Tomb/doc/literate/shocco

#!/bin/sh
# **shocco** is a quick-and-dirty, literate-programming-style documentation
# generator written for and in __POSIX shell__. It borrows liberally from
# [Docco][do], the original Q&D literate-programming-style doc generator.
#
# `shocco(1)` reads shell scripts and produces annotated source documentation
# in HTML format. Comments are formatted with Markdown and presented
# alongside syntax highlighted code so as to give an annotation effect. This
# page is the result of running `shocco` against [its own source file][sh].
#
# shocco is built with `make(1)` and installs under `/usr/local` by default:
#
#     git clone git://github.com/rtomayko/shocco.git
#     cd shocco
#     make
#     sudo make install
#     # or just copy 'shocco' wherever you need it
#
# Once installed, the `shocco` program can be used to generate documentation
# for a shell script:
#
#     shocco shocco.sh
#
# The generated HTML is written to `stdout`.
#
# [do]: http://jashkenas.github.com/docco/
# [sh]: https://github.com/rtomayko/shocco/blob/master/shocco.sh#commit

# Usage and Prerequisites
# -----------------------

# The most important line in any shell program.
set -e

# There's a lot of different ways to do usage messages in shell scripts.
# This is my favorite: you write the usage message in a comment --
# typically right after the shebang line -- *BUT*, use a special comment prefix
# like `#/` so that its easy to pull these lines out.
#
# This also illustrates one of shocco's corner features. Only comment lines
# padded with a space are considered documentation. A `#` followed by any
# other character is considered code.
#
#/ Usage: shocco [-t <title>] [<source>]
#/ Create literate-programming-style documentation for shell scripts.
#/
#/ The shocco program reads a shell script from <source> and writes
#/ generated documentation in HTML format to stdout. When <source> is
#/ '-' or not specified, shocco reads from stdin.

# This is the second part of the usage message technique: `grep` yourself
# for the usage message comment prefix and then cut off the first few
# characters so that everything lines up.
expr -- "$*" : ".*--help" >/dev/null && {
    grep '^#/' <"$0" | cut -c4-
    exit 0
}

# A custom title may be specified with the `-t` option. We use the filename
# as the title if none is given.
test "$1" = '-t' && {
    title="$2"
    shift;shift
}

# Next argument should be the `<source>` file. Grab it, and use its basename
# as the title if none was given with the `-t` option.
file="$1"
: ${title:=$(basename "$file")}

# These are replaced with the full paths to real utilities by the
# configure/make system.
MARKDOWN='/usr/bin/markdown_py'
PYGMENTIZE='/usr/bin/pygmentize'

# On GNU systems, csplit doesn't elide empty files by default:
CSPLITARGS=$( (csplit --version 2>/dev/null | grep -i gnu >/dev/null) && echo "--elide-empty-files" || true )

# We're going to need a `markdown` command to run comments through. This can
# be [Gruber's `Markdown.pl`][md] (included in the shocco distribution) or
# Discount's super fast `markdown(1)` in C. Try to figure out if either are
# available and then bail if we can't find anything.
#
# [md]: http://daringfireball.net/projects/markdown/
# [ds]: http://www.pell.portland.or.us/~orc/Code/discount/
command -v "$MARKDOWN" >/dev/null || {
    if command -v Markdown.pl >/dev/null
    then alias markdown='Markdown.pl'
    elif test -f "$(dirname $0)/Markdown.pl"
    then alias markdown="perl $(dirname $0)/Markdown.pl"
    else echo "$(basename $0): markdown command not found." 1>&2
         exit 1
    fi
}

# Check that [Pygments][py] is installed for syntax highlighting.
#
# This is a fairly hefty prerequisite. Eventually, I'd like to fallback
# on a simple non-highlighting preformatter when Pygments isn't available. For
# now, just bail out if we can't find the `pygmentize` program.
#
# [py]: http://pygments.org/
command -v "$PYGMENTIZE" >/dev/null || {
    echo "$(basename $0): pygmentize command not found." 1>&2
    exit 1
}

# Work and Cleanup
# ----------------

# Make sure we have a `TMPDIR` set. The `:=` parameter expansion assigns
# the value if `TMPDIR` is unset or null.
: ${TMPDIR:=/tmp}

