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// Copyright Nikolay Mladenov 2007.
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// boost::python::make_tuple below are for gcc 4.4 -std=c++0x compatibility
// (Intel C++ 10 and 11 with -std=c++0x don't need the full qualification).
#include <boost/python/converter/registrations.hpp>
#include <boost/python/object/function_doc_signature.hpp>
#include <boost/python/errors.hpp>
#include <boost/python/str.hpp>
#include <boost/python/args.hpp>
#include <boost/python/tuple.hpp>
#include <boost/python/detail/signature.hpp>
#include <vector>
namespace boost { namespace python { namespace objects {
bool function_doc_signature_generator::arity_cmp( function const *f1, function const *f2 )
{
return f1->m_fn.max_arity() < f2->m_fn.max_arity();
}
bool function_doc_signature_generator::are_seq_overloads( function const *f1, function const *f2 , bool check_docs)
{
py_function const & impl1 = f1->m_fn;
py_function const & impl2 = f2->m_fn;
//the number of parameters differs by 1
if (impl2.max_arity()-impl1.max_arity() != 1)
return false;
// if check docs then f1 shold not have docstring or have the same docstring as f2
if (check_docs && f2->doc() != f1->doc() && f1->doc())
return false;
python::detail::signature_element const* s1 = impl1.signature();
python::detail::signature_element const* s2 = impl2.signature();
unsigned size = impl1.max_arity()+1;
for (unsigned i = 0; i != size; ++i)
{
//check if the argument types are the same
if (s1[i].basename != s2[i].basename)
return false;
//return type
if (!i) continue;
//check if the argument default values are the same
bool f1_has_names = bool(f1->m_arg_names);
bool f2_has_names = bool(f2->m_arg_names);
if ( (f1_has_names && f2_has_names && f2->m_arg_names[i-1]!=f1->m_arg_names[i-1])
|| (f1_has_names && !f2_has_names)
|| (!f1_has_names && f2_has_names && f2->m_arg_names[i-1]!=python::object())
)
return false;
}
return true;
}
std::vector<function const*> function_doc_signature_generator::flatten(function const *f)
{
object name = f->name();
std::vector<function const*> res;
while (f) {
//this if takes out the not_implemented_function
if (f->name() == name)
res.push_back(f);
f=f->m_overloads.get();
}
//std::sort(res.begin(),res.end(), &arity_cmp);
return res;
}
std::vector<function const*> function_doc_signature_generator::split_seq_overloads( const std::vector<function const *> &funcs, bool split_on_doc_change)
{
std::vector<function const*> res;
std::vector<function const*>::const_iterator fi = funcs.begin();
function const * last = *fi;
while (++fi != funcs.end()){
//check if fi starts a new chain of overloads
if (!are_seq_overloads( last, *fi, split_on_doc_change ))
res.push_back(last);
last = *fi;
}
if (last)
res.push_back(last);
return res;
}
str function_doc_signature_generator::raw_function_pretty_signature(function const *f, size_t n_overloads, bool cpp_types )
{
str res("object");
res = str("%s %s(%s)" % make_tuple( res, f->m_name, str("tuple args, dict kwds")) );
return res;
}
const char * function_doc_signature_generator::py_type_str(const python::detail::signature_element &s)
{
if (s.basename==std::string("void")){
static const char * none = "None";
return none;
}
PyTypeObject const * py_type = s.pytype_f?s.pytype_f():0;
if ( py_type )
return py_type->tp_name;
else{
static const char * object = "object";
return object;
}
}
str function_doc_signature_generator::parameter_string(py_function const &f, size_t n, object arg_names, bool cpp_types)
{
str param;
python::detail::signature_element const * s = f.signature();
if (cpp_types)
{
if(!n)
s = &f.get_return_type();
if (s[n].basename == 0)
{
return str("...");
}
param = str(s[n].basename);
if (s[n].lvalue)
param += " {lvalue}";
}
else
{
if (n) //we are processing an argument and trying to come up with a name for it
{
object kv;
if ( arg_names && (kv = arg_names[n-1]) )
param = str( " (%s)%s" % make_tuple(py_type_str(s[n]),kv[0]) );
else
param = str(" (%s)%s%d" % make_tuple(py_type_str(s[n]),"arg", n) );
}
else //we are processing the return type
param = py_type_str(f.get_return_type());
}
//an argument - check for default value and append it
if(n && arg_names)
{
object kv(arg_names[n-1]);
if (kv && len(kv) == 2)
{
param = str("%s=%r" % make_tuple(param, kv[1]));
}
}
return param;
}
str function_doc_signature_generator::pretty_signature(function const *f, size_t n_overloads, bool cpp_types )
{
py_function
const& impl = f->m_fn;
;
unsigned arity = impl.max_arity();
if(arity == unsigned(-1))// is this the proper raw function test?
