modena_index_set_t *modena_function_get_index_set
(
const modena_function_t* self,
const char* name
)
{
PyObject *pRet = PyObject_CallMethod
(
self->pFunction,
"indexSet",
"(z)",
name
);
if(!pRet){ Modena_PyErr_Print(); }
PyObject *args = PyTuple_New(0);
PyObject *kw = Py_BuildValue("{s:O}", "indexSet", pRet);
PyObject *pNewObj = PyObject_Call
(
(PyObject *) &modena_index_set_tType,
args,
kw
);
Py_DECREF(args);
Py_DECREF(kw);
if(!pNewObj)
{
Modena_PyErr_Print();
}
return (modena_index_set_t *) pNewObj;
}
void modena_model_get_minMax
(
modena_model_t *m
)
{
PyObject *pObj = PyObject_CallMethod(m->pModel, "minMax", NULL);
if(!pObj){ Modena_PyErr_Print(); }
PyObject *pMin = PyTuple_GET_ITEM(pObj, 0); // Borrowed ref
PyObject *pSeq = PySequence_Fast(pMin, "expected a sequence");
m->inputs_minMax_size = PySequence_Size(pMin);
m->inputs_min = malloc(m->inputs_minMax_size*sizeof(double));
size_t i;
for(i = 0; i < m->inputs_minMax_size; i++)
{
m->inputs_min[i] = PyFloat_AsDouble(PyList_GET_ITEM(pSeq, i));
}
Py_DECREF(pSeq);
if(PyErr_Occurred()){ Modena_PyErr_Print(); }
PyObject *pMax = PyTuple_GET_ITEM(pObj, 1); // Borrowed ref
pSeq = PySequence_Fast(pMax, "expected a sequence");
m->inputs_max = malloc(m->inputs_minMax_size*sizeof(double));
for(i = 0; i < m->inputs_minMax_size; i++)
{
m->inputs_max[i] = PyFloat_AsDouble(PyList_GET_ITEM(pSeq, i));
}
Py_DECREF(pSeq);
if(PyErr_Occurred()){ Modena_PyErr_Print(); }
Py_DECREF(pObj);
}
void modena_model_read_substituteModels(modena_model_t *m)
{
PyObject *pSubstituteModels = PyObject_GetAttrString
(
m->pModel, "substituteModels"
);
if(!pSubstituteModels){ Modena_PyErr_Print(); }
PyObject *pSeq = PySequence_Fast
(
pSubstituteModels, "expected a sequence"
);
m->substituteModels_size = PySequence_Size(pSubstituteModels);
m->substituteModels =
malloc(m->substituteModels_size*sizeof(modena_substitute_model_t));
size_t i;
for(i = 0; i < m->substituteModels_size; i++)
{
PyObject *args = PyTuple_New(0);
PyObject *kw = Py_BuildValue
(
"{s:O}", "model", PyList_GET_ITEM(pSeq, i)
);
m->substituteModels[i].model = (modena_model_t *) PyObject_Call
(
(PyObject *) &modena_model_tType, args, kw
);
Py_DECREF(args);
Py_DECREF(kw);
if(!m->substituteModels[i].model){ Modena_PyErr_Print(); }
m->substituteModels[i].inputs = modena_inputs_new
(
m->substituteModels[i].model
);
m->substituteModels[i].outputs = modena_outputs_new
(
m->substituteModels[i].model
);
modena_substitute_model_calculate_maps(&m->substituteModels[i], m);
}
Py_DECREF(pSeq);
Py_DECREF(pSubstituteModels);
if(PyErr_Occurred()){ Modena_PyErr_Print(); }
}
void modena_function_load_library(modena_function_t* self)
{
PyObject *pFunctionName =
PyObject_GetAttrString(self->pFunction, "functionName");
if(!pFunctionName){ Modena_PyErr_Print(); }
PyObject *pLibraryName =
PyObject_GetAttrString(self->pFunction, "libraryName");
if(!pLibraryName){ Modena_PyErr_Print(); }
self->handle = lt_dlopen(PyString_AsString(pLibraryName));
if(!self->handle)
{
fprintf
(
stderr,