# Create a temporary directory for doing work. Use `mktemp(1)` if
# available; but, since `mktemp(1)` is not POSIX specified, fallback on naive
# (and insecure) temp dir generation using the program's basename and pid.
: ${WORK:=$(
      if command -v mktemp 1>/dev/null 2>&1
      then
          mktemp -d "$TMPDIR/$(basename $0).XXXXXXXXXX"
      else
          dir="$TMPDIR/$(basename $0).$$"
          mkdir "$dir"
          echo "$dir"
      fi
  )}

# We want to be absolutely sure we're not going to do something stupid like
# use `.` or `/` as a work dir. Better safe than sorry.
test -z "$WORK" -o "$WORK" = '/' && {
    echo "$(basename $0): could not create a temp work dir."
    exit 1
}

# We're about to create a ton of shit under our `$WORK` directory. Register
# an `EXIT` trap that cleans everything up. This guarantees we don't leave
# anything hanging around unless we're killed with a `SIGKILL`.
trap "rm -rf $WORK" 0

# Preformatting
# -------------
#
# Start out by applying some light preformatting to the `<source>` file to
# make the code and doc formatting phases a bit easier. The result of this
# pipeline is written to a temp file under the `$WORK` directory so we can
# take a few passes over it.

# Get a pipeline going with the `<source>` data. We write a single blank
# line at the end of the file to make sure we have an equal number of code/comment
# pairs.

# Folding.el support: turn {{{ folds }}} into titles -jrml
(cat "$file" \
    | sed -e 's/^# {{{/# #/' -e 's/^# }}}.*/# --------------/' \
    | awk '
/function.*\(\) {$/ { print "# ### " $2; print $0; next }
/\(\) {$/ { print "# ### " $1; print $0; next }
{print $0}' \
    && printf "\n\n# \n\n")         |

# We want the shebang line and any code preceding the first comment to
# appear as the first code block. This inverts the normal flow of things.
# Usually, we have comment text followed by code; in this case, we have
# code followed by comment text.
#
# Read the first code and docs headers and flip them so the first docs block
# comes before the first code block.
(
    lineno=0
    codebuf=;codehead=
    docsbuf=;docshead=
    while read -r line
    do
        # Issue a warning if the first line of the script is not a shebang
        # line. This can screw things up and wreck our attempt at
        # flip-flopping the two headings.
        lineno=$(( $lineno + 1 ))
        test $lineno = 1 && ! expr "$line" : "#!.*" >/dev/null &&
        echo "$(basename $0): $(file):1 [warn] shebang! line missing." 1>&2

        # Accumulate comment lines into `$docsbuf` and code lines into
        # `$codebuf`. Only lines matching `/#(?: |$)/` are considered doc
        # lines.
        if expr "$line" : '# ' >/dev/null || test "$line" = "#"
        then docsbuf="$docsbuf$line
"
        else codebuf="$codebuf$line
"
        fi

        # If we have stuff in both `$docsbuf` and `$codebuf`, it means
        # we're at some kind of boundary. If `$codehead` isn't set, we're at
        # the first comment/doc line, so store the buffer to `$codehead` and
        # keep going. If `$codehead` *is* set, we've crossed into another code
        # block and are ready to output both blocks and then straight pipe
        # everything by `exec`'ing `cat`.
        if test -n "$docsbuf" -a -n "$codebuf"
        then
            if test -n "$codehead"
            then docshead="$docsbuf"
                 docsbuf=""
                 printf "%s" "$docshead"
                 printf "%s" "$codehead"
                 echo "$line"
                 exec cat
            else codehead="$codebuf"
                 codebuf=
            fi
        fi
    done

    # We made it to the end of the file without a single comment line, or
    # there was only a single comment block ending the file. Output our
    # docsbuf or a fake comment and then the codebuf or codehead.
    echo "${docsbuf:-#}"
    echo "${codebuf:-"$codehead"}"
)                                            |

