mirror of
https://github.com/opencv/opencv.git
synced 2024-12-19 03:58:31 +08:00
596 lines
18 KiB
Python
596 lines
18 KiB
Python
import string, re
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import sys
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from plasTeX.Renderers import Renderer
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from plasTeX.Base.TeX import Primitives
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# import generated OpenCV function names
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# if the file function_names.py does not exist, it
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# can be generated using the script find_function_names.sh
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try:
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from function_names import opencv_function_names
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except:
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opencv_function_names = []
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pass
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class XmlRenderer(Renderer):
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def default(self, node):
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""" Rendering method for all non-text nodes """
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s = []
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# Handle characters like \&, \$, \%, etc.
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if len(node.nodeName) == 1 and node.nodeName not in string.letters:
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return self.textDefault(node.nodeName)
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# Start tag
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s.append('<%s>' % node.nodeName)
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# See if we have any attributes to render
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if node.hasAttributes():
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s.append('<attributes>')
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for key, value in node.attributes.items():
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# If the key is 'self', don't render it
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# these nodes are the same as the child nodes
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if key == 'self':
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continue
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s.append('<%s>%s</%s>' % (key, unicode(value), key))
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s.append('</attributes>')
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# Invoke rendering on child nodes
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s.append(unicode(node))
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# End tag
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s.append('</%s>' % node.nodeName)
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return u'\n'.join(s)
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def textDefault(self, node):
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""" Rendering method for all text nodes """
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return node.replace('&','&').replace('<','<').replace('>','>')
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from plasTeX.Renderers import Renderer as BaseRenderer
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class reStructuredTextRenderer(BaseRenderer):
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aliases = {
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'superscript': 'active::^',
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'subscript': 'active::_',
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'dollar': '$',
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'percent': '%',
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'opencurly': '{',
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'closecurly': '}',
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'underscore': '_',
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'ampersand': '&',
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'hashmark': '#',
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'space': ' ',
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'tilde': 'active::~',
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'at': '@',
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'backslash': '\\',
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}
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def __init__(self, *args, **kwargs):
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BaseRenderer.__init__(self, *args, **kwargs)
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# Load dictionary with methods
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for key in vars(type(self)):
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if key.startswith('do__'):
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self[self.aliases[key[4:]]] = getattr(self, key)
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elif key.startswith('do_'):
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self[key[3:]] = getattr(self, key)
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self.indent = 0
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self.in_func = False
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self.in_cvarg = False
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self.descriptions = 0
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self.after_parameters = False
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self.func_short_desc = ''
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def do_document(self, node):
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return unicode(node)
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def do_par(self, node):
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if self.indent == -1:
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pre = ""
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post = ""
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else:
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pre = "\n" + (" " * self.indent)
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post = "\n"
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return pre + unicode(node).lstrip(" ") + post
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def do_chapter(self, node):
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t = str(node.attributes['title'])
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section_files = []
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for section in node.subsections:
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try:
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filename = section.filenameoverride
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if filename is not None:
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section_files.append(filename)
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except:
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pass
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toc = ".. toctree::\n :maxdepth: 2\n\n"
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for file in section_files:
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if file[-4:] != '.rst':
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print >>sys.stderr, "WARNING: unexpected file extension:", file
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else:
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toc += " %s\n" % file[:-4]
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toc += "\n\n"
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return "\n\n%s\n%s\n%s\n\n" % ('*' * len(t), t, '*' * len(t)) + toc + unicode(node)
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def do_section(self, node):
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t = str(node.attributes['title'])
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return "\n\n%s\n%s\n\n" % (t, '=' * len(t)) + unicode(node)
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def do_subsection(self, node):
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t = str(node.attributes['title'])
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return "\n\n%s\n%s\n\n" % (t, '-' * len(t)) + unicode(node)
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def do_cvdefX(self, node, lang):
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if self.language != lang:
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return u""
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self.indent = -1
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self.in_func = False
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decl = unicode(node.attributes['a']).rstrip(' ;') # remove trailing ';'
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decl_list = decl.split(";")
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r = u""
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for d in decl_list:
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r += u"\n\n.. %s:: %s\n\n" % ({'c' : 'cfunction', 'cpp' : 'cfunction', 'py' : 'function'}[self.language], d.strip())
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self.indent = 4
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if self.func_short_desc != '':
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r += self.ind() + self.func_short_desc + '\n\n'
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self.func_short_desc = ''
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return r
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def do_cvdefC(self, node):
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return self.do_cvdefX(node, 'c')
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def do_cvcode(self, node):
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#body = unicode(node.source).replace(u"\n",u"").replace(u"\\newline", u"\n");
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#body = body.replace(u"\\par", u"\n").replace(u"\\cvcode{", "").replace(u"\\", u"")[:-1];
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body = unicode(node.source).replace(u"\\newline", u"\n").replace("_ ", "_");
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body = body.replace(u"\\par", u"\n").replace(u"\\cvcode{", "").replace(u"\n\n",u"\n");
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body = body.replace(u",\n", ",\n ").replace(u"\\", u"")[:-1];
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lines = body.split(u"\n")
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self.indent += 4
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body = "\n".join([u"%s %s" % (self.ind(), s) for s in lines])
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r = (u"\n\n%s::\n\n" % self.ind()) + unicode(body) + u"\n\n"
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self.indent -= 4
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return r
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def do_cvdefCpp(self, node):
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lang = 'cpp'
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if self.language != lang:
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return u""
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self.indent = -1
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self.in_func = False
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decl = unicode(node.source).replace(u"\n",u"").replace(u"\\newline", u"").replace(u"_ ", u"_");
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decl = decl.replace(u"\\par", u"").replace(u"\\cvdefCpp{", "").replace(u"\\", u"").rstrip(u" ;}");
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decl_list = decl.split(";")
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r = u""
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for d in decl_list:
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r += u"\n\n.. %s:: %s\n\n" % ({'c' : 'cfunction', 'cpp' : 'cfunction', 'py' : 'function'}[self.language], d.strip())
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self.indent = 4
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if self.func_short_desc != '':
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r += self.ind() + self.func_short_desc + '\n\n'
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self.func_short_desc = ''
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return r
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def do_cvdefPy(self, node):
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return self.do_cvdefX(node, 'py')
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def do_description(self, node):
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self.descriptions += 1
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desc = unicode(node)
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self.descriptions -= 1
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if self.descriptions == 0:
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self.after_parameters = True
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return u"\n\n" + desc + u"\n\n"
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def do_includegraphics(self, node):
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filename = '../' + str(node.attributes['file']).strip()
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if not os.path.isfile(filename):
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print >>sys.stderr, "WARNING: missing image file", filename
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return u""
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return u"\n\n%s.. image:: %s\n\n" % (self.ind(), filename)
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def do_xfunc(self, node, a='title'):
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t = self.get_func_prefix() + unicode(node.attributes[a]).strip()
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print "====>", t
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label = u"\n\n.. index:: %s\n\n.. _%s:\n\n" % (t, t)
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self.in_func = True
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self.descriptions = 0
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self.after_parameters = False
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self.indent = 0
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#return u"" + unicode(node)
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# Would like to look ahead to reorder things, but cannot see more than 2 ahead
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if 0:
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print "NODES:", node.source
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n = node.nextSibling
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while (n != None) and (n.nodeName != 'cvfunc'):
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print " ", n.nodeName, len(n.childNodes)
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n = n.nextSibling
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print "-----"
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return label + u"\n\n%s\n%s\n\n" % (t, '-' * len(t)) + unicode(node)
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def do_cvfunc(self, node):
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return self.do_xfunc(node)
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def do_cvclass(self, node):
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return self.do_xfunc(node)
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def get_func_prefix(self):
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return u""
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if self.language == 'c':
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return u"cv"
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if self.language == 'cpp':
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return u"cv\\:\\:"
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if self.language == 'py':
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return u"cv\\."
