#!/usr/bin/env python
#
# Module for handling SCons documentation processing.
#
__doc__ = """
This module parses home-brew XML files that document various things
in SCons. Right now, it handles Builders, functions, construction
variables, and Tools, but we expect it to get extended in the future.
In general, you can use any DocBook tag in the input, and this module
just adds processing various home-brew tags to try to make life a
little easier.
Builder example:
This is the summary description of an SCons Builder.
It will get placed in the man page,
and in the appropriate User's Guide appendix.
The name of any builder may be interpolated
anywhere in the document by specifying the
&b-BUILDER;
element. It need not be on a line by itself.
Unlike normal XML, blank lines are significant in these
descriptions and serve to separate paragraphs.
They'll get replaced in DocBook output with appropriate tags
to indicate a new paragraph.
print "this is example code, it will be offset and indented"
Function example:
(arg1, arg2, key=value)
This is the summary description of an SCons function.
It will get placed in the man page,
and in the appropriate User's Guide appendix.
The name of any builder may be interpolated
anywhere in the document by specifying the
&f-FUNCTION;
element. It need not be on a line by itself.
Unlike normal XML, blank lines are significant in these
descriptions and serve to separate paragraphs.
They'll get replaced in DocBook output with appropriate tags
to indicate a new paragraph.
print "this is example code, it will be offset and indented"
Construction variable example:
This is the summary description of a construction variable.
It will get placed in the man page,
and in the appropriate User's Guide appendix.
The name of any construction variable may be interpolated
anywhere in the document by specifying the
&t-VARIABLE;
element. It need not be on a line by itself.
Unlike normal XML, blank lines are significant in these
descriptions and serve to separate paragraphs.
They'll get replaced in DocBook output with appropriate tags
to indicate a new paragraph.
print "this is example code, it will be offset and indented"
Tool example:
This is the summary description of an SCons Tool.
It will get placed in the man page,
and in the appropriate User's Guide appendix.
The name of any tool may be interpolated
anywhere in the document by specifying the
&t-TOOL;
element. It need not be on a line by itself.
Unlike normal XML, blank lines are significant in these
descriptions and serve to separate paragraphs.
They'll get replaced in DocBook output with appropriate tags
to indicate a new paragraph.
print "this is example code, it will be offset and indented"
"""
import imp
import os.path
import re
import sys
import xml.sax.handler
class Item(object):
def __init__(self, name):
self.name = name
self.sort_name = name.lower()
if self.sort_name[0] == '_':
self.sort_name = self.sort_name[1:]
self.summary = []
self.sets = None
self.uses = None
def cmp_name(self, name):
if name[0] == '_':
name = name[1:]
return name.lower()
def __cmp__(self, other):
return cmp(self.sort_name, other.sort_name)
class Builder(Item):
pass
class Function(Item):
def __init__(self, name, global_signature, env_signature):
super(Function, self).__init__(name)
self.global_signature = global_signature
self.env_signature = env_signature
class Tool(Item):
def __init__(self, name):
Item.__init__(self, name)
self.entity = self.name.replace('+', 'X')
class ConstructionVariable(Item):
pass
class Chunk:
def __init__(self, tag, body=None):
self.tag = tag
if not body:
body = []
self.body = body
def __str__(self):
body = ''.join(self.body)
return "<%s>%s\n" % (self.tag, body, self.tag)
def append(self, data):
self.body.append(data)
class Arguments:
def __init__(self, body=None):
if not body:
body = []
self.body = body
def __str__(self):
s = ''.join(self.body).strip()
result = []
for m in re.findall('([a-zA-Z/_]+|[^a-zA-Z/_]+)', s):
if ' ' in m:
m = '"%s"' % m
result.append(m)
return ' '.join(result)
def append(self, data):
self.body.append(data)
class Summary:
def __init__(self):
self.body = []
self.collect = []
def append(self, data):
self.collect.append(data)
def end_para(self):
text = ''.join(self.collect)
paras = text.split('\n\n')
if paras == ['\n']:
return
if paras[0] == '':
self.body.append('\n')
paras = paras[1:]
paras[0] = '\n' + paras[0]
if paras[-1] == '':
paras = paras[:-1]
paras[-1] = paras[-1] + '\n'
last = '\n'
else:
last = None
sep = None
for p in paras:
c = Chunk("para", p)
if sep:
self.body.append(sep)
self.body.append(c)
sep = '\n'
if last:
self.body.append(last)
def begin_chunk(self, chunk):
self.end_para()