"lt_dlopen: Could not open library %s\nlt_dlopen: %s\n",
PyString_AsString(pLibraryName),
lt_dlerror()
);
exit(1);
}
self->function = lt_dlsym(self->handle, PyString_AsString(pFunctionName));
if(!self->function)
{
fprintf
(
stderr,
"lt_dlsym: Could not find function %s in library %s\n"
"lt_dlsym: %s",
PyString_AsString(pFunctionName),
PyString_AsString(pLibraryName),
lt_dlerror()
);
lt_dlclose(self->handle);
exit(1);
}
Py_DECREF(pFunctionName);
Py_DECREF(pLibraryName);
PyObject *pParameters =
PyObject_GetAttrString(self->pFunction, "parameters");
if(!pParameters){ Modena_PyErr_Print(); }
self->parameters_size = PyObject_Size(pParameters);
Py_DECREF(pParameters);
}
size_t modena_model_outputs_argPos(const modena_model_t *m, const char *name)
{
PyObject *pRet = PyObject_CallMethod(m->pModel, "outputs_argPos", NULL);
if(!pRet){ Modena_PyErr_Print(); }
size_t ret = PyInt_AsSsize_t(pRet);
Py_DECREF(pRet);
return ret;
}
void modena_substitute_model_calculate_maps
(
modena_substitute_model_t *sm,
modena_model_t *parent
)
{
PyObject *pMaps = PyObject_CallMethod
(
parent->pModel, "calculate_maps", "(O)", sm->model->pModel
);
if(!pMaps){ Modena_PyErr_Print(); }
PyObject *pMapOutputs = PyTuple_GET_ITEM(pMaps, 0); // Borrowed ref
if(!pMapOutputs){ Modena_PyErr_Print(); }
PyObject *pSeq = PySequence_Fast(pMapOutputs, "expected a sequence");
sm->map_outputs_size = PySequence_Size(pMapOutputs);
sm->map_outputs = malloc(sm->map_outputs_size*sizeof(double));
size_t i;
for(i = 0; i < sm->map_outputs_size; i++)
{
sm->map_outputs[i] = PyInt_AsSsize_t(PyList_GET_ITEM(pSeq, i));
parent->argPos_used[sm->map_outputs[i]] = true;
}
sm->map_outputs_size /= 2;
Py_DECREF(pSeq);
Py_DECREF(pMapOutputs);
if(PyErr_Occurred()){ Modena_PyErr_Print(); }
PyObject *pMapInputs = PyTuple_GET_ITEM(pMaps, 1); // Borrowed ref
if(!pMapInputs){ Modena_PyErr_Print(); }
pSeq = PySequence_Fast(pMapInputs, "expected a sequence");
sm->map_inputs_size = PySequence_Size(pMapInputs);
sm->map_inputs = malloc(sm->map_inputs_size*sizeof(double));
for(i = 0; i < sm->map_inputs_size; i++)
{
sm->map_inputs[i] = PyInt_AsSsize_t(PyList_GET_ITEM(pSeq, i));
}
sm->map_inputs_size /= 2;
Py_DECREF(pSeq);
Py_DECREF(pMapInputs);
if(PyErr_Occurred()){ Modena_PyErr_Print(); }
Py_DECREF(pMaps);
}
size_t modena_model_inputs_argPos
(
const modena_model_t *m,
const char *name
)
{
PyObject *pRet = PyObject_CallMethod
(
m->pModel, "inputs_argPos", "(z)", name
);
if(!pRet){ Modena_PyErr_Print(); }
size_t argPos = PyInt_AsSsize_t(pRet);
Py_DECREF(pRet);
if(m->argPos_used)
{
m->argPos_used[argPos] = true;
}
return argPos;
}
modena_function_t *modena_function_new_from_model
(
const modena_model_t *m
)
{
modena_function_t *self = malloc(sizeof(modena_function_t));
if(lt_dlinit())
{
fprintf(stderr, "lt_dlinit: %s\n", lt_dlerror());
exit(1);
}
self->pFunction =
PyObject_GetAttrString(m->pModel, "surrogateFunction");
if(!self->pFunction){ Modena_PyErr_Print(); }
modena_function_load_library(self);
return self;
}
// modena_model_t instantiates the surrogate model
