#+TITLE: doc_reform default paths
#+DESCRIPTION: documents - structuring, publishing in multiple formats & search
#+FILETAGS: :doc_reform:paths:
#+AUTHOR: Ralph Amissah
#+EMAIL: [[mailto:ralph.amissah@gmail.com][ralph.amissah@gmail.com]]
#+LANGUAGE: en
#+STARTUP: indent content
#+OPTIONS: H:3 num:nil toc:t \n:nil @:t ::t |:t ^:nil _:nil -:t f:t *:t <:t
#+OPTIONS: TeX:t LaTeX:t skip:nil d:nil todo:t pri:nil tags:not-in-toc
#+OPTIONS: author:nil email:nil creator:nil timestamp:nil
#+PROPERTY: header-args :padline no :exports code :noweb yes
#+EXPORT_SELECT_TAGS: export
#+EXPORT_EXCLUDE_TAGS: noexport
#+TAGS: assert(a) class(c) debug(d) mixin(m) doc_reform(s) tangle(T) template(t) WEB(W) noexport(n)
[[./doc_reform.org][doc_reform]] [[./][org/]]
* 0. source paths
** 0. module template :module:paths_source:
#+BEGIN_SRC d :tangle ../src/doc_reform/source/paths_source.d
/++
read configuration files
- read config files
meta_config_files.d
+/
module doc_reform.source.paths_source;
import std.array,
std.file,
std.path,
std.regex,
std.stdio,
std.conv : to;
import doc_reform.meta.rgx;
<>
<>
<>
<>
#+END_SRC
** _manifest_ :manifest:
#+name: template_paths_src
#+BEGIN_SRC d
template PodManifest() {
mixin DocReformRgxInit;
static auto rgx = Rgx();
auto PodManifest(P)(
P _pth
) {
struct ManifestFile_ {
string pod_manifest_filename() {
return "pod.manifest";
}
string pod_manifest_path() {
string _manifest_path;
if ((isValidPath(_pth) && exists(_pth)!=0 && _pth.isDir)
&& (exists(_pth.chainPath(pod_manifest_filename).array)!=0
&& (_pth.chainPath(pod_manifest_filename).array).isFile)) {
_manifest_path = _pth;
} else if (_pth.match(rgx.src_pth_contents)
&& exists(_pth)!=0 && _pth.isFile) {
_manifest_path = _pth.dirName;
} else if (_pth.match(rgx.src_pth_pod_sst_or_ssm)
&& exists(_pth)!=0 && (_pth.isFile)) {
if (auto m = _pth.match(rgx.src_pth_pod_sst_or_ssm)) {
_manifest_path = m.captures["podpath"];
}
} else {
writeln("WARNING, issue with manifest_path: ", _pth); // remove?
_manifest_path = null; // _manifest_path = "";
}
return _manifest_path;
}
string pod_manifest_file_with_path() {
string _k;
if (exists(pod_manifest_path.chainPath(pod_manifest_filename).array)!=0) {
_k = pod_manifest_path.chainPath(pod_manifest_filename).array;
} else if (exists(pod_manifest_path)!=0) {
_k = pod_manifest_path;
}
if (exists(_k)==0) {
writeln("ERROR >> Processing Skipped! Manifest not found: ", _k);
_k = null;
}
return _k;
}
}
return ManifestFile_();
}
}
#+END_SRC
** _path matters (pod, manifest and source files)_ :manifest:
tree pod
pod
└─ [sisudoc filename]
├── conf
│ └── sisu_document_make
├── media
│ ├── audio
│ ├── image
│ ├── text
│ │ └── en
│ │ ...