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return u""
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def do_cvFunc(self, node):
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return self.do_xfunc(node, ['title','alt'][self.language == 'cpp'])
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def do_cvCPyFunc(self, node):
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return self.do_xfunc(node)
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def do_cvCppFunc(self, node):
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return self.do_xfunc(node)
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def do_cvstruct(self, node):
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t = str(node.attributes['title']).strip()
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self.after_parameters = False
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self.indent = 4
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return u".. ctype:: %s" % t + unicode(node)
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def do_cvmacro(self, node):
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t = str(node.attributes['title']).strip()
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self.after_parameters = False
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self.indent = 4
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return u".. cmacro:: %s" % t + unicode(node)
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def showTree(self, node, i = 0):
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n = node
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while n != None:
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print "%s[%s]" % (" " * i, n.nodeName)
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if len(n.childNodes) != 0:
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self.showTree(n.childNodes[0], i + 4)
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n = n.nextSibling
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def do_Huge(self, node):
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return unicode(node)
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def do_tabular(self, node):
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if 0:
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self.showTree(node)
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rows = []
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for row in node.childNodes:
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cols = []
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for col in row.childNodes:
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cols.append(unicode(col).strip())
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rows.append(cols)
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maxes = [ 0 ] * len(rows[0])
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for r in rows:
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maxes = [ max(m,len(c)) for m,c in zip(maxes, r) ]
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sep = "+" + "+".join([ ('-' * (m + 4)) for m in maxes]) + "+"
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s = ""
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s += sep + "\n"
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for r in rows:
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#s += "|" + "|".join([ ' ' + c.ljust(m + 3) for c,m in zip(r, maxes) ]) + "|" + "\n"
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#s += sep + "\n"
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s += self.ind() + "|" + "|".join([ ' ' + c.ljust(m + 3) for c,m in zip(r, maxes) ]) + "|" + "\n"
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s += self.ind() + sep + "\n"
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return unicode(s)
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def do_verbatim(self, node):
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return u"\n\n::\n\n " + unicode(node.source.replace('\n', '\n ')) + "\n\n"
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def do_index(self, node):
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return u""
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# No idea why this does not work... JCB
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return u"\n\n.. index:: (%s)\n\n" % node.attributes['entry']
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def do_label(self, node):
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return u""
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def fixup_funcname(self, str):
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"""
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add parentheses to a function name if not already present
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"""
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str = str.strip()
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if str[-1] != ')':
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return str + '()'
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return str
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def gen_reference(self, name):
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"""
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try to guess whether *name* is a function, struct or macro
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and if yes, generate the appropriate reference markup
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"""
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name = name.strip()
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if name[0:2] == 'cv':
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return u":cfunc:`%s`" % self.fixup_funcname(name)
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elif 'cv'+name in opencv_function_names:
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if self.language in ['c', 'cpp']:
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return u":cfunc:`cv%s`" % self.fixup_funcname(name)
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else:
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return u":func:`%s`" % self.fixup_funcname(name)
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elif name[0:2] == 'Cv' or name[0:3] == 'Ipl':
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return u":ctype:`%s`" % name
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elif name[0:2] == 'CV':
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return u":cmacro:`%s`" % name
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return None
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def do_xcross(self, refname):
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# try to guess whether t is a function, struct or macro
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# and if yes, generate the appropriate reference markup
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#rst_ref = self.gen_reference(refname)
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#if rst_ref is not None:
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# return rst_ref
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return u":ref:`%s`" % refname
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def do_cross(self, node):
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return self.do_xcross(str(node.attributes['name']).strip())
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def do_cvCross(self, node):
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prefix = self.get_func_prefix()
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if self.language == 'cpp':
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t = prefix + str(node.attributes['altname']).strip()
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return u":ref:`%s`" % t
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else:
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t = prefix + str(node.attributes['name']).strip()
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return self.do_xcross(t)
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def do_cvCPyCross(self, node):
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t = self.get_func_prefix() + str(node.attributes['name']).strip()
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return self.do_xcross(t)
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def do_cvCppCross(self, node):
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t = self.get_func_prefix() + str(node.attributes['name']).strip()
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return u":ref:`%s`" % t
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def ind(self):
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return u" " * self.indent
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def do_cvarg(self, node):
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self.indent += 4
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# Nested descriptions occur e.g. when a flag parameter can
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# be one of several constants. We want to render the inner
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# description differently than the outer parameter descriptions.