self.collect = chunk
def end_chunk(self):
self.body.append(self.collect)
self.collect = []
class SConsDocHandler(xml.sax.handler.ContentHandler,
xml.sax.handler.ErrorHandler):
def __init__(self):
self._start_dispatch = {}
self._end_dispatch = {}
keys = self.__class__.__dict__.keys()
start_tag_method_names = filter(lambda k: k[:6] == 'start_', keys)
end_tag_method_names = filter(lambda k: k[:4] == 'end_', keys)
for method_name in start_tag_method_names:
tag = method_name[6:]
self._start_dispatch[tag] = getattr(self, method_name)
for method_name in end_tag_method_names:
tag = method_name[4:]
self._end_dispatch[tag] = getattr(self, method_name)
self.stack = []
self.collect = []
self.current_object = []
self.builders = {}
self.functions = {}
self.tools = {}
self.cvars = {}
def startElement(self, name, attrs):
try:
start_element_method = self._start_dispatch[name]
except KeyError:
self.characters('<%s>' % name)
else:
start_element_method(attrs)
def endElement(self, name):
try:
end_element_method = self._end_dispatch[name]
except KeyError:
self.characters('' % name)
else:
end_element_method()
#
#
def characters(self, chars):
self.collect.append(chars)
def begin_collecting(self, chunk):
self.collect = chunk
def end_collecting(self):
self.collect = []
def begin_chunk(self):
pass
def end_chunk(self):
pass
#
#
#
def begin_xxx(self, obj):
self.stack.append(self.current_object)
self.current_object = obj
def end_xxx(self):
self.current_object = self.stack.pop()
#
#
#
def start_scons_doc(self, attrs):
pass
def end_scons_doc(self):
pass
def start_builder(self, attrs):
name = attrs.get('name')
try:
builder = self.builders[name]
except KeyError:
builder = Builder(name)
self.builders[name] = builder
self.begin_xxx(builder)
def end_builder(self):
self.end_xxx()
def start_scons_function(self, attrs):
name = attrs.get('name')
try:
function = self.functions[name]
except KeyError:
function = Function(name,
attrs.get('global', "1"),
attrs.get('env', "1"))
self.functions[name] = function
self.begin_xxx(function)
def end_scons_function(self):
self.end_xxx()
def start_tool(self, attrs):
name = attrs.get('name')
try:
tool = self.tools[name]
except KeyError:
tool = Tool(name)
self.tools[name] = tool
self.begin_xxx(tool)
def end_tool(self):
self.end_xxx()
def start_cvar(self, attrs):
name = attrs.get('name')
try:
cvar = self.cvars[name]
except KeyError:
cvar = ConstructionVariable(name)
self.cvars[name] = cvar
self.begin_xxx(cvar)
def end_cvar(self):
self.end_xxx()
def start_arguments(self, attrs):
arguments = Arguments()
self.current_object.arguments = arguments
self.begin_xxx(arguments)
self.begin_collecting(arguments)
def end_arguments(self):
self.end_xxx()
def start_summary(self, attrs):
summary = Summary()
self.current_object.summary = summary
self.begin_xxx(summary)
self.begin_collecting(summary)
def end_summary(self):
self.current_object.end_para()
self.end_xxx()
def start_example(self, attrs):
example = Chunk("programlisting")
self.current_object.begin_chunk(example)
def end_example(self):
self.current_object.end_chunk()
def start_uses(self, attrs):
self.begin_collecting([])
def end_uses(self):
self.current_object.uses = ''.join(self.collect).split()
self.current_object.uses.sort()
self.end_collecting()
def start_sets(self, attrs):
self.begin_collecting([])
def end_sets(self):
self.current_object.sets = ''.join(self.collect).split()
self.current_object.sets.sort()
self.end_collecting()
# Stuff for the ErrorHandler portion.
def error(self, exception):
linenum = exception._linenum - self.preamble_lines
sys.stderr.write('%s:%d:%d: %s (error)\n' % (self.filename, linenum, exception._colnum, ''.join(exception.args)))
def fatalError(self, exception):
linenum = exception._linenum - self.preamble_lines
sys.stderr.write('%s:%d:%d: %s (fatalError)\n' % (self.filename, linenum, exception._colnum, ''.join(exception.args)))
def set_file_info(self, filename, preamble_lines):
self.filename = filename
self.preamble_lines = preamble_lines
# lifted from Ka-Ping Yee's way cool pydoc module.
def importfile(path):
"""Import a Python source file or compiled file given its path."""
magic = imp.get_magic()
file = open(path, 'r')
if file.read(len(magic)) == magic:
kind = imp.PY_COMPILED
else:
kind = imp.PY_SOURCE
file.close()
filename = os.path.basename(path)
name, ext = os.path.splitext(filename)
file = open(path, 'r')
try:
module = imp.load_module(name, file, path, (ext, 'r', kind))
except ImportError, e:
sys.stderr.write("Could not import %s: %s\n" % (path, e))
return None
file.close()
return module
# Local Variables:
# tab-width:4
# indent-tabs-mode:nil
# End:
# vim: set expandtab tabstop=4 shiftwidth=4: