def front_matter(state: StateBlock, start_line: int, end_line: int,
silent: bool):
# grab initial data if it's : separated
if start_line != 0:
return False
# Since start is found, we can report success here in validation mode
# if silent:
# return True
# Search for the end of the block
next_line = start_line
start_content = 0
meta = {}
while True:
next_line += 1
if next_line >= end_line:
# unclosed block should be autoclosed by end of document.
return False
start = state.bMarks[next_line]
maximum = state.eMarks[next_line]
if start == maximum:
# empty line is terminator
break
key_value = state.src[start:maximum].split(":", 1)
if len(key_value) != 2:
# Error here, we have no k/v separator
return False
meta[key_value[0].lower()] = key_value[1]
old_parent = state.parentType
old_line_max = state.lineMax
state.parentType = "container"
# this will prevent lazy continuations from ever going past our end marker
state.lineMax = next_line
token = state.push("pelican_frontmatter", "", 0)
# token.hidden = True
token.content = state.src[state.bMarks[start_content]:state.
eMarks[next_line]]
token.block = True
token.meta = meta
state.parentType = old_parent
state.lineMax = old_line_max
state.line = next_line
token.map = [start_line, state.line]
# consider taking the content into a dictionary and checking for Title: .+\n
return True
def container_func(state: StateBlock, startLine: int, endLine: int, silent: bool):
auto_closed = False
start = state.bMarks[startLine] + state.tShift[startLine]
maximum = state.eMarks[startLine]
# Check out the first character quickly,
# this should filter out most of non-containers
if marker_char != charCodeAt(state.src, start):
return False
# Check out the rest of the marker string
pos = start + 1
while pos <= maximum:
if marker_str[(pos - start) % marker_len] != state.src[pos]:
break
pos += 1
marker_count = floor((pos - start) / marker_len)
if marker_count < min_markers:
return False
pos -= (pos - start) % marker_len
markup = state.src[start:pos]
params = state.src[pos:maximum]
if not validate(params, markup):
return False
# Since start is found, we can report success here in validation mode
if silent:
return True
# Search for the end of the block
nextLine = startLine
while True:
nextLine += 1
if nextLine >= endLine:
# unclosed block should be autoclosed by end of document.
# also block seems to be autoclosed by end of parent
break
start = state.bMarks[nextLine] + state.tShift[nextLine]
maximum = state.eMarks[nextLine]
if start < maximum and state.sCount[nextLine] < state.blkIndent:
# non-empty line with negative indent should stop the list:
# - ```
# test
break
if marker_char != charCodeAt(state.src, start):
continue
if state.sCount[nextLine] - state.blkIndent >= 4:
# closing fence should be indented less than 4 spaces
continue
pos = start + 1
while pos <= maximum:
if marker_str[(pos - start) % marker_len] != state.src[pos]:
break
pos += 1
# closing code fence must be at least as long as the opening one
if floor((pos - start) / marker_len) < marker_count:
continue
# make sure tail has spaces only
pos -= (pos - start) % marker_len
pos = state.skipSpaces(pos)
if pos < maximum:
continue
# found!
auto_closed = True
break
old_parent = state.parentType
old_line_max = state.lineMax
state.parentType = "container"
# this will prevent lazy continuations from ever going past our end marker
state.lineMax = nextLine
token = state.push(f"container_{name}_open", "div", 1)
token.markup = markup
token.block = True
token.info = params
token.map = [startLine, nextLine]
state.md.block.tokenize(state, startLine + 1, nextLine)
token = state.push(f"container_{name}_close", "div", -1)
token.markup = state.src[start:pos]
token.block = True
state.parentType = old_parent
state.lineMax = old_line_max
state.line = nextLine + (1 if auto_closed else 0)
return True
def frontMatter(state: StateBlock, startLine: int, endLine: int,
silent: bool):
auto_closed = False
start = state.bMarks[startLine] + state.tShift[startLine]
maximum = state.eMarks[startLine]
# Check out the first character of the first line quickly,
# this should filter out non-front matter
if startLine != 0 or marker_char != state.srcCharCode[0]:
return False
# Check out the rest of the marker string
# while pos <= 3
pos = start + 1
while pos <= maximum:
if marker_str[(pos - start) % marker_len] != state.src[pos]:
start_content = pos + 1
break
pos += 1
marker_count = floor((pos - start) / marker_len)
if marker_count < min_markers:
return False
pos -= (pos - start) % marker_len
# Since start is found, we can report success here in validation mode
if silent:
return True
# Search for the end of the block
nextLine = startLine
while True:
nextLine += 1
if nextLine >= endLine:
# unclosed block should be autoclosed by end of document.
return False
if state.src[start:maximum] == "...":
break
start = state.bMarks[nextLine] + state.tShift[nextLine]
maximum = state.eMarks[nextLine]
if start < maximum and state.sCount[nextLine] < state.blkIndent:
# non-empty line with negative indent should stop the list:
# - ```
# test
break
if marker_char != state.srcCharCode[start]:
continue
if state.sCount[nextLine] - state.blkIndent >= 4:
# closing fence should be indented less than 4 spaces
continue
pos = start + 1
while pos < maximum:
if marker_str[(pos - start) % marker_len] != state.src[pos]:
break
pos += 1
# closing code fence must be at least as long as the opening one
if floor((pos - start) / marker_len) < marker_count:
continue
# make sure tail has spaces only
pos -= (pos - start) % marker_len
pos = state.skipSpaces(pos)
if pos < maximum:
continue
# found!
auto_closed = True
break
old_parent = state.parentType
old_line_max = state.lineMax
state.parentType = "container"
# this will prevent lazy continuations from ever going past our end marker
state.lineMax = nextLine
token = state.push("front_matter", "", 0)
token.hidden = True
token.markup = marker_str * min_markers
token.content = state.src[state.bMarks[startLine +
1]:state.eMarks[nextLine - 1]]
token.block = True
token.meta = state.src[start_content:start - 1]
state.parentType = old_parent
state.lineMax = old_line_max
state.line = nextLine + (1 if auto_closed else 0)
token.map = [startLine, state.line]
return True
