Пример #1
0
void structManual :: v_draw () {
	ManPages manPages = (ManPages) our data;
	ManPage page;
	ManPage_Paragraph paragraph;
	#if motif
	Graphics_clearWs (our graphics.get());
	#endif
	if (our path == SEARCH_PAGE) {
		HyperPage_pageTitle (this, U"Best matches");
		HyperPage_intro (this, U"The best matches to your query seem to be:");
		for (int i = 1; i <= our numberOfMatches; i ++) {
			char32 link [300];
			page = manPages -> pages.at [matches [i]];
			Melder_sprint (link,300, U"• @@", page -> title);
			HyperPage_listItem (this, link);
		}
		return;
	}
	page = manPages -> pages.at [path];
	if (! our paragraphs) return;
	HyperPage_pageTitle (this, page -> title);
	for (paragraph = & page -> paragraphs [0]; paragraph -> type != 0; paragraph ++) {
		switch (paragraph -> type) {
			case  kManPage_type_INTRO: HyperPage_intro (this, paragraph -> text); break;
			case  kManPage_type_ENTRY: HyperPage_entry (this, paragraph -> text); break;
			case  kManPage_type_NORMAL: HyperPage_paragraph (this, paragraph -> text); break;
			case  kManPage_type_LIST_ITEM: HyperPage_listItem (this, paragraph -> text); break;
			case  kManPage_type_TAG: HyperPage_listTag (this, paragraph -> text); break;
			case  kManPage_type_DEFINITION: HyperPage_definition (this, paragraph -> text); break;
			case  kManPage_type_CODE: HyperPage_code (this, paragraph -> text); break;
			case  kManPage_type_PROTOTYPE: HyperPage_prototype (this, paragraph -> text); break;
			case  kManPage_type_FORMULA: HyperPage_formula (this, paragraph -> text); break;
			case  kManPage_type_PICTURE: HyperPage_picture (this, paragraph -> width,
				paragraph -> height, paragraph -> draw); break;
			case  kManPage_type_SCRIPT: HyperPage_script (this, paragraph -> width,
				paragraph -> height, paragraph -> text); break;
			case  kManPage_type_LIST_ITEM1: HyperPage_listItem1 (this, paragraph -> text); break;
			case  kManPage_type_LIST_ITEM2: HyperPage_listItem2 (this, paragraph -> text); break;
			case  kManPage_type_LIST_ITEM3: HyperPage_listItem3 (this, paragraph -> text); break;
			case  kManPage_type_TAG1: HyperPage_listTag1 (this, paragraph -> text); break;
			case  kManPage_type_TAG2: HyperPage_listTag2 (this, paragraph -> text); break;
			case  kManPage_type_TAG3: HyperPage_listTag3 (this, paragraph -> text); break;
			case  kManPage_type_DEFINITION1: HyperPage_definition1 (this, paragraph -> text); break;
			case  kManPage_type_DEFINITION2: HyperPage_definition2 (this, paragraph -> text); break;
			case  kManPage_type_DEFINITION3: HyperPage_definition3 (this, paragraph -> text); break;
			case  kManPage_type_CODE1: HyperPage_code1 (this, paragraph -> text); break;
			case  kManPage_type_CODE2: HyperPage_code2 (this, paragraph -> text); break;
			case  kManPage_type_CODE3: HyperPage_code3 (this, paragraph -> text); break;
			case  kManPage_type_CODE4: HyperPage_code4 (this, paragraph -> text); break;
			case  kManPage_type_CODE5: HyperPage_code5 (this, paragraph -> text); break;
			default: break;
		}
	}
	if (ManPages_uniqueLinksHither (manPages, our path)) {
		long ilink, jlink, lastParagraph = 0;
		bool goAhead = true;
		while (page -> paragraphs [lastParagraph]. type != 0) lastParagraph ++;
		if (lastParagraph > 0) {
			const char32 *text = page -> paragraphs [lastParagraph - 1]. text;
			if (! text || text [0] == U'\0' || text [str32len (text) - 1] != U':') {
				if (our printing && our suppressLinksHither)
					goAhead = false;
				else
					HyperPage_entry (this, U"Links to this page");
			}
		}
		if (goAhead) for (ilink = 1; ilink <= page -> nlinksHither; ilink ++) {
			long link = page -> linksHither [ilink];
			bool alreadyShown = false;
			for (jlink = 1; jlink <= page -> nlinksThither; jlink ++)
				if (page -> linksThither [jlink] == link)
					alreadyShown = true;
			if (! alreadyShown) {
				const char32 *title = manPages -> pages.at [page -> linksHither [ilink]] -> title;
				char32 linkText [304];
				Melder_sprint (linkText, 304, U"@@", title, U"@");
				HyperPage_listItem (this, linkText);
			}
		}
	}
	if (! our printing && page -> date) {
		char32 signature [100];
		long date = page -> date;
		int imonth = date % 10000 / 100;
		if (imonth < 0 || imonth > 12) imonth = 0;
		Melder_sprint (signature,100,
			U"© ", str32equ (page -> author, U"ppgb") ? U"Paul Boersma" :
			       str32equ (page -> author, U"djmw") ? U"David Weenink" : page -> author,
			U", ", date % 100,
			U" ", month [imonth],
			U" ", date / 10000);
		HyperPage_any (this, U"", our p_font, our p_fontSize, 0, 0.0,
			0.0, 0.0, 0.1, 0.1, HyperPage_ADD_BORDER);
		HyperPage_any (this, signature, our p_font, our p_fontSize, Graphics_ITALIC, 0.0,