modena_model_t *modena_model_new
(
const char *modelId
)
{
// Initialize the Python Interpreter
if(!Py_IsInitialized())
{
Py_Initialize();
}
// Initialize this module
initlibmodena();
PyObject *args = PyTuple_New(0);
PyObject *kw = Py_BuildValue("{s:s}", "modelId", modelId);
PyObject *m = PyObject_Call((PyObject *) &modena_model_tType, args, kw);
Py_DECREF(args);
Py_DECREF(kw);
if(!m){ Modena_PyErr_Print(); }
return (modena_model_t *) m;
}
// modena_model_t instantiates a surrogate function
modena_function_t *modena_function_new
(
const modena_model_t *m
)
{
modena_function_t *f = malloc(sizeof(modena_function_t));
if(lt_dlinit())
{
fprintf(stderr, "lt_dlinit: %s\n", lt_dlerror());
exit(1);
}
PyObject *pSurrogateFunction =
PyObject_GetAttrString(m->pModel, "surrogateFunction");
if(!pSurrogateFunction){ Modena_PyErr_Print(); }
PyObject *pFunctionName =
PyObject_GetAttrString(pSurrogateFunction, "functionName");
if(!pFunctionName){ Modena_PyErr_Print(); }
PyObject *pLibraryName =
PyObject_GetAttrString(pSurrogateFunction, "libraryName");
if(!pLibraryName){ Modena_PyErr_Print(); }
Py_DECREF(pSurrogateFunction);
f->handle = lt_dlopen(PyString_AsString(pLibraryName));
if(!f->handle)
{
fprintf
(
stderr,
"lt_dlopen: Could not open library %s\nlt_dlopen: %s\n",
PyString_AsString(pLibraryName),
lt_dlerror()
);
exit(1);
}
f->function = lt_dlsym(f->handle, PyString_AsString(pFunctionName));
if(!f->function)
{
fprintf
(
stderr,
"lt_dlsym: Could not find function %s in library %s\n"
"lt_dlsym: %s",
PyString_AsString(pFunctionName),
PyString_AsString(pLibraryName),
lt_dlerror()
);
lt_dlclose(f->handle);
exit(1);
}
Py_DECREF(pFunctionName);
Py_DECREF(pLibraryName);
return f;
}
/*
modena_model_call returns:
201: requesting exit for new DOE without Restart
200: requesting exit for new DOE with Restart
100: updated model parameters, requesting to continue this run
1: failure
0: okay
If exit is requested, do what's necessary and exit with the same error code!
*/
int modena_model_call
(
modena_model_t *m,
modena_inputs_t *inputs,
modena_outputs_t *outputs
)
{
size_t j;
for(j = 0; j < m->substituteModels_size; j++)
{
modena_substitute_model_call(&m->substituteModels[j], m, inputs);
}
for(j = 0; j < m->inputs_minMax_size; j++)
{
/*
printf
(
"j = %zu %g < %g || %g > %g\n",
j,
inputs->inputs[j],
m->inputs_min[j],
inputs->inputs[j],
m->inputs_max[j]
);
*/
if
(
inputs->inputs[j] < m->inputs_min[j]
|| inputs->inputs[j] > m->inputs_max[j]
)
{
PyObject* pOutside = PyList_New(m->inputs_minMax_size);
for(j = 0; j < m->inputs_minMax_size; j++)
{
PyList_SET_ITEM
(
pOutside, j, PyFloat_FromDouble(inputs->inputs[j])
);
}
PyObject *pRet = PyObject_CallMethod
(
m->pModel, "outOfBounds", "(O)", pOutside
);
Py_DECREF(pOutside);
if(!pRet){ Modena_PyErr_Print(); }
int ret = PyInt_AsLong(pRet);
Py_DECREF(pRet);
return ret;
}
}
m->function
(
m->parameters,
inputs->inherited_inputs,
inputs->inputs,
outputs->outputs
);
return 0;
}
static PyObject *
