# cortav specification
[*cortav] is a markup language designed to be a simpler, but more capable alternative to markdown. its name derives from the [>dict Ranuir words] [!cor] "writing" and [!tav] "document", translating to something like "(plain) text document".
dict: http://ʞ.cc/fic/spirals/glossary
the cortav [!format] can be called [!cortavgil], or [!gil cortavi], to differentiate it from the reference implementation [!cortavsir] or [!sir cortavi].
%toc
## cortav vs. markdown
the most important difference between cortav and markdown is that cortav is strictly line-oriented. this choice was made to ensure that cortav was relatively easy to parse. so while a simple [$.ct] file may look a bit like a [$.md] file, in reality it's a lot closer to gemtext than any flavor of markdown.
## encoding
a cortav document is made up of a sequence of codepoints. UTF-8 must be supported, but other encodings (such as UTF-32 or C6B) may be supported as well. lines will be derived by splitting the codepoints at the linefeed character or equivalent. note that unearthly encodings like C6B or EBCDIC will need to select their own control sequences.
## structure
cortav is based on an HTML-like block model, where a document consists of sections, which are made up of blocks, which may contain a sequence of spans. flows of text are automatically conjoined into spans, and blocks are separated by one or more newlines. this means that, unlike in markdown, a single logical paragraph [*cannot] span multiple ASCII lines. the primary purpose of this was to ensure ease of parsing, but also, both markdown and cortav are supposed to be readable from within a plain text editor. this is the 21st century. every reasonable text editor supports soft word wrap, and if yours doesn't, that's entirely your own damn fault.
the first character(s) of every line (the "control sequence") indicates the role of that line. if no control sequence is recognized, the sequence [$.] is implied instead. the standard line classes and their associated control sequences are listed below. some control sequences have alternate forms, in order to support modern, readable unicode characters as well as plain ascii text.
* paragraphs (. ¶ ❡): a paragraph is a simple block of text. the period control sequence is only necessary if the paragraph text begins with something that would otherwise be interpreted as a control sequence.
* newlines (\): inserts a line break into previous paragraph and attaches the following text. mostly useful for poetry or lyrics.
* section starts (# §): starts a new section. all sections have an associated depth, determined by the number of sequence repetitions (e.g. "###" indicates depth-three"). sections may have headers and IDs; both are optional. IDs, if present, are a sequence of raw-text immediately following the hash marks. if the line has one or more space character followed by styled-text, a header will be attached. the character immediately following the hashes can specify a particular type of section. e.g.:
** [$#] is a simple section break.
** [$#anchor] opens a new section with the ID [$anchor].
** [$# header] opens a new section with the title "header".
** [$#anchor header] opens a new section with both the ID [$anchor] and the title "header".
** [$#>conversation] opens a blockquote section named [$conversation] without a header.
** [$#^id] opens a footnote section for the multiline footnote [$id]. the ID must be specified.
** [$#$id] opens the multiline macro [$id]. the ID must be specified.
** [$#&id mime] opens a new inline object [$id] of type [$mime]. useful for embedding SVGs. the ID and mime type must be specified.
* lists (* :): these are like paragraph nodes, but list nodes that occur next to each other will be arranged so as to show they compose a sequence. depth is determined by the number of stars/colons. like headers, a list entry may have an ID that can be used to refer back to it; it is indicated in the same way. if colons are used, this indicates that the order of the items is signifiant. :-lists and *-lists may be intermixed; however, note than only the last character in the sequence actually controls the depth type.
* directives (%): a directive issues a hint to the renderer in the form of an arbitrary string. directives are normally ignored if they are not supported, but you may cause a warning to be emitted where the directive is not supported with [$%!] or mark a directive critical with [$%!!] so that rendering will entirely fail if it cannot be parsed.
* comments (%%): a comment is a line of text that is simply ignored by the renderer.
