realAscot/kicad-source
1
0
Fork 0
mirror of https://gitlab.com/kicad/code/kicad.git synced 2025-09-14 18:23:15 +02:00
Code Issues Packages Projects Releases Wiki Activity
kicad-source/pcbnew/swig/python_scripting.cpp
Jon Evans a52250a91e Change from EDA_COLOR_T to COLOR4D globally; arbitrary color support 
eeschema now supports arbitrary colors for all object types, and
pcbnew does in GAL canvas.  When switching from GAL to legacy canvas,
pcbnew will convert colors to the nearest legacy color.
2017-02-22 17:35:00 +01:00

460 lines
12 KiB
C++
Raw Blame History

/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2012 NBEE Embedded Systems, Miguel Angel Ajo <miguelangel@nbee.es>
* Copyright (C) 1992-2016 KiCad Developers, see AUTHORS.txt for contributors.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
/**
* @file python_scripting.cpp
* @brief methods to add scripting capabilities inside pcbnew
*/
#include <python_scripting.h>
#include <stdlib.h>
#include <string.h>
#include <fctsys.h>
#include <wxstruct.h>
#include <common.h>
#include <gal/color4d.h>
#include <macros.h>
#include <pgm_base.h>
/* init functions defined by swig */
extern "C" void init_kicad( void );
extern "C" void init_pcbnew( void );
#define EXTRA_PYTHON_MODULES 10 // this is the number of python
// modules that we want to add into the list
/* python inittab that links module names to module init functions
* we will rebuild it to include the original python modules plus
* our own ones
*/
struct _inittab* SwigImportInittab;
static int SwigNumModules = 0;
static bool wxPythonLoaded = false; // true if the wxPython scripting layer was successfully loaded
bool IsWxPythonLoaded()
{
return wxPythonLoaded;
}
/* Add a name + initfuction to our SwigImportInittab */
static void swigAddModule( const char* name, void (* initfunc)() )
{
SwigImportInittab[SwigNumModules].name = (char*) name;
SwigImportInittab[SwigNumModules].initfunc = initfunc;
SwigNumModules++;
SwigImportInittab[SwigNumModules].name = (char*) 0;
SwigImportInittab[SwigNumModules].initfunc = 0;
}
/* Add the builtin python modules */
static void swigAddBuiltin()
{
int i = 0;
/* discover the length of the pyimport inittab */
while( PyImport_Inittab[i].name )
i++;
/* allocate memory for the python module table */
SwigImportInittab = (struct _inittab*) malloc(
sizeof(struct _inittab) * (i + EXTRA_PYTHON_MODULES) );
/* copy all pre-existing python modules into our newly created table */
i = 0;
while( PyImport_Inittab[i].name )
{
swigAddModule( PyImport_Inittab[i].name, PyImport_Inittab[i].initfunc );
i++;
}
}
/* Function swigAddModules
* adds the internal modules we offer to the python scripting, so they will be
* available to the scripts we run.
*
*/
static void swigAddModules()
{
swigAddModule( "_pcbnew", init_pcbnew );
// finally it seems better to include all in just one module
// but in case we needed to include any other modules,
// it must be done like this:
// swigAddModule( "_kicad", init_kicad );
}
/* Function swigSwitchPythonBuiltin
* switches python module table to our built one .
*
*/
static void swigSwitchPythonBuiltin()
{
PyImport_Inittab = SwigImportInittab;
}
/* Function pcbnewInitPythonScripting
* Initializes all the python environment and publish our interface inside it
* initializes all the wxpython interface, and returns the python thread control structure
*
*/
PyThreadState* g_PythonMainTState;
bool pcbnewInitPythonScripting( const char * aUserScriptingPath )
{
swigAddBuiltin(); // add builtin functions
swigAddModules(); // add our own modules
swigSwitchPythonBuiltin(); // switch the python builtin modules to our new list
Py_Initialize();
#ifdef KICAD_SCRIPTING_WXPYTHON
PyEval_InitThreads();
#ifndef __WINDOWS__ // import wxversion.py currently not working under winbuilder, and not useful.
char cmd[1024];
// Make sure that that the correct version of wxPython is loaded. In systems where there
// are different versions of wxPython installed this can lead to select wrong wxPython
// version being selected.
