((*p & 0xe0) == 0xc0) { me->utf_count = 1; me->utf_char = (*p & 0x1f); } else if ((*p & 0xf0) == 0xe0) { me->utf_count = 2; me->utf_char = (*p & 0x0f); } else if ((*p & 0xf8) == 0xf0) { me->utf_count = 3; me->utf_char = (*p & 0x07); } else if ((*p & 0xfc) == 0xf8) { me->utf_count = 4; me->utf_char = (*p & 0x03); } else if ((*p & 0xfe) == 0xfc) { me->utf_count = 5; me->utf_char = (*p & 0x01); } else { /* garbage */ me->utf_count = 0; me->utf_buf_p = me->utf_buf; *(me->utf_buf_p) = '\0'; } continue; /* iterate for more */ } } else { /* got an ASCII char */ me->utf_count = 0; me->utf_buf_p = me->utf_buf; *(me->utf_buf_p) = '\0'; } } if (me->T.trans_to_uni && unsign_c >= 127) { unsign_c = UCTransToUni(c_p, me->in_char_set); if (unsign_c > 0) { if (unsign_c < 256) { c_p = (char)unsign_c; } } } /* At this point we have either unsign_c in Unicode (and c in latin1 if unsign_c is in the latin1 range), or unsign_c and c will have to be passed raw. */ #else #define unsign_c (unsigned char)*p #define c_p *p #endif /* EXP_CHARTRANS */ /* ** If CJK mode is on, we'll assume the document matches ** the user's selected character set, and if not, the ** user should toggle off raw/CJK mode to reload. - FM */ if (HTCJK != NOCJK) { HText_appendCharacter(me->text, c_p); #ifndef EXP_CHARTRANS #define PASSHICTRL HTPassHighCtrlRaw #define PASS8859SPECL HTPassHighCtrlRaw #define PASSHI8BIT HTPassEightBitRaw #else #define PASSHICTRL (me->T.transp || unsign_c >= LYlowest_eightbit[me->in_char_set]) #define PASS8859SPECL me->T.pass_160_173_raw #define PASSHI8BIT (HTPassEightBitRaw || (me->T.do_8bitraw && !me->T.trans_from_uni)) #endif /* EXP_CHARTRANS */ /* ** If HTPassHighCtrlRaw is set (e.g., for KOI8-R) assume the ** document matches and pass 127-160 8-bit characters. If it ** doesn't match, the user should toggle raw/CJK mode off. - FM */ } else if (unsign_c >= 127 && unsign_c < 161 && PASSHICTRL && PASS8859SPECL) { HText_appendCharacter(me->text, *p); } else if (unsign_c == 173 && PASS8859SPECL) { HText_appendCharacter(me->text, *p); /* ** If neither HTPassHighCtrlRaw nor CJK is set, play it safe ** and treat 160 (nbsp) as an ASCII space (32). - FM */ } else if (unsign_c == 160) { HText_appendCharacter(me->text, ' '); /* ** If neither HTPassHighCtrlRaw nor CJK is set, play it safe ** and ignore 173 (shy). - FM */ } else if (unsign_c == 173) { continue; #ifdef EXP_CHARTRANS } else if (me->T.strip_raw_char_in && (unsigned char)*p >= 0xc0 && (unsigned char)*p < 255) { /* KOI special: strip high bit, gives (somewhat) readable ASCII */ HText_appendCharacter(me->text, (char)(*p & 0x7f)); #endif /* EXP_CHARTRANS */ /* ** If we get to here, pass the displayable ASCII characters. - FM */ } else if ((unsign_c >= 32 && unsign_c < 127) || #ifdef EXP_CHARTRANS (PASSHI8BIT && c_p>=LYlowest_eightbit[me->htext_char_set])|| #endif *p == '\n' || *p == '\t') { HText_appendCharacter(me->text, c_p); #ifdef EXP_CHARTRANS } else if (me->T.use_raw_char_in) { HText_appendCharacter(me->text, *p); /****************************************************************** * I. LATIN-1 OR UCS2 TO DISPLAY CHARSET ******************************************************************/ } else if ((chk = (me->T.trans_from_uni && unsign_c >= 160)) && (uck = UCTransUniChar(unsign_c, me->htext_char_set)) >= 32 && uck < 256) { if (TRACE) fprintf(stderr,"UCTransUniChar returned 0x%lx:'%c'.