* asides (!): indicates text that diverges from the narrative, and can be skipped without interrupting it. think of it like block-level parentheses. asides which follow one another are merged as paragraphs of the same aside, usually represented as a sort of box. if the first line of an aside contains a colon, the stretch of styled-text from the beginning to the aside to the colon will be treated as a "type heading," e.g. "Warning:"
* code (~~~): a line beginning with ~~~ begins or terminates a block of code. the opening line should look like one of the below
** [$~~~]
** [$~~~ language] (markdown-style shorthand syntax)
** [$~~~ \[language\] ~~~] (cortav syntax)
** [$~~~ \[language\] #id ~~~]
** [$~~~ title ~~~]
** [$~~~ title \[language\] ~~~]
** [$~~~ \[language\] title ~~~]
** [$~~~ title \[language\] #id ~~~]
* reference (tab): a line beginning with a tab is treated as a "reference." references hold out-of-line metadata for preceding text like links and footnotes. a reference consists of an identifier followed by a colon and an arbitrary number of spaces or tabs, followed by text. whether this text is interpreted as raw-text or styled-text depends on the context in which the reference is used.
* quotation (<): a line of the form [$<[!name]> [!quote]] denotes an utterance by [$name].
* blockquote (>): alternate blockquote syntax. can be nested by repeating the
* subtitle (--): attaches a subtitle to the previous header
* embed (&): embeds a referenced object. can be used to show images or repeat previously defined objects like lists or tables, optionally with a caption.
** &myimg All that remained of the unfortunate blood magic pageant contestants and audience (police photo)
** &$mymacro arg 1|arg 2|arg 3
* break (---): inserts a horizontal rule or other context break; does not end the section. must be followed by newline.
* table cells (+ |): see [>ex.tab table examples].
## styled text
most blocks contain a sequence of spans. these spans are produced by interpreting a stream of [*styled-text] following the control sequence. styled-text is a sequence of codepoints potentially interspersed with escapes. an escape is formed by an open square bracket [$\[] followed by a [*span control sequence], and arguments for that sequence like more styled-text. escapes can be nested.
* strong \[*[!styled-text]\]: causes its text to stand out from the narrative, generally rendered as bold or a brighter color.
* emphatic \[![!styled-text]\]: indicates that its text should be spoken with emphasis, generally rendered as italics
* literal \[$[!styled-text]\]: indicates that its text is a reference to a literal sequence of characters, variable name, or other discrete token. generally rendered in monospace
* link \[>[!ref] [!styled-text]\]: produces a hyperlink or cross-reference denoted by [$ref], which may be either a URL specified with a reference or the name of an object like an image or section elsewhere in the document. the unicode characters [$→] and [$🔗] can also be used instead of [$>] to denote a link.
* footnote \[^[!ref] [!styled-text]\]: annotates the text with a defined footnote
* raw \[\\[!raw-text]\]: causes all characters within to be interpreted literally, without expansion. the only special characters are square brackets, which must have a matching closing bracket
* raw literal \[$\\[!raw-text]\]: shorthand for [\[$[\…]]]
* macro \{[!name] [!arguments]}: invokes a [>ex.mac macro], specified with a reference
* argument \[#[!var]\]: in macros only, inserts the [$var]-th argument. otherwise, inserts a context variable provided by the renderer.
* raw argument \[##[!var]\]: like above, but does not evaluate [$var].
* term \[&[!name] ([!label])\]: quotes a defined term with a link to its definition
* inline image \[&@[!name]\]: shows a small image or other object inline. the unicode character [$🖼] can also be used instead of [$&@].
## identifiers
any identifier (including a reference) that is defined within a named section must be referred to from outside that section as [$[!sec].[!obj]], where [$sec] is the ID of the containing section and [$obj] is the ID of the object one wishes to reference.
## context variables
context variables are provided so that cortav renderers can process templates. certain context variables are provided for by the standard. you can test for the presence of a context variable with the directive [$%[*when] ctx [!var]].
