wxWidgets/wxPython/SWIG/swig.python-2.patch

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Index: Doc/Manual/Python.html
===================================================================
RCS file: /cvsroot/swig/SWIG/Doc/Manual/Python.html,v
retrieving revision 1.18
diff -u -4 -r1.18 Python.html
--- Doc/Manual/Python.html 2 Sep 2004 20:27:14 -0000 1.18
+++ Doc/Manual/Python.html 23 Sep 2004 00:31:44 -0000
@@ -86,8 +86,15 @@
<li><a href="#Python_nn62">Mapping Python tuples into small arrays</a>
<li><a href="#Python_nn63">Mapping sequences to C arrays</a>
<li><a href="#Python_nn64">Pointer handling</a>
</ul>
+<li><a href="#Python_nn65">Docstring Features</a>
+<ul>
+<li><a href="#Python_nn66">Module docstring</a>
+<li><a href="#Python_nn67">%feature("autodoc")</a>
+<li><a href="#Python_nn68">%feature("docstring")</a>
+</ul>
+<li><a href="#Python_nn70">Python Packages</a>
</ul>
<!-- INDEX -->
@@ -2460,9 +2467,8 @@
customization features as covered in later sections.
<H3><a name="Python_nn42"></a>26.6.2 Adding additional Python code</H3>
-
If writing support code in C isn't enough, it is also possible to write code in
Python. This code gets inserted in to the <tt>.py</tt> file created by SWIG. One
use of Python code might be to supply a high-level interface to certain functions.
For example:
@@ -2506,8 +2512,46 @@
soon enough. For now, think of this example as an illustration of
what can be done without having to rely on any of the more advanced
customization features.
+<p>Sometimes you may want to replace or modify the wrapper function
+that SWIG creates in the proxy <tt>.py</tt> file. The Python module
+in SWIG provides some features that enable you do do this. First, to
+entirely replace a proxy function you can use
+<tt>%feature("shadow")</tt>. For example:
+
+<blockquote>
+<pre>
+%module example
+%rename(bar_id) bar(int,double);
+
+// Rewrite bar() to allow some nice overloading
+
+%feature("shadow") Foo::bar(int) %{
+def bar(*args):
+ if len(args) == 3:
+ return apply(examplec.Foo_bar_id,args)
+ return apply(examplec.Foo_bar,args)
+%}
+
+class Foo {
+public:
+ int bar(int x);
+ int bar(int x, double y);
+}
+</pre>
+</blockquote>
+
+
+Often the proxy function created by SWIG is fine, but you simply want
+to add code to it without touching the rest of the generated function
+body. For these cases SWIG provides the "pythonprepend" and
+"pythonappend" features which do exactly as their names suggest. The
+"pythonprepend" feature will insert its value at the begining of the
+proxy function, and "pythonappend" will insert code at the end of the
+proxy, just before the return statement.
+
+
<H3><a name="Python_nn43"></a>26.6.3 Class extension with %extend</H3>
One of the more interesting features of SWIG is that it can extend
@@ -3852,6 +3896,197 @@
that has a <tt>this</tt> attribute. In addition,
<tt>SWIG_NewPointerObj()</tt> can automatically generate a proxy
class object (if applicable).
+
+
+<H2><a name="Python_nn65"></a>26.10 Docstring Features</H2>
+
+Usign docstrings in Python code is becoming more and more important
+ans more tools are coming on the scene that take advantage of them,
+everything from full-blown documentaiton generators to class browsers
+and popup call-tips in Python-aware IDEs. Given the way that SWIG
+generates the proxy code by default, your users will normally get
+something like <tt>"function_name(*args)"</tt> in the popup calltip of
+their IDE which is next to useless when the real function prototype
+might be something like this:
+
+<blockquote>
+<pre>
+bool function_name(int x, int y, Foo* foo=NULL, Bar* bar=NULL);
+</pre>
+</blockquote>
+
+The features described in this section make it easy for you to add
+docstrings to your modules, functions and methods that can then be
+used by the various tools out there to make the programming experience
+of your users much simpler.