\n",uck,(char)uck); HText_appendCharacter(me->text, (char)(uck & 0xff)); } else if (chk && (uck == -4) && /* Not found; look for replacement string */ (uck = UCTransUniCharStr(replace_buf,60, unsign_c, me->htext_char_set, 0) >= 0 ) ) { /* No further tests for valididy - assume that whoever defined replacement strings knew what she was doing. */ HText_appendText(me->text, replace_buf); /* ** If we get to here, and should have translated, translation has ** failed so far. */ } else if (chk && unsign_c > 127 && me->T.output_utf8 && *me->utf_buf) { HText_appendText(me->text, me->utf_buf); me->utf_buf_p = me->utf_buf; *(me->utf_buf_p) = '\0'; } else if (me->T.trans_from_uni && unsign_c > 255) { sprintf(replace_buf,"U%.2lx",unsign_c); HText_appendText(me->text, replace_buf); #endif /* EXP_CHARTRANS */ /* ** If we get to here and HTPassEightBitRaw or the ** selected character set is not "ISO Latin 1", ** use the translation tables for 161-255 8-bit ** characters (173 was handled above). - FM */ } else if (unsign_c > 160) { if (!HTPassEightBitRaw && unsign_c <= 255 && strncmp(LYchar_set_names[current_char_set], "ISO Latin 1", 11)) { /* ** Attempt to translate. - FM */ int len, high, low, i, diff=1; CONST char * name; int value = (int)(unsign_c - 160); name = HTMLGetEntityName(value); len = strlen(name); for(low=0, high = HTML_dtd.number_of_entities; high > low; diff < 0 ? (low = i+1) : (high = i)) { /* Binary search */ i = (low + (high-low)/2); diff = strncmp(HTML_dtd.entity_names[i], name, len); if (diff==0) { HText_appendText(me->text, LYCharSets[current_char_set][i]); break; } } if (diff) { /* ** Something went wrong in the translation, so ** either output as UTF8 or a hex representation or ** pass the raw character and hope it's OK. */ #ifdef EXP_CHARTRANS if (!PASSHI8BIT) c_p = (char)unsign_c; if (me->T.output_utf8 && *me->utf_buf) { HText_appendText(me->text, me->utf_buf); me->utf_buf_p = me->utf_buf; *(me->utf_buf_p) = '\0'; } else if (me->T.trans_from_uni) { sprintf(replace_buf,"U%.2lx",unsign_c); HText_appendText(me->text, replace_buf); } else #endif /* EXP_CHARTRANS */ HText_appendCharacter(me->text, c_p); } } else { /* ** Didn't attempt a translation. - FM */ #ifdef EXP_CHARTRANS /* either output as UTF8 or a hex representation or ** pass the raw character and hope it's OK. */ if (unsign_c <= 255 && !PASSHI8BIT) c_p = (char)unsign_c; if (unsign_c > 127 && me->T.output_utf8 && *me->utf_buf) { HText_appendText(me->text, me->utf_buf); me->utf_buf_p = me->utf_buf; *(me->utf_buf_p) = '\0'; } else if (me->T.trans_from_uni && unsign_c >= 127) { sprintf(replace_buf,"U%.2lx",unsign_c); HText_appendText(me->text, replace_buf); } else #endif /* EXP_CHARTRANS */ HText_appendCharacter(me->text, c_p); } } #endif /* REMOVE_CR_ONLY */ } } /* Free an HTML object ** ------------------- ** ** Note that the SGML parsing context is freed, but the created object is ** not, as it takes on an existence of its own unless explicitly freed. */ PRIVATE void HTPlain_free ARGS1(HTStream *, me) { FREE(me); } /* End writing */ PRIVATE void HTPlain_abort ARGS2(HTStream *, me, HTError, e) { HTPlain_free(me); } /* Structured Object Class ** ----------------------- */ PUBLIC CONST HTStreamClass HTPlain = { "SocketWriter", HTPlain_free, HTPlain_abort, HTPlain_put_character, HTPlain_put_string, HTPlain_write, }; /* New object ** ---------- */ PUBLIC HTStream* HTPlainPresent ARGS3( HTPresentation *, pres, HTParentAnchor *, anchor, HTStream *, sink) { HTStream* me = (HTStream*)malloc(sizeof(*me)); if (me == NULL) outofmem(__FILE__, "HTPlain_new"); me->isa = &HTPlain; HTPlain_lastraw = -1; #ifdef EXP_CHARTRANS me->utf_count = 0; me->utf_char = 0; me->utf_buf[0] = me->utf_buf[6] = '\0'; me->utf_buf_p = me->utf_buf; me->htext_char_set = HTAnchor_getUCLYhndl(anchor,UCT_STAGE_HTEXT); me->in_char_set = HTAnchor_getUCLYhndl(anchor,UCT_STAGE_PARSER); htplain_get_chartrans_info(me, anchor); UCSetTransParams(&me->T, me->in_char_set, me->UCI, me->htext_char_set, HTAnchor_getUCInfoStage(anchor,UCT_STAGE_HTEXT)); #endif /* EXP_CHARTRANS */ me->text = HText_new(anchor); HText_setStyle(me->text, HTStyleNamed(styleSheet, "Example")); HText_beginAppend(me->text); return (HTStream*) me; }