module doc_reform.output.html;
template outputHTML() {
import doc_reform.output;
import
std.digest.sha,
std.file,
std.outbuffer,
std.zip,
std.conv : to;
import
doc_reform.output.create_zip_file,
doc_reform.output.xmls,
doc_reform.output.xmls_css;
mixin outputXHTMLs;
void scroll(D,M)(
const D doc_abstraction,
M doc_matters,
) {
mixin DocReformOutputRgxInit;
auto xhtml_format = outputXHTMLs();
auto rgx = Rgx();
string[] doc_html;
string[] doc;
string suffix = ".html";
string previous_part = "";
string delimit = "";
foreach (part; doc_matters.xml.keys_seq.scroll) {
foreach (obj; doc_abstraction[part]) {
delimit = xhtml_format.div_delimit(part, previous_part);
string _txt = xhtml_format.special_characters(obj, obj.text);
switch (obj.metainfo.is_of_part) {
case "frontmatter": assert(part == "head" || "toc_scroll");
switch (obj.metainfo.is_of_type) {
case "para":
switch (obj.metainfo.is_a) {
case "heading":
doc_html ~= delimit ~ xhtml_format.heading_scroll(doc_matters, obj, _txt, suffix);
break;
case "toc":
doc_html ~= xhtml_format.para_scroll(doc_matters, obj, _txt, suffix);
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a);
}
break;
}
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_of_type);
}
break;
}
break;
case "body": assert(part == "body" || "head");
switch (obj.metainfo.is_of_type) {
case "para":
switch (obj.metainfo.is_a) {
case "heading":
doc_html ~= delimit ~ xhtml_format.heading_scroll(doc_matters, obj, _txt, suffix);
break;
case "para":
doc_html ~= xhtml_format.para_scroll(doc_matters, obj, _txt, suffix);
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a);
}
break;
}
break;
case "block":
switch (obj.metainfo.is_a) {
case "quote":
doc_html ~= xhtml_format.quote_scroll(doc_matters, obj, _txt);
break;
case "group":
doc_html ~= xhtml_format.group_scroll(doc_matters, obj, _txt);
break;
case "block":
doc_html ~= xhtml_format.block_scroll(doc_matters, obj, _txt);
break;
case "poem":
break;
case "verse":
doc_html ~= xhtml_format.verse_scroll(doc_matters, obj, _txt, suffix);
break;
case "code":
doc_html ~= xhtml_format.code(doc_matters, obj, _txt);
break;
case "table":
doc_html ~= xhtml_format.table(doc_matters, obj, _txt);
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a);
}
break;
}
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_of_type);
}
break;
}
break;
case "backmatter":
assert(part == "endnotes" || "glossary" || "bibliography" || "bookindex_scroll" || "blurb" || "tail");
switch (obj.metainfo.is_of_type) {
case "para":
switch (obj.metainfo.is_a) {
case "heading":
doc_html ~= delimit ~ xhtml_format.heading_scroll(doc_matters, obj, _txt, suffix);
break;
case "endnote": assert(part == "endnotes");
doc_html ~= xhtml_format.para_scroll(doc_matters, obj, _txt, suffix);
break;
case "glossary": assert(part == "glossary");
doc_html ~= xhtml_format.para_scroll(doc_matters, obj, _txt, suffix);
break;
case "bibliography": assert(part == "bibliography");
doc_html ~= xhtml_format.para_scroll(doc_matters, obj, _txt, suffix);
break;
case "bookindex": assert(part == "bookindex_scroll");
doc_html ~= xhtml_format.para_scroll(doc_matters, obj, _txt, suffix);
break;
case "blurb": assert(part == "blurb");
doc_html ~= xhtml_format.para_scroll(doc_matters, obj, _txt, suffix);
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a);
}
break;
}
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_of_type);
}
break;
}
break;
case "comment":
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_of_part);
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a);
writeln(__FILE__, ":", __LINE__, ": ", obj.text);
}
break;
}
}
}
doc = xhtml_format.html_head(doc_matters, "scroll") ~ doc_html ~ xhtml_format.tail;
scroll_write_output(doc_matters, doc);
}
void scroll_write_output(M,C)(
M doc_matters,
C doc,
) {
debug(asserts) {
static assert(is(typeof(doc) == string[]));
}
auto pth_html = DocReformPathsHTML!()(doc_matters.output_path, doc_matters.src.language);
try {
if (!exists(pth_html.base)) {
pth_html.base.mkdirRecurse;
}
auto f = File(pth_html.fn_scroll(doc_matters.src.filename), "w");