# Remove comment leader text from all comment lines. Then prefix all
# comment lines with "DOCS" and interpreted / code lines with "CODE".
# The stream text might look like this after moving through the `sed`
# filters:
#
#     CODE #!/bin/sh
#     CODE #/ Usage: shocco <file>
#     DOCS Docco for and in POSIX shell.
#     CODE
#     CODE PATH="/bin:/usr/bin"
#     CODE
#     DOCS Start by numbering all lines in the input file...
#     ...
#
# Once we pass through `sed`, save this off in our work directory so
# we can take a few passes over it.
sed -n '
    s/^/:/
    s/^:[ 	]\{0,\}# /DOCS /p
    s/^:[ 	]\{0,\}#$/DOCS /p
    s/^:/CODE /p
' > "$WORK/raw"

# Now that we've read and formatted our input file for further parsing,
# change into the work directory. The program will finish up in there.
cd "$WORK"

# First Pass: Comment Formatting
# ------------------------------

# Start a pipeline going on our preformatted input.
# Replace all CODE lines with entirely blank lines. We're not interested
# in code right now, other than knowing where comments end and code begins
# and code begins and comments end.
sed 's/^CODE.*//' < raw                      |

# Now squeeze multiple blank lines into a single blank line.
#
# __TODO:__ `cat -s` is not POSIX and doesn't squeeze lines on BSD. Use
# the sed line squeezing code mentioned in the POSIX `cat(1)` manual page
# instead.
cat -s                                       |

# At this point in the pipeline, our stream text looks something like this:
#
#     DOCS Now that we've read and formatted ...
#     DOCS change into the work directory. The rest ...
#     DOCS in there.
#
#     DOCS First Pass: Comment Formatting
#     DOCS ------------------------------
#
# Blank lines represent code segments. We want to replace all blank lines
# with a dividing marker and remove the "DOCS" prefix from docs lines.
sed '
    s/^$/##### DIVIDER/
    s/^DOCS //'                              |

# The current stream text is suitable for input to `markdown(1)`. It takes
# our doc text with embedded `DIVIDER`s and outputs HTML.
$MARKDOWN                                    |

# Now this where shit starts to get a little crazy. We use `csplit(1)` to
# split the HTML into a bunch of individual files. The files are named
# as `docs0000`, `docs0001`, `docs0002`, ... Each file includes a single
# doc *section*. These files will sit here while we take a similar pass over
# the source code.
(
    csplit -sk                               \
           $CSPLITARGS                       \
           -f docs                           \
           -n 4                              \
           - '/<h5>DIVIDER<\/h5>/' '{9999}'  \
           2>/dev/null                      ||
    true
)


# Second Pass: Code Formatting
# ----------------------------
#
# This is exactly like the first pass but we're focusing on code instead of
# comments. We use the same basic technique to separate the two and isolate
# the code blocks.

# Get another pipeline going on our performatted input file.
# Replace DOCS lines with blank lines.
sed 's/^DOCS.*//' < raw                     |

# Squeeze multiple blank lines into a single blank line.
cat -s                                      |

# Replace blank lines with a `DIVIDER` marker and remove prefix
# from `CODE` lines.
sed '
    s/^$/# DIVIDER/
    s/^CODE //'                             |

# Now pass the code through `pygmentize` for syntax highlighting. We tell it
# the the input is `sh` and that we want HTML output.
$PYGMENTIZE -l sh -f html -O encoding=utf8  |

# Post filter the pygments output to remove partial `<pre>` blocks. We add
# these back in at each section when we build the output document.
sed '
    s/<div class="highlight"><pre>//
    s/^<\/pre><\/div>//'                    |

# Again with the `csplit(1)`. Each code section is written to a separate
# file, this time with a `codeXXX` prefix. There should be the same number
# of `codeXXX` files as there are `docsXXX` files.
(
    DIVIDER='/<span class="c"># DIVIDER</span>/'
    csplit -sk                   \
           $CSPLITARGS           \
           -f code               \
           -n 4 -                \
           "$DIVIDER" '{9999}'   \
           2>/dev/null ||
    true
)