│ │ ├── [conf]
│ │ └── [image]
│ └── video
└── pod.manifest
#+name: template_paths_src
#+BEGIN_SRC d
template PathMatters() {
mixin DocReformRgxInit;
static auto rgx = Rgx();
auto PathMatters(O,E)(
O _opt_actions,
E _env,
string _pth,
string _fns = "",
char[][] _manifest_fn_list = [[]],
) {
auto _manifest = PodManifest!()(_pth);
struct ManifestMatters_ {
auto env() {
auto _env = _env;
struct Env_ {
auto pwd() {
return _env["pwd"];
}
auto home() {
return _env["home"];
}
}
return Env_();
}
auto opt() {
auto _opt_actions = _opt_actions;
struct Opt_ {
auto action() { // redundant
return _opt_actions;
}
}
return Opt_();
}
bool src_is_pod() {
return (_manifest.pod_manifest_path.length > 0) ? true : false;
}
auto pod() {
struct Pod_ {
bool src_is_pod() {
return (_manifest.pod_manifest_path.length > 0) ? true : false;
}
auto collection_root() {
auto _collection_root = asNormalizedPath(chainPath(_manifest.pod_manifest_path, "..")).array;
if (auto m = (_collection_root).match(rgx.src_pth_pod_root)) {
// consider testing for last dir in path name being pod, and giving warning if not
} else {
writeln("WARNING, collection_root not named \"pod\"");
}
return _collection_root;
}
string manifest_filename() {
return _manifest.pod_manifest_filename;
}
string manifest_path() {
return _manifest.pod_manifest_path;
}
string pod_name() {
return _manifest.pod_manifest_path.baseName;
}
string manifest_file_with_path() {
return _manifest.pod_manifest_file_with_path;
}
string[] config_sisu_document_make_dirs() {
string[] _config_dirs;
return _config_dirs;
}
string[] config_local_site_dirs() {
string[] _config_dirs;
return _config_dirs;
}
string[] image_dirs() {
string[] _image_dirs;
return _image_dirs;
}
auto manifest_list_of_filenames() {
return _manifest_fn_list;
}
string[] manifest_list_of_languages() {
string[] _lngs;
foreach (filename_; manifest_list_of_filenames) {
string _k = "en";
if (auto m = (filename_).match(rgx.language_code_and_filename)) {
_k = m.captures[1].to!string;
}
_lngs ~= _k; // all the languages from the manifest list of filenames with paths
}
return _lngs;
}
}
return Pod_();
}
auto src() {
string _fns = _fns; // required here by dmd & not by ldc (for D:2078)
auto _opt_actions = _opt_actions;
auto _env = _env;
string _sep = "␣";
struct SRC_ {
bool is_pod() {
return (_manifest.pod_manifest_path.length > 0) ? true : false;
}
string path_and_fn() {
return _fns;
}
string pod_name() {
return (is_pod) ? _manifest.pod_manifest_path : "";
}
string filename() {
return path_and_fn.baseName;
}
string filename_base() {
return filename.stripExtension;
}
string filename_extension() {
return filename.match(rgx.src_pth_sst_or_ssm).captures["extension"];
}
string lng() {
string _k;
if (auto m = path_and_fn.match(rgx.language_code_and_filename)) {
_k = m.captures[1];
} else {_k = "en"; }
return _k;
}
string doc_uid() {
string _uid;
if (is_pod && !(pod_name.empty)) {
if (pod_name.baseName == filename_base) {
_uid = filename_base ~ "." ~ filename_extension ~ _sep ~ lng;
} else {
_uid = pod_name.baseName ~ _sep ~ filename_base ~ "." ~ filename_extension ~ _sep ~ lng;
}
} else {
_uid = _sep ~ filename_base ~ "." ~ filename_extension ~ _sep ~ lng;
}
return _uid;
}
string docname_composite_unique_per_src_doc() {
/+
z pod name if any + src filename + lng code
filename ~ "." ~ lng
* unique per src doc
used by
- sqlite discrete index (multilingual, each language of a document)
+/
string _fn;
if (pod_name.baseName == filename_base) {
_fn = filename_base ~ _sep ~ filename_extension ~ _sep ~ lng;
} else if (!(pod_name.empty)) {
_fn = pod_name.baseName ~ _sep ~ filename_base ~ _sep ~ filename_extension ~ _sep ~ lng;
} else {
_fn = "_" ~ _sep ~ filename_base ~ _sep ~ filename_extension ~ _sep ~ lng;
}
return _fn;
}
string docname_composite_unique_per_src_pod() {
/+
z pod name if any + src filename (without lng code)
filename ~ _sep ~ lng
* unique per src pod
used by
- pod (multilingual collection)
- sqlite discrete index (multilingual collection)
+/
string _fn;
if (pod_name.baseName == filename_base) {
_fn = filename_base ~ _sep ~ filename_extension;
} else if (!(pod_name.empty)) {
_fn = pod_name.baseName ~ _sep ~ filename_base ~ _sep ~ filename_extension;
} else {
_fn = "_" ~ _sep ~ filename_base ~ _sep ~ filename_extension;
}
return _fn;
}
string language() {
return lng();
}
string file_with_absolute_path() {
return _env["pwd"].chainPath(path_and_fn).array;
}
string absolute_path_to_src() {
return (_env["pwd"].chainPath(path_and_fn)).dirName.array;
}
string base_dir() {
string _dir;
if (
auto m = (absolute_path_to_src)
.match(regex(r"[/](?P(?:[a-zA-Z0-9._-]+))/pod/" ~ filename.stripExtension))
) {
_dir = asNormalizedPath(path_and_fn.chainPath("../../")).array;
assert(_dir == m.captures["dir"]);
} else {
_dir = asNormalizedPath(path_and_fn.chainPath("../../../")).array;
assert(_dir == absolute_path_to_src
.match(rgx.src_base_parent_dir_name).captures["dir"]);
}
if ((_opt_actions.debug_do)) {
writeln("--> (base_dir) ", _dir);
}
return _dir;
}
string base_parent_dir_path() {
string _dir;
if (
auto m = (absolute_path_to_src)
.match(regex(r"[/](?P(?:[a-zA-Z0-9._-]+))/pod/" ~ filename.stripExtension))
) {
_dir = asNormalizedPath(path_and_fn.chainPath("../../")).array;
} else {
_dir = asNormalizedPath(path_and_fn.chainPath("../../../")).array;
}
return _dir;
}
string base_dir_path() {
string _dir;
if (
auto m = (absolute_path_to_src)
.match(rgx.src_formalised_file_path_parts)
) {
_dir = asNormalizedPath(m.captures["pth"]).array;
} else if (
auto m = (absolute_path_to_src)
.match(regex(r"[/](?P(?:[a-zA-Z0-9._-]+))/pod/" ~ filename.stripExtension))
) {
_dir = asNormalizedPath(path_and_fn.chainPath("../")).array;
} else {
_dir = asNormalizedPath(path_and_fn.chainPath("../../")).array;
}
if ((_opt_actions.debug_do)) {
writeln("--> (base_dir_path) ", _dir);
}
return _dir;
}
string media_dir_path() {
string _dir = asNormalizedPath(base_dir_path.chainPath("media")).array;
return _dir;
}
string image_dir_path() {
string _paths;
string[] _possible_img_pths = [ "./image", "../image", "../../image" ];
string _img_pth_found = "";
if (is_pod) {
_img_pth_found = asNormalizedPath(file_with_absolute_path.dirName ~ "/../../image").array;
} else {
string _img_pth(string _possible_img_pth) {
return asNormalizedPath(file_with_absolute_path.dirName ~ "/" ~ _possible_img_pth).array;
}
foreach(_possible_img_pth; _possible_img_pths) {
if (exists(_img_pth(_possible_img_pth))) {
_img_pth_found = _img_pth(_possible_img_pth);
break;
} else {
_paths ~= " " ~ _img_pth(_possible_img_pth);
}
}
}
if (_img_pth_found.empty) {
writeln("WARNING not image path found, searched: ", _paths);
}
return _img_pth_found;
}
auto conf_dir_path() {
return asNormalizedPath(base_dir_path.chainPath("conf")).array;
}
auto base_parent_dir() {
string _dir;
if (
auto m = (absolute_path_to_src)
.match(regex(r"[/](?P(?:[a-zA-Z0-9._-]+))/pod/" ~ filename.stripExtension))
) {
_dir = m.captures["dir"];
} else {
_dir = (absolute_path_to_src).match(rgx.src_base_parent_dir_name).captures["dir"];
}
if ((_opt_actions.debug_do)) {
writeln("--> (base_parent_dir) ", _dir);
}
return _dir;
}
string[] config_dirs() {
string[] _config_dirs;
if (is_pod) {
} else {}
return _config_dirs;
}
string[] image_dirs() {
string[] _image_dirs;
if (is_pod) {
} else {}
return _image_dirs;
}
}
return SRC_();
}
auto output() {
auto _opt_actions = _opt_actions;
auto _env = _env;
struct Out_ {
auto path() {
auto _output_path = _env["pwd"];
if ((_opt_actions.output_dir_set.length > 0)
&& isValidPath(_opt_actions.output_dir_set)
) {
_output_path = asNormalizedPath(_opt_actions.output_dir_set).array;
if (!exists(_output_path)) {
try {
_output_path.mkdirRecurse;
}
// catch (ErrnoException ex) {
catch (Exception ex) {
// Handle error
}
}
assert(_output_path.isDir,
"not a directory: " ~ _output_path);
// TODO always test that is a directory and it is writable
}
return _output_path;
}
}
return Out_();
}
}
return ManifestMatters_();
}
}
#+END_SRC
** _config_ (sisu_document_make & config_local_site) :config:
#+name: template_paths_src
#+BEGIN_SRC d
template ConfigFilePaths() {
mixin DocReformRgxInit;
static auto rgx = Rgx();
auto ConfigFilePaths(M,E)(
M _manifest,
E _env,
) {
struct ConfFilePaths {
string config_filename_document_toml() {
return "sisu_document_make";
}
string config_filename_site_toml() {
return "config_local_site";
}
auto possible_config_path_locations() {
struct _ConfFilePaths {
string[] sisu_document_make() {
/+ FIX clean up conf paths ↓ +/
/+ config local site (file system only, not in pod) +/
/+ return paths +/
string[] _possible_config_path_locations;
if (_manifest.src.is_pod) {
/+ config document in pod +/
string _sisudoc_conf_pod; //
string _sisudoc_conf_pod_text; //
_sisudoc_conf_pod = asNormalizedPath(chainPath(
to!string(_env["pwd"]),
_manifest.pod.manifest_path ~ "/conf"
)).array;
_sisudoc_conf_pod_text = asNormalizedPath(chainPath(