foreach (o; doc) {
f.writeln(o);
}
} catch (ErrnoException ex) {
// Handle error
}
if (!(doc_matters.opt.action.quiet)) {
writeln(" ", pth_html.fn_scroll(doc_matters.src.filename));
}
}
void seg(D,M)(
const D doc_abstraction,
M doc_matters,
) {
mixin DocReformOutputRgxInit;
auto rgx = Rgx();
auto xhtml_format = outputXHTMLs();
string[][string] doc_html;
string[][string] doc_html_endnotes;
string[] doc;
string segment_filename;
string[] top_level_headings = ["","","",""];
string previous_seg_filename = "";
string suffix = ".html";
string previous_part = "";
string delimit = "";
foreach (part; doc_matters.xml.keys_seq.seg) {
foreach (obj; doc_abstraction[part]) {
delimit = xhtml_format.div_delimit(part, previous_part);
string _txt = xhtml_format.special_characters(obj, obj.text);
if (obj.metainfo.is_a == "heading") {
assert(part == "head" || "toc_seg" || "body" || "endnotes" || "glossary" || "bibliography" || "bookindex_seg" || "blurb" || "tail");
switch (obj.metainfo.heading_lev_markup) {
case 0: .. case 3:
/+ fill buffer, and replace with new levels from 1 to 3 +/
switch (obj.metainfo.heading_lev_markup) {
case 0:
top_level_headings[0] = "";
top_level_headings[1] = "";
top_level_headings[2] = "";
top_level_headings[3] = "";
goto default;
case 1:
top_level_headings[1] = "";
top_level_headings[2] = "";
top_level_headings[3] = "";
goto default;
case 2:
top_level_headings[2] = "";
top_level_headings[3] = "";
goto default;
case 3:
top_level_headings[3] = "";
goto default;
default:
auto t = xhtml_format.heading_seg(doc_matters, obj, _txt, suffix, "seg");
top_level_headings[obj.metainfo.heading_lev_markup] = t[0];
break;
}
break;
case 4:
segment_filename = obj.tags.segment_anchor_tag_epub;
doc_html[segment_filename] ~= xhtml_format.html_head(doc_matters, "seg");
auto navigation_bar = xhtml_format.nav_pre_next_svg(doc_matters, obj);
doc_html[segment_filename] ~= navigation_bar.toc_pre_next;
previous_seg_filename = segment_filename;
foreach (top_level_heading; top_level_headings) {
doc_html[segment_filename] ~= top_level_heading;
}
auto t = xhtml_format.heading_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0].to!string;
doc_html[segment_filename] ~= xhtml_format.lev4_heading_subtoc(doc_matters, obj);
doc_html_endnotes[segment_filename] ~= t[1];
break;
case 5: .. case 7:
auto t = xhtml_format.heading_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0].to!string;
doc_html_endnotes[segment_filename] ~= t[1];
break;
case 8: .. case 9:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a, ": ", obj.metainfo.heading_lev_markup);
writeln(__FILE__, ":", __LINE__, ": ", obj.text);
}
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a, ": ", obj.metainfo.heading_lev_markup);
}
break;
}
} else {
assert(part == "head" || "toc_seg" || "body" || "endnotes" || "glossary" || "bibliography" || "bookindex_seg" || "blurb" || "tail");
switch (obj.metainfo.is_of_part) {
case "frontmatter": assert(part == "head" || "toc_seg");
switch (obj.metainfo.is_of_type) {
case "para":
switch (obj.metainfo.is_a) {
case "toc":
auto t = xhtml_format.para_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0].to!string;
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a);
}
break;
}
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a);
}
break;
}
break;
case "body": assert(part == "body");
switch (obj.metainfo.is_of_type) {
case "para":
switch (obj.metainfo.is_a) {
case "para":
auto t = xhtml_format.para_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0].to!string;
doc_html_endnotes[segment_filename] ~= t[1];
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a);
}
break;
}
break;
case "block":
switch (obj.metainfo.is_a) {
case "quote":
auto t = xhtml_format.quote_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0].to!string;
doc_html_endnotes[segment_filename] ~= t[1];
break;
case "group":
auto t = xhtml_format.group_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0].to!string;
doc_html_endnotes[segment_filename] ~= t[1];
break;
case "block":
