/* Copyright (C) 1991-2002, The Numerical Algorithms Group Ltd. All rights reserved. Copyright (C) 2007-2010, Gabriel Dos Reis. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: - Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. - Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. - Neither the name of The Numerical Algorithms Group Ltd. nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /****************************************************************************** * * parse-types.h: HyperDoc parsing routines for node types. * * Copyright The Numerical Algorithms Group Limited 1991, 1992, 1993. * ****************************************************************************/ #include "openaxiom-c-macros.h" #include "debug.h" #include "halloc.h" #include "sockio.h" #include "parse.h" #include "parse-types.h" #include "hyper.h" #include "lex.h" #include "extent.h" #include "cfuns.h" using namespace OpenAxiom; static void parse_condnode(); static void parse_hasreturnto(); bool gInButton = false; bool gInIf = false; bool gInItems = false; bool gInOptional = false; static const char* errmess[] = { "place holder", "parsing condition node", "unrecognized keyword" }; /* * htperror(): arguments: msg - like perror it accepts an error * message to be printed erno - the erno which occurred. This is so an * appropriate error message can be printed. * * The prints out the page name, and then the filename in which the error * occurred. If possible it also tries to print out the next ten tokens. */ static void htperror(const char* msg, int erno) { char obuff[256]; /* The first thing I do is create the error message */ if (erno <= Numerrors) { sprintf(obuff, "%s:%s\n", msg, errmess[erno]); } else { sprintf(obuff, "%s:\n", msg); fprintf(stderr, "Unknown error type %d\n", erno); } fprintf(stderr, "%s", obuff); print_page_and_filename(); print_next_ten_tokens(); } void parse_ifcond() { TextNode *ifnode = curr_node; TextNode *endif; TextNode *condnode; /* * parse a conditional. At first I am just going to parse if * fi */ if (gInIf) { curr_node->type = openaxiom_Noop_token; fprintf(stderr, "\\if found within \\if \n"); longjmp(jmpbuf, 1); fprintf(stderr, "Longjump failed, Exiting\n"); exit(-1); } gInIf = true; curr_node->type = openaxiom_Ifcond_token; curr_node->space = token.id[-1]; curr_node->data.ifnode = alloc_ifnode(); /* Now get the cond node I hope */ condnode = curr_node->data.ifnode->cond = alloc_node(); curr_node = condnode; parse_condnode(); endif = alloc_node(); endif->type = openaxiom_Endif_token; ifnode->data.ifnode->thennode = alloc_node(); curr_node = ifnode->data.ifnode->thennode; parse_HyperDoc(); if (token.type == openaxiom_Fi_token) { curr_node->type = openaxiom_Fi_token; curr_node->next = endif; ifnode->data.ifnode->elsenode = endif; } else if (token.type == openaxiom_Else_token) { /* first finish up the then part */ curr_node->type = openaxiom_Fi_token; curr_node->next = endif; /* the go and parse the else part */ ifnode->data.ifnode->elsenode = alloc_node(); curr_node = ifnode->data.ifnode->elsenode; parse_HyperDoc(); if (token.type != openaxiom_Fi_token) { token_name(token.type); curr_node->type = openaxiom_Noop_token; fprintf(stderr, "Expected a \\fi not a %s", ebuffer); longjmp(jmpbuf, 1); fprintf(stderr, "Longjump failed, Exiting\n"); exit(-1); } curr_node->type = openaxiom_Fi_token; curr_node->next = endif; } else { curr_node->type = openaxiom_Noop_token; token_name(token.type); fprintf(stderr, "Expected a \\fi not a %s", ebuffer); longjmp(jmpbuf, 1); fprintf(stderr, "Longjump