+
+
+<H3><a name="Python_nn66"></a>26.10.1 Module docstring</H3>
+
+Python allows a docstring at the begining of the <tt>.py</tt> file
+before any other statements, and it is typically used to give a
+general description of the entire module. SWIG supports this by
+setting an option of the <tt>%module</tt> directive. For example:
+
+<blockquote>
+<pre>
+%module(docstring="This is the example module's docstring") example
+</pre>
+</blockquote>
+
+When you have more than just a line or so then you can retain the easy
+readability of the <tt>%module</tt> directive by using a macro. For
+example:
+
+<blockquote>
+<pre>
+%define DOCSTRING
+"The `XmlResource` class allows program resources defining menus,
+layout of controls on a panel, etc. to be loaded from an XML file."
+%enddef
+
+%module(docstring=DOCSTRING) xrc
+</pre>
+</blockquote>
+
+
+<H3><a name="Python_nn67"></a>26.10.2 %feature("autodoc")</H3>
+
+As alluded to above SWIG will generate all the function and method
+proxy wrappers with just "*args" (or "*args, **kwargs" if the -keyword
+option is used) for a parameter list and will then sort out the
+individual parameters in the C wrapper code. This is nice and simple
+for the wrapper code, but makes it difficult to be programmer and tool
+friendly as anyone looking at the <tt>.py</tt> file will not be able
+to find out anything about the parameters that the fuctions accept.
+
+<p>But since SWIG does know everything about the fucntion it is
+possible to generate a docstring containing the parameter types, names
+and default values. Since many of the doctring tools are adopting a
+standard of recognizing if the first thing in the docstring is a
+function prototype then using that instead of what they found from
+introspeciton, then life is good once more.
+
+<p>SWIG's Python module provides support for the "autodoc" feature,
+which when attached to a node in the parse tree will cause a docstring
+to be generated that includes the name of the funciton, parameter
+names, default values if any, and return type if any. There are also
+three options for autodoc controlled by the value given to the
+feature, described below.
+
+<H4>%feature("autodoc", "0")</H4>
+
+When the "0" option is given then the types of the parameters will
+<em>not</em> be included in the autodoc string. For example, given
+this function prototype:
+
+<blockquote>
+<pre>
+%feature("autodoc", "0");
+bool function_name(int x, int y, Foo* foo=NULL, Bar* bar=NULL);
+</pre>
+</blockquote>
+
+Then Python code like this will be generated:
+
+<blockquote>
+<pre>
+def function_name(*args, **kwargs):
+ """function_name(x, y, foo=None, bar=None) -> bool"""
+ ...
+</pre>
+</blockquote>
+
+
+<H4>%feature("autodoc", "1")</H4>
+
+When the "1" option is used then the parameter types <em>will</em> be
+used in the autodoc string. In addition, an atempt is made to
+simplify the type name such that it makes more sense to the Python
+user. Pointer, reference and const info is removed,
+<tt>%rename</tt>'s are evaluated, etc. (This is not always
+successful, but works most of the time. See the next section for what
+to do when it doesn't.) Given the example above, then turning on the
+parameter types with the "1" option will result in Python code like
+this:
+
+<blockquote>
+<pre>
+def function_name(*args, **kwargs):
+ """function_name(int x, int y, Foo foo=None, Bar bar=None) -> bool"""
+ ...
+</pre>
+</blockquote>
+
+
+
+<H4>%feature("autodoc", "docstring")</H4>
+
+Finally, there are times when the automatically generated autodoc
+string will make no sense for a Python programmer, particularly when a
+typemap is involved. So if you give an explicit value for the autodoc
+feature then that string will be used in place of the automatically
+generated string. For example:
+
+<blockquote>
+<pre>
+%feature("autodoc", "GetPosition() -> (x, y)") GetPosition;
+void GetPosition(int* OUTPUT, int* OUTPUT);
+</pre>
+</blockquote>
+
+
+<H3><a name="Python_nn68"></a>26.10.3 %feature("docstring")</H3>
+
+In addition to the autodoc strings described above, you can also
+attach any arbitrary descriptive text to a node in the parse tree with
+the "docstring" feature. When the proxy module is generated then any
+docstring associated with classes, function or methods are output.
+If an item already has an autodoc string then it is combined with the
+docstring and they are output together. If the docstring is all on a
+single line then it is output like this::
+
+<blockquote>
+<pre>
+"""This is the docstring"""
+</pre>
+</blockquote>
+
+Otherwise, to aid readability it is output like this:
+
+<blockquote>
+<pre>
+"""
+This is a multi-line docstring
+with more than one line.