modena_model_t_call(modena_model_t* self, PyObject *args, PyObject *kwds)
{
PyObject *pIn_i=NULL, *pI=NULL, *pCheckBounds=NULL;
bool checkBounds = true;
static char *kwlist[] = {"inputs", "inherited_inputs", "checkBounds"};
if
(
!PyArg_ParseTupleAndKeywords
(
args, kwds, "OO|O", kwlist, &pIn_i, &pI, &pCheckBounds
)
)
{
printf("Expected two arguments\n");
return NULL;
}
if(pCheckBounds)
{
checkBounds = PyObject_IsTrue(pCheckBounds);
}
if(!PyList_Check(pIn_i))
{
printf("First argument is not a list\n");
return NULL;
}
if(!PyList_Check(pI))
{
printf("First argument is not a list\n");
return NULL;
}
modena_inputs_t *inputs = modena_inputs_new(self);
PyObject *pSeq = PySequence_Fast(pIn_i, "expected a sequence");
size_t len = PySequence_Size(pIn_i);
size_t j;
for(j = 0; j < len; j++)
{
modena_inherited_inputs_set
(
inputs, j, PyFloat_AsDouble(PyList_GET_ITEM(pSeq, j))
);
}
Py_DECREF(pSeq);
if(PyErr_Occurred()){ Modena_PyErr_Print(); }
pSeq = PySequence_Fast(pI, "expected a sequence");
len = PySequence_Size(pI);
for(j = 0; j < len; j++)
{
modena_inputs_set
(
inputs, j, PyFloat_AsDouble(PyList_GET_ITEM(pSeq, j))
);
}
Py_DECREF(pSeq);
if(PyErr_Occurred()){ Modena_PyErr_Print(); }
modena_outputs_t *outputs = modena_outputs_new(self);
if(checkBounds)
{
modena_model_call(self, inputs, outputs);
}
else
{
modena_model_call_no_check(self, inputs, outputs);
}
PyObject* pOutputs = PyList_New(self->outputs_size);
for(j = 0; j < self->outputs_size; j++)
{
PyList_SET_ITEM
(
pOutputs, j, PyFloat_FromDouble(modena_outputs_get(outputs, j))
);
}
if(PyErr_Occurred()){ Modena_PyErr_Print(); }
modena_inputs_destroy(inputs);
modena_outputs_destroy(outputs);
return pOutputs;
}
static int
modena_model_t_init(modena_model_t *self, PyObject *args, PyObject *kwds)
{
PyObject *pParameters=NULL, *pModel=NULL;
char *modelId=NULL;
static char *kwlist[] = {"model", "modelId", "parameters"};
if
(
!PyArg_ParseTupleAndKeywords
(
args, kwds, "|OsO", kwlist, &pModel, &modelId, &pParameters
)
)
{
return -1;
}
if(!pModel)
{
PyObject *pName = PyString_FromString("modena.SurrogateModel");
if(!pName){ Modena_PyErr_Print(); }
PyObject *pModule = PyImport_Import(pName);
Py_DECREF(pName);
if(!pModule){ Modena_PyErr_Print(); }
PyObject *pDict = PyModule_GetDict(pModule); // Borrowed ref
if(!pDict){ Modena_PyErr_Print(); }
pName = PyString_FromString("SurrogateModel");
if(!pName){ Modena_PyErr_Print(); }
PyObject *sModel = PyObject_GetItem(pDict, pName);
Py_DECREF(pName);
if(!sModel){ Modena_PyErr_Print(); }
self->pModel = PyObject_CallMethod(sModel, "load", "(z)", modelId);
Py_DECREF(sModel);
if(!self->pModel){ Modena_PyErr_Print(); }
modena_model_get_minMax(self);
Py_DECREF(pModule);
}
else
{
Py_INCREF(pModel);
self->pModel = pModel;
// Set everything to zero
self->inputs_minMax_size = 0;
self->inputs_min = NULL;
self->inputs_max = NULL;
}
//PyObject_Print(self->pModel, stdout, 0);
//printf("\n");
PyObject *pOutputs = PyObject_GetAttrString(self->pModel, "outputs");
if(!pOutputs){ Modena_PyErr_Print(); }