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if self.in_cvarg or self.after_parameters:
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defstr = unicode(node.attributes['def'])
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assert not (u"\xe2" in unicode(defstr))
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self.indent -= 4
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param_str = u"\n%s * **%s** - %s\n"
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return param_str % (self.ind(), str(node.attributes['item']).strip(), self.fix_quotes(defstr).strip(" "))
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# save that we are in a paramater description
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self.in_cvarg = True
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defstr = unicode(node.attributes['def'])
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assert not (u"\xe2" in unicode(defstr))
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self.in_cvarg = False
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self.indent -= 4
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param_str = u"\n%s:param %s: %s"
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return param_str % (self.ind(), str(node.attributes['item']).strip(), self.fix_quotes(defstr).strip())
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#lines = defstr.split('\n')
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#return u"\n%s%s\n%s\n" % (self.ind(), str(node.attributes['item']).strip(), "\n".join([self.ind()+" "+l for l in lines]))
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def do_bgroup(self, node):
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return u"bgroup(%s)" % node.source
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def do_url(self, node):
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return unicode(node.attributes['loc'])
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def do_enumerate(self, node):
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return unicode(node)
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def do_itemize(self, node):
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return unicode(node)
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def do_item(self, node):
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#if node.attributes['term'] != None:
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if node.attributes.get('term',None):
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self.indent += 4
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defstr = unicode(node).strip()
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assert not (u"\xe2" in unicode(defstr))
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self.indent -= 4
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return u"\n%s* %s *\n%s %s\n" % (self.ind(), unicode(node.attributes['term']).strip(), self.ind(), defstr)
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else:
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return u"\n\n%s* %s" % (self.ind(), unicode(node).strip())
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def do_textit(self, node):
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return "*%s*" % unicode(node.attributes['self'])
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def do_texttt(self, node):
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t = unicode(node)
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# try to guess whether t is a function, struct or macro
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# and if yes, generate the appropriate reference markup
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rst_ref = self.gen_reference(t)
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if rst_ref is not None:
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return rst_ref
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return u"``%s``" % t
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def do__underscore(self, node):
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return u"_"
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def default(self, node):
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print "DEFAULT dropping", node.nodeName
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return unicode(node)
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def do_lstlisting(self, node):
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self.in_func = False
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lines = node.source.split('\n')
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self.indent += 2
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body = "\n".join([u"%s %s" % (self.ind(), s) for s in lines[1:-1]])
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r = (u"\n\n%s::\n\n" % self.ind()) + unicode(body) + u"\n\n"
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if self.func_short_desc != '':
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r = self.ind() + self.func_short_desc + '\n\n' + r
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self.func_short_desc = ''
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self.indent -= 2
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return r
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def do_math(self, node):
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return u":math:`%s`" % node.source
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def do_displaymath(self, node):
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words = self.fix_quotes(node.source).strip().split()
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return u"\n\n%s.. math::\n\n%s %s\n\n" % (self.ind(), self.ind(), " ".join(words[1:-1]))
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def do_maketitle(self, node):