+"""
+</pre>
+</blockquote>
+
+<H2><a name="Python_nn70"></a>26.11 Python Packages</H2>
+
+Using the <tt>package</tt> option of the <tt>%module</tt> directive
+allows you to specify what Python package that the module will be
+living in when installed.
+
+<blockquote>
+<pre>
+%module(package="wx") xrc
+</pre>
+</blockquote>
+
+This is useful when the <tt>.i</tt> file is <tt>%import</tt>ed by
+another <tt>.i</tt> file. By default SWIG will assume that the
+importer is able to find the importee with just the module name, but
+if they live in separate Python packages then that won't work.
+However if the importee specifies what its package is with the
+<tt>%module</tt> option then the Python code generated for the
+importer will use that package name when importing the other module
+and also in base class declarations, etc. if the pacakge name is
+different than its own.
+
+
+
</body>
</html>
Index: Source/Modules/python.cxx
===================================================================
RCS file: /cvsroot/swig/SWIG/Source/Modules/python.cxx,v
retrieving revision 1.50
diff -u -4 -r1.50 python.cxx
--- Source/Modules/python.cxx 1 Sep 2004 22:25:56 -0000 1.50
+++ Source/Modules/python.cxx 23 Sep 2004 00:31:44 -0000
@@ -19,8 +19,9 @@
static String *const_code = 0;
static String *shadow_methods = 0;
static String *module = 0;
+static String *package = 0;
static String *mainmodule = 0;
static String *interface = 0;
static String *global_name = 0;
static int shadow = 1;
@@ -50,8 +51,18 @@
static int have_constructor;
static int have_repr;
static String *real_classname;
+/* flags for the make_autodoc function */
+enum autodoc_t {
+ AUTODOC_CLASS,
+ AUTODOC_CTOR,
+ AUTODOC_DTOR,
+ AUTODOC_STATICFUNC,
+ AUTODOC_FUNC,
+ AUTODOC_METHOD
+};
+
static const char *usage = (char *)"\
Python Options (available with -python)\n\
-globals <name> - Set <name> used to access C global variable [default: 'cvar']\n\
-interface <lib>- Set the lib name to <lib>\n\
@@ -145,19 +156,22 @@
*
* use %module(directors="1") modulename at the start of the
* interface file to enable director generation.
*/
+ String* mod_docstring = NULL;
{
- Node *module = Getattr(n, "module");
- if (module) {
- Node *options = Getattr(module, "options");
+ Node *mod = Getattr(n, "module");
+ if (mod) {
+ Node *options = Getattr(mod, "options");
if (options) {
if (Getattr(options, "directors")) {
allow_directors();
}
if (Getattr(options, "dirprot")) {
allow_dirprot();
}
+ mod_docstring = Getattr(options, "docstring");
+ package = Getattr(options, "package");
}
}
}
@@ -257,8 +271,13 @@
Printv(f_shadow,
"# This file is compatible with both classic and new-style classes.\n",
NIL);
}
+
+ if (mod_docstring && Len(mod_docstring)) {
+ Printv(f_shadow, "\n\"\"\"\n", mod_docstring, "\n\"\"\"\n", NIL);
+ Delete(mod_docstring); mod_docstring = NULL;
+ }
Printf(f_shadow,"\nimport %s\n\n", module);
if (! modern) {
@@ -381,9 +400,28 @@
virtual int importDirective(Node *n) {
if (shadow) {
String *modname = Getattr(n,"module");
if (modname) {
- Printf(f_shadow,"import %s\n", modname);
+ Printf(f_shadow,"import ");
+
+ // Find the module node for this imported module. It should be the
+ // first child but search just in case.
+ Node* mod = firstChild(n);
+ while (mod && Strcmp(nodeType(mod), "module") != 0)
+ mod = nextSibling(mod);
+
+ // Is the imported module in another package? (IOW, does it use the
+ // %module(package="name") option and it's different than the package
+ // of this module.)
+ Node *options = Getattr(mod, "options");
+ if (options && Getattr(options, "package")) {
+ String* pkg = Getattr(options, "package");
+ if (!package || Strcmp(pkg, package) != 0)
+ Printf(f_shadow, "%s.", Getattr(options, "package"));
+ }
+
+ // finally, output the name of the imported module
+ Printf(f_shadow, "%s\n", modname);
}
}
return Language::importDirective(n);
}
@@ -416,17 +454,25 @@
* functions.