# At this point, we have separate files for each docs section and separate
# files for each code section.

# HTML Template
# -------------

# Create a function for apply the standard [Docco][do] HTML layout, using
# [jashkenas][ja]'s gorgeous CSS for styles. Wrapping the layout in a function
# lets us apply it elsewhere simply by piping in a body.
#
# [ja]: http://github.com/jashkenas/
# [do]: http://jashkenas.github.com/docco/
layout () {
    cat <<HTML
<!DOCTYPE html>
<html>
<head>
    <meta http-equiv='content-type' content='text/html;charset=utf-8'>
    <title>$1</title>
    <link rel=stylesheet href="docco.css">
    <link rel=stylesheet href="style.css">
    <link rel=stylesheet href="public/stylesheets/normalize.css">
</head>
<body>
<div id=container>
    <div id=background></div>
    <table cellspacing=10 cellpadding=10>
    <thead>
      <tr>
        <th class=docs><h1>$1</h1></th>
        <th class=code></th>
      </tr>
    </thead>
    <tbody>
        <tr><td class='docs'>$(cat)</td><td class='code'></td></tr>
    </tbody>
    </table>
</div>
</body>
</html>
HTML
}

# Recombining
# -----------

# Alright, we have separate files for each docs section and separate
# files for each code section. We've defined a function to wrap the
# results in the standard layout. All that's left to do now is put
# everything back together.

# Before starting the pipeline, decide the order in which to present the
# files.  If `code0000` is empty, it should appear first so the remaining
# files are presented `docs0000`, `code0001`, `docs0001`, and so on.  If
# `code0000` is not empty, `docs0000` should appear first so the files
# are presented `docs0000`, `code0000`, `docs0001`, `code0001` and so on.
#
# Ultimately, this means that if `code0000` is empty, the `-r` option
# should not be provided with the final `-k` option group to `sort`(1) in
# the pipeline below.
if stat -c"%s" /dev/null >/dev/null 2>/dev/null ; then
    # GNU stat
    [ "$(stat -c"%s" "code0000")" = 0 ] && sortopt="" || sortopt="r"
else
    # BSD stat
    [ "$(stat -f"%z" "code0000")" = 0 ] && sortopt="" || sortopt="r"
fi

# Start the pipeline with a simple list of split out temp filename. One file
# per line.
ls -1 docs[0-9]* code[0-9]* 2>/dev/null      |

# Now sort the list of files by the *number* first and then by the type. The
# list will look something like this when `sort(1)` is done with it:
#
#     docs0000
#     code0000
#     docs0001
#     code0001
#     docs0002
#     code0002
#     ...
#
sort -n -k"1.5" -k"1.1$sortopt"              |

# And if we pass those files to `cat(1)` in that order, it concatenates them
# in exactly the way we need. `xargs(1)` reads from `stdin` and passes each
# line of input as a separate argument to the program given.
#
# We could also have written this as:
#
#     cat $(ls -1 docs* code* | sort -n -k1.5 -k1.1r)
#
# I like to keep things to a simple flat pipeline when possible, hence the
# `xargs` approach.
xargs cat                                    |


# Run a quick substitution on the embedded dividers to turn them into table
# rows and cells. This also wraps each code block in a `<div class=highlight>`
# so that the CSS kicks in properly.
{
    DOCSDIVIDER='<h5>DIVIDER</h5>'
    DOCSREPLACE='</pre></div></td></tr><tr><td class=docs>'
    CODEDIVIDER='<span class="c"># DIVIDER</span>'
    CODEREPLACE='</td><td class=code><div class=highlight><pre>'
    sed "
        s@${DOCSDIVIDER}@${DOCSREPLACE}@
        s@${CODEDIVIDER}@${CODEREPLACE}@
    "
}                                            |

# Pipe our recombined HTML into the layout and let it write the result to
# `stdout`.
layout "$title"

# More
# ----
#
# **shocco** is the third tool in a growing family of quick-and-dirty,
# literate-programming-style documentation generators:
#
#   * [Docco][do] - The original. Written in CoffeeScript and generates
#     documentation for CoffeeScript, JavaScript, and Ruby.
#   * [Rocco][ro] - A port of Docco to Ruby.
#
# If you like this sort of thing, you may also find interesting Knuth's
# massive body of work on literate programming:
#
#   * [Knuth: Literate Programming][kn]
#   * [Literate Programming on Wikipedia][wi]
#
# [ro]: http://rtomayko.github.com/rocco/
# [do]: http://jashkenas.github.com/docco/
# [kn]: http://www-cs-faculty.stanford.edu/~knuth/lp.html
# [wi]: http://en.wikipedia.org/wiki/Literate_programming

# Copyright (C) [Ryan Tomayko <tomayko.com/about>](http://tomayko.com/about)<br>
# This is Free Software distributed under the MIT license.
: