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mkdocs-material/material/plugins/search/plugin.py

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# Copyright (c) 2016-2023 Martin Donath <martin.donath@squidfunk.com>
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to
# deal in the Software without restriction, including without limitation the
# rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
# sell copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
# IN THE SOFTWARE.
import json
import logging
import os
import regex as re
from html import escape
from html.parser import HTMLParser
from mkdocs import utils
from mkdocs.commands.build import DuplicateFilter
from mkdocs.config import config_options as opt
from mkdocs.config.base import Config
from mkdocs.contrib.search import LangOption
from mkdocs.plugins import BasePlugin
# -----------------------------------------------------------------------------
# Class
# -----------------------------------------------------------------------------
# Search plugin configuration scheme
class SearchPluginConfig(Config):
lang = opt.Optional(LangOption())
separator = opt.Optional(opt.Type(str))
pipeline = opt.ListOfItems(
opt.Choice(("stemmer", "stopWordFilter", "trimmer")),
default = []
)
# Deprecated options
indexing = opt.Deprecated(message = "Unsupported option")
prebuild_index = opt.Deprecated(message = "Unsupported option")
min_search_length = opt.Deprecated(message = "Unsupported option")
# -----------------------------------------------------------------------------
# Search plugin
class SearchPlugin(BasePlugin[SearchPluginConfig]):
# Determine whether we're running under dirty reload
def on_startup(self, *, command, dirty):
self.is_dirtyreload = False
self.is_dirty = dirty
# Initialize search index cache
self.search_index_prev = None
# Initialize plugin
def on_config(self, config):
if not self.config.lang:
self.config.lang = [self._translate(
config, "search.config.lang"
)]
# Retrieve default value for separator
if not self.config.separator:
self.config.separator = self._translate(
config, "search.config.separator"
)
# Retrieve default value for pipeline
if not self.config.pipeline:
self.config.pipeline = list(filter(len, re.split(
r"\s*,\s*", self._translate(config, "search.config.pipeline")
)))
# Initialize search index
self.search_index = SearchIndex(**self.config)
# Add page to search index
def on_page_context(self, context, *, page, config, nav):
self.search_index.add_entry_from_context(page)
page.content = re.sub(
r"\s?data-search-\w+=\"[^\"]+\"",
"",
page.content
)
# Generate search index
def on_post_build(self, *, config):
base = os.path.join(config.site_dir, "search")
path = os.path.join(base, "search_index.json")
# Generate and write search index to file
data = self.search_index.generate_search_index(self.search_index_prev)
utils.write_file(data.encode("utf-8"), path)
# Persist search index for repeated invocation
if self.is_dirty:
self.search_index_prev = self.search_index
# Determine whether we're running under dirty reload
def on_serve(self, server, *, config, builder):
self.is_dirtyreload = self.is_dirty
# -------------------------------------------------------------------------
# Translate the given placeholder value
def _translate(self, config, value):
env = config.theme.get_env()
# Load language template and return translation for placeholder
language = "partials/language.html"
template = env.get_template(language, None, { "config": config })
return template.module.t(value)
# -----------------------------------------------------------------------------
# Search index with support for additional fields
class SearchIndex:
# Initialize search index
def __init__(self, **config):
self.config = config
self.entries = []
# Add page to search index
def add_entry_from_context(self, page):
search = page.meta.get("search", {})
if search.get("exclude"):
return
# Divide page content into sections
parser = Parser()
parser.feed(page.content)
parser.close()
# Add sections to index
for section in parser.data:
if not section.is_excluded():
self.create_entry_for_section(section, page.toc, page.url, page)
# Override: graceful indexing and additional fields
def create_entry_for_section(self, section, toc, url, page):
item = self._find_toc_by_id(toc, section.id)
if item:
url = url + item.url
elif section.id:
url = url + "#" + section.id
# Set page title as section title if none was given, which happens when
# the first headline in a Markdown document is not a h1 headline. Also,
# if a page title was set via front matter, use that even though a h1
# might be given or the page name was specified in nav in mkdocs.yml
if not section.title:
section.title = [str(page.meta.get("title", page.title))]
# Compute title and text
title = "".join(section.title).strip()
text = "".join(section.text).strip()
# Reset text, if only titles should be indexed
if self.config["indexing"] == "titles":
text = ""
# Create entry for section
entry = {
"location": url,
"title": title,
"text": text
}
# Set document tags
tags = page.meta.get("tags")
if isinstance(tags, list):
entry["tags"] = []
for name in tags:
if name and isinstance(name, (str, int, float, bool)):
entry["tags"].append(name)
# Set document boost
search = page.meta.get("search", {})
if "boost" in search:
entry["boost"] = search["boost"]
# Add entry to index
self.entries.append(entry)
# Generate search index
def generate_search_index(self, prev):
config = {
key: self.config[key]
for key in ["lang", "separator", "pipeline"]
}
# Hack: if we're running under dirty reload, the search index will only
# include the entries for the current page. However, MkDocs > 1.4 allows
# us to persist plugin state across rebuilds, which is exactly what we
# do by passing the previously built index to this method. Thus, we just
# remove the previous entries for the current page, and append the new
# entries to the end of the index, as order doesn't matter.
if prev and self.entries:
path = self.entries[0]["location"]
# Since we're sure that we're running under dirty reload, the list
# of entries will only contain sections for a single page. Thus, we
# use the first entry to remove all entries from the previous run
# that belong to the current page. The rationale behind this is that
# authors might add or remove section headers, so we need to make
# sure that sections are synchronized correctly.
entries = [
entry for entry in prev.entries
if not entry["location"].startswith(path)
]
# Merge previous with current entries
self.entries = entries + self.entries
# Otherwise just set previous entries
if prev and not self.entries:
self.entries = prev.entries
# Return search index as JSON
data = { "config": config, "docs": self.entries }
return json.dumps(
data,
separators = (",", ":"),
default = str
)
# -------------------------------------------------------------------------
# Retrieve item for anchor
def _find_toc_by_id(self, toc, id):
for toc_item in toc:
if toc_item.id == id:
return toc_item
# Recurse into children of item
toc_item = self._find_toc_by_id(toc_item.children, id)
if toc_item is not None:
return toc_item
# No item found
return None
# -----------------------------------------------------------------------------
# HTML element
class Element:
"""
An element with attributes, essentially a small wrapper object for the
parser to access attributes in other callbacks than handle_starttag.
"""
# Initialize HTML element
def __init__(self, tag, attrs = dict()):
self.tag = tag
self.attrs = attrs
# String representation
def __repr__(self):
return self.tag
# Support comparison (compare by tag only)
def __eq__(self, other):
if other is Element:
return self.tag == other.tag
else:
return self.tag == other
# Support set operations
def __hash__(self):
return hash(self.tag)
# Check whether the element should be excluded
def is_excluded(self):
return "data-search-exclude" in self.attrs
# -----------------------------------------------------------------------------
# HTML section
class Section:
"""
A block of text with markup, preceded by a title (with markup), i.e., a
headline with a certain level (h1-h6). Internally used by the parser.
"""
# Initialize HTML section
def __init__(self, el, depth = 0):
self.el = el
self.depth = depth
# Initialize section data
self.text = []
self.title = []
self.id = None
# String representation
def __repr__(self):
if self.id:
return "#".join([self.el.tag, self.id])
else:
return self.el.tag
# Check whether the section should be excluded
def is_excluded(self):
return self.el.is_excluded()
# -----------------------------------------------------------------------------
# HTML parser
class Parser(HTMLParser):
"""
This parser divides the given string of HTML into a list of sections, each
of which are preceded by a h1-h6 level heading. A white- and blacklist of
tags dictates which tags should be preserved as part of the index, and
which should be ignored in their entirety.
"""
# Initialize HTML parser
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
# Tags to skip
self.skip = set([
"object", # Objects
"script", # Scripts
"style" # Styles
])
# Tags to keep
self.keep = set([
"p", # Paragraphs
"code", "pre", # Code blocks
"li", "ol", "ul" # Lists
])
# Current context and section
self.context = []
self.section = None
# All parsed sections
self.data = []
# Called at the start of every HTML tag
def handle_starttag(self, tag, attrs):
attrs = dict(attrs)
# Ignore self-closing tags
el = Element(tag, attrs)
if not tag in void:
self.context.append(el)
else:
return
# Handle headings
if tag in ([f"h{x}" for x in range(1, 7)]):
depth = len(self.context)
if "id" in attrs:
# Ensure top-level section
if tag != "h1" and not self.data:
self.section = Section(Element("hx"), depth)
self.data.append(self.section)
# Set identifier, if not first section
self.section = Section(el, depth)
if self.data:
self.section.id = attrs["id"]
# Append section to list
self.data.append(self.section)
# Handle preface - ensure top-level section
if not self.section:
self.section = Section(Element("hx"))
self.data.append(self.section)
# Handle special cases to skip
for key, value in attrs.items():
# Skip block if explicitly excluded from search
if key == "data-search-exclude":
self.skip.add(el)
return
# Skip line numbers - see https://bit.ly/3GvubZx
if key == "class" and value == "linenodiv":
self.skip.add(el)
return
# Render opening tag if kept
if not self.skip.intersection(self.context):
if tag in self.keep:
# Check whether we're inside the section title
data = self.section.text
if self.section.el in self.context:
data = self.section.title
# Append to section title or text
data.append(f"<{tag}>")
# Called at the end of every HTML tag
def handle_endtag(self, tag):
if not self.context or self.context[-1] != tag:
return
# Check whether we're exiting the current context, which happens when
# a headline is nested in another element. In that case, we close the
# current section, continuing to append data to the previous section,
# which could also be a nested section see https://bit.ly/3IxxIJZ
if self.section.depth > len(self.context):
for section in reversed(self.data):
if section.depth <= len(self.context):
# Set depth to infinity in order to denote that the current
# section is exited and must never be considered again.
self.section.depth = float("inf")
self.section = section
break
# Remove element from skip list
el = self.context.pop()
if el in self.skip:
if el.tag not in ["script", "style", "object"]:
self.skip.remove(el)
return
# Render closing tag if kept
if not self.skip.intersection(self.context):
if tag in self.keep:
# Check whether we're inside the section title
data = self.section.text
if self.section.el in self.context:
data = self.section.title
# Search for corresponding opening tag
index = data.index(f"<{tag}>")
for i in range(index + 1, len(data)):
if not data[i].isspace():
index = len(data)
break
# Remove element if empty (or only whitespace)
if len(data) > index:
while len(data) > index:
data.pop()
# Append to section title or text
else:
data.append(f"</{tag}>")
# Called for the text contents of each tag
def handle_data(self, data):
if self.skip.intersection(self.context):
return
# Collapse whitespace in non-pre contexts
if not "pre" in self.context:
if not data.isspace():
data = data.replace("\n", " ")
else:
data = " "
# Handle preface - ensure top-level section
if not self.section:
self.section = Section(Element("hx"))
self.data.append(self.section)
# Handle section headline
if self.section.el in self.context:
permalink = False
for el in self.context:
if el.tag == "a" and el.attrs.get("class") == "headerlink":
permalink = True
# Ignore permalinks
if not permalink:
self.section.title.append(
escape(data, quote = False)
)
# Collapse adjacent whitespace
elif data.isspace():
if not self.section.text or not self.section.text[-1].isspace():
self.section.text.append(data)
# Handle everything else
else:
self.section.text.append(
escape(data, quote = False)
)
# -----------------------------------------------------------------------------
# Data
# -----------------------------------------------------------------------------
# Set up logging
log = logging.getLogger("mkdocs")
log.addFilter(DuplicateFilter())
# Tags that are self-closing
void = set([
"area", # Image map areas
"base", # Document base
"br", # Line breaks
"col", # Table columns
"embed", # External content
"hr", # Horizontal rules
"img", # Images
"input", # Input fields
"link", # Links
"meta", # Metadata
"param", # External parameters
"source", # Image source sets
"track", # Text track
"wbr" # Line break opportunities
])