275 lines
11 KiB
Ruby
275 lines
11 KiB
Ruby
require "nokogiri"
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require "pathname"
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files = ARGV[0..-1]
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class LineInfo
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attr_accessor :links
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def initialize
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@links = []
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end
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end
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class Handler
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def initialize
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@file_infos = {}
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end
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# Traverse the preformatted Agda block in the given Agda HTML file
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# and find which textual ranges have IDs and links to other ranges.
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# Store this information in a hash, line => LineInfo.
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def process_agda_html_file(file)
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return @file_infos[file] if @file_infos.include? file
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@file_infos[file] = line_infos = {}
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unless File.exists?(file)
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return line_infos
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end
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document = Nokogiri::HTML.parse(File.open(file))
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pre_code = document.css("pre.Agda")[0]
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# The traversal postorder; we always visit children before their
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# parents, and we visit leaves in sequence.
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offset = 0
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line = 1
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pre_code.traverse do |at|
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# Text nodes are always leaves; visiting a new leaf means we've advanced
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# in the text by the length of that text. However, if there are newlines
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# -- since this is a preformatted block -- we also advanced by a line.
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# At this time, do not support links that span multiple lines, but
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# Agda doesn't produce those either.
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if at.text?
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if at.content.include? "\n"
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# This textual leaf is at least part whitespace. The logic
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# assumes that links can't span multiple pages, and that links
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# aren't nested, so ensure that the parent of the textual node
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# is the preformatted block itself.
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raise "unsupported Agda HTML output" if at.parent.name != "pre"
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# Increase the line and track the final offset. Written as a loop
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# in case we eventually want to add some handling for the pieces
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# sandwiched between newlines.
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at.content.split("\n", -1).each_with_index do |bit, idx|
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line += 1 unless idx == 0
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offset = bit.length
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end
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else
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# It's not a newline node, so it could be anywhere. All we need to
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# do is adjust the offset within the full pre block's text.
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offset += at.content.length
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end
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elsif at.name == "a"
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# We found a link. Agda emits both links and "things to link to" as
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# 'a' nodes, so check for either, and record them. Even if
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# the link is nested, the .content.length accessor will only
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# retrieve the textual content, and thus -- assuming the link
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# isn't split across lines -- will find the proper from-to range.
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line_info = line_infos.fetch(line) { line_infos[line] = LineInfo.new }
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href = at.attribute("href")
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id = at.attribute("id")
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if href or id
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new_link = { :from => offset-at.content.length, :to => offset }
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new_link[:href] = href if href
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new_link[:id] = id if id
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line_info.links << new_link
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end
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end
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end
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return line_infos
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end
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# Given a Hugo HTML file which references potentially several Agda modules
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# in code blocks, insert links into the code blocks.
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#
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# There are several things we need to take care of:
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# 1. Finding the HTML files associated with each referenced Agda module.
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# For this, we make use of the data-base-path etc. attributes that
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# the vanilla theme inserts.
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# 2. "zipping together" the Agda and Hugo HTML representations. Each of
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# them encode the code, but they use different HTML elements and structures.
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# So, given a Hugo HTML code block, traverse its textual contents
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# and find any that are covered by links in the related Agda HTML file.
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# 3. Fixing up links: the Agda HTML links assume each module has its own HTML
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# file. This isn't true for us: multiple modules are stitched into
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# one Hugo HTML file. Also, we don't include the entire Agda HTML
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# file in the Hugo HTML, so some links may be broken. So, find IDs
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# that are visible in the Hugo file, rename them to be globally unique,
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# and re-write cross-file links that reference these IDs to point
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# inside the Hugo file.
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def process_source_file(file)
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nodes_referencing_href = {} # Agda HTML ID -> all (Hugo HTML) nodes that link to it
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seen_hrefs = {} # Agda HTML ID -> its new ID in Hugo-land
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id_counter = 0
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# Process each highlight group that's been marked as an Agda file.
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document = Nokogiri::HTML.parse(File.open(file))
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document.css('div[data-agda-block]').each do |t|
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first_line, last_line = nil, nil
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if first_line_attr = t.attribute("data-first-line")
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first_line = first_line_attr.to_s.to_i
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end
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if last_line_attr = t.attribute("data-last-line")
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last_line = last_line_attr.to_s.to_i
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end
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full_path = t.attribute("data-file-path").to_s
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full_path_dirs = Pathname(full_path).each_filename.to_a
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# The name of an Agda module is determined from its directory
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# structure: A/B/C.agda creates A.B.C.html. Depending on where
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# the code is included, there might be some additional folders
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# that precede A that we want to ignore.
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base_path = t.attribute("data-base-path").to_s
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base_dir_depth = 0
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if base_path.empty?
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# No submodules were used. Assume code/<X> is the root, since
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# that's the code layout of the blog right now.
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base_dir_depth = 1
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base_path = full_path_dirs[0]
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else
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# The code is in a submodule. Assume that the base path / submodule
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# root is the Agda module root, ignore all folders before that.
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base_path_dirs = Pathname(base_path).each_filename.to_a
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base_dir_depth = base_path_dirs.length
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end
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dirs_in_base = full_path_dirs[base_dir_depth..-1]
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html_file = dirs_in_base.join(".").gsub(/\.agda$/, ".html")
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html_path = File.join(["code", base_path, "html", html_file])
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agda_info = process_agda_html_file(html_path)
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# Hugo conveniently generates a bunch of spans, each encoding a line
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# of code output. We can iterate over these and match them up with
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# the line numbers we got from reading the Agda HTML output.
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lines = t.css("pre.chroma code[data-lang] .line")
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lines.zip((first_line..last_line)).each do |line, line_no|
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line_info = agda_info[line_no]
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next unless line_info
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offset = 0
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line.traverse do |lt|
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if lt.text?
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content = lt.content
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new_offset = offset + content.length
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# The span/a/etc. structure of the Agda and Hugo HTML files
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# need not line up; it's possible for there to be a single link
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# in the Agda file that's broken up across multiple HTML nodes
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# in the Hugo output. For now, just don't link those, since inserting
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# such overlapping links is relatively complicated. Instead,
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# require links to fit fully within a current text node (and thus,
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# not overlap the boundaries of any HTML).
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matching_links = line_info.links.filter do |link|
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link[:from] >= offset and link[:to] <= new_offset
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end
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# A given text node can be broken into any number of sub-nodes,
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# where some sub-nodes are still text, and others have been turned
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# into links. Store the new pieces in replace_with. E.g.,
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#
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# Original:
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# abc
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#
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# New:
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# a<a href="..">b</a>c
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#
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# replace_with:
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# ["a", <Nokogiri::XML::Node...>, "c"]
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#
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# match_offset represents how much of the original text we've
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# already converted. The below iteration assumes that matching
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# links are in order, and don't overlap.
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replace_with = []
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replace_offset = 0
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matching_links.each do |match|
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# The link's range is an offset from the beginning of the line,
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# but the text piece we're splitting up might be partway into
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# the line. Convert the link coordinates to piece-relative ones.
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relative_from = match[:from] - offset
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relative_to = match[:to] - offset
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# If the previous link ended some time before the new link
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# began (or if the current link is the first one, and is not
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# at the beginning), ensure that the plain text "in between"
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# is kept.
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replace_with << content[replace_offset...relative_from]
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tag = (match.include? :href) ? 'a' : 'span'
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new_link = Nokogiri::XML::Node.new(tag, document)
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if match.include? :href
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# For nodes with links, note what they're referring to, so
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# we can adjust their hrefs when we assign global IDs.
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href = match[:href].to_s
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new_link['href'] = href
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ref_list = nodes_referencing_href.fetch(href) { nodes_referencing_href[href] = [] }
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ref_list << new_link
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end
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if match.include? :id
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# For nodes with IDs visible in the current Hugo file, we'll
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# want to redirect links that previously go to other Agda
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# module HTML files. So, note the ID that we want to redirect,
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# and pick a new unique ID to replace it with.
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id = match[:id].to_s
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uniq_id = "agda-unique-ident-#{id_counter}"
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id_counter += 1
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new_link['id'] = uniq_id
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seen_hrefs["#{html_file}##{id}"] = uniq_id
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end
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new_link.content = content[relative_from...relative_to]
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replace_with << new_link
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replace_offset = relative_to
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end
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replace_with << content[replace_offset..-1]
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# Finally, replace the node under consideration with the new
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# pieces.
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replace_with.each do |replacement|
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lt.add_previous_sibling replacement
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end
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lt.remove
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offset = new_offset
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end
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end
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end
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end
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# Now, we have a complete list of all the IDs visible in scope.
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# Redirect relevant links to these IDs. This achieves within-post
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# links.
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seen_hrefs.each do |agda_id, hugo_id|
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nodes_to_rewrite = nodes_referencing_href[agda_id]
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next unless nodes_to_rewrite
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nodes_to_rewrite.each do |node|
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node['href'] = "##{hugo_id}"
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end
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nodes_referencing_href.delete agda_id
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end
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# The remaining nodes reference symbols not in the current Hugo document,
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# so just replace them with their contents for now (we'd need some
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# external hosting to make this work otherwise).
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nodes_referencing_href.each do |href, nodes|
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nodes.each do |node|
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node.replace node.content
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end
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end
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File.write(file, document.to_html(encoding: 'UTF-8'))
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end
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end
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handler = Handler.new
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files.each do |file|
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handler.process_source_file file
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end
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