auto t = xhtml_format.block_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0].to!string;
doc_html_endnotes[segment_filename] ~= t[1];
break;
case "poem":
break;
case "verse":
auto t = xhtml_format.verse_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0].to!string;
doc_html_endnotes[segment_filename] ~= t[1];
break;
case "code":
doc_html[segment_filename] ~= xhtml_format.code(doc_matters, obj, _txt);
break;
case "table":
doc_html[segment_filename] ~= xhtml_format.table(doc_matters, obj, _txt);
doc_html_endnotes[segment_filename] ~= "";
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a);
}
break;
}
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_of_type);
}
break;
}
break;
case "backmatter":
assert(part == "endnotes" || "glossary" || "bibliography" || "bookindex_seg" || "blurb" || "tail");
switch (obj.metainfo.is_of_type) {
case "para":
switch (obj.metainfo.is_a) {
case "endnote": assert(part == "endnotes");
auto t = xhtml_format.para_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0];
break;
case "glossary": assert(part == "glossary");
auto t = xhtml_format.para_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0];
doc_html_endnotes[segment_filename] ~= t[1];
break;
case "bibliography": assert(part == "bibliography");
auto t = xhtml_format.para_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0];
doc_html_endnotes[segment_filename] ~= t[1];
break;
case "bookindex": assert(part == "bookindex_seg");
auto t = xhtml_format.para_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0];
doc_html_endnotes[segment_filename] ~= t[1];
break;
case "blurb": assert(part == "blurb");
auto t = xhtml_format.para_seg(doc_matters, obj, _txt, suffix, "seg");
doc_html[segment_filename] ~= t[0];
doc_html_endnotes[segment_filename] ~= t[1];
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_a);
}
break;
}
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_of_type);
}
break;
}
break;
case "comment":
break;
default:
if ((doc_matters.opt.action.debug_do)) {
writeln(__FILE__, ":", __LINE__, ": ", obj.metainfo.is_of_part);
}
break;
}
}
}
}
seg_write_output(doc_matters, doc_html, doc_html_endnotes);
}
void seg_write_output(M,D,E)(
M doc_matters,
D doc_html,
E doc_html_endnotes,
) {
debug(asserts) {
static assert(is(typeof(doc_html) == string[][string]));
}
mixin DocReformOutputRgxInit;
auto rgx = Rgx();
auto pth_html = DocReformPathsHTML!()(doc_matters.output_path, doc_matters.src.language);
auto xhtml_format = outputXHTMLs();
auto m = doc_matters.src.filename.matchFirst(rgx.src_fn);
try {
if (!exists(pth_html.seg(doc_matters.src.filename))) {
pth_html.seg(doc_matters.src.filename).mkdirRecurse;
}
foreach (seg_filename; doc_matters.xml.segnames) {
auto f = File(pth_html.fn_seg(doc_matters.src.filename, seg_filename), "w");
foreach (docseg; doc_html[seg_filename]) {
f.writeln(docseg);
}
foreach (docseg; doc_html_endnotes[seg_filename]) {
f.writeln(docseg);
}
f.writeln(xhtml_format.tail);
}
} catch (ErrnoException ex) {
// handle error
}
if (!(doc_matters.opt.action.quiet)) {
writeln(" ", pth_html.fn_seg(doc_matters.src.filename, "toc"));
}
}
void css(M)(
auto ref M doc_matters,
) {
auto css = DocReformCss();
auto pth_html = DocReformPathsHTML!()(doc_matters.output_path, doc_matters.src.language);
try {
if (!exists(pth_html.css)) {
(pth_html.css).mkdirRecurse;
}
auto f = File(pth_html.fn_seg_css, "w");
f.writeln(css.html_seg_css);
f = File(pth_html.fn_scroll_css, "w");
f.writeln(css.html_scroll_css);
} catch (ErrnoException ex) {
// Handle error
}
}
void images_cp(M)(
auto ref M doc_matters,
) {
{ /+ (copy html images) +/
auto pth_html = DocReformPathsHTML!()(doc_matters.output_path, doc_matters.src.language);
if (!exists(pth_html.image)) {
pth_html.image.mkdirRecurse;
}
foreach (image; doc_matters.srcs.image_list) {
auto fn_src_in = doc_matters.src.image_dir_path ~ "/" ~ image;
auto fn_src_out = pth_html.image ~ "/" ~ image;
debug(images_html) {
writeln(fn_src_in, " -> ", fn_src_out);
}
if (exists(fn_src_in)) {
fn_src_in.copy(fn_src_out);
} else {
writeln("WARNING image not found: ", fn_src_in);
}
}
}
}
}