to!string(_env["pwd"]),
_manifest.pod.manifest_path ~ "/media/text/" ~ _manifest.src.lng ~ "/conf"
)).array;
/+ return paths +/
_possible_config_path_locations = [
_sisudoc_conf_pod_text,
_sisudoc_conf_pod,
];
} else {
/+ config document (& or local site) on filesystem +/
string _sisudoc_conf_pwd = asNormalizedPath(chainPath(to!string(_env["pwd"]), "sisudoc/conf")).array; // think about
string _sisudoc_conf_pwd_a = asNormalizedPath(chainPath(to!string(_env["pwd"]), "conf")).array;
string _sisudoc_conf_pwd_b = asNormalizedPath(chainPath(to!string(_env["pwd"]), "../conf")).array;
string _sisudoc_conf_pwd_c = asNormalizedPath(chainPath(to!string(_env["pwd"]), "../../conf")).array;
string _sisudoc_conf_pwd_d = asNormalizedPath(chainPath(to!string(_env["pwd"]), "../../../conf")).array;
/+ return paths +/
_possible_config_path_locations = [
_sisudoc_conf_pwd,
_sisudoc_conf_pwd_a,
_sisudoc_conf_pwd_b,
_sisudoc_conf_pwd_c,
_sisudoc_conf_pwd_d,
];
}
/+ FIX clean up conf paths ↑
(compare pwd to doc path location, and build config path)
+/
return _possible_config_path_locations;
}
string[] config_local_site() {
/+ FIX clean up conf paths ↓ +/
/+ config local site (file system only, not in pod) +/
string _dot_pwd = asNormalizedPath(chainPath(to!string(_env["pwd"]), ".sisu")).array;
string _underscore_pwd = asNormalizedPath(chainPath(to!string(_env["pwd"]), "_sisu")).array;
string _dot_home = asNormalizedPath(chainPath(to!string(_env["home"]), ".sisu")).array;
/+ return paths +/
string[] _possible_config_path_locations;
if (_manifest.src.is_pod) {
string _collection_root_a = asNormalizedPath(chainPath(to!string(_manifest.pod.collection_root.to!string), ".sisu")).array;
string _collection_root_b = asNormalizedPath(chainPath(to!string(_manifest.pod.collection_root.to!string), "_sisu")).array;
_possible_config_path_locations = [
_dot_pwd,
_underscore_pwd,
_dot_home,
"/etc/sisu",
_collection_root_a, // set priority higher?
_collection_root_b // set priority higher?
];
} else {
/+ config document (& or local site) on filesystem +/
string _sisudoc_conf_pwd = asNormalizedPath(chainPath(to!string(_env["pwd"]), "sisudoc/conf")).array; // think about
string _sisudoc_conf_pwd_a = asNormalizedPath(chainPath(to!string(_env["pwd"]), "conf")).array;
string _sisudoc_conf_pwd_b = asNormalizedPath(chainPath(to!string(_env["pwd"]), "../conf")).array;
string _sisudoc_conf_pwd_c = asNormalizedPath(chainPath(to!string(_env["pwd"]), "../../conf")).array;
string _sisudoc_conf_pwd_d = asNormalizedPath(chainPath(to!string(_env["pwd"]), "../../../conf")).array;
_possible_config_path_locations = [
_sisudoc_conf_pwd,
_sisudoc_conf_pwd_a,
_sisudoc_conf_pwd_b,
_sisudoc_conf_pwd_c,
_sisudoc_conf_pwd_d,
_dot_pwd,
_underscore_pwd,
_dot_home,
"/etc/sisu"
];
}
/+ FIX clean up conf paths ↑
(compare pwd to doc path location, and build config path)
+/
return _possible_config_path_locations;
}
}
return _ConfFilePaths();
}
}
return ConfFilePaths();
}
}
#+END_SRC
** _pod_ (including generated bundled source) :pod:
*** notes
tree pod
pod
└── sisudoc
├── conf
│ └── sisu_document_make
├── media
│ ├── audio
│ ├── image
│ ├── text
│ │ └── en
│ │ ...
│ │ ├── [conf]
│ │ └── [image]
│ └── video
└── pod.manifest
_replace:_
doc
├── en
│ └── the_wealth_of_networks.yochai_benkler.sst
└── _sisu
└── sisu_document_make
filelist for processing [things to ponder]
- the plan is to have a src manifest of related .sst or .ssm files that
can be pointed to for processing
- multilingual documents [ponder persistence for multilingual documents]
- in the case of multilingual documents, there will be multiple
source documents on list with different language codes, and to build
this list, persistence is required
- inserted documents (from master .ssm or .sst) must track document root
so inserts can be located, else not found
- consider a commandline -o --output path specifier
- steps
- auto create filelist
- for single source file
- for multilinugual source files
- process document by pointing at filelist (rather than file)
- if necessary manually create filelist (for multilinugual source)
- keep document root for document inserts (.ssi)
*** manual source
#+name: template_paths_src
#+BEGIN_SRC d
template DocReformPathsSRC() {
mixin DocReformRgxInit;
static auto rgx = Rgx();
auto DocReformPathsSRC(D,Fn)(
D _pwd,
Fn _fn_src_and_path,
) {
struct SisuSrcPaths {
auto pwd() {
return _pwd;
}
string language() {
// use command line info as well?
string _k;
if (auto m = _fn_src_and_path.match(rgx.language_code_and_filename)) {
_k = m.captures[1];
} else { /+ unknown until doc_meta read, (could provide & use command line info?) +/
_k = "xx"; // original default was "en" but is not known
}
return _k;
}
string doc_root() {
return "sisudoc";
}
auto media_root() {
return asNormalizedPath(doc_root.chainPath("media")).array;
}
auto conf_root() {
return asNormalizedPath(doc_root.chainPath("conf")).array;
}
auto text_root() {
return asNormalizedPath(media_root.chainPath("text")).array;
}
auto image_root() {
return asNormalizedPath(media_root.chainPath("image")).array;
}
auto doc_src_fn_with_path_for_text_root_and_lng() {
return asNormalizedPath(text_root.chainPath(language)).array;
}
auto doc_src_fn() {
return asNormalizedPath(_fn_src_and_path.baseName).array;
}
auto doc_src_with_path() {
return asNormalizedPath(pwd.chainPath(_fn_src_and_path)).array;
}
}
return SisuSrcPaths();
}
}
#+END_SRC
*** pods internal, zipped, unzipped
#+name: template_paths_pods
#+BEGIN_SRC d
template DocReformPathsPods() {
mixin DocReformRgxInit;
static auto rgx = Rgx();
string _suffix = ".zip";
auto DocReformPathsPods(Dm)(Dm doc_matters) {
string _base_dir_pod = (doc_matters.output_path.length > 0)
? doc_matters.output_path ~ "/pod"
: "/pod";
string _base_dir_doc = "sisudoc";
struct _PodPaths {
string base_filename_(string fn_src) {
auto pth = fn_src.baseName.stripExtension;
return pth;
}
string pod_dir_() {
auto pth = _base_dir_pod;
return pth;
}
string sisudoc_dir_() {
auto pth = _base_dir_doc;
return pth;
}
string pod_filename_(string fn_src) {
string pth = _base_dir_pod.chainPath(base_filename_(fn_src) ~ _suffix).array;
return pth;
}
string base_filesystem_(string fn_src) {
string pth = _base_dir_pod.chainPath(base_filename_(fn_src)).array;
assert(pth == _base_dir_pod ~ "/" ~ base_filename_(fn_src),
pth ~ " == " ~ _base_dir_pod ~ "/" ~ base_filename_(fn_src) ~ "?");
return pth;
}
string base_pod_(string fn_src) {
string pth = _base_dir_pod.chainPath(base_filename_(fn_src)).array; // change this
return pth;
}
auto base_filename(string fn_src) {
auto pth_1_ = base_filename_(fn_src);
auto pth_2_ = base_filename_(fn_src);
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
return pth_2_;
}
}
return _pods();
}
auto pod_filename(string fn_src) {
auto pth_1_ = pod_filename_(fn_src);
auto pth_2_ = pod_filename_(fn_src);
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
return pth_2_;
}
}
return _pods();
}
auto base(string fn_src) {
auto pth_1_ = "";
auto pth_2_ = base_filesystem_(fn_src);
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
return pth_2_;
}
}
return _pods();
}
auto pod_root(string fn_src) {
auto pth_1_ = "";
auto pth_2_ = asNormalizedPath(base(fn_src).filesystem_open_zpod.chainPath("")).array; // "sisudoc"
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
return pth_2_;
}
}
return _pods();
}
auto conf_root(string fn_src) {
auto pod_root_ = pod_root(fn_src);
auto pth_1_ = "conf";
auto pth_2_ = asNormalizedPath(pod_root(fn_src).filesystem_open_zpod.chainPath("conf")).array;
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
assert(pod_root_.filesystem_open_zpod.chainPath(zpod).array == pth_2_);
return pth_2_;
}
}
return _pods();
}
auto css(string fn_src) {
auto pod_root_ = pod_root(fn_src);
auto pth_1_ = asNormalizedPath(conf_root(fn_src).zpod.chainPath("css")).array;
auto pth_2_ = asNormalizedPath(conf_root(fn_src).filesystem_open_zpod.chainPath("css")).array;
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
assert(pod_root_.filesystem_open_zpod.chainPath(zpod).array == pth_2_);
return pth_2_;
}
}
return _pods();
}
auto media_root(string fn_src) {
auto pod_root_ = pod_root(fn_src);
auto pth_1_ = "media";
auto pth_2_ = asNormalizedPath(pod_root(fn_src).filesystem_open_zpod.chainPath("media")).array;