* ------------------------------------------------------------ */
void emitFunctionShadowHelper(Node *n, File *f_dest, String *name, int kw) {
- if ( ! have_addtofunc(n) ) {
- /* If there is no addtofunc directive then just assign from the extension module */
+ if ( !have_pythonprepend(n) && !have_pythonappend(n) && !have_docstring(n) ) {
+ /* If there is no pythonappend or docstring directive then just assign from the extension module */
Printv(f_dest, "\n", name, " = ", module, ".", name, "\n", NIL);
} else {
/* Otherwise make a wrapper function to insert the code into */
Printv(f_dest, "\ndef ", name, "(*args", (kw ? ", **kwargs" : ""), "):\n", NIL);
- Printv(f_dest, tab4, "val = ", funcCallHelper(name, kw), "\n", NIL);
- Printv(f_dest, tab4, addtofunc(n), "\n", NIL);
- Printv(f_dest, tab4, "return val\n", NIL);
+ if ( have_docstring(n) )
+ Printv(f_dest, tab4, docstring(n, AUTODOC_FUNC, tab4), "\n", NIL);
+ if ( have_pythonprepend(n) )
+ Printv(f_dest, tab4, pythonprepend(n), "\n", NIL);
+ if ( have_pythonappend(n) ) {
+ Printv(f_dest, tab4, "val = ", funcCallHelper(name, kw), "\n", NIL);
+ Printv(f_dest, tab4, pythonappend(n), "\n", NIL);
+ Printv(f_dest, tab4, "return val\n", NIL);
+ } else {
+ Printv(f_dest, tab4, "return ", funcCallHelper(name, kw), "\n", NIL);
+ }
}
}
@@ -440,24 +486,307 @@
}
/* ------------------------------------------------------------
- * have_addtofunc()
- * Check if there is a %addtofunc directive and it has text
+ * have_docstring()
+ * Check if there is a docstring directive and it has text,
+ * or there is an autodoc flag set
* ------------------------------------------------------------ */
- bool have_addtofunc(Node *n) {
- String* str = Getattr(n, "feature:addtofunc");
+ bool have_docstring(Node *n) {
+ String* str = Getattr(n, "feature:docstring");
+ return (str != NULL && Len(str) > 0) ||
+ (Getattr(n,"feature:autodoc") && !Getattr(n, "feature:noautodoc"));
+ }
+
+ /* ------------------------------------------------------------
+ * docstring()
+ * Get the docstring text, stripping off {} if neccessary,
+ * and enclose in triple double quotes. If autodoc is also
+ * set then it will build a combined docstring.
+ * ------------------------------------------------------------ */
+
+ String *docstring(Node *n, autodoc_t ad_type, const String* indent) {
+ String* str = Getattr(n, "feature:docstring");
+ bool have_ds = (str != NULL && Len(str) > 0);
+ bool have_auto = (Getattr(n,"feature:autodoc") && !Getattr(n, "feature:noautodoc"));
+ char* triple_double = "\"\"\"";
+ String* autodoc = NULL;
+ String* doc = NULL;
+
+ if ( have_ds ) {
+ char* t = Char(str);
+ if (*t == '{') {
+ Delitem(str ,0);
+ Delitem(str,DOH_END);
+ }
+ }
+
+ if ( have_auto ) {
+ autodoc = make_autodoc(n, ad_type);
+ have_auto = (autodoc != NULL && Len(autodoc) > 0);
+ }
+
+ // If there is more than one line then make docstrings like this:
+ //
+ // """
+ // This is line1
+ // And here is line2 followed by the rest of them
+ // """
+ //
+ // otherwise, put it all on a single line
+ //
+ if ( have_auto && have_ds ) { // Both autodoc and docstring are present
+ doc = NewString("");
+ Printv(doc, triple_double, "\n",
+ pythoncode(autodoc, indent), "\n",
+ pythoncode(str, indent),
+ indent, triple_double, NIL);
+ }
+ else if ( !have_auto && have_ds ) { // only docstring
+ if (Strchr(str, '\n') == NULL) {
+ doc = NewStringf("%s%s%s", triple_double, str, triple_double);
+ }
+ else {
+ doc = NewString("");
+ Printv(doc, triple_double, "\n",
+ pythoncode(str, indent),
+ indent, triple_double, NIL);
+ }
+ }
+ else if ( have_auto && !have_ds ) { // only autodoc
+ if (Strchr(autodoc, '\n') == NULL) {
+ doc = NewStringf("%s%s%s", triple_double, autodoc, triple_double);
+ }
+ else {
+ doc = NewString("");
+ Printv(doc, triple_double, "\n",
+ pythoncode(autodoc, indent),
+ indent, triple_double, NIL);
+ }
+ }
+ else
+ doc = NewString("");
+
+ // Save the generated strings in the parse tree in case they are used later
+ // by post processing tools
+ Setattr(n, "python:docstring", doc);
+ Setattr(n, "python:autodoc", autodoc);
+ return doc;
+ }
+
+
+ /* ------------------------------------------------------------
+ * make_autodoc()
+ * Build a docstring for the node, using parameter and other
+ * info in the parse tree. If the value of the autodoc
+ * attribute is "0" then do not include parameter types, if
+ * it is "1" (the default) then do. If it has some other
+ * value then assume it is supplied by the extension writer
+ * and use it directly.