{
return raw_function_pretty_signature(f,n_overloads,cpp_types);
}
list formal_params;
size_t n_extra_default_args=0;
for (unsigned n = 0; n <= arity; ++n)
{
str param;
formal_params.append(
parameter_string(impl, n, f->m_arg_names, cpp_types)
);
// find all the arguments with default values preceeding the arity-n_overloads
if (n && f->m_arg_names)
{
object kv(f->m_arg_names[n-1]);
if (kv && len(kv) == 2)
{
//default argument preceeding the arity-n_overloads
if( n <= arity-n_overloads)
++n_extra_default_args;
}
else
//argument without default, preceeding the arity-n_overloads
if( n <= arity-n_overloads)
n_extra_default_args = 0;
}
}
n_overloads+=n_extra_default_args;
if (!arity && cpp_types)
formal_params.append("void");
str ret_type (formal_params.pop(0));
if (cpp_types )
{
return str(
"%s %s(%s%s%s%s)"
% boost::python::make_tuple // workaround, see top
( ret_type
, f->m_name
, str(",").join(formal_params.slice(0,arity-n_overloads))
, n_overloads ? (n_overloads!=arity?str(" [,"):str("[ ")) : str()
, str(" [,").join(formal_params.slice(arity-n_overloads,arity))
, std::string(n_overloads,']')
));
}else{
return str(
"%s(%s%s%s%s) -> %s"
% boost::python::make_tuple // workaround, see top
( f->m_name
, str(",").join(formal_params.slice(0,arity-n_overloads))
, n_overloads ? (n_overloads!=arity?str(" [,"):str("[ ")) : str()
, str(" [,").join(formal_params.slice(arity-n_overloads,arity))
, std::string(n_overloads,']')
, ret_type
));
}
return str(
"%s %s(%s%s%s%s) %s"
% boost::python::make_tuple // workaround, see top
( cpp_types?ret_type:str("")
, f->m_name
, str(",").join(formal_params.slice(0,arity-n_overloads))
, n_overloads ? (n_overloads!=arity?str(" [,"):str("[ ")) : str()
, str(" [,").join(formal_params.slice(arity-n_overloads,arity))
, std::string(n_overloads,']')
, cpp_types?str(""):ret_type
));
}
namespace detail {
char py_signature_tag[] = "PY signature :";
char cpp_signature_tag[] = "C++ signature :";
}
list function_doc_signature_generator::function_doc_signatures( function const * f)
{
list signatures;
std::vector<function const*> funcs = flatten( f);
std::vector<function const*> split_funcs = split_seq_overloads( funcs, true);
std::vector<function const*>::const_iterator sfi=split_funcs.begin(), fi;
size_t n_overloads=0;
for (fi=funcs.begin(); fi!=funcs.end(); ++fi)
{
if(*sfi == *fi){
if((*fi)->doc())
{
str func_doc = str((*fi)->doc());
int doc_len = len(func_doc);
bool show_py_signature = doc_len >= int(sizeof(detail::py_signature_tag)/sizeof(char)-1)
&& str(detail::py_signature_tag) == func_doc.slice(0, int(sizeof(detail::py_signature_tag)/sizeof(char))-1);
if(show_py_signature)
{
func_doc = str(func_doc.slice(int(sizeof(detail::py_signature_tag)/sizeof(char))-1, _));
doc_len = len(func_doc);
}
bool show_cpp_signature = doc_len >= int(sizeof(detail::cpp_signature_tag)/sizeof(char)-1)
&& str(detail::cpp_signature_tag) == func_doc.slice( 1-int(sizeof(detail::cpp_signature_tag)/sizeof(char)), _);
if(show_cpp_signature)
{
func_doc = str(func_doc.slice(_, 1-int(sizeof(detail::cpp_signature_tag)/sizeof(char))));
doc_len = len(func_doc);
}
str res="\n";
str pad = "\n";
if(show_py_signature)
{
str sig = pretty_signature(*fi, n_overloads,false);
res+=sig;
if(doc_len || show_cpp_signature )res+=" :";
pad+= str(" ");
}
if(doc_len)
{
if(show_py_signature)
res+=pad;
res+= pad.join(func_doc.split("\n"));
}
if( show_cpp_signature)
{
if(len(res)>1)
res+="\n"+pad;
res+=detail::cpp_signature_tag+pad+" "+pretty_signature(*fi, n_overloads,true);
}
signatures.append(res);
}
++sfi;
n_overloads = 0;
}else
++n_overloads ;
}
return signatures;
}
}}}
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