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
assert(pod_root_.filesystem_open_zpod.chainPath(zpod).array == pth_2_);
return pth_2_;
}
}
return _pods();
}
auto text_root(string fn_src) {
auto pod_root_ = pod_root(fn_src);
auto pth_1_ = asNormalizedPath(media_root(fn_src).zpod.chainPath("text")).array;
auto pth_2_ = asNormalizedPath(media_root(fn_src).filesystem_open_zpod.chainPath("text")).array;
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
assert(pod_root_.filesystem_open_zpod.chainPath(zpod).array == pth_2_);
return pth_2_;
}
}
return _pods();
}
auto doc(string fn_src) {
auto pod_root_ = pod_root(fn_src);
auto pth_1_ = text_root(fn_src).zpod;
auto pth_2_ = text_root(fn_src).filesystem_open_zpod;
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
assert(pod_root_.filesystem_open_zpod.chainPath(zpod).array == pth_2_);
return pth_2_;
}
}
return _pods();
}
auto doc_lng(string fn_src, string lng) {
auto pod_root_ = pod_root(fn_src);
auto pth_1_ = asNormalizedPath(text_root(fn_src).zpod.chainPath(lng)).array;
auto pth_2_ = asNormalizedPath(text_root(fn_src).filesystem_open_zpod.chainPath(lng)).array;
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
assert(pod_root_.filesystem_open_zpod.chainPath(zpod).array == pth_2_);
return pth_2_;
}
}
return _pods();
}
auto image_root(string fn_src) {
auto pod_root_ = pod_root(fn_src);
auto pth_1_ = asNormalizedPath(media_root(fn_src).zpod.chainPath("image")).array;
auto pth_2_ = asNormalizedPath(media_root(fn_src).filesystem_open_zpod.chainPath("image")).array;
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
assert(pod_root_.filesystem_open_zpod.chainPath(zpod).array == pth_2_);
return pth_2_;
}
}
return _pods();
}
auto fn_pod_filelist(string fn_src) {
auto pod_root_ = pod_root(fn_src);
auto _manifest = PodManifest!()(fn_src).pod_manifest_filename;
auto pth_1_ = _manifest;
auto pth_2_ = asNormalizedPath(pod_root(fn_src).filesystem_open_zpod.chainPath(_manifest)).array;
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
assert(pod_root_.filesystem_open_zpod.chainPath(zpod).array == pth_2_);
return pth_2_;
}
}
return _pods();
}
auto fn_doc(string fn_src, string lng) {
auto pod_root_ = pod_root(fn_src);
auto pth_1_ = asNormalizedPath(doc_lng(fn_src, lng).zpod.chainPath(fn_src.baseName)).array;
auto pth_2_ = asNormalizedPath(doc_lng(fn_src, lng).filesystem_open_zpod.chainPath(fn_src.baseName)).array;
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
assert(pod_root_.filesystem_open_zpod.chainPath(zpod).array == pth_2_);
return pth_2_;
}
}
return _pods();
}
auto fn_doc_insert(string fn_src, string fn_insert, string lng) {
auto pod_root_ = pod_root(fn_src);
auto pth_1_ = asNormalizedPath(doc_lng(fn_src, lng).zpod.chainPath(fn_insert.baseName)).array;
auto pth_2_ = asNormalizedPath(doc_lng(fn_src, lng).filesystem_open_zpod.chainPath(fn_insert.baseName)).array;
struct _pods {
auto zpod() {
return pth_1_;
}
auto filesystem_open_zpod() {
assert(pod_root_.filesystem_open_zpod.chainPath(zpod).array == pth_2_);
return pth_2_;
}
}
return _pods();
}
}
return _PodPaths();
}
}
#+END_SRC
* 1. output paths
** 0. module template :module:paths_output:
#+BEGIN_SRC d :tangle ../src/doc_reform/output/paths_output.d
/++
default settings
+/
module doc_reform.output.paths_output;
import std.array,
std.path,
std.regex,
std.stdio;
import doc_reform.meta.rgx;
<>
<>
<>
<>
#+END_SRC
** shared out path, base directory :out:
- output paths for content, minimize chance of filename/directory collisions
in particular pods can contain markup that is published under a name that may
be used elsewere
- if the pod directory has a different name from the file append the pod
directory name to the output file name: pod_directory.markup_filename e.g.