* {def cortav.file} the name of the file currently being rendered
* {def cortav.path} the absolute path of the file currently being rendered
* {def cortav.time} the current system time in the form [$[#cortav.time]]
* {def cortav.date} the current system date in the form [$[#cortav.date]]
* {def cortav.datetime} the current system date and time represented in the locale or system-standard manner (e.g. [$[#cortav.datetime]])
* {def cortav.page} the number of the page currently being rendered
* {def cortav.id} the identifier of the renderer
* {def cortav.hash} the SHA3 hash of the source file being rendered
def: [*[#1]]:
on systems with environment variables, these may be accessed as context variables by prefixing their name with [$env.].
different renderers may provide context in different ways, such as from command line options or a context file. any predefined variables should carry an appropriate prefix to prevent conflation.
## directives
d: [$%[*[##1]]]
* {d format} gives a hint on how the document should be formatted. the first hint that is understood will be applied; all others will be discarded. standard hints include:
** essay
** narrative
** screenplay: uses asides to denote actions, quotes for dialogue
** stageplay: uses asides to denote actions, quotes for dialogue
** manual
** glossary
** news
* {d author} encodes document authorship
* {d cols} specifies the number of columns the next object should be rendered with
* {d include} transcludes another file
* {d quote} transcludes another file, without expanding the text except for paragraphs
* {d embed}, where possible, embeds another file as an object within the current one. in HTML this could be accomplished with e.g. an iframe.
* {d expand} causes the next object (usually a code block) to be fully expanded when it would otherwise not be
##ex examples
~~~ blockquotes #bq [cortav] ~~~
the following excerpts of text were recovered from a partially erased hard drive found in the Hawthorne manor in the weeks after the Incident. context is unknown.
#>
—spoke to the man under the bridge again, the one who likes to bite the heads off the fish, and he suggested i take a brief sabbatical and journey to the Wandering Oak (where all paths meet) in search of inspiration and the forsaken sword of Pirate Queen Granuaile. a capital idea! i shall depart upon the morrow, having honored the Lord Odin and poisoned my accursed minstrels as is tradition—
—can't smell my soul anymore, but that's beside the point entirely—
—that second moon (always have wondered why nobody else seems to notice the damn fool thing except on Michaelmas day). alas, my luck did not endure, and i was soon to find myself knee-deep in—
—just have to see about that, won't we!—
#
the nearest surviving relative of Lord Hawthorne is believed to be a wandering beggar with a small pet meerkat who sells cursed wooden trinkets to unwary children. she will not be contacted, as the officers of the Yard fear her.
~~~
~~~links & notes #lnr [cortav] ~~~
this sentence contains a [>zombo link] to zombo com. you can do anything[^any] at zombo com.
zombo: https://zombo.com
any: anything you want
~~~
~~~ macros #mac [cortav] ~~~
the ranuir word {gloss cor|writing}…
gloss: [*[#1]] “[#2]”
~~~
~~~ tables #tab [cortav] ~~~
here is a glossary table.
+ english :+ ranuir + zia ţai + thaliste +
| honor :| tef | pang | mbecheve |
| rakewym :| hirvag | hi phang | nache umwelinde |
| eat :| fese | dzia | rotechqa |
and now the other way around!
+:english :| honor |
+:ranuir :| tef |
+:zia ţai :| pang |
+:thalishte:| mbecheve |
~~~
## extensions
the cortav specification also specifies a number of extensions that do not have to be supported for a renderer to be compliant. the extension mechanism supports the following directives.
* inhibits: prevents an extension from being used even where available
* uses: turns on an extension that is not specified by the user operating the renderer (e.g. on the command line)
* needs: causes rendering to fail with an error if the extensions are not available
where possible, instead of [$needs x y z], the directive [$when has-ext x y z] should be used instead. this causes the next section to be rendered only if the named extensions are available. [$unless has-ext x y z] can be used to provide an alternative format.
extensions are mainly interacted with through directives. all extension directives must be prefixed with the name of the extension.
### toc
sections that have a title will be included in the table of contents. the table of contents is by default inserted at the break between the first level-1 section and the section immediately following it. you may instead place the directive [$toc] where you wish the TOC to be inserted, or suppress it entirely with [$inhibits toc]. note that some renderers may not display the TOC as part of the document itself.
### smart-quotes
a cortav renderer may automatically translate punctuation marks to other punctuation marks depending on their context.
### hilite
code can be highlighted according to the formal language it is written in.
### lua
renderers with a lua interpreter available can evaluate lua code:
* [$%lua use [!file]]: evaluates [$file] and makes its definitions available
* [$\[%lua raw [!script]\]]: evaluates [$script] and emits the string it returns (if any) in raw span context.
* [$\[%lua exp [!script]\]]: evaluates [$script] and emits the string it returns (if any) in expanded span context.
* [$%lua raw [!script]]: evaluates [$script] and emits the string array it returns (if any) in raw block context.
* [$%lua exp [!script]]: evaluates [$script] and emits the string array it returns (if any) in expanded block context.
the interpreter should provide a [$cortav] table with the objects:
* ctx: contains context variables
used files should return a table with the following members
* macros: an array of functions that return strings or arrays of strings when invoked. these will be injected into the global macro namespace.
### ts
the [*ts] extension allows documents to be marked up for basic classification constraints and automatically redacted. if you are seriously relying on ts for confidentiality, make damn sure you start the file with [$%[*requires] ts], so that rendering will fail with an error if the extension isn't supported.
ts enables the directives:
* [$ts class [!scope] [!level] (styled-text)]: indicates a classification level for either the while document (scope [!doc]) or the next section (scope [!sec]). if the ts level is below [$level], the section will be redacted or rendering will fail with an error, as appropriate. if styled-text is included, this will be treated as the name of the classification level.
* [$ts word [!scope] [!word] (styled-text)]: indicates a codeword clearance that must be present for the text to render. if styled-text is present, this will be used to render the name of the codeword instead of [$word].
* [$when ts level [!level]]
* [$when ts word [!word]]
ts enables the spans:
* [$\[🔒#[!level] [!styled-text]\]]: redacts the span if the security level is below that specified.
* [$\[🔒.[!word] [!styled-text]\]]: redacts the span if the specified codeword clearance is not enabled.
(the padlock emoji is shorthand for [$%ts].)
ts redacts spans securely; that is, they are simply replaced with an indicator that they have been redacted, without visually leaking the length of the redacted text.
~~~ts-example example ~~~ cortav
%ts word doc sorrowful-pines SORROWFUL PINES
# intercept R1440 TCT S3
this communication between the ambassador of [*POLITY DOORMAT CRIMSON] "Socialist League world Glory" and an unknown noble of [*POLITY ROSE] "the Empire of a Thousand Suns" was intercepted by [*SYSTEM SUPINE WARBLE].
## involved individuals
* (A) [*DOORMAT CRIMSON] Ambassador [🔒.morose-frenzy Hyacinth Autumn-Lotus] (confidence 1.0)
* (B) [*ROSE] Duchess [!UNKNOWN] (confidence 0.4)
## provenance
this communication was retrieved by [🔒#3 automated buoy downlink] from [*SYSTEM SUPINE WARBLE].
%ts level sec 9 ULTRAVIOLET
##> transcript
<A> we may have a problem
<B> Hyacinth, I told you not to contact me without—
<A, shouting> god DAMMIT woman I am trying to SAVE your worthless skin
<B> Hyacinth! your Godforsaken scrambler!
<A> …oh, [!fuck].
(signal lost)
~~~
# reference implementation
the cortav standard is implemented in [$cortav.lua], found in this repository. only the way [$cortav.lua] interprets the cortav language is defined as a reference implementation; other behaviors are simply how [$cortav.lua] implements the specification and may be copied, ignored, tweaked, violently assaulted, or used as inspiration by a compliant parser.
## invocation
[$cortav.lua] is operated from the command line, either with the command [$lua cortav.lua] or by first compiling it to bytecode; a makefile for producing a "bytecode binary" that can be executed like a normal executable is included in the repository. henceforth it will be assumed you are using the compiled form; if you are instead running [$cortav.lua] directly as an interpreted script, just replace [$$ cortav] with [$$ lua cortav.lua] in incantations.
when run without commands, [$cortav.lua] will read input from standard input and write to standard output. alternately, a source file can be given as an argument. to write to a specific file instead of the standard output stream, use the [$-o [!file]] flag.
~~~
$ cortav readme.ct -o readme.html
# reads from readme.ct, writes to readme.html
$ cortav -o readme.html
# reads from standard input, writes to readme.html
$ cortav readme.ct
# reads from readme.ct, writes to standard output
~~~
### switches
[$cortav.lua] offers various switches to control its behavior.
+ long + short + function +
| [$--out [!file]] :|:[$-o]:| sets the output file (default stdout) |
| [$--log [!file]] :|:[$-l]:| sets the log file (default stderr) |
| [$--define [!var] [!val]]:|:[$-d]:| sets the context variable [$var] to [$val] |
| [$--mode-set [!mode]] :|:[$-y]:| activates the [>refimpl-mode mode] with ID [!mode]
| [$--mode-clear [!mode]] :|:[$-n]:| disables the mode with ID [!mode] |
| [$--mode [!id] [!val]] :|:[$-m]:| configures mode [!id] with the value [!val] |
| [$--help] :|:[$-h]:| display online help |
| [$--version] :|:[$-V]:| display the interpreter version |
###refimpl-mode modes
most of [$cortav.lua]'s implementation-specific behavior is controlled by use of [!modes]. these are namespaced options which may have a boolean, string, or numeric value. boolean modes are set with the [$-y] [$-n] flags; other modes use the [$-m] flags.
most modes are defined by the renderer backend. the following modes affect the behavior of the frontend:
+ ID + type + effect
| [$render:format]:| string | selects the [>refimpl-rend renderer] (default [$html])
| [$parse:show-tree]:| flag | dumps the parse tree to the log after parsing completes
##refimpl-rend renderers
[$cortav.lua] implements a frontend-backend architecture, separating the parsing stage from the rendering stage. this means new renderers can be added to [$cortav.lua] relatively easily. currently, only an [>refimpl-rend-html HTML renderer] is included; however, a [$groff] backend is planned at some point in the future, so that PDFs and manpages can be generated from cortav files.
###refimpl-rend-html html
the HTML renderer is activated with the incantation [$-m render:format html]. it is currently the default backend. it produces a single HTML file, optionally with CSS styling data, from a [$.ct] input file.
it supports the following modes:
* string (css length) [$html:width] sets a maximum width for the body content in order to make the page more readable on large displays
* number [$html:accent] applies an accent hue to the generated webpage. the hue is specified in degrees, e.g. [$-m html:accent 0] applies a red accent.
* flag [$html:dark-on-light] uses dark-on-light styling, instead of the default light-on-dark
* flag [$html:fossil-uv] outputs an HTML snippet suitable for use with the Fossil VCS webserver. this is intended to be used with the unversioned content mechanism to host rendered versions of documentation written in cortav that's stored in a Fossil repository.
* number [$html:hue-spread] generates a color palette based on the supplied accent hue. the larger the value, the more the other colors diverge from the accent hue.
* string [$html:link-css] generates a document linking to the named stylesheet
* flag [$html:gen-styles] embeds appropriate CSS styles in the document (default on)
* flag [$html:snippet] produces a snippet of html instead of an entire web page. note that proper CSS scoping is not yet implemented (and can't be implemented hygienically since [$scoped] was removed 😢)
* string [$html:title] specifies the webpage titlebar contents (normally autodetected from the document based on headings or directives)
~~~
$ cortav readme.ct --out readme.html \
-m render:format html \
-m html:width 40em \
-m html:accent 80 \
-m html:hue-spread 35 \
-y html:dark-on-light # could also be written as:
$ cortav readme.ct -ommmmy readme.html render:format html html:width 40em html:accent 80 html:hue-spread 35 html:dark-on-light
~~~