+ * ------------------------------------------------------------ */
+
+ String* make_autodoc(Node *n, autodoc_t ad_type) {
+
+ if (ad_type == AUTODOC_CLASS)
+ return NULL; // No function call to document in this case
+
+ // If the function is overloaded then this funciton is called
+ // for the last one. Rewind to the first so the docstrings are
+ // in order.
+ while ( Getattr(n, "sym:previousSibling") )
+ n = Getattr(n, "sym:previousSibling");
+
+ String* doc = NewString("");
+ while (n) {
+ bool showTypes = false;
+ bool skipAuto = false;
+
+ // check how should the parameters be rendered?
+ String* autodoc = Getattr(n, "feature:autodoc");
+ if (Strcmp(autodoc, "0") == 0)
+ showTypes = false;
+ else if (Strcmp(autodoc, "1") == 0)
+ showTypes = true;
+ else {
+ // if not "0" or "1" then autodoc is already the string that should be used
+ Printf(doc, "%s", autodoc);
+ skipAuto = true;
+ }
+
+ if (!skipAuto) {
+ String* symname = Getattr(n, "sym:name");
+ SwigType* type = Getattr(n, "type");
+
+ if (type) {
+ if (Strcmp(type, "void") == 0)
+ type = NULL;
+ else {
+ SwigType* qt = SwigType_typedef_resolve_all(type);
+ if (SwigType_isenum(qt))
+ type = NewString("int");
+ else {
+ type = SwigType_base(type);
+ Node* lookup = Swig_symbol_clookup(type, 0);
+ if (lookup)
+ type = Getattr(lookup, "sym:name");
+ }
+ }
+ }
+
+ switch ( ad_type ) {
+ case AUTODOC_CTOR:
+ if ( Strcmp(class_name, symname) == 0) {
+ String* paramList = make_autodocParmList(n, showTypes);
+ if (Len(paramList))
+ Printf(doc, "__init__(self, %s) -> %s", paramList, class_name);
+ else
+ Printf(doc, "__init__(self) -> %s", class_name);
+ }
+ else
+ Printf(doc, "%s(%s) -> %s", symname, make_autodocParmList(n, showTypes), class_name);
+ break;
+
+ case AUTODOC_DTOR:
+ Printf(doc, "__del__(self)");
+ break;
+
+ case AUTODOC_STATICFUNC:
+ Printf(doc, "%s(%s)", symname, make_autodocParmList(n, showTypes));
+ if (type) Printf(doc, " -> %s", type);
+ break;
+
+ case AUTODOC_FUNC:
+ Printf(doc, "%s(%s)", symname, make_autodocParmList(n, showTypes));
+ if (type) Printf(doc, " -> %s", type);
+ break;
+
+ case AUTODOC_METHOD:
+ String* paramList = make_autodocParmList(n, showTypes);
+ if (Len(paramList))
+ Printf(doc, "%s(self, %s)", symname, paramList);
+ else
+ Printf(doc, "%s(self)", symname);
+ if (type) Printf(doc, " -> %s", type);
+ break;
+ }
+ }
+
+ // if it's overloaded then get the next decl and loop around again
+ n = Getattr(n, "sym:nextSibling");
+ if (n)
+ Printf(doc, "\n");
+ }
+
+ return doc;
+ }
+
+
+ String* make_autodocParmList(Node* n, bool showTypes) {
+ String* doc = NewString("");
+ ParmList* plist = Getattr(n,"parms");
+ Parm* p;
+ Node* lookup;
+ int lines = 0;
+ const int maxwidth = 50;
+
+
+ for (p = plist; p; p = nextSibling(p)) {
+ String* name = Getattr(p, "name");
+ String* value = Getattr(p, "value");
+
+ if ( Len(doc) ) {
+ // add a comma to the previous one if any
+ Printf(doc, ", ");
+
+ // Do we need to wrap a long line?