			0.03, 0.0, 0.1, 0.0, 0);
	}
}
Пример #2
0
void structManual :: v_draw () {
	ManPages manPages = (ManPages) data;
	ManPage page;
	ManPage_Paragraph paragraph;
	#if motif
	Graphics_clearWs (g);
	#endif
	if (path == SEARCH_PAGE) {
		HyperPage_pageTitle (this, L"Best matches");
		HyperPage_intro (this, L"The best matches to your query seem to be:");
		for (int i = 1; i <= numberOfMatches; i ++) {
			wchar link [300];
			page = (ManPage) manPages -> pages -> item [matches [i]];
			swprintf (link, 300, L"\\bu @@%ls", page -> title);
			HyperPage_listItem (this, link);
		}
		return;
	}
	page = (ManPage) manPages -> pages -> item [path];
	if (! paragraphs) return;
	HyperPage_pageTitle (this, page -> title);
	for (paragraph = & page -> paragraphs [0]; paragraph -> type != 0; paragraph ++) {
		switch (paragraph -> type) {
			case  kManPage_type_INTRO: HyperPage_intro (this, paragraph -> text); break;
			case  kManPage_type_ENTRY: HyperPage_entry (this, paragraph -> text); break;
			case  kManPage_type_NORMAL: HyperPage_paragraph (this, paragraph -> text); break;
			case  kManPage_type_LIST_ITEM: HyperPage_listItem (this, paragraph -> text); break;
			case  kManPage_type_TAG: HyperPage_listTag (this, paragraph -> text); break;
			case  kManPage_type_DEFINITION: HyperPage_definition (this, paragraph -> text); break;
			case  kManPage_type_CODE: HyperPage_code (this, paragraph -> text); break;
			case  kManPage_type_PROTOTYPE: HyperPage_prototype (this, paragraph -> text); break;
			case  kManPage_type_FORMULA: HyperPage_formula (this, paragraph -> text); break;
			case  kManPage_type_PICTURE: HyperPage_picture (this, paragraph -> width,
				paragraph -> height, paragraph -> draw); break;
			case  kManPage_type_SCRIPT: HyperPage_script (this, paragraph -> width,
				paragraph -> height, paragraph -> text); break;
			case  kManPage_type_LIST_ITEM1: HyperPage_listItem1 (this, paragraph -> text); break;
			case  kManPage_type_LIST_ITEM2: HyperPage_listItem2 (this, paragraph -> text); break;
			case  kManPage_type_LIST_ITEM3: HyperPage_listItem3 (this, paragraph -> text); break;
			case  kManPage_type_TAG1: HyperPage_listTag1 (this, paragraph -> text); break;
			case  kManPage_type_TAG2: HyperPage_listTag2 (this, paragraph -> text); break;
			case  kManPage_type_TAG3: HyperPage_listTag3 (this, paragraph -> text); break;
			case  kManPage_type_DEFINITION1: HyperPage_definition1 (this, paragraph -> text); break;
			case  kManPage_type_DEFINITION2: HyperPage_definition2 (this, paragraph -> text); break;
			case  kManPage_type_DEFINITION3: HyperPage_definition3 (this, paragraph -> text); break;
			case  kManPage_type_CODE1: HyperPage_code1 (this, paragraph -> text); break;
			case  kManPage_type_CODE2: HyperPage_code2 (this, paragraph -> text); break;
			case  kManPage_type_CODE3: HyperPage_code3 (this, paragraph -> text); break;
			case  kManPage_type_CODE4: HyperPage_code4 (this, paragraph -> text); break;
			case  kManPage_type_CODE5: HyperPage_code5 (this, paragraph -> text); break;
			default: break;
		}
	}
	if (ManPages_uniqueLinksHither (manPages, path)) {
		long ilink, jlink, lastParagraph = 0;
		int goAhead = TRUE;
		while (page -> paragraphs [lastParagraph]. type != 0) lastParagraph ++;
		if (lastParagraph > 0) {
			const wchar *text = page -> paragraphs [lastParagraph - 1]. text;
			if (text == NULL || text [0] == '\0' || text [wcslen (text) - 1] != ':') {
				if (printing && suppressLinksHither)
					goAhead = FALSE;
				else
					HyperPage_entry (this, L"Links to this page");
			}
		}
		if (goAhead) for (ilink = 1; ilink <= page -> nlinksHither; ilink ++) {
			long link = page -> linksHither [ilink];
			int alreadyShown = FALSE;
			for (jlink = 1; jlink <= page -> nlinksThither; jlink ++)
				if (page -> linksThither [jlink] == link)
					alreadyShown = TRUE;
			if (! alreadyShown) {
				const wchar *title = ((ManPage) manPages -> pages -> item [page -> linksHither [ilink]]) -> title;
				wchar linkText [304];
				swprintf (linkText, 304, L"@@%ls@", title);
				HyperPage_listItem (this, linkText);
			}
		}
	}
	if (! printing && page -> date) {
		wchar signature [100];
		long date = page -> date;
		int imonth = date % 10000 / 100;
		if (imonth < 0 || imonth > 12) imonth = 0;
		swprintf (signature, 100, L"\\co %ls, %ld %ls %ld",
			wcsequ (page -> author, L"ppgb") ? L"Paul Boersma" :
			wcsequ (page -> author, L"djmw") ? L"David Weenink" : page -> author,
			date % 100, month [imonth], date / 10000);
		HyperPage_any (this, L"", font, fontSize, 0, 0.0,
			0.0, 0.0, 0.1, 0.1, HyperPage_ADD_BORDER);
		HyperPage_any (this, signature, font, fontSize, Graphics_ITALIC, 0.0,
			0.03, 0.0, 0.1, 0.0, 0);
	}
}