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return u""
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def do_setcounter(self, node):
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return u""
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def do_tableofcontents(self, node):
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return u""
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def do_titleformat(self, node):
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return u""
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def do_subsubsection(self, node):
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return u""
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def do_include(self, node):
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return u""
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def fix_quotes(self, s):
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s = s.replace(u'\u2013', "'")
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s = s.replace(u'\u2019', "'")
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s = s.replace(u'\u2264', "#<2264>")
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s = s.replace(u'\xd7', "#<d7>")
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return s
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def do_cvC(self, node):
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if self.language == 'c':
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return unicode(node.attributes['a'])
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return unicode("")
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def do_cvCpp(self, node):
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if self.language == 'cpp':
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return unicode(node.attributes['a'])
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return unicode("")
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def do_cvPy(self, node):
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if self.language == 'py':
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return unicode(node.attributes['a'])
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return unicode("")
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def do_cvCPy(self, node):
|
|
if self.language == 'c' or self.language == 'py':
|
|
return unicode(node.attributes['a'])
|
|
return unicode("")
|
|
|
|
def do_ifthenelse(self, node):
|
|
# print "IFTHENELSE: [%s],[%s],[%s]" % (node.attributes['test'], str(node.attributes['then']), node.attributes['else'])
|
|
print "CONDITION", unicode(node.attributes['test']).strip() == u'true'
|
|
if unicode(node.attributes['test']).strip() == u'true':
|
|
print "TRUE: [%s]" % str(node.attributes['then'])
|
|
return unicode(node.attributes['then'])
|
|
else:
|
|
return unicode(node.attributes['else'])
|
|
|
|
def do_equal(self, node):
|
|
first = unicode(node.attributes['first']).strip()
|
|
second = unicode(node.attributes['second']).strip()
|
|
if first == second:
|
|
return u'true'
|
|
else:
|
|
return u'false'
|
|
|
|
def textDefault(self, node):
|
|
if self.in_func:
|
|
self.func_short_desc += self.fix_quotes(unicode(node)).strip(" ")
|
|
return u""
|
|
|
|
s = unicode(node)
|
|
s = self.fix_quotes(s)
|
|
return s
|
|
return node.replace('\\_','_')
|
|
|
|
|
|
from plasTeX.TeX import TeX
|
|
import os
|
|
import pickle
|
|
|
|
def preprocess_conditionals(fname, suffix, conditionals):
|
|
print 'conditionals', conditionals
|
|
f = open("../" + fname + ".tex", 'r')
|
|
fout = open(fname + suffix + ".tex", 'w')
|
|
print 'write', fname + suffix + ".tex"
|
|
ifstack=[True]
|
|
for l in f.readlines():
|
|
ll = l.lstrip()
|
|
if ll.startswith("\\if"):
|
|
ifstack.append(conditionals.get(ll.rstrip()[3:], False))
|
|
elif ll.startswith("\\else"):
|
|
ifstack[-1] = not ifstack[-1]
|
|
elif ll.startswith("\\fi"):
|
|
ifstack.pop()
|
|
elif not False in ifstack:
|
|
fout.write(l)
|
|
f.close()
|
|
fout.close()
|
|
|
|
def parse_documentation_source(language):
|
|
# Instantiate a TeX processor and parse the input text
|
|
tex = TeX()
|
|
tex.ownerDocument.config['files']['split-level'] = 0
|
|
master_f = open("../online-opencv.tex", "rt")
|
|
out_master_f = open(("../online-opencv-%s.tex" % language), "wt")
|
|
flist = []
|
|
|
|
for l in master_f.readlines():
|
|
outl = l
|
|
if l.startswith("\\newcommand{\\targetlang}{}"):
|
|
outl = l.replace("}", ("%s}" % language))
|
|
elif l.startswith("\\input{"):
|
|
flist.append(re.findall(r"\{(.+)\}", l)[0])
|
|
outl = l.replace("}", ("-%s}" % language))
|
|
out_master_f.write(outl)
|
|
|
|
master_f.close()
|
|
out_master_f.close()
|
|
|
|
index_f = open("index.rst.copy", "rt")
|
|
index_lines = list(index_f.readlines())
|
|
index_f.close()
|
|
out_index_f = open("index.rst", "wt")
|
|
header_line = "OpenCV |version| %s Reference" % {"py": "Python", "c": "C", "cpp": "C++"}[language]
|
|
index_lines = [header_line + "\n", "="*len(header_line) + "\n", "\n"] + index_lines
|
|
for l in index_lines:
|
|
out_index_f.write(l)
|
|
out_index_f.close()
|
|
|
|
for f in flist:
|
|
preprocess_conditionals(f, '-' + language,
|
|
{'C':language=='c', 'Python':language=='py',
|
|
'Py':language=='py', 'CPy':(language=='py' or language == 'c'),
|
|
'Cpp':language=='cpp', 'plastex':True})
|
|
|
|
if 1:
|
|
tex.input("\\input{online-opencv-%s.tex}" % language)
|
|
else:
|
|
src0 = r'''
|
|
\documentclass{book}
|
|
\usepackage{myopencv}
|
|
\begin{document}'''
|
|
|
|
src1 = r'''
|
|
\end{document}
|
|
'''
|
|
lines = list(open("../CvReference.tex"))
|
|
LINES = 80
|
|
tex.input(src0 + "".join(lines[:LINES]) + src1)
|
|
|
|
return tex.parse()
|
|
|
|
language = sys.argv[1]
|
|
|
|
document = parse_documentation_source(language)
|
|
|
|
rest = reStructuredTextRenderer()
|
|
rest.language = language
|
|
rest.render(document)
|