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# -*- coding: utf-8 -*-
"""
sphinx.ext.mathbase
~~~~~~~~~~~~~~~~~~~
Set up math support in source files and LaTeX/text output.
:copyright: Copyright 2007-2017 by the Sphinx team, see AUTHORS.
:license: BSD, see LICENSE for details.
"""
from docutils import nodes, utils
from docutils.parsers.rst import directives
from sphinx.roles import XRefRole
from sphinx.locale import _
from sphinx.domains import Domain
from sphinx.util.nodes import make_refnode, set_source_info
from sphinx.util.compat import Directive
class math(nodes.Inline, nodes.TextElement):
pass
class displaymath(nodes.Part, nodes.Element):
pass
class eqref(nodes.Inline, nodes.TextElement):
pass
class EqXRefRole(XRefRole):
def result_nodes(self, document, env, node, is_ref):
node['refdomain'] = 'math'
return [node], []
class MathDomain(Domain):
"""Mathematics domain."""
name = 'math'
label = 'mathematics'
initial_data = {
'objects': {}, # labelid -> (docname, eqno)
}
dangling_warnings = {
'eq': 'equation not found: %(target)s',
}
def clear_doc(self, docname):
for labelid, (doc, eqno) in list(self.data['objects'].items()):
if doc == docname:
del self.data['objects'][labelid]
def merge_domaindata(self, docnames, otherdata):
for labelid, (doc, eqno) in otherdata['objects'].items():
if doc in docnames:
self.data['objects'][labelid] = doc
def resolve_xref(self, env, fromdocname, builder, typ, target, node, contnode):
assert typ == 'eq'
docname, number = self.data['objects'].get(target, (None, None))
if docname:
if builder.name == 'latex':
newnode = eqref('', **node.attributes)
newnode['docname'] = docname
newnode['target'] = target
return newnode
else:
title = nodes.Text("(%d)" % number)
return make_refnode(builder, fromdocname, docname,
"equation-" + target, title)
else:
return None
def resolve_any_xref(self, env, fromdocname, builder, target, node, contnode):
refnode = self.resolve_xref(env, fromdocname, builder, 'eq', target, node, contnode)
if refnode is None:
return []
else:
return [refnode]
def get_objects(self):
return []
def add_equation(self, env, docname, labelid):
equations = self.data['objects']
if labelid in equations:
path = env.doc2path(equations[labelid][0])
msg = _('duplicate label of equation %s, other instance in %s') % (labelid, path)
raise UserWarning(msg)
else:
eqno = self.get_next_equation_number(docname)
equations[labelid] = (docname, eqno)
return eqno
def get_next_equation_number(self, docname):
targets = [eq for eq in self.data['objects'].values() if eq[0] == docname]
return len(targets) + 1
def wrap_displaymath(math, label, numbering):
def is_equation(part):
return part.strip()
if label is None:
labeldef = ''
else:
labeldef = r'\label{%s}' % label
numbering = True
parts = list(filter(is_equation, math.split('\n\n')))
equations = []
if len(parts) == 0:
return ''
elif len(parts) == 1:
if numbering:
begin = r'\begin{equation}' + labeldef
end = r'\end{equation}'
else:
begin = r'\begin{equation*}' + labeldef
end = r'\end{equation*}'
equations.append('\\begin{split}%s\\end{split}\n' % parts[0])
else:
if numbering:
begin = r'\begin{align}%s\!\begin{aligned}' % labeldef
end = r'\end{aligned}\end{align}'
else:
begin = r'\begin{align*}%s\!\begin{aligned}' % labeldef
end = r'\end{aligned}\end{align*}'
for part in parts:
equations.append('%s\\\\\n' % part.strip())
return '%s\n%s%s' % (begin, ''.join(equations), end)
def math_role(role, rawtext, text, lineno, inliner, options={}, content=[]):
latex = utils.unescape(text, restore_backslashes=True)
return [math(latex=latex)], []
def is_in_section_title(node):
"""Determine whether the node is in a section title"""
from sphinx.util.nodes import traverse_parent
for ancestor in traverse_parent(node):
if isinstance(ancestor, nodes.title) and \
isinstance(ancestor.parent, nodes.section):
return True
return False
class MathDirective(Directive):