failed, Exiting\n"); exit(-1); } ifnode->next = ifnode->data.ifnode->thennode; ifnode->width = -1; /* A flag for compute if extents */ curr_node = endif; gInIf = false; } static void parse_condnode() { get_token(); switch (token.type) { case openaxiom_Cond_token: curr_node->type = openaxiom_Cond_token; curr_node->data.text = alloc_string(token.id); break; case openaxiom_Haslisp_token: case openaxiom_Hasreturn_token: case openaxiom_Lastwindow_token: case openaxiom_Hasup_token: curr_node->type = token.type; break; case openaxiom_Boxcond_token: curr_node->type = openaxiom_Boxcond_token; curr_node->data.text = alloc_string(token.id); break; case openaxiom_Hasreturnto_token: parse_hasreturnto(); break; default: { char eb[160]; token_name(token.type); sprintf(eb, "Unexpected Token %s\n", ebuffer); htperror(eb, HTCONDNODE); } break; } } static void parse_hasreturnto() { TextNode *hrt = curr_node, *arg_node = alloc_node(); curr_node->type = openaxiom_Hasreturnto_token; curr_node = arg_node; get_expected_token(openaxiom_Lbrace_token); parse_HyperDoc(); curr_node->type = openaxiom_Endarg_token; hrt->data.node = arg_node; curr_node = hrt; } void parse_newcond() { char label[256]; get_expected_token(openaxiom_Lbrace_token); get_expected_token(openaxiom_Unkeyword_token); strcpy(label, token.id); get_expected_token(openaxiom_Rbrace_token); insert_cond(label, "0"); curr_node->type = openaxiom_Noop_token; } void parse_setcond() { char label[256], cond[256]; get_expected_token(openaxiom_Lbrace_token); get_expected_token(openaxiom_Cond_token); strcpy(label, token.id); get_expected_token(openaxiom_Rbrace_token); get_expected_token(openaxiom_Lbrace_token); get_expected_token(openaxiom_Word_token); strcpy(cond, token.id); get_expected_token(openaxiom_Rbrace_token); change_cond(label, cond); curr_node->type = openaxiom_Noop_token; } void parse_begin_items() { TextNode *bi = curr_node; /* * This procedure parses a begin item. It sets the current * node and sees if there is an optional argument for the itemspace */ bi->type = token.type; get_token(); if (token.type == openaxiom_Lsquarebrace_token) { bi->data.node = alloc_node(); curr_node = bi->data.node; gInOptional = true; parse_HyperDoc(); gInOptional = false; curr_node->type = openaxiom_Enddescription_token; if (token.type != openaxiom_Rsquarebrace_token) { fprintf(stderr, "(HyperDoc) Optional arguments must end with ].\n"); print_next_ten_tokens(); print_page_and_filename(); jump(); } curr_node = bi; } else unget_token(); gInItems = true; } void parse_item() { if (!gInItems) { fprintf(stderr, "\\item found outside an items environment\n"); print_page_and_filename(); print_next_ten_tokens(); jump(); } curr_node->type = openaxiom_Item_token; get_token(); if (token.type == openaxiom_Lsquarebrace_token) { /* I should parse the optional argument */ curr_node->next = alloc_node(); curr_node = curr_node->next; curr_node->type = openaxiom_Description_token; curr_node->next = alloc_node(); curr_node = curr_node->next; gInOptional = true; parse_HyperDoc(); gInOptional = false; curr_node->type = openaxiom_Enddescription_token; if (token.type != openaxiom_Rsquarebrace_token) { fprintf(stderr, "(HyperDoc) Optional arguments must end with ].