self->outputs_size = PyDict_Size(pOutputs);
Py_DECREF(pOutputs);
PyObject *pMaxArgPos = PyObject_CallMethod
(
self->pModel, "inputs_max_argPos", NULL
);
if(!pMaxArgPos){ Modena_PyErr_Print(); }
self->inputs_size = 1 + PyInt_AsSsize_t(pMaxArgPos);
Py_DECREF(pMaxArgPos);
self->inherited_inputs_size = 0;
// Avoiding double indirection in modena_model_call
// Use modena_function_new to construct, then copy function pointer
self->mf = modena_function_new(self);
self->function = self->mf->function;
self->argPos_used = malloc
(
(self->inputs_size + self->inherited_inputs_size)*sizeof(bool)
);
modena_model_read_substituteModels(self);
if(!pParameters)
{
pParameters = PyObject_GetAttrString(self->pModel, "parameters");
if(!pParameters){ Modena_PyErr_Print(); }
}
else
{
Py_INCREF(pParameters);
}
PyObject *pSeq = PySequence_Fast(pParameters, "expected a sequence");
self->parameters_size = PySequence_Size(pParameters);
self->parameters = malloc(self->parameters_size*sizeof(double));
size_t i;
for(i = 0; i < self->parameters_size; i++)
{
self->parameters[i] = PyFloat_AsDouble(PyList_GET_ITEM(pSeq, i));
}
Py_DECREF(pSeq);
Py_DECREF(pParameters);
if(PyErr_Occurred()){ Modena_PyErr_Print(); }
return 0;
}
modena_function_t *modena_function_new
(
const char *functionId
)
{
// Initialize the Python Interpreter
if(!Py_IsInitialized())
{
Py_Initialize();
}
// Initialize this module
initlibmodena();
PyObject *args = PyTuple_New(0);
PyObject *kw = Py_BuildValue("{s:s}", "functionId", functionId);
PyObject *pNewObj = PyObject_Call
(
(PyObject *) &modena_function_tType,
args,
kw
);
Py_DECREF(args);
Py_DECREF(kw);
if(!pNewObj)
{
if(PyErr_ExceptionMatches(modena_DoesNotExist))
{
PyErr_Clear();
PyObject *pRet = PyObject_CallMethod
(
modena_SurrogateFunction,
"exceptionLoad",
"(z)",
functionId
);
if(!pRet){ Modena_PyErr_Print(); }
int ret = PyInt_AsLong(pRet);
Py_DECREF(pRet);
modena_error_code = ret;
return NULL;
}
else
{
Modena_PyErr_Print();
}
}
modena_function_t *self = (modena_function_t *) pNewObj;
if(lt_dlinit())
{
fprintf(stderr, "lt_dlinit: %s\n", lt_dlerror());
exit(1);
}
modena_function_load_library(self);
return self;
}
static int modena_function_t_init
(
modena_function_t *self,
PyObject *args,
PyObject *kwds
)
{
PyObject *pFunction=NULL;
char *functionId=NULL;
static char *kwlist[] = {"function", "functionId", NULL};
if
(
!PyArg_ParseTupleAndKeywords
(
args,
kwds,
"|Os",
kwlist,
&pFunction,
&functionId
)
)
{
Modena_PyErr_Print();
}
if(!pFunction)
{
self->pFunction = PyObject_CallMethod
(
modena_SurrogateFunction,
"load",
"(z)",
functionId
);
if(!self->pFunction)
{
PyErr_SetString(modena_DoesNotExist, "Function does not exist");
Modena_PyErr_Print();
}
}
else
{
Py_INCREF(pFunction);
self->pFunction = pFunction;
}
// Shouldn't I load the function from the library here?
PyObject *pParameters =
PyObject_GetAttrString(self->pFunction, "parameters");
if(!pParameters){ Modena_PyErr_Print(); }
self->parameters_size = PyObject_Size(pParameters);
Py_DECREF(pParameters);
return 0;
}