snprintf( cmd, sizeof(cmd), "import wxversion; wxversion.select('%s')", WXPYTHON_VERSION );
int retv = PyRun_SimpleString( cmd );
if( retv != 0 )
{
wxLogError( wxT( "Python error %d occurred running string `%s`" ), retv, cmd );
PyErr_Print();
Py_Finalize();
return false;
}
#endif // ifndef __WINDOWS__
// Load the wxPython core API. Imports the wx._core_ module and sets a
// local pointer to a function table located there. The pointer is used
// internally by the rest of the API functions.
if( !wxPyCoreAPI_IMPORT() )
{
wxLogError( wxT( "***** Error importing the wxPython API! *****" ) );
PyErr_Print();
Py_Finalize();
return false;
}
wxPythonLoaded = true;
// Save the current Python thread state and release the
// Global Interpreter Lock.
g_PythonMainTState = wxPyBeginAllowThreads();
#endif // ifdef KICAD_SCRIPTING_WXPYTHON
// load pcbnew inside python, and load all the user plugins, TODO: add system wide plugins
{
char cmd[1024];
PyLOCK lock;
snprintf( cmd, sizeof(cmd), "import sys, traceback\n"
"sys.path.append(\".\")\n"
"import pcbnew\n"
"pcbnew.LoadPlugins(\"%s\")", aUserScriptingPath );
PyRun_SimpleString( cmd );
}
return true;
}
/**
* this function runs a python method from pcbnew module, which returns a string
* @param aMethodName is the name of the method (like "pcbnew.myfunction" )
* @param aNames will contains the returned string
*/
static void pcbnewRunPythonMethodWithReturnedString( const char* aMethodName, wxString& aNames )
{
aNames.Clear();
PyLOCK lock;
PyErr_Clear();
PyObject* builtins = PyImport_ImportModule( "pcbnew" );
wxASSERT( builtins );
if( !builtins ) // Something is wrong in pcbnew.py module (incorrect version?)
return;
PyObject* globals = PyDict_New();
PyDict_SetItemString( globals, "pcbnew", builtins );
Py_DECREF( builtins );
// Build the python code
char cmd[1024];
snprintf( cmd, sizeof(cmd), "result = %s()", aMethodName );
// Execute the python code and get the returned data
PyObject* localDict = PyDict_New();
PyObject* pobj = PyRun_String( cmd, Py_file_input, globals, localDict);
Py_DECREF( globals );
if( pobj )
{
PyObject* str = PyDict_GetItemString(localDict, "result" );
const char* str_res = str ? PyString_AsString( str ) : 0;
aNames = FROM_UTF8( str_res );
Py_DECREF( pobj );
}
Py_DECREF( localDict );
if( PyErr_Occurred() )
wxLogMessage(PyErrStringWithTraceback());
}
void pcbnewGetUnloadableScriptNames( wxString& aNames )
{
pcbnewRunPythonMethodWithReturnedString( "pcbnew.GetUnLoadableWizards", aNames );
}
void pcbnewGetScriptsSearchPaths( wxString& aNames )
{
pcbnewRunPythonMethodWithReturnedString( "pcbnew.GetWizardsSearchPaths", aNames );
}
void pcbnewGetWizardsBackTrace( wxString& aNames )
{
pcbnewRunPythonMethodWithReturnedString( "pcbnew.GetWizardsBackTrace", aNames );
}
void pcbnewFinishPythonScripting()
{
#ifdef KICAD_SCRIPTING_WXPYTHON
wxPyEndAllowThreads( g_PythonMainTState );
#endif
Py_Finalize();
}
#if defined( KICAD_SCRIPTING_WXPYTHON )
void RedirectStdio()
{
// This is a helpful little tidbit to help debugging and such. It
// redirects Python's stdout and stderr to a window that will popup
// only on demand when something is printed, like a traceback.
const char* python_redirect =
"import sys\n"
"import wx\n"
"output = wx.PyOnDemandOutputWindow()\n"
"sys.stderr = output\n";
PyLOCK lock;
PyRun_SimpleString( python_redirect );
}
wxWindow* CreatePythonShellWindow( wxWindow* parent, const wxString& aFramenameId )
{
const char* pcbnew_pyshell =
"import kicad_pyshell\n"
"\n"
"def makeWindow(parent):\n"
" return kicad_pyshell.makePcbnewShellWindow(parent)\n"
"\n";
wxWindow* window = NULL;
PyObject* result;
// As always, first grab the GIL
PyLOCK lock;
// Now make a dictionary to serve as the global namespace when the code is
// executed. Put a reference to the builtins module in it.