\n"); print_next_ten_tokens(); print_page_and_filename(); jump(); } } else { unget_token(); } } void parse_mitem() { if (!gInItems) { fprintf(stderr, "\\mitem found outside an items environment\n"); print_page_and_filename(); print_next_ten_tokens(); jump(); } curr_node->type = openaxiom_Mitem_token; } char *vbuf = NULL; int vbuf_size = 0; #define VbufSlop 10 #define resizeVbuf()\ if (size == vbuf_size) { \ vbuf = resizeBuffer(size + VbufSlop, vbuf, &vbuf_size); \ vb = vbuf + size; \ } #define new_verb_node() \ resizeVbuf(); \ *vb = '\0'; \ curr_node->data.text = alloc_string(vbuf); \ curr_node->next = alloc_node(); \ curr_node = curr_node->next; \ curr_node->type = openaxiom_Newline_token; \ curr_node->next = alloc_node(); \ curr_node = curr_node->next; \ curr_node->type = type; \ if (*end_string == '\n') es = end_string+1; \ else es = end_string; \ size = 0; \ vb = vbuf; void parse_verbatim(int type) { int size = 0, c; char *vb = vbuf; const char *end_string; const char* es; curr_node->type = type; if (token.id[-1]) curr_node->space = 1; if (type == openaxiom_Spadsrctxt_token) { es = end_string = "\n\\end{spadsrc}"; } else if (type == openaxiom_Math_token) es = end_string = "$"; else es = end_string = "\\end{verbatim}"; while ((c = get_char()) != EOF) { resizeVbuf(); size++; if (c == '\n') { new_verb_node(); continue; } *vb++ = c; if (*es++ != c) es = end_string; if (!*es) break; } if (c == EOF) { fprintf(stderr, "parse_verbatim: Unexpected EOF found\n"); longjmp(jmpbuf, 1); } resizeVbuf(); if (*end_string == '\n') es = end_string + 1; else es = end_string; vbuf[size - strlen(es)] = '\0'; if (*vbuf) { curr_node->data.text = alloc_string(vbuf); curr_node->next = alloc_node(); curr_node = curr_node->next; } if (type == openaxiom_Spadsrctxt_token) curr_node->type = openaxiom_Endspadsrc_token; else if (type == openaxiom_Math_token) curr_node->type = openaxiom_Endmath_token; else curr_node->type = openaxiom_Endverbatim_token; } void parse_input_pix() { TextNode *pixnode; char *filename; pixnode = curr_node; pixnode->type = token.type; pixnode->space = token.id[-1]; pixnode->width = -1; get_expected_token(openaxiom_Lbrace_token); filename = get_input_string(); pixnode->data.text = alloc_string(filename); curr_node = pixnode; if (pixnode->type == openaxiom_Inputimage_token) { char f[256]; char *p; if ((gXDisplay && DisplayPlanes(gXDisplay, gXScreenNumber) == 1) || gSwitch_to_mono ==1) { pixnode->type = openaxiom_Inputbitmap_token; strcpy(f, pixnode->data.text); strcat(f, ".bm"); p=pixnode->data.text; pixnode->data.text = alloc_string(f); free(p); } else { pixnode->type = openaxiom_Inputpixmap_token; strcpy(f, pixnode->data.text); #ifdef OLD strcat(f, ".pm"); #endif strcat(f, ".xpm.Z"); p=pixnode->data.text; pixnode->data.text = alloc_string(f); free(p); } } } void parse_centerline() { curr_node->type = token.type; curr_node->space = token.id[-1]; curr_node->width = -1; curr_node->next = alloc_node(); curr_node = curr_node->next; get_expected_token(openaxiom_Lbrace_token); parse_HyperDoc(); if (token.type != openaxiom_Rbrace_token) { curr_node->type = openaxiom_Noop_token; fprintf(stderr, "(HyperdDoc) \\centerline was expecting a }\n"); print_page_and_filename(); print_next_ten_tokens(); longjmp(jmpbuf, 1); } curr_node->type = openaxiom_Endcenter_token; } void parse_command() { TextNode *link_node, *save_node, *arg_node; gInButton = true; if (gParserMode == SimpleMode) { curr_node->type = openaxiom_Noop_token; fprintf(stderr, "Parser Error token %s unexpected\n", token_table[token.type]); longjmp(jmpbuf, 1); } gStringValueOk = 1; /* set the values for the current node */ curr_node->type = token.type; curr_node->space = token.id[-1]; /* now parse for the label */ link_node = curr_node; curr_node->next = alloc_node(); curr_node = curr_node->next; get_expected_token(openaxiom_Lbrace_token); parse_HyperDoc(); curr_node->type = openaxiom_Endbutton_token; save_node = curr_node; arg_node = alloc_node(); curr_node = arg_node; get_expected_token(openaxiom_Lbrace_token); parse_HyperDoc(); curr_node->type = openaxiom_Endarg_token; link_node->link = make_link_window(arg_node, link_node->type, 0); gStringValueOk = 0; curr_node = save_node; gInButton = false; } void parse_button() { TextNode *link_node, *save_node; gInButton = true; if (gParserMode == SimpleMode) { curr_node->type = openaxiom_Noop_token; fprintf(stderr, "Parser Error token %s unexpected\n", token_table[token.type]); longjmp(jmpbuf, 1); } /* fill the node */ curr_node->type = token.type; curr_node->space = token.id[-1]; /* the save the current node for creating the link and stuff */ link_node = curr_node; /* then parse the label */ curr_node->next = alloc_node(); curr_node = curr_node->next; get_expected_token(openaxiom_Lbrace_token); parse_HyperDoc(); curr_node->type = openaxiom_Endbutton_token; /* now try to get the argument node */ save_node = curr_node; get_expected_token(openaxiom_Lbrace_token); save_node->data.node = alloc_node(); curr_node = save_node->data.node; parse_HyperDoc(); curr_node->type = openaxiom_Endarg_token; /* * buffer[0] = '\0'; print_to_string(arg_node, buffer + 1); */ link_node->link = make_link_window(save_node->data.node, link_node->type, 0); curr_node = save_node; gInButton = false; } extern int example_number; void parse_spadcommand(TextNode *spad_node) { /*TextNode *node = NULL;*/ example_number++; gInButton = true; spad_node->type = token.type; spad_node->space = token.id[-1]; get_expected_token(openaxiom_Lbrace_token); cur_spadcom = curr_node; spad_node->next = alloc_node(); curr_node = spad_node->next; parse_HyperDoc(); curr_node->type = openaxiom_Endspadcommand_token; cur_spadcom = NULL; spad_node->link = make_link_window(spad_node->next, spad_node->type, 1); gInButton = false; } void parse_spadsrc(TextNode *spad_node) { char buf[512], *c = buf; int ch, start_opts = 0; /*TextNode *node = NULL;*/ example_number++; gInButton = true; gInSpadsrc = true; spad_node->type = openaxiom_Spadsrc_token; spad_node->space = token.id[-1]; cur_spadcom = curr_node; spad_node->next = alloc_node(); curr_node = spad_node->next; do { ch = get_char(); if (ch == ']') start_opts = 0; if (start_opts) *c++ = ch; if (ch == '[') start_opts = 1; } while (ch != '\n'); *c = '\0'; parse_verbatim(openaxiom_Spadsrctxt_token); parse_from_string(buf); curr_node->type = openaxiom_Endspadsrc_token; cur_spadcom = NULL; spad_node->link = make_link_window(spad_node->next, openaxiom_Spadsrc_token, 1); gInButton = false; gInSpadsrc = false; } void parse_env(TextNode *node) { char *env; char buff[256]; char *buff_pntr = &buff[1]; int noEnv = 0; get_expected_token(openaxiom_Lbrace_token); get_expected_token(openaxiom_Word_token); env = oa_getenv(token.id); if (env == NULL) { /** The environment variable was not found **/ fprintf(stderr, "(HyperDoc) Warning: environment variable \'%s\' was not found.\n", token.id); env = halloc(1, "string"); env[0] = '\0'; noEnv = 1; } buff[0] = token.id[-1]; strcpy(buff_pntr, env); if (noEnv) free(env); node->data.text = alloc_string(buff_pntr); node->type = openaxiom_Word_token; get_expected_token(openaxiom_Rbrace_token); } /* * This parse_value routine accepts an empty {} but makes it a zero instead * of a one. Thus \indent{} is equivelant to \indent{0} */ void parse_value1() { TextNode *value_node, *ocn = curr_node; char *s; curr_node->type = token.type; curr_node->space = token.id[-1]; value_node = alloc_node(); value_node->type = openaxiom_Word_token; curr_node->data.node = value_node; get_expected_token(openaxiom_Lbrace_token); s = get_input_string(); if (!is_number(s)) { fprintf(stderr, "Parser Error: parse for value was expecting a numeric value\n"); strcpy(value_node->data.text, "0"); } else { value_node->data.text = alloc_string(s); } curr_node = ocn; } /* * This command accepts an empty argument command. Thus \space{} is * equivelant \space{1} */ void parse_value2() { TextNode *value_node, *ocn = curr_node; char *s; curr_node->type = token.type; curr_node->space = token.id[-1]; value_node = alloc_node(); value_node->type = openaxiom_Word_token; curr_node->data.node = value_node; get_expected_token(openaxiom_Lbrace_token); s = get_input_string(); if (!is_number(s)) { fprintf(stderr, "Parser Error: parse for value was expecting a numeric value\n"); strcpy(value_node->data.text, "1"); } else { value_node->data.text = alloc_string(s); } curr_node = ocn; } /* parse a \table sommand */ void parse_table() { TextNode *tn = curr_node; if (gParserMode != AllMode) { curr_node->type = openaxiom_Noop_token; fprintf(stderr, "Parser Error token %s unexpected\n", token_table[token.type]); longjmp(jmpbuf, 1); } curr_node->type = openaxiom_Table_token; get_expected_token(openaxiom_Lbrace_token); curr_node->next = alloc_node(); curr_node = curr_node->next; get_token(); if (token.type == openaxiom_Lbrace_token) { while (token.type != openaxiom_Rbrace_token) { curr_node->type = openaxiom_Tableitem_token; curr_node->next = alloc_node(); curr_node = curr_node->next; parse_HyperDoc(); curr_node->type = openaxiom_Endtableitem_token; curr_node->next = alloc_node(); curr_node = curr_node->next; get_token(); } curr_node->type = openaxiom_Endtable_token; } else { /* a patch for SG for empty tables */ if (token.type != openaxiom_Rbrace_token) { token_name(token.type); fprintf(stderr, "Unexpected Token %s found while parsing a table\n", ebuffer); print_page_and_filename(); jump(); } tn->type = openaxiom_Noop_token; tn->next = NULL; free(curr_node); curr_node = tn; } } void parse_box() { curr_node->type = token.type; curr_node->space = token.id[-1]; curr_node->width = -1; curr_node->next = alloc_node(); curr_node = curr_node->next; get_expected_token(openaxiom_Lbrace_token); parse_HyperDoc(); curr_node->type = openaxiom_Endbox_token; } void parse_mbox() { curr_node->type = token.type; curr_node->space = token.id[-1]; curr_node->width = -1; curr_node->next = alloc_node(); curr_node = curr_node->next; get_expected_token(openaxiom_Lbrace_token); parse_HyperDoc(); curr_node->type = openaxiom_Endbox_token; } void parse_free() { TextNode *free_node = curr_node; curr_node->type = token.type; curr_node->space = token.id[-1]; curr_node->width = -1; curr_node->data.node = alloc_node(); curr_node = curr_node->data.node; get_expected_token(openaxiom_Lbrace_token); parse_HyperDoc(); curr_node->type = openaxiom_Endarg_token; curr_node = free_node; } void parse_help() { curr_node->type = openaxiom_Noop_token; get_token(); if (token.type != openaxiom_Lbrace_token) { token_name(token.type); fprintf(stderr, "\\helppage was expecting a { and not a %s\n", ebuffer); print_page_and_filename(); jump(); } /* before we clobber this pointer we better free the contents (cf. alloc_page) */ free(gPageBeingParsed->helppage); gPageBeingParsed->helppage = alloc_string(get_input_string()); if (token.type != openaxiom_Rbrace_token) { token_name(token.type); fprintf(stderr, "\\helppage was expecting a } and not a %s\n", ebuffer); print_page_and_filename(); jump(); } }