+ if ((Len(doc) - lines*maxwidth) > maxwidth) {
+ Printf(doc, "\n%s", tab4);
+ lines += 1;
+ }
+ }
+
+ // Do the param type too?
+ if (showTypes) {
+ SwigType* type = SwigType_base(Getattr(p, "type"));
+ SwigType* qt = SwigType_typedef_resolve_all(type);
+ if (SwigType_isenum(qt))
+ type = NewString("int");
+ else {
+ lookup = Swig_symbol_clookup(type, 0);
+ if (lookup)
+ type = Getattr(lookup, "sym:name");
+ }
+ Printf(doc, "%s ", type);
+ }
+
+ if (name)
+ Printf(doc, "%s", name);
+ else
+ Printf(doc, "??");
+
+ if (value) {
+ if (Strcmp(value, "NULL") == 0)
+ value = NewString("None");
+ else if (Strcmp(value, "true") == 0 || Strcmp(value, "TRUE") == 0)
+ value = NewString("True");
+ else if (Strcmp(value, "false") == 0 || Strcmp(value, "FALSE") == 0)
+ value = NewString("False");
+ else {
+ lookup = Swig_symbol_clookup(value, 0);
+ if (lookup)
+ value = Getattr(lookup, "sym:name");
+ }
+ Printf(doc, "=%s", value);
+ }
+ }
+
+ return doc;
+ }
+
+
+ /* ------------------------------------------------------------
+ * have_pythonprepend()
+ * Check if there is a %pythonprepend directive and it has text
+ * ------------------------------------------------------------ */
+
+ bool have_pythonprepend(Node *n) {
+ String* str = Getattr(n, "feature:pythonprepend");
+ return (str != NULL && Len(str) > 0);
+ }
+
+ /* ------------------------------------------------------------
+ * pythonprepend()
+ * Get the %pythonprepend code, stripping off {} if neccessary
+ * ------------------------------------------------------------ */
+
+ String *pythonprepend(Node *n) {
+ String* str = Getattr(n, "feature:pythonprepend");
+ char* t = Char(str);
+ if (*t == '{') {
+ Delitem(str ,0);
+ Delitem(str,DOH_END);
+ }
+ return str;
+ }
+
+ /* ------------------------------------------------------------
+ * have_pythonappend()
+ * Check if there is a %pythonappend directive and it has text
+ * ------------------------------------------------------------ */
+
+ bool have_pythonappend(Node *n) {
+ String* str = Getattr(n, "feature:pythonappend");
return (str != NULL && Len(str) > 0);
}
/* ------------------------------------------------------------
- * addtofunc()
- * Get the %addtofunc code, stripping off {} if neccessary
+ * pythonappend()
+ * Get the %pythonappend code, stripping off {} if neccessary
* ------------------------------------------------------------ */
- String *addtofunc(Node *n) {
- String* str = Getattr(n, "feature:addtofunc");
+ String *pythonappend(Node *n) {
+ String* str = Getattr(n, "feature:pythonappend");
char* t = Char(str);
if (*t == '{') {
Delitem(str ,0);
Delitem(str,DOH_END);
@@ -1686,9 +2015,18 @@
mod = Getattr(n,"module");
if (mod) {
String *modname = Getattr(mod,"name");
if (Strcmp(modname,mainmodule) != 0) {
- importname = NewStringf("%s.%s", modname, Getattr(n,"sym:name"));
+ // check if the module has a package option
+ String* pkg = NULL;
+ Node *options = Getattr(mod, "options");
+ if (options && Getattr(options, "package"))
+ pkg = Getattr(options, "package");
+
+ if (!package || Strcmp(pkg, package) != 0)
+ importname = NewStringf("%s.%s.%s", pkg, modname, Getattr(n,"sym:name"));
+ else
+ importname = NewStringf("%s.%s", modname, Getattr(n,"sym:name"));
} else {
importname = NewString(Getattr(n,"sym:name"));
}
Setattr(n,"python:proxy",importname);
@@ -1760,9 +2098,11 @@
Printf(f_shadow, modern ? "(object)" : "(_object)");
}
}
Printf(f_shadow,":\n");
-
+ if ( Getattr(n, "feature:docstring") ) // don't use have_docstring in this case because autodoc doesn't apply
+ Printv(f_shadow, tab4, docstring(n, AUTODOC_CLASS, tab4), "\n", NIL);
+
if (!modern) {
Printv(f_shadow,tab4,"__swig_setmethods__ = {}\n",NIL);
if (Len(base_class)) {
Printf(f_shadow,"%sfor _s in [%s]: __swig_setmethods__.update(_s.__swig_setmethods__)\n",tab4,base_class);
@@ -1906,16 +2246,24 @@
Delete(pyaction);
Printv(f_shadow,pycode,"\n",NIL);
} else {
- Printv(f_shadow, tab4, "def ", symname, "(*args", (allow_kwargs ? ", **kwargs" : ""), "): ", NIL);
- if ( have_addtofunc(n) ) {
- Printv(f_shadow, "\n", NIL);
- Printv(f_shadow, tab8, "val = ", funcCallHelper(Swig_name_member(class_name,symname), allow_kwargs), "\n", NIL);
- Printv(f_shadow, tab8, addtofunc(n), "\n", NIL);
- Printv(f_shadow, tab8, "return val\n", NIL);
+ Printv(f_shadow, tab4, "def ", symname, "(*args", (allow_kwargs ? ", **kwargs" : ""), "):", NIL);
+ if ( !have_pythonprepend(n) && !have_pythonappend(n) && !have_docstring(n)) {
+ Printv(f_shadow, " return ", funcCallHelper(Swig_name_member(class_name,symname), allow_kwargs), "\n", NIL);
} else {
- Printv(f_shadow, "return ", funcCallHelper(Swig_name_member(class_name,symname), allow_kwargs), "\n", NIL);
+ Printv(f_shadow, "\n", NIL);
+ if ( have_docstring(n) )
+ Printv(f_shadow, tab8, docstring(n, AUTODOC_METHOD, tab8), "\n", NIL);
+ if ( have_pythonprepend(n) )
+ Printv(f_shadow, tab8, pythonprepend(n), "\n", NIL);
+ if ( have_pythonappend(n) ) {
+ Printv(f_shadow, tab8, "val = ", funcCallHelper(Swig_name_member(class_name,symname), allow_kwargs), "\n", NIL);
+ Printv(f_shadow, tab8, pythonappend(n), "\n", NIL);
+ Printv(f_shadow, tab8, "return val\n\n", NIL);
+ } else {
+ Printv(f_shadow, tab8, "return ", funcCallHelper(Swig_name_member(class_name,symname), allow_kwargs), "\n\n", NIL);
+ }
}
}
}
@@ -1930,14 +2278,22 @@
virtual int staticmemberfunctionHandler(Node *n) {
String *symname = Getattr(n,"sym:name");
Language::staticmemberfunctionHandler(n);
if (shadow) {
- if ( !classic && have_addtofunc(n) ) {
+ if ( !classic && (have_pythonprepend(n) || have_pythonappend(n) || have_docstring(n)) ) {
int kw = (check_kwargs(n) && !Getattr(n,"sym:overloaded")) ? 1 : 0;
Printv(f_shadow, tab4, "def ", symname, "(*args", (kw ? ", **kwargs" : ""), "):\n", NIL);
- Printv(f_shadow, tab8, "val = ", funcCallHelper(Swig_name_member(class_name, symname), kw), "\n", NIL);
- Printv(f_shadow, tab8, addtofunc(n), "\n", NIL);
- Printv(f_shadow, tab8, "return val\n", NIL);
+ if ( have_docstring(n) )
+ Printv(f_shadow, tab8, docstring(n, AUTODOC_STATICFUNC, tab8), "\n", NIL);
+ if ( have_pythonprepend(n) )
+ Printv(f_shadow, tab8, pythonprepend(n), "\n", NIL);
+ if ( have_pythonappend(n) ) {
+ Printv(f_shadow, tab8, "val = ", funcCallHelper(Swig_name_member(class_name, symname), kw), "\n", NIL);
+ Printv(f_shadow, tab8, pythonappend(n), "\n", NIL);
+ Printv(f_shadow, tab8, "return val\n\n", NIL);
+ } else {
+ Printv(f_shadow, tab8, "return ", funcCallHelper(Swig_name_member(class_name, symname), kw), "\n\n", NIL);
+ }
Printv(f_shadow, tab4, modern ? "" : "if _newclass:", symname,
" = staticmethod(", symname, ")\n", NIL);
if (!modern) {
@@ -2022,8 +2378,12 @@
}
Printv(f_shadow, tab4, "def __init__(self, *args",
(allow_kwargs ? ", **kwargs" : ""), "):\n", NIL);
+ if ( have_docstring(n) )
+ Printv(f_shadow, tab8, docstring(n, AUTODOC_CTOR, tab8), "\n", NIL);
+ if ( have_pythonprepend(n) )
+ Printv(f_shadow, tab8, pythonprepend(n), "\n", NIL);
Printv(f_shadow, pass_self, NIL);
if (!modern) {
Printv(f_shadow, tab8, "_swig_setattr(self, ", rclassname, ", 'this', ",
funcCallHelper(Swig_name_construct(symname), allow_kwargs), ")\n", NIL);
@@ -2036,10 +2396,10 @@
Printv(f_shadow, tab8, "self.this = newobj.this\n", NIL);
Printv(f_shadow, tab8, "self.thisown = 1\n", NIL);
Printv(f_shadow, tab8, "del newobj.thisown\n", NIL);
}
- if ( have_addtofunc(n) )
- Printv(f_shadow, tab8, addtofunc(n), "\n", NIL);
+ if ( have_pythonappend(n) )
+ Printv(f_shadow, tab8, pythonappend(n), "\n\n", NIL);
Delete(pass_self);
}
have_constructor = 1;
} else {
@@ -2055,13 +2415,17 @@
} else {
Printv(f_shadow_stubs, "\ndef ", symname, "(*args",
(allow_kwargs ? ", **kwargs" : ""), "):\n", NIL);
+ if ( have_docstring(n) )
+ Printv(f_shadow_stubs, tab4, docstring(n, AUTODOC_CTOR, tab4), "\n", NIL);
+ if ( have_pythonprepend(n) )
+ Printv(f_shadow_stubs, tab4, pythonprepend(n), "\n", NIL);
Printv(f_shadow_stubs, tab4, "val = ",
funcCallHelper(Swig_name_construct(symname), allow_kwargs), "\n", NIL);
Printv(f_shadow_stubs, tab4, "val.thisown = 1\n", NIL);
- if ( have_addtofunc(n) )
- Printv(f_shadow_stubs, tab4, addtofunc(n), "\n", NIL);
+ if ( have_pythonappend(n) )
+ Printv(f_shadow_stubs, tab4, pythonappend(n), "\n", NIL);
Printv(f_shadow_stubs, tab4, "return val\n", NIL);
}
}
}
@@ -2088,13 +2452,18 @@
Delete(pyaction);
Printv(f_shadow,pycode,"\n", NIL);
} else {
Printv(f_shadow, tab4, "def __del__(self, destroy=", module, ".", Swig_name_destroy(symname), "):\n", NIL);
- if ( have_addtofunc(n) )
- Printv(f_shadow, tab8, addtofunc(n), "\n", NIL);
+ if ( have_docstring(n) )
+ Printv(f_shadow, tab8, docstring(n, AUTODOC_DTOR, tab8), "\n", NIL);
+ if ( have_pythonprepend(n) )
+ Printv(f_shadow, tab8, pythonprepend(n), "\n", NIL);
Printv(f_shadow, tab8, "try:\n", NIL);
- Printv(f_shadow, tab4, tab8, "if self.thisown: destroy(self)\n", NIL);
+ Printv(f_shadow, tab8, tab4, "if self.thisown: destroy(self)\n", NIL);
Printv(f_shadow, tab8, "except: pass\n", NIL);
+ if ( have_pythonappend(n) )
+ Printv(f_shadow, tab8, pythonappend(n), "\n", NIL);
+ Printv(f_shadow, "\n", NIL);
}
}
return SWIG_OK;
}