sisu-manual.sisu_markup
- if pod and file have same name, keep name (makes no sense to repeat pod
name) NO sisu_markup.sisu_markup should be sisu_markup
#+name: template_paths_out
#+BEGIN_SRC d
template DocReformOutPaths() {
auto DocReformOutPaths(Po,Lng)(
Po output_pth_root,
Lng lng,
) {
struct _PathsStruct {
string output_root() {
return (output_pth_root.length > 0)
? output_pth_root
: "sisugen";
}
string output_base() {
return asNormalizedPath(output_root.chainPath(lng)).array;
}
}
return _PathsStruct();
}
}
template DocReformOutPathSQLite() {
auto DocReformOutPathSQLite(Po)(
Po output_pth_root,
) {
struct _PathsStruct {
string output_root() {
return (output_pth_root.length > 0)
? output_pth_root
: "sisugen";
}
string output_base() {
return asNormalizedPath(output_root).array;
}
}
return _PathsStruct();
}
}
#+END_SRC
** set
#+name: template_paths_out
#+BEGIN_SRC d
template DocReformOutPathsFnPd() {
/+ TODO stuff to work out here +/
auto DocReformOutPathsFnPd(Fn,Pn)(
Fn fn_src_pth,
Pn pod_name
) {
struct _PathsStruct {
string base_filename() {
return fn_src_pth.baseName.stripExtension;
}
string base_pod_and_filename() { // TODO
/+
- if pod,
- pod_name
- file_name
- if pod_name == file_name
- file_name
- else if pod_name != file_name
- pod_name.file_name
+/
string _fn_src = fn_src_pth.baseName.stripExtension;
string _output_base_name;
if (!(pod_name.empty)) {
if (pod_name == _fn_src) {
_output_base_name = _fn_src;
} else {
_output_base_name = pod_name ~ "." ~ _fn_src;
}
} else {
_output_base_name = _fn_src;
}
return _output_base_name;
}
}
return _PathsStruct();
}
}
#+END_SRC
** _html_ :html:
#+name: template_paths_html
#+BEGIN_SRC d
template DocReformPathsHTML() {
mixin DocReformRgxInit;
static auto rgx = Rgx();
auto DocReformPathsHTML(Po,Lng)(
Po output_pth_root,
Lng lng,
) {
auto out_pth = DocReformOutPaths!()(output_pth_root, lng);
string base_dir = "html";
string suffix = ".html";
struct _PathsStruct {
string base_filename(string fn_src) {
return fn_src.baseName.stripExtension;
}
string base() {
return asNormalizedPath((out_pth.output_base).chainPath(base_dir)).array;
}
string image() {
return asNormalizedPath((out_pth.output_root).chainPath("image")).array;
}
string css() {
return asNormalizedPath((out_pth.output_root).chainPath("css")).array;
}
string fn_seg_css() {
return asNormalizedPath(css.chainPath("html_seg.css")).array;
}
string fn_scroll_css() {
return asNormalizedPath(css.chainPath("html_scroll.css")).array;
}
string seg(string fn_src) {
return asNormalizedPath(base.chainPath(base_filename(fn_src))).array;
}
string fn_scroll(string fn_src) {
return asNormalizedPath(base.chainPath(base_filename(fn_src) ~ suffix)).array;
}
string fn_seg(string fn_src, string seg_filename) {
return asNormalizedPath(seg(fn_src).chainPath(seg_filename ~ suffix)).array;
}
string tail_seg(string fn_src) {
return lng ~ "/html/" ~ base_filename(fn_src);
}
string tail_fn_scroll(string fn_src) {
return lng ~ "/html/" ~ base_filename(fn_src) ~ suffix;
}
string tail_fn_seg(string fn_src, string seg_filename) {
return lng ~ "/html/" ~ seg(fn_src) ~ "/" ~ seg_filename ~ suffix;
}
}
return _PathsStruct();
}
}
#+END_SRC
** _epub_ :epub:
#+name: template_paths_epub
#+BEGIN_SRC d
template DocReformPathsEPUB() {
mixin DocReformRgxInit;
static auto rgx = Rgx();
auto DocReformPathsEPUB(Po,Lng)(
Po output_pth_root,
Lng lng,
) {
auto out_pth = DocReformOutPaths!()( output_pth_root, lng);
string base_dir = "epub";
struct _PathsStruct {
string base() {
return asNormalizedPath((out_pth.output_base).chainPath(base_dir)).array;
}
string base_filename(string fn_src) {
return fn_src.baseName.stripExtension;
}
string epub_file(string fn_src) {
return asNormalizedPath(base.chainPath(base_filename(fn_src) ~ ".epub")).array;
}
string dirtop() {
return "".chainPath("").array;
}
string doc_meta_inf(string fn_src) {
return asNormalizedPath(dirtop.chainPath("META-INF")).array;
}
string doc_oebps(string fn_src) {
return asNormalizedPath(dirtop.chainPath("OEBPS")).array;
}
string doc_oebps_css(string fn_src) {
return asNormalizedPath(doc_oebps(fn_src).chainPath("css")).array;
}
string doc_oebps_image(string fn_src) {
return asNormalizedPath(doc_oebps(fn_src).chainPath("image")).array;
}
string fn_mimetypes(string fn_src) {
return asNormalizedPath(dirtop.chainPath("mimetypes")).array;
}
string fn_dmi_container_xml(string fn_src) {
return asNormalizedPath(doc_meta_inf(fn_src).chainPath("container.xml")).array;
}
string fn_oebps_toc_nav_xhtml(string fn_src) {
return asNormalizedPath(doc_oebps(fn_src).chainPath("toc_nav.xhtml")).array;
}
string fn_oebps_toc_ncx(string fn_src) {
return asNormalizedPath(doc_oebps(fn_src).chainPath("toc.ncx")).array;
}
string fn_oebps_content_opf(string fn_src) {
return asNormalizedPath(doc_oebps(fn_src).chainPath("content.opf")).array;
}
string fn_oebps_content_xhtml(string fn_src, string seg_filename) {
return asNormalizedPath(doc_oebps(fn_src).chainPath(seg_filename ~ ".xhtml")).array;
}
string fn_oebps_css(string fn_src) {
return asNormalizedPath(doc_oebps_css(fn_src).chainPath("epub.css")).array;
}
debug(epub_output) {
string dbg_docdir(string fn_src) {
return base.chainPath(base_filename(fn_src)).array;
}
string dbg_docdir_oebps(string fn_src) {
return dbg_docdir(fn_src).chainPath("OEBPS").array;
}
string dbg_doc_meta_inf(string fn_src) {
return dbg_docdir(fn_src).chainPath("META-INF").array;
}
string dbg_doc_oebps(string fn_src) {
return dbg_docdir(fn_src).chainPath("OEBPS").array;
}
string dbg_doc_oebps_css(string fn_src) {
return dbg_doc_oebps(fn_src).chainPath("css").array;
}
string dbg_doc_oebps_image(string fn_src) {
return dbg_doc_oebps(fn_src).chainPath("image").array;
}
string dbg_fn_mimetypes(string fn_src) {
return dbg_docdir(fn_src).chainPath("mimetypes").array;
}
string dbg_fn_dmi_container_xml(string fn_src) {
return dbg_doc_meta_inf(fn_src).chainPath("container.xml").array;
}
string dbg_fn_oebps_toc_nav_xhtml(string fn_src) {
return dbg_docdir_oebps(fn_src).chainPath("toc_nav.xhtml").array;
}
string dbg_fn_oebps_toc_ncx(string fn_src) {
return dbg_docdir_oebps(fn_src).chainPath("toc.ncx").array;
}
string dbg_fn_oebps_content_opf(string fn_src) {
return dbg_docdir_oebps(fn_src).chainPath("content.opf").array;
}
string dbg_fn_oebps_content_xhtml(string fn_src, string seg_filename) {
return dbg_docdir_oebps(fn_src).chainPath(seg_filename ~ ".xhtml").array;
}
string dbg_fn_oebps_css(string fn_src) {
return dbg_doc_oebps_css(fn_src).chainPath("epub.css").array;
}
}
}
return _PathsStruct();
}
}
#+END_SRC
** _sqlite_ :sqlite:
*** discrete
#+name: template_paths_sqlite
#+BEGIN_SRC d
template DocReformPathsSQLiteDiscrete() {
mixin DocReformRgxInit;
static auto rgx = Rgx();
auto DocReformPathsSQLiteDiscrete(Po,Lng)(
Po output_pth_root,
Lng lng,
) {
struct _PathsStruct {
string base_filename(string fn_src) {
return fn_src.baseName.stripExtension;
}
string base() {
auto out_pth = DocReformOutPaths!()(output_pth_root, lng);
string base_dir = "sqlite";
return asNormalizedPath((out_pth.output_base).chainPath(base_dir)).array;
}
string seg(string fn_src) {
return asNormalizedPath(base.chainPath(base_filename(fn_src))).array;
}
string sqlite_file(string fn_src) {
return asNormalizedPath(base.chainPath(base_filename(fn_src) ~ ".sql.db")).array;
}
}
return _PathsStruct();
}
}
#+END_SRC
*** TODO collection
#+name: template_paths_sqlite
#+BEGIN_SRC d
template DocReformPathsSQLite() {
mixin DocReformRgxInit;
static auto rgx = Rgx();
auto DocReformPathsSQLite(DbN, Po)(
DbN db_name,
Po output_pth_root,
) {
struct _PathsStruct {
string base_filename(string fn_src) {
return fn_src.baseName.stripExtension;
}
string base() {
auto out_pth = DocReformOutPathSQLite!()(output_pth_root); // decide whether to have separate files for each language
string base_dir = "sqlite";
return asNormalizedPath((out_pth.output_root).chainPath(base_dir)).array;
}
string sqlite_file() {
return asNormalizedPath(base.chainPath(base_filename(db_name) ~ ".sql.db")).array;
}
}
return _PathsStruct();
}
}
#+END_SRC
* __END__