PyObject* globals = PyDict_New();
PyObject* builtins = PyImport_ImportModule( "__builtin__" );
PyDict_SetItemString( globals, "__builtins__", builtins );
Py_DECREF( builtins );
// Execute the code to make the makeWindow function we defined above
result = PyRun_String( pcbnew_pyshell, Py_file_input, globals, globals );
// Was there an exception?
if( !result )
{
PyErr_Print();
return NULL;
}
Py_DECREF( result );
// Now there should be an object named 'makeWindow' in the dictionary that
// we can grab a pointer to:
PyObject* func = PyDict_GetItemString( globals, "makeWindow" );
wxASSERT( PyCallable_Check( func ) );
// Now build an argument tuple and call the Python function. Notice the
// use of another wxPython API to take a wxWindows object and build a
// wxPython object that wraps it.
PyObject* arg = wxPyMake_wxObject( parent, false );
wxASSERT( arg != NULL );
PyObject* tuple = PyTuple_New( 1 );
PyTuple_SET_ITEM( tuple, 0, arg );
result = PyEval_CallObject( func, tuple );
// Was there an exception?
if( !result )
PyErr_Print();
else
{
// Otherwise, get the returned window out of Python-land and
// into C++-ville...
bool success = wxPyConvertSwigPtr( result, (void**) &window, "wxWindow" );
(void) success;
wxASSERT_MSG( success, "Returned object was not a wxWindow!" );
Py_DECREF( result );
window->SetName( aFramenameId );
}
// Release the python objects we still have
Py_DECREF( globals );
Py_DECREF( tuple );
return window;
}
#endif
wxArrayString PyArrayStringToWx( PyObject* aArrayString )
{
wxArrayString ret;
if( !aArrayString )
return ret;
int list_size = PyList_Size( aArrayString );
for( int n = 0; n < list_size; n++ )
{
PyObject* element = PyList_GetItem( aArrayString, n );
if( element )
ret.Add( FROM_UTF8( PyString_AsString( element ) ), 1 );
}
return ret;
}
wxString PyErrStringWithTraceback()
{
wxString err;
if( !PyErr_Occurred() )
return err;
PyObject* type;
PyObject* value;
PyObject* traceback;
PyErr_Fetch( &type, &value, &traceback );
PyObject* tracebackModuleString = PyString_FromString( "traceback" );
PyObject* tracebackModule = PyImport_Import( tracebackModuleString );
Py_DECREF( tracebackModuleString );
PyObject* formatException = PyObject_GetAttrString( tracebackModule,
"format_exception" );
Py_DECREF( tracebackModule );
PyObject* args = Py_BuildValue( "(O,O,O)", type, value, traceback );
PyObject* result = PyObject_CallObject( formatException, args );
Py_XDECREF( formatException );
Py_XDECREF( args );
Py_XDECREF( type );
Py_XDECREF( value );
Py_XDECREF( traceback );
wxArrayString res = PyArrayStringToWx( result );
for( unsigned i = 0; i<res.Count(); i++ )
{
err += res[i] + wxT( "\n" );
}
PyErr_Clear();
return err;
}
/**
* Find the Python scripting path
*/
wxString PyScriptingPath()
{
wxString path;
//TODO should this be a user configurable variable eg KISCRIPT ?
#if defined( __WXMAC__ )
path = GetOSXKicadDataDir() + wxT( "/scripting" );
#else
path = Pgm().GetExecutablePath() + wxT( "../share/kicad/scripting" );
#endif
wxFileName scriptPath( path );
scriptPath.MakeAbsolute();
return scriptPath.GetFullPath();
}
wxString PyPluginsPath()
{
return PyScriptingPath() + wxFileName::GetPathSeparator() + "plugins";
}
Reference in New Issue View Git Blame Copy Permalink