has_content = True
required_arguments = 0
optional_arguments = 1
final_argument_whitespace = True
option_spec = {
'label': directives.unchanged,
'name': directives.unchanged,
'nowrap': directives.flag,
}
def run(self):
latex = '\n'.join(self.content)
if self.arguments and self.arguments[0]:
latex = self.arguments[0] + '\n\n' + latex
node = displaymath()
node['latex'] = latex
node['number'] = None
node['label'] = None
if 'name' in self.options:
node['label'] = self.options['name']
if 'label' in self.options:
node['label'] = self.options['label']
node['nowrap'] = 'nowrap' in self.options
node['docname'] = self.state.document.settings.env.docname
ret = [node]
set_source_info(self, node)
if hasattr(self, 'src'):
node.source = self.src
self.add_target(ret)
return ret
def add_target(self, ret):
node = ret[0]
env = self.state.document.settings.env
# assign label automatically if math_number_all enabled
if node['label'] == '' or (env.config.math_number_all and not node['label']):
seq = env.new_serialno('sphinx.ext.math#equations')
node['label'] = "%s:%d" % (env.docname, seq)
# no targets and numbers are needed
if not node['label']:
return
# register label to domain
domain = env.get_domain('math')
try:
eqno = domain.add_equation(env, env.docname, node['label'])
node['number'] = eqno
# add target node
target = nodes.target('', '', ids=['equation-' + node['label']])
self.state.document.note_explicit_target(target)
ret.insert(0, target)
except UserWarning as exc:
self.state_machine.reporter.warning(exc.args[0], line=self.lineno)
def latex_visit_math(self, node):
if is_in_section_title(node):
protect = r'\protect'
else:
protect = ''
equation = protect + r'\(' + node['latex'] + protect + r'\)'
self.body.append(equation)
raise nodes.SkipNode
def latex_visit_displaymath(self, node):
if not node['label']:
label = None
else:
label = "equation:%s:%s" % (node['docname'], node['label'])
if node['nowrap']:
if label:
self.body.append(r'\label{%s}' % label)
self.body.append(node['latex'])
else:
self.body.append(wrap_displaymath(node['latex'], label,
self.builder.config.math_number_all))
raise nodes.SkipNode
def latex_visit_eqref(self, node):
label = "equation:%s:%s" % (node['docname'], node['target'])
self.body.append('\\eqref{%s}' % label)
raise nodes.SkipNode
def text_visit_math(self, node):
self.add_text(node['latex'])
raise nodes.SkipNode
def text_visit_displaymath(self, node):
self.new_state()
self.add_text(node['latex'])
self.end_state()
raise nodes.SkipNode
def man_visit_math(self, node):
self.body.append(node['latex'])
raise nodes.SkipNode
def man_visit_displaymath(self, node):
self.visit_centered(node)
def man_depart_displaymath(self, node):
self.depart_centered(node)
def texinfo_visit_math(self, node):
self.body.append('@math{' + self.escape_arg(node['latex']) + '}')
raise nodes.SkipNode
def texinfo_visit_displaymath(self, node):
if node.get('label'):
self.add_anchor(node['label'], node)
self.body.append('\n\n@example\n%s\n@end example\n\n' %
self.escape_arg(node['latex']))
def texinfo_depart_displaymath(self, node):
pass
def setup_math(app, htmlinlinevisitors, htmldisplayvisitors):
app.add_config_value('math_number_all', False, 'env')
app.add_domain(MathDomain)
app.add_node(math, override=True,
latex=(latex_visit_math, None),
text=(text_visit_math, None),
man=(man_visit_math, None),
texinfo=(texinfo_visit_math, None),
html=htmlinlinevisitors)
app.add_node(displaymath,
latex=(latex_visit_displaymath, None),
text=(text_visit_displaymath, None),
man=(man_visit_displaymath, man_depart_displaymath),
texinfo=(texinfo_visit_displaymath, texinfo_depart_displaymath),
html=htmldisplayvisitors)
app.add_node(eqref, latex=(latex_visit_eqref, None))
app.add_role('math', math_role)
app.add_role('eq', EqXRefRole(warn_dangling=True))
app.add_directive('math', MathDirective)
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